Refine
Has Fulltext
- no (3042) (remove)
Year of publication
Document Type
- Article (2691)
- Doctoral Thesis (179)
- Other (60)
- Review (51)
- Monograph/Edited Volume (33)
- Preprint (17)
- Habilitation Thesis (6)
- Part of a Book (2)
- Conference Proceeding (2)
- Moving Images (1)
Is part of the Bibliography
- yes (3042)
Keywords
- Holocene (36)
- climate change (30)
- Climate change (19)
- Himalaya (18)
- erosion (18)
- Earthquake source observations (17)
- Pollen (17)
- Tibetan Plateau (17)
- Seismicity and tectonics (15)
- permafrost (15)
- Site effects (11)
- Time-series analysis (11)
- Arctic (10)
- Chile (10)
- Climate (10)
- Siberia (10)
- climate (10)
- Body waves (9)
- Central Asia (9)
- Germany (9)
- Ostracoda (9)
- Wave propagation (9)
- Erosion (8)
- Europe (8)
- Paleoclimate (8)
- Pamir (8)
- cosmogenic nuclides (8)
- landslides (8)
- precipitation (8)
- China (7)
- Diatoms (7)
- Geochronology (7)
- Himalayas (7)
- Inverse theory (7)
- Palaeoclimate (7)
- Quaternary (7)
- Water quality (7)
- earthquake (7)
- exhumation (7)
- induced seismicity (7)
- landscape evolution (7)
- landslide (7)
- modelling (7)
- remote sensing (7)
- stable isotopes (7)
- Andes (6)
- Central Andes (6)
- Earthquake (6)
- Ecosystem services (6)
- Geochemistry (6)
- Iran (6)
- Lake sediments (6)
- Land use change (6)
- PHREEQC (6)
- Permafrost (6)
- Principal component analysis (6)
- Theoretical seismology (6)
- deep biosphere (6)
- paleoclimate (6)
- reactive transport (6)
- subduction (6)
- subduction zone (6)
- tectonics (6)
- thermochronology (6)
- time series analysis (6)
- African Humid Period (5)
- Anatolia (5)
- Asia (5)
- Crustal structure (5)
- Earthquake hazards (5)
- East Africa (5)
- Flood risk (5)
- Groundwater (5)
- InSAR (5)
- Indian summer monsoon (5)
- Induced seismicity (5)
- Land use (5)
- Landslides (5)
- Last Glacial Maximum (5)
- Late Pleistocene (5)
- Magnetostratigraphy (5)
- Monsoon (5)
- Palaeolimnology (5)
- Paleolimnology (5)
- Precipitation (5)
- Pyrenees (5)
- Remote sensing (5)
- Seismic tomography (5)
- Soil moisture (5)
- South America (5)
- Strontium isotope stratigraphy (5)
- Subduction (5)
- Subduction zone processes (5)
- Throughfall (5)
- Topography (5)
- Turkey (5)
- Uncertainty (5)
- Wind erosion (5)
- Younger Dryas (5)
- carbon cycle (5)
- carbon dioxide (5)
- connectivity (5)
- flood risk (5)
- floods (5)
- geochronology (5)
- grain size (5)
- hydrology (5)
- isotopes (5)
- lakes (5)
- melt inclusions (5)
- modeling (5)
- monsoon (5)
- numerical modeling (5)
- pollen (5)
- Adaptation (4)
- Biostratigraphy (4)
- Brazil (4)
- Cenozoic (4)
- Cosmogenic nuclides (4)
- Database (4)
- East African Rift System (4)
- Eclogite (4)
- Electrical conductivity (4)
- Flood (4)
- Fluid-rock interaction (4)
- GPS (4)
- Geostatistics (4)
- Ground-penetrating radar (4)
- India-Asia collision (4)
- Indian Summer Monsoon (4)
- Inversion (4)
- Lakes (4)
- Landsat (4)
- Landslide (4)
- Late Holocene (4)
- LiDAR (4)
- Lonar Lake (4)
- MATLAB (4)
- Maule earthquake (4)
- Mekong Delta (4)
- Methane (4)
- NW Argentina (4)
- Neo-Tethys (4)
- Neotethys (4)
- Oman (4)
- Palynology (4)
- Seismic attenuation (4)
- Seismic noise (4)
- Statistical seismology (4)
- Structural geology (4)
- TRMM (4)
- Tectonics (4)
- Temperature (4)
- Thermochronology (4)
- Thermokarst (4)
- Transfer function (4)
- Tropical forest (4)
- Tso Moriri Lake (4)
- WA-PLS (4)
- biodiversity (4)
- climate change adaptation (4)
- evapotranspiration (4)
- governance (4)
- machine learning (4)
- magnetostratigraphy (4)
- methane (4)
- model (4)
- natural hazards (4)
- palaeoecology (4)
- partial melting (4)
- runoff (4)
- soil erosion (4)
- soil moisture (4)
- suspended sediment (4)
- thermokarst (4)
- trend analysis (4)
- uncertainty (4)
- uplift (4)
- water quality (4)
- wetland (4)
- Alaska (3)
- Alborz Mountains (3)
- Aleatory variability (3)
- Algeria (3)
- Array seismology (3)
- Asian monsoon (3)
- Benzene (3)
- Beringia (3)
- Biomarkers (3)
- Biosilicification (3)
- Bolboschoenus maritimus (3)
- Central Europe (3)
- Chironomids (3)
- Climate Change (3)
- Climate variability (3)
- Complex networks (3)
- Computational seismology (3)
- Connectivity (3)
- Controlled source seismology (3)
- Deformation (3)
- Dynamics: seismotectonics (3)
- Early warning (3)
- Earthquake dynamics (3)
- Earthquake ground motions (3)
- Earthworms (3)
- Ebro basin (3)
- Edough (3)
- Electromagnetics (3)
- Eocene (3)
- Event synchronization (3)
- Extreme rainfall (3)
- Flooding (3)
- Fluorescence imaging (3)
- Fourier analysis (3)
- Geomorphology (3)
- Geothermobarometry (3)
- Glaciation (3)
- Graph theory (3)
- Ground penetrating radar (3)
- Ground-motion prediction equation (3)
- Human evolution (3)
- Human impact (3)
- Interferometry (3)
- Inundation (3)
- Ionic liquids (3)
- Ionosphere (3)
- Italy (3)
- Kamchatka (3)
- Kenya Rift (3)
- KiK-net (3)
- Kyrgyzstan (3)
- Lake Van (3)
- Lake sediment (3)
- MTBE (3)
- Marine terraces (3)
- Mediterranean (3)
- Menderes Massif (3)
- Metamorphism (3)
- Modeling (3)
- Modelling (3)
- Monitoring (3)
- Multifunctionality (3)
- Nanoscale zero-valent iron (nZVI) (3)
- Neogene (3)
- Nepal (3)
- New Zealand (3)
- Nitrogen (3)
- Northeast German Basin (3)
- Northern Andes (3)
- Organic matter (3)
- Overland flow (3)
- Pacific Ocean (3)
- Paleoclimatology (3)
- Paleogene (3)
- Paleoseismology (3)
- Pleistocene (3)
- Raman spectroscopy (3)
- Recurrence plot (3)
- Resilience (3)
- Rhizosphere (3)
- Russia (3)
- S receiver functions (3)
- SWAT (3)
- Sediment budget (3)
- Sediment connectivity (3)
- Sediment load (3)
- Seismic cycle (3)
- Seismicity (3)
- Seismology (3)
- Sentinel-1 (3)
- Shallow-water carbonates (3)
- Soil (3)
- Soil erosion (3)
- Soil hydrology (3)
- South American Monsoon (3)
- Stable isotopes (3)
- Statistical methods (3)
- Surface waves and free oscillations (3)
- Suspended sediment (3)
- Tarim Basin (3)
- Tectonic geomorphology (3)
- Tephrostratigraphy (3)
- TerraceM (3)
- Tian Shan (3)
- Tien Shan (3)
- Time series analysis (3)
- Triassic (3)
- Variscan (3)
- Volcano seismology (3)
- Water depth (3)
- Weathering (3)
- Westerlies (3)
- XRD (3)
- XRF (3)
- adaptation (3)
- agriculture (3)
- analysis (3)
- biomarker (3)
- biostratigraphy (3)
- body waves (3)
- change detection (3)
- coastal erosion (3)
- convection (3)
- damage (3)
- deposition (3)
- diatoms (3)
- digital rock physics (3)
- drainage networks (3)
- dust (3)
- early warning (3)
- eclogite (3)
- electrical resistivity (3)
- evaporites (3)
- extension (3)
- floodplain (3)
- fluid inclusions (3)
- fluid-rock interaction (3)
- geochemistry (3)
- geomorphology (3)
- geomorphometry (3)
- glacier (3)
- heterogeneity (3)
- human impact (3)
- hydropower (3)
- imaging (3)
- imaging spectroscopy (3)
- lake sediments (3)
- late Holocene (3)
- lidar (3)
- migration (3)
- models (3)
- nitrogen (3)
- numerical simulation (3)
- numerical simulations (3)
- olivine (3)
- organic matter (3)
- pH (3)
- paleoaltimetry (3)
- paleolimnology (3)
- paleomagnetism (3)
- permeability (3)
- plume (3)
- risk reduction (3)
- river incision (3)
- salt diffusion (3)
- sediment (3)
- sediment dynamics (3)
- sedimentology (3)
- snow (3)
- streamflow (3)
- sulfate reduction (3)
- surface processes (3)
- tectonic geomorphology (3)
- temperature (3)
- thermal modeling (3)
- time series (3)
- treeline (3)
- upper mantle (3)
- vertical coupling (3)
- vulnerability (3)
- water (3)
- water balance (3)
- water management (3)
- AMOC (2)
- Acadian (2)
- Acidification (2)
- Active tectonics (2)
- Affordability (2)
- Agricultural field (2)
- Airborne laser scanning (ALS) (2)
- Alborz range (2)
- Alkylpyridinium salts (2)
- Alpine Fault (2)
- Alps (2)
- Andean Plateau (2)
- Anisotropy (2)
- Ar-40/Ar-39 (2)
- Ar-40/Ar-39 dating (2)
- Arctic Ocean (2)
- Argentina (2)
- Atlantic Ocean (2)
- August 2002 flood (2)
- Australia (2)
- Autocorrelation (2)
- Badlands (2)
- Baltic Sea (2)
- Barasona Reservoir (2)
- Barents Sea (2)
- Baseline shift (2)
- Batch experiments (2)
- Bayesian inference (2)
- Bayesian logistic regression (2)
- Bayesian networks (2)
- Be-10 (2)
- Biodegradation (2)
- Biogenic silica (2)
- Biomarker (2)
- Black shales (2)
- Blueschist (2)
- Boosted regression trees (2)
- CO2 (2)
- Carbon (2)
- Carbon colloid (2)
- Caribbean (2)
- Catchment classification (2)
- Central Chile (2)
- Central Pontides (2)
- Chaiten volcano (2)
- Chinese loess (2)
- Cladocera (2)
- Clay mineralogy (2)
- Climate change adaptation (2)
- Climate dynamics (2)
- Climate reconstruction (2)
- Coastal erosion (2)
- Coastal uplift (2)
- Compression (2)
- Computational fluid dynamics (2)
- Congo Air Boundary (2)
- Conservation management (2)
- Continental margins: convergent (2)
- Continental neotectonics (2)
- Continental tectonics: strike-slip and transform (2)
- Correlation (2)
- Coulomb failure stress (2)
- Cretaceous (2)
- DEM (2)
- DFT (2)
- Data processing (2)
- Dead Sea Transform (2)
- Dead Sea basin (2)
- Deep carbon cycle (2)
- Degradation (2)
- Denudation (2)
- Deposition (2)
- Digital Elevation Model (2)
- Drought (2)
- Drought indices (2)
- ECHSE (2)
- ENSO (2)
- EXAFS (2)
- Earthquakes (2)
- East European Craton (2)
- Eastern Alps (2)
- Eastern Cordillera (2)
- Eastern Sierras Pampeanas (2)
- Ecology (2)
- Eger Rift (2)
- Electromagnetic theory (2)
- Element mobility (2)
- EnMAP (2)
- Environmental impact (2)
- Environmental magnetism (2)
- Epistemic uncertainty (2)
- Evapotranspiration (2)
- Exhumation (2)
- Export regime (2)
- Extreme event (2)
- Fish (2)
- Floods (2)
- Floods Directive (2)
- Foraminifera (2)
- Forest (2)
- Fracture and flow (2)
- Functional traits (2)
- Fuzzy logic (2)
- GIS (2)
- GMPE (2)
- GNSS Reflectometry (2)
- Garnet (2)
- Gas diffusion layer (2)
- Glacial geomorphology (2)
- Global change (2)
- Global inversion (2)
- Gondwana (2)
- Grain size (2)
- Grassland (2)
- Ground-motion prediction equations (2)
- Gyttja (2)
- H/V ratio (2)
- HVSR (2)
- Hazard (2)
- Herschel Island Qikiqtaruk (2)
- High-pressure metamorphism (2)
- Hydrology (2)
- Hydrothermal carbonization (2)
- Hyperion (2)
- INOPEX (2)
- Iceland (2)
- Image processing (2)
- Indian monsoon (2)
- Indicators (2)
- Indus (2)
- Insurance (2)
- Integrated modelling (2)
- Interaction (2)
- Interception (2)
- Interdisciplinarity (2)
- June 2013 flood (2)
- Jurassic (2)
- Kettle holes (2)
- Kinetics (2)
- LGM (2)
- Lacustrine sediment (2)
- Lake (2)
- Lake Malombe (2)
- Lake level (2)
- Land-cover change (2)
- Land-use change (2)
- Landsat-8 (2)
- Larger Foraminifera (2)
- Larger foraminifera (2)
- Larix gmelinii (2)
- Late Cretaceous (2)
- Late Quaternary (2)
- Lateglacial (2)
- Levant (2)
- Limnology (2)
- Lithospheric structure (2)
- Loess (2)
- Lower crust (2)
- Lu-Hf (2)
- Luingo caldera (2)
- MASW (2)
- MAT (2)
- Magnetotellurics (2)
- Makran (2)
- Management (2)
- Maule (2)
- Mean July temperature (2)
- Meerfelder Maar (2)
- Metasomatism (2)
- Microbial abundance (2)
- Miocene (2)
- Model-data comparison (2)
- Modern analogue technique (2)
- Mongolia (2)
- Mont Terri (2)
- Mountain basins (2)
- Mountain building (2)
- NW Iran (2)
- Nanogranitoids (2)
- Natural hazards (2)
- Near East (2)
- Neotectonics (2)
- Neural networks (2)
- Non-monetary valuation (2)
- North America (2)
- North Tabriz Fault (2)
- Northern Asia (2)
- Numerical experiment (2)
- Numerical modelling (2)
- Nutrients (2)
- Open source (2)
- Orbital forcing (2)
- Organic carbon (2)
- Organic geochemistry (2)
- Ostracods (2)
- P-waves (2)
- Palaeoclimatology (2)
- Palaeoecology (2)
- Palaeoenvironmental reconstruction (2)
- Paleoceanography (2)
- Paleoenvironment (2)
- Paleogeography (2)
- Paleohydrology (2)
- Panama (2)
- Paris Agreement (2)
- Paris-Edinburgh press (2)
- Passive Microwave (2)
- Pasture (2)
- Patagonia (2)
- Peat (2)
- Permian (2)
- Phase transitions (2)
- Phosphorus (2)
- Phragmites australis (2)
- Plant macrofossils (2)
- Plate tectonics (2)
- Plio-Pleistocene (2)
- Pollen record (2)
- Precise Point Positioning (2)
- Preferential flow (2)
- Probability distributions (2)
- Procrustes rotation (2)
- Provenance (2)
- Proxy (2)
- Puna Plateau (2)
- Qaidam Basin (2)
- REE (2)
- Radiogenic isotopes (2)
- Raman microspectroscopy (2)
- Random Forest (2)
- Random forests (2)
- Rasa (2)
- Rayleigh waves (2)
- Receiver functions (2)
- Remediation (2)
- Review (2)
- Rio Grande (2)
- Risk reduction (2)
- River (2)
- River restoration (2)
- Rock magnetism (2)
- Russian Arctic (2)
- SAMT (2)
- SRTM (2)
- SSW (2)
- SWIM (2)
- Salinity (2)
- Sampling (2)
- Satellite geodesy (2)
- Saturated hydraulic conductivity (2)
- Sclerochronology (2)
- Sediment Transport (2)
- Sediment fingerprinting (2)
- Sediment geochemistry (2)
- Sediment yield (2)
- Sedimentology (2)
- Sediments (2)
- Seismic interferometry (2)
- Seismic monitoring and test-ban treaty verification (2)
- Seismotectonic segmentation (2)
- Seismotectonics (2)
- Semi-arid (2)
- Sensitivity analysis (2)
- Sentinel-2 (2)
- Sesia Zone (2)
- Si fractions (2)
- Silicon isotopes (2)
- Site characterization (2)
- Slope (2)
- Soil heterogeneity (2)
- South American Monsoon System (2)
- South American monsoon system (2)
- Southeast Asia (2)
- Southern Italy (2)
- Space geodetic surveys (2)
- Spain (2)
- Spatial scale (2)
- Species distribution models (2)
- Spectroscopy (2)
- Stemflow (2)
- Stress pattern (2)
- Strong-motion (2)
- Structure elucidation (2)
- Subarctic North Pacific (2)
- Subduction zone (2)
- Subjective well-being (2)
- Subsurface biosphere (2)
- Suguta Valley (2)
- Sumatra (2)
- Surface roughness (2)
- Svalbard (2)
- Swarm constellation (2)
- Talik (2)
- TanDEM-X (2)
- Tectonic stress (2)
- Temperature reconstruction (2)
- Terrestrial Si cycle (2)
- The Netherlands (2)
- Thermal field (2)
- Tibet (2)
- Tight integration (2)
- Tomography (2)
- Tonminerale (2)
- Total organic carbon (2)
- Trace element geochemistry (2)
- Trans-European Suture Zone (2)
- Transform faults (2)
- Transhimalaya (2)
- Tropical lake (2)
- U-Pb geochronology (2)
- UAV (2)
- UV femtosecond laser ablation (2)
- Uncertainties (2)
- Upper Cretaceous (2)
- VIIRS DNB (2)
- Validation (2)
- Vegetation (2)
- Vegetation dynamics (2)
- Volatilization (2)
- Volcano monitoring (2)
- Vulnerability (2)
- Walvis Ridge (2)
- Water management (2)
- Waveform inversion (2)
- Western Central Africa (2)
- Western Europe (2)
- Wetlands (2)
- X-ray absorption (2)
- Zooplankton (2)
- ambient noise (2)
- anatexis (2)
- arctic (2)
- argon dating (2)
- assessment (2)
- bacteria (2)
- basal accretion (2)
- basin analysis (2)
- biomass (2)
- calcium phosphate (2)
- carbon (2)
- carbonate (2)
- catchment (2)
- cell enumeration (2)
- change (2)
- climate change impact (2)
- climate extremes (2)
- climate-change (2)
- clustering (2)
- coastal geomorphology (2)
- coastal wetland (2)
- coherency (2)
- collision (2)
- composition (2)
- compound flood (2)
- correlation (2)
- cosmic-ray neutron sensing (2)
- crust (2)
- crustal thickness (2)
- debris flow (2)
- decomposition (2)
- deep carbon cycle (2)
- denudation (2)
- deuterium (2)
- diamond anvil cell (2)
- dietary patterns (2)
- digital elevation model (2)
- diversity (2)
- drainage of the catchment area (2)
- dynamics (2)
- earthquake source observations (2)
- earthquakes (2)
- ecohydrology (2)
- ecological niche modelling (2)
- ecosystem services (2)
- edge-driven convection (2)
- elastic properties (2)
- electrochemistry (2)
- eolian dust (2)
- equatorial electrojet (2)
- equatorial ionosphere (2)
- equifinality (2)
- exposure (2)
- extensional tectonics (2)
- extinction (2)
- extreme rainfall (2)
- facies (2)
- flood (2)
- flood loss (2)
- flood risk management (2)
- flooding (2)
- floodplain sedimentation (2)
- fluid migration (2)
- fluid-induced seismicity (2)
- fluids (2)
- fluvial geomorphology (2)
- forecasting (2)
- formation damage (2)
- frequency analysis (2)
- garnet (2)
- gas hydrate (2)
- geodynamics (2)
- geomagnetic observatories (2)
- geophysics (2)
- geothermal (2)
- geothermal energy (2)
- geyser (2)
- glacial erosion (2)
- glacial hazards (2)
- glacial lake outburst floods (2)
- global change (2)
- global environmental change (2)
- grain-size distribution (2)
- granitoids (2)
- grazing (2)
- ground motion (2)
- ground-penetrating radar (2)
- groundwater flow (2)
- heavy rainfall (2)
- helium-4 (2)
- high pressure (2)
- high-pressure (2)
- hillslopes (2)
- historical floods (2)
- human activity (2)
- hydrological drought (2)
- hyporheic zone (2)
- hysteresis (2)
- impact (2)
- incision (2)
- inclination shallowing (2)
- insurance (2)
- interception (2)
- invasive species (2)
- ionic liquids (2)
- knickpoint (2)
- knickpoints (2)
- land cover change (2)
- land use change (2)
- land-use change (2)
- late Quaternary (2)
- lithosphere (2)
- management effects (2)
- mantle transition zone (2)
- marine terraces (2)
- mass (2)
- maximum magnitude (2)
- mica (2)
- micro-CT (2)
- microbial activity (2)
- minerals (2)
- moment tensor (2)
- monitoring (2)
- multivariate regression (2)
- multivariate statistics (2)
- n-Alkanes (2)
- nanogranites (2)
- nearshore zone (2)
- normal faults (2)
- numerical (2)
- numerical model (2)
- ocean color remote sensing (2)
- organic carbon (2)
- oroclinal bending (2)
- orogenic peridotite (2)
- orogenic processes (2)
- orogeny (2)
- overland flow (2)
- palaeoenvironmental proxies (2)
- palaeoenvironmental reconstruction (2)
- paleovegetation (2)
- participation (2)
- pathogens (2)
- patterns (2)
- peatlands (2)
- permafrost degradation (2)
- permafrost thaw (2)
- phenotypic plasticity (2)
- phosphorus (2)
- photogrammetry (2)
- phreeqc (2)
- phytoplankton (2)
- plateau (2)
- playa (2)
- pluvial floods (2)
- point clouds (2)
- pollution (2)
- pore pressure (2)
- preferential flow (2)
- preparedness (2)
- preprocessing (2)
- radial flow (2)
- radiogenic isotopes (2)
- rainfall (2)
- ray tracing (2)
- reactive oxygen species (2)
- receiver function (2)
- record (2)
- remagnetization (2)
- renewable energy (2)
- repository far-field (2)
- reservoir characterization (2)
- resilience (2)
- retrogressive thaw slumps (2)
- rheology (2)
- rifting (2)
- risk management cycle (2)
- river networks (2)
- rivers (2)
- salt pan (2)
- salt structures (2)
- satellite data (2)
- scaling (2)
- sea level rise (2)
- seasonality (2)
- sediment routing (2)
- sediment storage (2)
- sediment supply (2)
- sediment yield (2)
- seismic hazard (2)
- seismicity (2)
- seismology (2)
- semi-arid (2)
- semi-arid hydrology (2)
- sensitivity (2)
- sensor alignment (2)
- sensor fusion (2)
- shrub encroachment (2)
- signal propagation (2)
- silicon (2)
- site effects (2)
- soil organic carbon (2)
- sorption (2)
- source parameters (2)
- species distribution model (2)
- speleothems (2)
- spin transition (2)
- stable carbon isotopes (2)
- strain localization (2)
- subsea permafrost (2)
- subsurface life (2)
- suspended sediments (2)
- sustainable development (2)
- synthesis (2)
- system analysis (2)
- systems (2)
- tectonophysics (2)
- thermal (2)
- thermodynamic modeling (2)
- thorium (2)
- torsion (2)
- validation (2)
- vegetation (2)
- virulence (2)
- water resources (2)
- wave-particle interactions (2)
- weathering (2)
- westerlies (2)
- wetlands (2)
- wind speed (2)
- zircon (2)
- "Little Ice Age' (LIA) (1)
- "Medieval Warm Period' (MWP) (1)
- (CS)-C-137 and Pb-210 dating (1)
- (Ex-ante) impact assessment (1)
- (U-Th) (1)
- (U-Th)/He (1)
- (compliant) cracks (1)
- 0 (1)
- 10-Be terrestrial cosmogenic nuclides (1)
- 2-D numerical model (1)
- 239+240 Plutonium (1)
- 2D numerical experiments (1)
- 3-D effects (1)
- 3D CAVE (1)
- 3D geomechanical numerical model (1)
- 3D map (1)
- 3D mesh generator (1)
- 3D modeling (1)
- 3D root (1)
- 3D thermal modelling (1)
- 7924 (1)
- 7934 (1)
- 7959 (1)
- ABSH-system (1)
- AFT (1)
- AHP (1)
- ALMaSS (1)
- ALOS World 3D (1)
- ALS (1)
- AMSR-E (1)
- AMSR2 (1)
- ANN (1)
- ARCH (1)
- ARIMA (1)
- ASTER GDEM (1)
- AVHRR (1)
- Abrupt events (1)
- Absolute age dating (1)
- Absolute shear-wave velocity (1)
- Absorption feature parameters (1)
- Abundance from Large Sites) model (1)
- Acanthocyclops (1)
- Accelerometer records (1)
- Accretion, underplating and exhumation processes (1)
- Accuracy Asseessment (1)
- Accuracy Assessment (1)
- Acheulian (1)
- Acidithiobacillus (1)
- Acidobacteriaceae (1)
- Acidothermus (1)
- Active fault (1)
- Active seismic (1)
- Active volcanism (1)
- Actual evapotranspiration (1)
- Adana Basin (1)
- Adaptability (1)
- Adaptation process (1)
- Adaptation to climate change (1)
- Adaption (1)
- Adaptive value (1)
- Advanced Spaceborne Thermal Emission and Reflection Radiometer data (1)
- Advanced scatterometer (ASCAT) (1)
- Advection (1)
- Aegean (1)
- Aegean Sea (1)
- Aerosols (1)
- African humid period (1)
- Aftershocks (1)
- Afyon Zone (1)
- Afyon volcanics (1)
- Afyon zone (1)
- AgI (1)
- Age-depth modelling (1)
- Agent-based modeling (1)
- Agent-based models (1)
- Agglutinated foraminifera (1)
- Agricultural fields (1)
- Agricultural landscape (1)
- Agricultural management (1)
- Agricultural soils (1)
- Agriculture (1)
- Agro-meteorological data (1)
- Agrobacterium tumefaciens (1)
- Ahr (1)
- Ahr River (1)
- Air conditioners (1)
- Air pollution (1)
- Airborne lidar (1)
- Alanya (1)
- Alas (1)
- Alberta (1)
- Albite-amphibolite facies (1)
- Alexander von Humboldt (1)
- Algorithm (1)
- Alkaline igneous rocks (1)
- Alkalinity (1)
- Alkalization (1)
- Allee effect (1)
- Allometry (1)
- Alpine geology (1)
- Alpine hazards (1)
- Altai (1)
- Altai Mountains (1)
- Altiplano (1)
- Alto de Las Lagunas Ignimbrite (1)
- Altyn Tagh Fault (1)
- Amazon (1)
- Amazonia (1)
- Ambient noise (1)
- Ambient noise tomography (1)
- Ambient seismic noise (1)
- Ambient seismic vibrations (1)
- Ambient vibration analysis (1)
- Ambient vibrations (1)
- Amides (1)
- Amino acid (1)
- Amoebal silicon (1)
- Amorphous silica (1)
- Amphibole geothermobarometry (1)
- Amphibolites (1)
- Amplification (1)
- Amplitude and waveform analysis of PcP (1)
- Amplitude ratio (1)
- Anaerobic digestion (1)
- Analog material (1)
- Analogue quality (1)
- Analogue seismic records (1)
- Anatexis (1)
- Anatolia westward motion (1)
- Anatolide-Tauride Block (1)
- Ancient DNA (1)
- Ancient Gneiss Complex (1)
- Ancient forest (1)
- Andean plateau (1)
- Andean retroarc (1)
- Angastaco Formation (1)
- Angkor (1)
- Animal personalities (1)
- Anisotropy of magnetic remanence (1)
- Annual 30-day minimum flow (1)
- Annual laminae (1)
- Anoxia (1)
- Antarctic Circumpolar Current (1)
- Antarctic glaciology (1)
- Antarctic ice (1)
- Antarctica (1)
- Antecedent conditions (1)
- Antibiotikaresistenz (1)
- Apatite (U-TH)/HE (1)
- Apennine Carbonate Platform (1)
- Apennine Carbonate Platform (ACP) (1)
- Appalachian Mountains (1)
- Applied geophysics (1)
- Aptian (1)
- Aquatic and terrestrial ecosystems (1)
- Aquatic macrophytes (1)
- Aquifer (1)
- Aquifer systems (1)
- Aquifer thermal energy storage (ATES) (1)
- Ar dating (1)
- Ar-39 (1)
- Ar-40 (1)
- Ar-40-Ar-39 geochronology (1)
- Ar-40/Ar-39 age (1)
- Ar-40/Ar-39 laser ablation (1)
- Ar-40/Ar-39 spot ages (1)
- Ar-Ar white-mica dating (1)
- Arabia-Eurasia collision (1)
- Arabian Sea (1)
- Arabian carbonate platform (1)
- Arabian plate (1)
- Aragonite (1)
- Aral Sea (1)
- Arauco Bay (1)
- Arbuscular mycorrhizal fungi (AMF) (1)
- Arc accretion (1)
- Arc magmatism (1)
- Archaean SCLM (1)
- Archaeolithoporella (1)
- Archaeology (1)
- Archean (1)
- Archeology (1)
- Arctic climate change (1)
- Arctic lakes (1)
- Arctic limnology (1)
- Arctic ocean (1)
- Argentine margine (1)
- Argentinean broken foreland (1)
- Argon-Argon dating (1)
- Arid Central Asia (1)
- Arid central Asia (1)
- Aridity (1)
- Aridity gradient (1)
- Arkose (1)
- Arktis (1)
- Armenia (1)
- Array measurements (1)
- Artifact (1)
- Artificial catchment (1)
- Artificial mixture (1)
- Artificial neuronal network (1)
- Artificial water catchment (1)
- Ashmura (1)
- Asian Summer Monsoon (1)
- Asset estimation (1)
- Assimilation-fractional crystallization (1)
- Asteroid (1)
- Asthenospheric flow (1)
- Asthenospheric fluid (1)
- Asymmetric basin (1)
- Asymmetric rifting (1)
- Ataturk Dam Lake (1)
- Atlas Mountains (1)
- Atmospheric CO2 concentration (1)
- Atmospheric chemistry (1)
- Atmospheric dynamics (1)
- Atmospheric science (1)
- Attenuation (1)
- Authigenic carbonates (1)
- Authigenic mineral formation (1)
- Authigenic mineral transformation (1)
- Automatic detection (1)
- Availability (1)
- Avalanche forecasting (1)
- Avalonia (1)
- Aymara (1)
- B-isotopes (1)
- BNDVI (1)
- Babassu palm (Attalea speciosa Mart. synonym: Orbignya phalerata Mart.) (1)
- Back-arc basin (1)
- Backarc extension (1)
- Backbone model (1)
- Bagging (1)
- Baiu (1)
- Bajgan Complex (1)
- Bajgan/Durkan (1)
- Bakterien (1)
- Baladeh earthquake (1)
- Balanced cross section (1)
- Baldeggersee (1)
- Baltic Sea Coast (1)
- Baltic Sea coast (1)
- Band (1)
- Baraba forest-steppe (1)
- Baragoi (1)
- Barasona reservoir (1)
- Barberton Greenstone Belt (1)
- Barite concretion (1)
- Barremian-Aptian (1)
- Barrovian metamorphism (1)
- Barrovian-type metamorphism (1)
- Basaltic ash-fall deposits (1)
- Basanite (1)
- Baseline error (1)
- Basement-cored ranges (1)
- Basement-involved thrusts (1)
- Basilika formation (1)
- Basin analysis (1)
- Basin axial submarine channel (1)
- Basomtso (1)
- Bavaria (1)
- Bayesian Network (1)
- Bayesian hierarchical model (1)
- Bayesian modeling (1)
- Bayesian non-parametrics (1)
- Bayesianism (1)
- Be-10 depth-profiles (1)
- Beacon fire (1)
- Beaufort Sea (1)
- Bedded chert (1)
- Benefits (1)
- Beni Suef Basin (1)
- Bentheim sandstone (1)
- Bet-hedging germination (1)
- Betula pubescens Ehrh. ssp czerepanovii (1)
- Big Naryn complex (1)
- Binalud Mountains (1)
- Biodiversity (1)
- Biodiversity experiments (1)
- Biodiversity hotspot (1)
- Biodiversity monitoring (1)
- Biodiversity theory (1)
- Biogas fermentation residues (1)
- Biogeochemical Si cycle (1)
- Biogeography (1)
- Biological indicator (1)
- Biomass water (1)
- Biomedical engineering (1)
- Biomisation (1)
- Biotic interactions (1)
- Bioturbation (1)
- Bitlis complex (1)
- Bitterfeld (1)
- Bivalvia (1)
- Bivariate flood quantile (1)
- Black Sea (1)
- Blueschist metamorphism (1)
- Bohemian Massif (1)
- Bohrloch-Rekonstruktion (1)
- Boldness (1)
- Bolivia (1)
- Boosted regression trees (BRT) (1)
- Boostrap aggregation (1)
- Bootstrapping (1)
- Boreal ecosystems (1)
- Borehole image logs (1)
- Borehole reconstruction (1)
- Borneo (1)
- Boron isotopes (1)
- Borrelia afzelii (1)
- Borrelia lusitaniae (1)
- Bosumtwi (1)
- Botanic gardens (1)
- Boundary line analysis (1)
- Brachypodium hybridum (1)
- Brahmaputra River (1)
- Brain injuries (1)
- Braunsbach (1)
- Bray-Curtis (1)
- Brazilian Earth System Model (1)
- Brilliant blue (1)
- Britholite (1)
- British Columbia (1)
- Brittle deformation (1)
- Brittle fault analysis (1)
- Brittle precursors (1)
- Broad-band seismometers (1)
- Bryophytes (1)
- Buckingham-Darcy law (1)
- Building exposure modelling (1)
- Bulfat (1)
- Bulk compressibility (1)
- Buntsandstein (1)
- Burned areas (1)
- Bushveld Complex (1)
- Bykovsky Peninsula (1)
- C and O K-edge spectra (1)
- C isotopes (1)
- C sequestration (1)
- C-13 and O-18 chemostratigraphy (1)
- C-13-glucose (1)
- C-14 (1)
- C-14 analyses (1)
- C-14 bomb peak (1)
- C-14-derived chronology (1)
- C-Q relationship (1)
- C3 and C4 grasses (1)
- CAOB (1)
- CCSEM (1)
- CDOM (1)
- CMIP5 (1)
- CMIP5 models (1)
- COH fluid (1)
- COH-fluid (1)
- CPC-uni (1)
- CU (1)
- Caatinga (1)
- Calabria (1)
- Caledonian (1)
- Calibration (1)
- Campanian-Maastrichtian boundary (1)
- Can Tho (1)
- Canada (1)
- Canadian Beaufort Sea (1)
- Canary Islands (1)
- Canopy storage capacity (1)
- Canopy structure (1)
- Cantera (1)
- Cape Verde (1)
- Cappadocia (1)
- Carbo-Iron (R) (1)
- Carbon 14 (1)
- Carbon and oxygen isotopes (1)
- Carbon and oxygen stable isotopes (1)
- Carbon cycle (1)
- Carbon dioxide (1)
- Carbon isotope ratio (delta C-13(TOC)) (1)
- Carbon isotope stratigraphy (1)
- Carbon redistribution (1)
- Carbon sequestration (1)
- Carbon stable isotopes (1)
- Carbon-isotope stratigraphy (1)
- Carbonate and mudrock facies (1)
- Carbonate contourite drift (1)
- Carbonate platform response (1)
- Carbonate platforms (1)
- Carbonates (1)
- Carbonation (1)
- Carboniferous (1)
- Carboniferous magmatism (1)
- Carnian Pluvial Event (1)
- Carpholite (1)
- Catabolic genes (1)
- Catastrophic valley infill (1)
- Catchment (1)
- Catchment characteristics (1)
- Catchment geomorphology (1)
- Catchment order (1)
- Catchment scale (1)
- Catchment wetness (1)
- Cation-exchange capacity (1)
- Cave (1)
- Cell counts (1)
- Cellulose (1)
- Cenozoic basins (1)
- Cenozoic climate transitions (1)
- Central Alps (1)
- Central Anatolia (1)
- Central Anatolian Plateau (1)
- Central Anatolian plateau (1)
- Central India (1)
- Central Iranian micro-continent (CIM) (1)
- Central Myanmar Basin (1)
- Central Tertiary Basin (1)
- Central Yakutia (1)
- Central andes (1)
- Central-Asia (1)
- Central-western Mongolia (1)
- Cerrado (1)
- Cerro Machin Volcano (1)
- Changbai mountains (1)
- Change detection (1)
- Change point analysis (1)
- Change points (1)
- Change-point regression model (1)
- Changes in fluvial systems (1)
- Channel island (1)
- Chao (1)
- Chara/Characeae (1)
- Characteristic pollen source area (1)
- Chemeron Formation (1)
- Chemical fractionation (1)
- Chew Bahir (1)
- Chile convergent margin (1)
- Chile subduction zone (1)
- Chinese Loess Plateau (1)
- Chironomidae (1)
- Chloritoid (1)
- Chota formation (1)
- Cignana (1)
- Circular statistics (1)
- City boundaries (1)
- City population (1)
- Civil engineering (1)
- Cladocoropsis (1)
- Classification trees (1)
- Clay Minerals (1)
- Clean Development Mechanism (CDM) (1)
- Climate adaptation (1)
- Climate change adaptation Saxony (1)
- Climate feedback (1)
- Climate governance (1)
- Climate modelling (1)
- Climate prediction (1)
- Climate warming (1)
- Climatic variations (1)
- Clockwise P-T path (1)
- Clogging (1)
- Clonal plants (1)
- Closed chamber measurements (1)
- Closure temperature (1)
- Cluster (1)
- Clustering (1)
- Coastal Cordillera (Chile) (1)
- Coastal hazards (1)
- Coastal regions (1)
- Coastal sedimentation (1)
- Coastal sequence of shorelines (1)
- Coastal zone (1)
- Coda waves (1)
- Code_Aster (1)
- Coesite-bearing eclogite (1)
- Cold air surges (1)
- Collision (1)
- Collision zone (1)
- Colloid transport (1)
- Cologne (1)
- Colombia (1)
- Colombian Andes (1)
- Colorado mineral belt (1)
- Combin (1)
- Combine (1)
- Comets (1)
- Common garden experiments (1)
- Common vole (1)
- Community dynamics (1)
- Comparative study (1)
- Competition (1)
- Complex network (1)
- Complexity (1)
- Composition of the mantle (1)
- Compositional data analysis (1)
- Compound flood event (1)
- Compound-specific carbon isotope (1)
- Compound-specific isotope (1)
- Compound-specific stable isotopic (1)
- Computational fluid dynamics (CFD) (1)
- Computational models (1)
- Computational neuroscience (1)
- Computed tomography (1)
- Concentration-discharge relationship (1)
- Concentration-discharge relationships (1)
- Concept (1)
- Concept of differentiated land use (1)
- Conduction (1)
- Conductive thermal field (1)
- Conductivity (1)
- Conductivity depth model (1)
- Confidence interval (1)
- Coniacian (1)
- Coniacian-Santonian boundary (1)
- Conservation (1)
- Conservation genetics (1)
- Conservation planning (1)
- Consumption (1)
- Contact model (1)
- Contamination (1)
- Continental biomarkers (1)
- Continental margins: transform (1)
- Continental tectonics: compressional (1)
- Continuity (1)
- Continuous temperature logging (1)
- Controlled source electromagnetics (CSEM) (1)
- Controlling factors (1)
- Convection (1)
- Convective storms (1)
- Convergent margins (1)
- Cooling and unroofing history (1)
- Cooling rates (1)
- Coordination failure (1)
- Copernicus (1)
- Copernicus DEM (1)
- Coping appraisal (1)
- Copulas (1)
- Coral reef terraces (1)
- Corbicula (1)
- Core complex (1)
- Core-mantle boundary (1)
- Corestone (1)
- Coseismic coastal uplift (1)
- Coseismic rupture (1)
- Coseismic slip distribution (1)
- Cosmic-ray (1)
- Cosmic-ray neutrons (1)
- Cosmogenic Be-10 erosion rates (1)
- Cosmogenic Be-10 exposure dating (1)
- Cosmogenic-nuclide geochronology (1)
- Costs (1)
- Cotentin and Western Europe (1)
- Coupled fluid and heat transport (1)
- Coupled heat and mass transport (1)
- Crack opening and closure (1)
- Cratons (1)
- Creep (1)
- Creep and deformation (1)
- Cristobalite (1)
- Critical taper wedge (1)
- Critical zone (1)
- Crop rotation (1)
- Crop type mapping (1)
- Cross-dating (1)
- Cross-scale interaction (1)
- Cross-validation (1)
- Crosshole tomography (1)
- Crustal density (1)
- Crustal earthquakes (1)
- Crustal melting (1)
- Crustal stretching style (1)
- CryoGRID (1)
- Cryolithology (1)
- Cryospheric science (1)
- Cryostratigraphy (1)
- Crystal nucleation (1)
- Cs-137 (1)
- Cuesta de la chilca (1)
- Cultural ecosystem services (1)
- Culture growth dynamics (1)
- Cumbres Calchaquies (1)
- Cuora (1)
- Cyanobacteria (1)
- Cyanobium (1)
- Cyclic soft stimulation (CSS) (1)
- Cyprus (1)
- D-enrichment (1)
- DBH (1)
- DCB (1)
- DDM simulation (1)
- DEM analysis (1)
- DEM generation (1)
- DEM noise (1)
- DIN EN 1998-1/NA (1)
- DNA preservation (1)
- DOC vs. DIC (1)
- Dairy cow (1)
- Dam engineering (1)
- Damage modeling (1)
- Damage reduction (1)
- Dansgaard-Oeschger cycles (1)
- Dansgaard-Oeschger oscillations (1)
- Danube (1)
- Data acquisition (1)
- Data assimilation (1)
- Data fusion (1)
- Database model (1)
- Databases (1)
- Dead Sea Basin (1)
- Death Valley (1)
- Debris avalanche deposit (1)
- Debris flow (1)
- Debris flows (1)
- Decision-making (1)
- Decomposition (1)
- Deconvolution (1)
- Deep biosphere (1)
- Deep fluids (1)
- Deep ocean redox condition (1)
- Deep percolation flux (1)
- Deep-marine sedimentology (1)
- Deep-sea records (1)
- Deforestation (1)
- Deglaciation (1)
- Dehydration (1)
- Denali (1)
- Denitrification (1)
- Density (1)
- Density dependence (1)
- Depositional origin (1)
- Depositional setting (1)
- Depth perception (1)
- Desert wetland ecosystems (1)
- Desertification (1)
- Detrital layers (1)
- Deuterium excess (1)
- Developing countries (1)
- Devonian transpression (1)
- Diagenesis (1)
- Diagenetic barium cycling (1)
- Diatexites (1)
- Diatom frustule (1)
- Diffuse pollution (1)
- Diffusion (1)
- Digital Elevation Models (1)
- Digital elevation model (1)
- Digital terrain analysis (1)
- Dinosterol (1)
- Diol (1)
- Direct economic loss (1)
- Direct push (1)
- Directivity (1)
- Disaster impact analysis (1)
- Disaster loss databases (1)
- Discontinuity surfaces (1)
- Dispersal (1)
- Dispersion curve (1)
- Dispersion curves (1)
- Dissolution precipitation replacement (1)
- Distachyapites (1)
- Distributed acoustic sensing (1)
- Distribution patterns (1)
- Disturbance index (1)
- Diurnal fluctuations (1)
- Divergent mantle flow (1)
- Dolomites (1)
- Dominant link directions (1)
- Dora-Maira (1)
- Dormancy (1)
- Downholemethods (1)
- Downscaling socio-economic scenarios (1)
- Drainage capture (1)
- Drainage morphometry (1)
- Drainage network (1)
- Drainage networks (1)
- Drill-core reorientation (1)
- Drinking water quality (1)
- Driving forces (1)
- Droughts (1)
- Dry land degradation (1)
- Dryland (1)
- Drylands (1)
- Duplex (1)
- Duricrusts (1)
- Dust (1)
- Dust deposition (1)
- Dynamic behavior (1)
- Dynamic bulk modulus (1)
- Dynamic input-output model (1)
- Dynamic landscapes (1)
- Dynamic vegetation models (1)
- Dynamics and mechanics of faulting (1)
- Dynamics of lithosphere and mantle (1)
- Décollement (1)
- E Anatolia (1)
- EDX (1)
- ELA (1)
- EMI sensors (1)
- EMMA (1)
- ENSO/IOD (1)
- ERA5 (1)
- ERV model (1)
- EU Floods Directive (1)
- Earliest Cambrian (1)
- Early Eocene (1)
- Early Eocene Climatic Optimum (1)
- Early Paleogene (1)
- Early Pleistocene (1)
- Early cretaceous (1)
- Early pleistocene; (1)
- Early warning system (1)
- Earth in Five Reactions: A Deep Carbon Perspective (1)
- Earth materials (1)
- Earth tides (1)
- Earthquake rates (1)
- East African Rift (1)
- East African rift system (1)
- East Asian summer monsoon (1)
- Eastern Africa (1)
- Eastern Dharwar craton (1)
- Eastern Himalaya (1)
- Eastern Mediterranean (1)
- Eastern Tibet (1)
- Eastern Tibetan Plateau (1)
- Eastern hemisphere (1)
- Eccentricity (1)
- Eclogites (1)
- Ecogeomorphology (1)
- Ecohydrology (1)
- Ecological boundaries (1)
- Ecological competition (1)
- Ecological health (1)
- Ecological vulnerability (1)
- Economic network (1)
- Ecosystem dissimilarity (1)
- Ecosystem dynamics (1)
- Ecosystem engineer (1)
- Ecosystem function (1)
- Ecosystem functions and services (1)
- Ecosystem research (1)
- Ecosystem response (1)
- Ecotone hierarchy (1)
- Ecuador (1)
- Edge effects (1)
- Education (1)
- Eemian (1)
- Effective dimensionality (1)
- Effective number of species (1)
- Effectiveness (1)
- Egypt (1)
- Eifel maar (1)
- Eisenbuhl (1)
- Ejina Basin (1)
- Ejina Becken (1)
- El Hierro (1)
- El Nino Southern Oscillation (ENSO) (1)
- Elastic response (1)
- Elbe estuary (1)
- Electrical and electronic engineering (1)
- Electrical resistivity (1)
- Electrical resistivity imaging (1)
- Electrical resistivity tomography (1)
- Electrical resistivity tomography (ERT) (1)
- Electricity generation by source (1)
- Element partitioning (1)
- Ellenberg indicator values (1)
- Elymus trachycaulus (1)
- Emergence time (1)
- Emergent macrophytes (1)
- Emission scenarios (1)
- Emissions (1)
- Empirical Mode Decomposition (1)
- Empirical ground-motion models (1)
- Empirical site amplification functions (1)
- EnGeoMAP 2 (1)
- End-member modeling (1)
- Endemism (1)
- Endosulfan (1)
- Energy and society (1)
- Energy crops (1)
- Energy security (1)
- Enrichment factor (1)
- Ensemble (1)
- Ensembles (1)
- Enstatite (1)
- Environmental (1)
- Environmental change (1)
- Environmental drivers (1)
- Environmental isotopes (1)
- Environmental sciences (1)
- Environmental vulnerability (1)
- Eocene deformation (1)
- Eocene-Oligocene (1)
- Eocene-Oligocene transition (1)
- Ephedripites (1)
- Epiphytic foraminifera (1)
- Equant (stiff) pores (1)
- Equatorial Pacific (1)
- Equatorial plasma irregularities (1)
- Equilibrium phase modeling (1)
- Eroded soil types (1)
- Erodium cicutarium (1)
- Erosion processes (1)
- Erosion rate reconstructions (1)
- Error (1)
- Error propagation (1)
- Eruptive recurrence (1)
- Ethiopia rift (1)
- Euglyphida (1)
- Euler-Liouville (1)
- Eurasian Dry Grassland Group (EDGG) (1)
- Europa (1)
- European Centre for Medium-Range Weather Forecasts (ECMWF) (1)
- European Vegetation Archive (EVA) (1)
- European air quality (1)
- European basin system (1)
- European beech forest (1)
- European strong motion data (1)
- Eutrophication (1)
- Evaporites (1)
- Evaporitic varves (1)
- Event-based modeling (1)
- Evolution (1)
- Evolutionary ecology (1)
- Ex ante assessment (1)
- Ex situ/in situ population genetic comparison (1)
- Excavation plan (1)
- Exchangeable Ca (1)
- Expectation maximisation (1)
- Experiment (1)
- Experimental petrology (1)
- Expert judgment (1)
- Expert study (1)
- Expression (1)
- Extended R-Value model (1)
- Extension (1)
- Extensional duplex (1)
- Extent (1)
- Extracellular DNA (1)
- Extraction (1)
- Extreme (1)
- Extreme discharge data (1)
- Extreme events (1)
- Extreme habitats (1)
- Extreme value statistics (1)
- Extremophiles (1)
- Extremwertstatistik (1)
- Exudates (1)
- F-test (1)
- FAIR (1)
- FEM (1)
- FEM models (1)
- FGF23 (1)
- FISH (1)
- FT-ICR-MS (1)
- FTIR (1)
- Facies (1)
- Facies modeling (1)
- Fagradalsfjall (1)
- Famatina belt (1)
- Famatinian (1)
- Fault core and damage zone (1)
- Fault healing (1)
- Fault linkage and interaction (1)
- Fault-rock microstructures (1)
- Faults (1)
- Fauna (1)
- Fe-C composite (1)
- Feature selection (1)
- Federal Water Act (1)
- Feedback biotic-abiotic (1)
- Feldspar zoning (1)
- Felsic volcanism (1)
- Fen stratigraphy (1)
- Fennoscandian Ice Sheet (1)
- Ferric iron (1)
- Ferrous iron (1)
- Fiber analysis (1)
- Field analogue (1)
- Field aquifer (1)
- Field measurements (1)
- Final run (1)
- Firmicutes (1)
- First ovulation (1)
- Fiscal costs (1)
- Fission track (zircon) (1)
- Fission-track thermochronology (1)
- Flash flood (1)
- Flash flood analysis (1)
- Flash floods (1)
- Flood damage potential (1)
- Flood duration (1)
- Flood forecasting (1)
- Flood frequency (1)
- Flood generating processes (1)
- Flood impacts (1)
- Flood loss (1)
- Flood losses (1)
- Flood magnitude (1)
- Flood regimes (1)
- Flood risk management (1)
- Flood timing (1)
- Flora (1)
- Flow regime (1)
- Flow velocity (1)
- Flowback (1)
- Flower structure (1)
- Fluid (1)
- Fluid Flow (1)
- Fluid inclusion geochemistry (1)
- Fluid inclusions (1)
- Fluid mixing (1)
- Fluid processes (1)
- Fluid-Gesteins Wechselwirkung (1)
- Fluideinschluss (1)
- Flume channel (1)
- Fluvial Incision (1)
- Fluvial longitudinal profile (1)
- Fluvial terrace (1)
- Focal mechanism (1)
- Fold and thrust belt (1)
- Food security (1)
- Foragers (1)
- Forearc (1)
- Forearc dewatering (1)
- Forecasting (1)
- Forecasting Framework (1)
- Foreland (1)
- Foreland basin fragmentation (1)
- Forensic disaster analysis (1)
- Forest change (1)
- Forest disturbance (1)
- Forest ecosystem (1)
- Forest management (1)
- Forest mineral topsoil (1)
- Forest regeneration (1)
- Forest soils (1)
- Forest-savannah (1)
- Formalised scenario analysis (1)
- Forschungsmethodik (1)
- Fossil DNA (1)
- Fourier transformation (1)
- Fractional cover (1)
- Fractionation (1)
- Fracture sealing (1)
- Fracture wall offset (1)
- Fractured carbonate geothermal reservoirs (1)
- Framework quantitative ecology (1)
- France (1)
- Frequency-magnitude distribution (1)
- Freshwater ecosystem (1)
- Frost-cracking (1)
- Fukushima Prefecture (1)
- Full-waveform (1)
- Functional averaging (1)
- Functional diversity (1)
- Functional effect (1)
- Functional types (1)
- Functions (1)
- Futaba fault (1)
- Fuzzy (1)
- Fuzzy classification (1)
- GAIA (1)
- GEDI (1)
- GEO BON (1)
- GEOMAGIA50 (1)
- GEOTRACES compliant (1)
- GLDAS (1)
- GNSS forward scatterometry (1)
- GNSS reflectometry (1)
- GNSS-integrated water vapour (1)
- GPM (1)
- GPR (1)
- GPS and GLONASS (1)
- GRACE (1)
- GST (1)
- Gabbro (1)
- Gabbroic rocks (1)
- Gadot Formation (1)
- Ganga River (1)
- Ganymede (1)
- Garnet schist (1)
- Garnet-orthopyroxene-cordierite gneiss (1)
- Gas sparging (1)
- Gastropods (1)
- Gaussian Process regression (1)
- Gaxun Nur (1)
- Gefahrenkarten (1)
- Gehyra variegata (1)
- Gekoppelter Wärme- und Massetransport (1)
- Gemmatimonadetes (1)
- Generalization error (1)
- Generalized additive models (1)
- Generalized linear models (1)
- Generalized linear models (GLMs) (1)
- Genetic model (1)
- Geo-Visualisation (1)
- Geobiology (1)
- Geochemical indices (1)
- Geochemical modelling (1)
- Geochemical records (1)
- Geodynamic (1)
- Geodynamic modelling (1)
- Geodynamics (1)
- Geographic information systems (1)
- Geoinformation Science (1)
- Geologic mapping (1)
- Geology (1)
- Geomagnetism (1)
- Geomechanical Model (1)
- Geomechanical modelling (1)
- Geomechanics (1)
- Geomorphic coupling (1)
- Geomorphic indices (1)
- Geomorphic systems (1)
- Geomorphological mapping (1)
- Geophysical methods (1)
- Geophysical prospecting (1)
- Geophysics (1)
- Geopotential theory (1)
- Geosciences (1)
- Geotechnical parameters (1)
- Geothermal (1)
- Geothermal applications in Oman (1)
- Geothermal water (1)
- Geoökologie (1)
- Germanic Basin (1)
- Gerris (1)
- Gesteinsbildung (1)
- Ghana (1)
- Glacial (1)
- Glacial buzzsaw (1)
- Glacial lake (1)
- Glacial lake outbursts (1)
- Glacial landscape history (1)
- Glacial refugia (1)
- Glacier Mass Balances (1)
- Glacier foreland (1)
- Glacierized basins (1)
- Glaciers (1)
- Glaucophane (1)
- Glaucophane schist (1)
- Global Navigation Satellite System (GNSS) (1)
- Global climate change (1)
- Global monsoon (1)
- Global precipitation measurement (1)
- Global sensitivity analysis (1)
- Global warming (1)
- Global warming potential (1)
- Glueckstadtgraben (1)
- Gnetaceaepollenites (1)
- Gokceada Island (1)
- Gondwana break-up (1)
- Gondwanaoberh (1)
- Gongjue basin (1)
- Grain for Green Project (1)
- Grain-size (1)
- Grain-size end-member modelling (1)
- Granites (1)
- Granitoid magmas (1)
- Granular materials (1)
- Granulite enclaves (1)
- Granulites (1)
- Graphitization (1)
- GrassPlot (1)
- Gravel-bed (1)
- Gravitational potential energy (1)
- Gravity (1)
- Gravity inversion (1)
- Gravity modelling (1)
- Great Himalayan earthquakes (1)
- Green investment (1)
- Green surge (1)
- Greenhouse gas emissions (1)
- Greenhouse gas source (1)
- Greenland ice cores (1)
- Gridded rainfall (1)
- Ground Motion Prediction Equation (1)
- Ground motion (1)
- Ground motion and GPS (1)
- Ground motion prediction equation (1)
- Ground squirrel nest (1)
- Ground vegetation (1)
- Ground-motion models (1)
- Ground-motion-model (1)
- Groundwater quality (1)
- Groundwater remediation (1)
- Groundwater-stream water interactions (1)
- Growth zoning (1)
- Groß beta Schönebeck (1)
- Grt-Pyx exsolution (1)
- Grundwasser-Oberflächenwasser-Interaktion (1)
- Guajira Peninsula (1)
- Guaymas Basin (1)
- Gulf of Mexico (1)
- Gutenberg-Richter relationship (1)
- Gypsum (1)
- Gypsum quantification (1)
- H/V Verhältnis (1)
- H/V method (1)
- H/V ratio technique (1)
- H/V spectral ratio (1)
- HP and UHP metamorphism (1)
- HP metamorphism (1)
- HP-LT metamorphic rocks (1)
- HP-LT rocks (1)
- HP-experiments (1)
- HP-granulite (1)
- HP-metamorphism (1)
- HP/LT metamorphism (1)
- HT/LP metamorphism (1)
- HTC biochar (1)
- Habitat fragmentation (1)
- Habitat management (1)
- Habitat suitability (1)
- Hadley-Walker Circulation (1)
- Haida Gwaii (1)
- Hail (1)
- Haimantas (1)
- Halobacteria (1)
- Hangrutschungen (1)
- Harran Plain (1)
- He (1)
- He thermochronology (1)
- Heat flow (1)
- Heat flux (1)
- Heating and cooling electricity consumption (1)
- Heating energy demand (1)
- Heavy Minerals (1)
- Heavy metals (1)
- Heihe (1)
- Heinrich event (1)
- Heinrich events (1)
- Hemispherical photography (1)
- Hepatic enzyme (1)
- Herkunftsanalyse (1)
- Heteroscedasticity (1)
- Hf isotopes (1)
- Hiatus (1)
- Hidden Markov model (1)
- Hierarchical clustering (1)
- Hierarchical model (1)
- Hierarchical partitioning (1)
- High Arctic Large Igneous Province (1)
- High Asia (1)
- High Mountain Asia (1)
- High frequency back-projection (1)
- High mountain ecology (1)
- High pressure (1)
- High rate GPS (1)
- High-Grade Metamorphism (1)
- High-pressure (1)
- High-rate GPS (1)
- High-rateGPS (1)
- High-temperature experiments (1)
- High-temperature shear zones (1)
- Higher-order effects (1)
- Hillslope pedosequence (1)
- Hillslope thermokarst (1)
- Himalayan hydroclimate (1)
- Himalayan rivers (1)
- Hindu Kush Himalayas (HKH) (1)
- Hindu Kush-Karakoram (1)
- Historic natural hazards (1)
- Historical events (1)
- Historical seismogram reproductions (1)
- Hochwasser (1)
- Hochwassergefährdung (1)
- Hochwasserrisikomanagementrichtlinie (1)
- Holocene Climate (1)
- Holocene Thermal Maximum (1)
- Holocene thermal maximum (1)
- Hominin (1)
- Hominin evolution (1)
- Hominins (1)
- Horizontal (1)
- Hotspot (1)
- Huisman-Olff-Fresco models (1)
- Hula Basin (1)
- Humahuaca Basin (1)
- Humic layer (1)
- Humidity (1)
- Humification (1)
- Humus forms (1)
- Hunter-gatherers (1)
- Hutchinson niche (1)
- Hydraulic aperture (1)
- Hydraulic connectivity (1)
- Hydraulic fracture (1)
- Hydraulic fracturing (1)
- Hydraulic loading rate (1)
- Hydraulics (1)
- Hydro-mechanical coupling (1)
- Hydro-meteorological indices (1)
- HydroGeoSphere (1)
- Hydroclimate (1)
- Hydrodynamics (1)
- Hydrogen (1)
- Hydrogen isotopes (1)
- Hydrogeomorphic type (1)
- Hydrological balance (1)
- Hydrological flowpaths (1)
- Hydrological model (1)
- Hydrological modelling (1)
- Hydrological monitoring (1)
- Hydrological time series analysis (1)
- Hydrologie (1)
- Hydrolysis (1)
- Hydrometric networks (1)
- Hydromorphologic alteration (1)
- Hydropedology (1)
- Hydrophobic treatment (1)
- Hydrostratigraphic model (1)
- Hydrothermal veins (1)
- Hydrus-1D (1)
- Hydrus-2D (1)
- Hyetograph classification (1)
- Hypersaline lake (1)
- Hyperspectral (1)
- Hyperspectral remote sensing (1)
- Hypolimnetic oxygen (1)
- Hyporheic zone (1)
- Hypothesis generation (1)
- Hypsometry analysis (1)
- Hysteresis index (1)
- Hämolyse (1)
- IAPETUS suture (1)
- IBM (1)
- ICDP (1)
- ICDP Dead Sea deep drilling (1)
- ICESat-2 (1)
- IGP (1)
- IMPRESSIONS (1)
- IODP (1)
- IPCC (1)
- IPCC AR5 scenarios (1)
- IRD (1)
- ISSR (1)
- Iberian Basin (1)
- Iberian Peninsula (1)
- Ice sheet dynamics (1)
- Ice wedges (1)
- Ice-wedge polygon (1)
- Identifiability (1)
- Idiosomic Si pool (1)
- Illitization (1)
- Image classification (1)
- Imaging (1)
- Imaging spectroscopy (1)
- Immigration by air (1)
- Impact assessment (1)
- Impacts (1)
- Imputation (1)
- In situ C-14 (1)
- In situ Raman spectroscopy (1)
- In situ stress field (1)
- In-situ Laser Ablation Split Stream ICPMS (1)
- In-situ cosmogenic Be-10 (1)
- In-situ degradation rates (1)
- In-situ remediation (1)
- In-stream geomorphological structures (1)
- In-stream processes (1)
- Incentives (1)
- Incomplete inventories (1)
- Index of connectivity (1)
- Index of dispersion (1)
- India (1)
- Indian Monsoon (1)
- Indian Ocean (1)
- Indian ocean dipole (1)
- Indicator species (1)
- Indonesia (1)
- Indonesian throughflow (1)
- Inference model (1)
- Infiltrability (1)
- Inflow and outflow (1)
- Informative prior (1)
- Infrared (1)
- Infrared observations (1)
- Infrared spectroscopy (1)
- Initial ecosystem (1)
- Inner Mongolia (1)
- Intangible losses (1)
- Integrated Ocean Drilling Program (1)
- Integrated environmental modelling (1)
- Integration (1)
- Inter-Andean valley (1)
- Inter-annual glacier elevation change (1)
- Inter-phase mass transfer (1)
- Interdisciplinary links (1)
- Interior (1)
- Interior Alaska (1)
- International Continental Scientific Drilling Program (1)
- International policy (1)
- International unions (1)
- Intertidal organisms (1)
- Interzeptionsverdunstung (1)
- Intra-oceanic subduction (1)
- Intracellular DNA (1)
- Intraplate earthquakes (1)
- Intraplate processes (1)
- Intraplate seismicity (1)
- Inverse Theory (1)
- Inverse filtering (1)
- Inversion for moment tensors (1)
- Invertebrates (1)
- Inylchek Glacier (1)
- Ion-Beam (FIB) (1)
- Ionospheric scale lengths (1)
- Iraq (1)
- Irrawaddy River (1)
- Irrigation (1)
- Irrigation experiment (1)
- Isabena river (1)
- Island (1)
- Island arc (1)
- Isochrones (1)
- Isomap (1)
- Isometric feature mapping (1)
- Isotope (1)
- Isotope proxy (1)
- Isotope-hydrological integrated modeling (1)
- Isotopes (1)
- Israel (1)
- Issyk Kul (1)
- Issyk-Kul (1)
- Ivrea Zone (1)
- JULIA (1)
- Jaccard (1)
- Jafnayn formation (1)
- Jaguaribe Basin (1)
- Japan (1)
- Japan subduction zone (1)
- Joint inversion (1)
- Jurassic arc (1)
- Jwalamukhi Thrust (1)
- K-Ar system (1)
- K-means technique (1)
- Kaghan (1)
- Kaghan Valley (1)
- Kalahari (1)
- Kalakuli Lake (1)
- Kalman filter (1)
- Kameng River section (1)
- Kanas Lake (1)
- Kappa (1)
- Karaburun (1)
- Karelian Isthmus (1)
- Kashmir earthquake (1)
- Kaya Identity (1)
- Kazakhstan (1)
- Kenya (1)
- Kernel occurrence rate (1)
- Kerogen petrography (1)
- Kettle hole (1)
- Kgalagadi Transfrontier Park (1)
- Khatanga (1)
- Khatanga river (1)
- Kinematics of crustal (1)
- Kinematics of crustal and mantle deformation (1)
- Klimawandel (1)
- Klotho (1)
- Knickzones (1)
- Kobresia meadow (1)
- Kokchetavite (1)
- Kp index (1)
- Krankheitserreger (1)
- Ksat (1)
- Kuilyu Complex (1)
- Kuilyu complex (1)
- Kumdykolite (1)
- Kurils (1)
- Kurpsai dam (1)
- Kwajalein (1)
- L-Asterisk (1)
- LAI (1)
- LANDSAT (1)
- LIA (1)
- LLSVPs (1)
- LM (1)
- LPJ-GUESS (1)
- La Pampa (1)
- Lacustrine carbonates (1)
- Lacustrine record (1)
- Lacustrine sediments (1)
- Lacustrine surface samples (1)
- Lake Bayan Nuur (1)
- Lake Chiuta (1)
- Lake Issyk‐ Kul (1)
- Lake Kinneret (1)
- Lake Magadi (1)
- Lake Malawi basin (1)
- Lake Mead (1)
- Lake Medvedevskoe (1)
- Lake Stechlin (1)
- Lake Turkana (1)
- Lake deposits (1)
- Lake model (1)
- Lake-area (1)
- Lake-ice cover (1)
- Lake-surfaces variability (1)
- Lamina thickness (1)
- Laminated lake sediments (1)
- Land and water (1)
- Land cover change (1)
- Land cover maps (1)
- Land reform (1)
- Land use conception (1)
- Land-use planning (1)
- Landfill (1)
- Landform assemblages (1)
- Landsat 8 (1)
- Landsat time-series (1)
- Landscape (1)
- Landscape Response (1)
- Landscape aesthetics (1)
- Landscape change (1)
- Landscape dynamics (1)
- Landscape planning (1)
- Landscape preferences (1)
- Landscape structure (1)
- Landscape values (1)
- Landscape visualisation (1)
- Landslide chronosequences (1)
- Landslide dam (1)
- Landslide inventory (1)
- Landslide susceptibility (1)
- Large basins (1)
- Larger benthic foraminifera (1)
- Larix (1)
- Larix cajanderi (1)
- Larix larch (1)
- Las Chacras-Potrerillos (1)
- Laser ICP-MS (1)
- Laser fluorination (1)
- Last Interglacial (1)
- Last cold stage (1)
- Last interglacial-glacial transition (1)
- Late Cenozoic (1)
- Late Devonian (1)
- Late Triassic (1)
- Late cretaceous (1)
- Late pleistocene (1)
- Late-Holocene (1)
- Lateinamerika (1)
- Latemar (1)
- Latin America (1)
- Laurentide Ice Sheet (1)
- Lawsonite (1)
- Leaf area index (1)
- Leaf wax (1)
- Lech catchment (1)
- Leeuwin Current (1)
- Legitimacy (1)
- Lehmann discontinuity (1)
- Lena Delta (1)
- Leones Glacier (1)
- Lesser Himalayan Duplex (1)
- Leucocratic tourmaline orthogneisses (1)
- Levee (1)
- Level of confidence (1)
- Leveling data (1)
- Li-F granite (1)
- Lichenometry (1)
- Life history (1)
- Liguride Complex (1)
- Limestone assimilation in basanite (1)
- Linking (1)
- Lipid (1)
- Lipid biomarker (1)
- Lipid biomarkers (1)
- Lipids (1)
- Liquid water distribution (1)
- Literature review (1)
- Lithosphere (1)
- Lithosphereasthenosphere boundary (1)
- Little Ice Age (1)
- Liver function (1)
- Livestock (1)
- Local knowledge (1)
- Local magnitude scale (1)
- Local structure Yttrium, Strontium, Lanthanum (1)
- Local-to-regional scale (1)
- Logic tree (1)
- Logic trees (1)
- Logistic regression (1)
- Lombok (1)
- Lonar Crater Lake (1)
- Long-Term (1)
- Long-range transport (1)
- Loop-loop systems (1)
- Loppa High (1)
- Loss modeling (1)
- Loss modelling (1)
- Lotus corniculatus (1)
- Low flow indicator (1)
- Low-centred polygon (1)
- Lower Cretaceous (1)
- Lower Palaeolithic (1)
- Lower Paleolithic (1)
- Lower crustal flow (1)
- Lowland catchment (1)
- Lu-Hf in garnet (1)
- Lu-Hf system (1)
- Lu/Hf dating of garnet (1)
- Luminescence dating (1)
- Lupinus albus (1)
- Lut Blocks (1)
- Luxury tourism (1)
- Lyme disease (1)
- Lysimeter control systems (1)
- M(w)8.8 Maule earthquake (1)
- MALDI imaging (1)
- MARS (1)
- MAT(mr) paleothermometer (1)
- MC-ICP-MS (1)
- MCA (1)
- MHT (1)
- MIT (1)
- MNDWI (1)
- MO (1)
- MODFLOW (1)
- MODIS (1)
- MODIS ET (1)
- MRD (1)
- MUSLE (1)
- MWAC (1)
- Macerals (1)
- Machine learning (1)
- Macrolepidoptera (1)
- Macrophytes (1)
- Madeira island (1)
- Mafic Rocks (1)
- Magma migration and fragmentation (1)
- Magma mixing (1)
- Magnetic field variations through time (1)
- Magnetic hydrochar (1)
- Magnetic properties (1)
- Magnetic susceptibility (1)
- Magnetic+Susceptibility (1)
- Magnitude and frequency (1)
- Mahneshan Metamorphic Complex (1)
- Maiella Mountains (1)
- Major and trace elements (1)
- Malagasy/Kuunga orogeny (1)
- Mallik (1)
- Manifold (1)
- Mann-Kendall test (1)
- Mantle processes (1)
- Mantle rheology (1)
- Mantle source (1)
- Mapping (1)
- Marine Isotope Stage 13 (1)
- Marine Isotope Stage 3 (1)
- Marine terrace (1)
- Markov Blanket (1)
- Markov Chain Monte Carlo inversion (1)
- Marmara Sea (1)
- Mars (1)
- Martian regolith analogs (1)
- Mass balance approach (1)
- Mass extinction (1)
- Mass transport (1)
- Mathematical formulation (1)
- Mato Grosso (1)
- Matrix diffusion (1)
- Matter cycling (1)
- Matter dynamics (1)
- Maturity (1)
- Maule megathrust (1)
- Maximum entropy method (1)
- Maximum magnitude of earthquake (1)
- Measurement uncertainty (1)
- Mechanical aperture (1)
- Medieval Climate Anomaly (1)
- Mediterranean Basin (1)
- Mediterranean Sea (1)
- Mediterranean fluvial systems (1)
- Mediterranean rivers (1)
- Mediterranean shallow lake (1)
- Mediterranean shrubland (1)
- Mediterranean-mountainous (1)
- Mekong delta (1)
- Melt (1)
- Melt inclusions (1)
- Merensky Reef (1)
- Mermia ichnofacies (1)
- Mesh convergence (1)
- Mesorbitolina (1)
- Mesoscale (1)
- Mesoscale systems (1)
- Messinian Erosional Surface (1)
- Messinian Salinity Crisis (1)
- Meta-plagiogranite (1)
- Meta-trachyandesite (1)
- Metabarcoding (1)
- Metamorphic core complex (1)
- Metamorphic evolution (1)
- Metamorphic sole (1)
- Metapelites (1)
- Metapelitic rock (1)
- Metasedimentary succession (1)
- Metasediments (1)
- Meteorites (1)
- Metering (1)
- Methane leakage (1)
- Methanogenic archaea (1)
- Method comparison (1)
- Methodology (1)
- Mexico (1)
- Mg/Ca (1)
- Micro-Raman spectroscopy (1)
- Micro-XRF (1)
- Micro-aggregates (1)
- Micro-fades (1)
- Microalgae assemblages (1)
- Microbial community analysis (1)
- Microbial mounds (1)
- Microbial processes (1)
- Microcontinent (1)
- Microcrack (1)
- Microcystis aeruginosa (1)
- Microfacies (1)
- Microfossils (1)
- Microhabitats (1)
- Micromechanical model (1)
- Microscopy (1)
- Microseismic monitoring (1)
- Microseismicity (1)
- Microtremors (1)
- Mid-late Holocene (1)
- Middle East (1)
- Middle Eocene deformation (1)
- Middle Holocene (1)
- Middle Palaeolithic (1)
- Middle Strand (1)
- Middle Tianshan (1)
- Middle-Upper Permian (1)
- Migmatites (1)
- Migration (1)
- Mikroanalyse (1)
- Milankovitch (1)
- Military conversion (1)
- Millennial-scale variability (1)
- Mineral composition (1)
- Mineral soil (1)
- Mineralization (1)
- Mineralogy (1)
- Minimum mortality temperature (1)
- Minor (1)
- Miocene deformation (1)
- Miocene volcanism (1)
- Misho complex (1)
- Missing data (1)
- Mitigation (1)
- Mitigation measures (1)
- Mixed coniferous and deciduous broad-leaved woodland (1)
- Mixed-effects regression (1)
- Mixing model (1)
- Mixing models (1)
- Mixture model (1)
- Miyakejima intrusion (1)
- Mobility (1)
- Model availability (1)
- Model comparison (1)
- Model complexity (1)
- Model coupling (1)
- Model development (1)
- Model landscape (1)
- Model selection (1)
- Modeling framework (1)
- Modeling tools for decision-making (1)
- Modern analogues (1)
- Modern pollen/vegetation relationships (1)
- Moho depths (1)
- Moisture availability (1)
- Moisture evolution (1)
- Moisture reconstructions (1)
- Moisture-advection feedback (1)
- Molasse Basin (1)
- Molecular design (1)
- Molybdenum mineralization (1)
- Moment tensor inversion (1)
- Monetary valuation (1)
- Monitoring programmes (1)
- Monsoonal variability (1)
- Moodies Group (1)
- Moon (1)
- Moraine landscape (1)
- Morisita (1)
- Morisita-Horn (1)
- Morphotectonics (1)
- Mosha Fault (1)
- Moss samples (1)
- Mossbauer spectroscopy (1)
- Moulouya river basin (1)
- Mountain hydrology (1)
- Mountain lake (1)
- Mozambique Ocean (1)
- Mt. Quincan (1)
- Mudrock analyses (1)
- Multi-angular model-based decomposition (1)
- Multi-attribute decision-making (1)
- Multi-proxy record (1)
- Multi-site study (1)
- Multi-temporal (1)
- Multi-variables (1)
- Multicomponent ground-penetrating radar (GPR) data (1)
- Multidimensionality (1)
- Multilevel model (1)
- Multiple regression (1)
- Multivariate (1)
- Multivariate adaptive regression splines (1)
- Multivariate regression trees (1)
- Multivariate statistical analysis (1)
- Mycotoxins (1)
- N (1)
- N isotopes (1)
- N-acetyl-glucosamine (NAG) (1)
- N-butylpyridinium bromide (1)
- NAC transcription factor ATAF1 (1)
- NAO (1)
- NDVI temporal profiles (1)
- NE Spain (1)
- NESS (1)
- NFSA (1)
- NMDS (1)
- NOR (1)
- NW Himalaya (1)
- NW Morocco (1)
- NW Turkey (1)
- NW-Argentine Andes (1)
- Na-pyrophosphate soluble organic matter (1)
- Najd aquifer (1)
- Namche Barwa (1)
- Namche Barwa syntaxis (1)
- Namibia (1)
- Namibian passive margin (1)
- Nanogranites (1)
- Nanomaterial (1)
- Nanorocks (1)
- Narrow (1)
- Natura 2000 monitoring (1)
- Natural dam (1)
- Natural hazard (1)
- Nature protection (1)
- Near surface geophysics (1)
- Near+Surface (1)
- Near-surface geophysics (1)
- Nearshore zone (1)
- Neoacadian orogenic cycles (1)
- Neodymium isotopes (1)
- Neogene and Quaternary coastal uplift (1)
- Neotethys Ocean (1)
- Neotropics (1)
- Nested scenarios (1)
- Net ecosystem carbon balance (NECB) (1)
- Net precipitation (1)
- Network analysis (1)
- Networks (1)
- Neural circuits (1)
- Neural networks, fuzzy logic (1)
- Neutron radiography (1)
- Nevado Coropuna (1)
- Nianbaoyeze Mountains (1)
- Niche stability (1)
- Niger River Basin (1)
- Nitrate (1)
- Nitrate retention (1)
- NlpR (1)
- Nocardioides alcanivorans (1)
- Non-ergodic PSHA (1)
- Non-marine (1)
- Non-parametric regression (1)
- Non-scalar input factors (1)
- Non-uniqueness (1)
- Nonlinear site response (1)
- Nonparametric statistics (1)
- Nordeste (1)
- Nordic catchments (1)
- Norfolk Island (1)
- Normal (1)
- Normal fault evolution (1)
- North (1)
- North Africa (1)
- North Anatolian Fault (1)
- North Anatolian Fault Zone (NAFZ) (1)
- North Atlantic (1)
- North Atlantic Large Igneous Province (1)
- North Atlantic Oscillation (1)
- North Atlantic climate change (1)
- North Atlantic forcing (1)
- North Calabrian Unit (1)
- North Iran (1)
- North Pacific (1)
- North Pacific Ocean (1)
- North Tehran Fault (1)
- North-Western Pacific (1)
- North-eastern Germany (1)
- North-eastern Morocco (1)
- North-eastern Spain (1)
- Northeast Iran (1)
- Northeast Spain (1)
- Northeast of Brazil (1)
- Northeastern China (1)
- Northern Europe (1)
- Northern Hemisphere Glaciation (1)
- Northern Makran (1)
- Northern Patagonian Icefield (1)
- Northern Sierras Pampeanas (1)
- Northern Tibetan Plateau (1)
- Northern Zagros Suture Zone (NZSZ) (1)
- Northwestern Anatolia (1)
- Northwestern Turkey (1)
- Norway (1)
- Norway rat (1)
- Nothofagus (1)
- Nuclear explosions (1)
- Nuclear magnetic resonance (1)
- Numerical model (1)
- Numerical modeling (1)
- Numerical study (1)
- Numerische Modellierung (1)
- Nutrient export (1)
- O horizon (1)
- O ligands (1)
- O-2 (1)
- OAE-2 (1)
- OBIA (1)
- ODD model description (1)
- ODP 659 (1)
- ODP 721/722 (1)
- ODP 967 (1)
- OLCI (1)
- OLI (1)
- OSL (1)
- OSL and C-14 geochronology (1)
- OSL dating (1)
- Ocean Circulation (1)
- Ocean acidification (1)
- Ocean color remote sensing (1)
- Ocean sciences (1)
- Ocean tidal model (1)
- Oceanic anoxic event 1a (1)
- Oceanic transform and fracture zone processes (1)
- Ohalo Site (1)
- Oil sands (1)
- Old Red Sandstone (1)
- Olduvai Subchron (1)
- Oligochaeta (1)
- Omphacite (1)
- Ooid shoals (1)
- Opal-A (1)
- Opal-CT (1)
- Open tropical rain forest (1)
- OpenFOAM (1)
- OpenForecast (1)
- OpenGeosys (1)
- OpenLayers 3 (1)
- Operational and environmental effects (1)
- Operational use (1)
- Ophiolite (1)
- Ophiolite obduction (1)
- Optical absorption spectroscopy (1)
- Optical methods (1)
- Optical sensors (1)
- Optically stimulated luminescence (1)
- Optimal city size distribution (1)
- Orai1 (1)
- Orbitoides (1)
- Ordination (1)
- Ordovician (1)
- Ore (1)
- Orfento Formation (1)
- Organic chemistry (1)
- Organic matter degradation (1)
- Organic matter stabilization (1)
- Organic pollutants (1)
- Orinoco River system (1)
- Orogen-parallel lateral extrusion (1)
- Orogenic Plateaus (1)
- Orogenic wedge (1)
- Orogenic wedges (1)
- Orographic barrier (1)
- Orographicprecipitation (1)
- Orthoptera (1)
- Orthotropy (1)
- Ostantarktis (1)
- Ostseeküste (1)
- Out-of-sequence thrust (1)
- Output uncertainty (1)
- Overland Bow (1)
- Overland flow generation (1)
- Oxygen and carbon isotopes (1)
- Oxygen isotope compositions (1)
- Oxygen mapping (1)
- Oyster (1)
- Ozone (1)
- P-T path (1)
- P-T-d-tpaths (1)
- P-n tomography (1)
- PAHs (1)
- PAN (1)
- PCA (1)
- PDO (1)
- PETM (1)
- PGE (1)
- PGM (1)
- PM balances (1)
- PM10, PM2.5 and PM1.0 concentrations (1)
- POL (1)
- PT estimates (1)
- PT path (1)
- PT pseudosection (1)
- PTMEs (1)
- Pace-of-life (1)
- Pacific-Asia convergence (1)
- Palaeo-Tethys (1)
- Palaeo-lake sediments (1)
- Palaeo-landslides (1)
- Palaeo-seismicity (1)
- Palaeo-shorelines (1)
- Palaeo-vegetation (1)
- Palaeoceanography (1)
- Palaeoclimate proxy (1)
- Palaeoclimate reconstruction (1)
- Palaeodrainage (1)
- Palaeoenvironments (1)
- Palaeofloods (1)
- Palaeogene (1)
- Palaeogeography (1)
- Palaeoliminology (1)
- Palaeomagnetism (1)
- Palaeotemperature (1)
- Palaeotethys (1)
- Palaeotropics (1)
- Palaeovegetation (1)
- Paleo (1)
- Paleo-ecology (1)
- Paleo-productivity (1)
- Paleo-tethys (1)
- Paleoarchean (1)
- Paleobiogeography (1)
- Paleoclimate dynamics (1)
- Paleoclimatic dynamics (1)
- Paleocurrent (1)
- Paleoecology (1)
- Paleoenvironmental (1)
- Paleoenvironmental change (1)
- Paleolake Lorenyang (1)
- Paleomagnetism (1)
- Paleosol (1)
- Paleotethys (1)
- Palygorskite (1)
- Palynostratigraphy (1)
- Paläoklimadynamik (1)
- Pamir Mountains (1)
- Pamir mountains (1)
- Pan-African (1)
- Pan-African magmatism (1)
- Panama Canal watershed (1)
- Panjal Traps (1)
- Parana-Etendeka Large Igneous Province (1)
- Paratethys (1)
- Pargasite (1)
- Parlung River (1)
- Partial melt (1)
- Participation (1)
- Particle flow code (1)
- Particle mobility (1)
- Particle swarm optimization (1)
- Particle-size fractions (1)
- Passiv-seismische Interferometrie (1)
- Passive seismic (1)
- Passive seismic interferometry (1)
- Pastoralism (1)
- Patagonian Ice Sheet (1)
- Pattern-oriented modelling (1)
- Patterns (1)
- Pb ages (1)
- Peak flow trends (1)
- Peak-over-threshold (1)
- Peat properties (1)
- Pebas/Acre system (1)
- Peclet number (1)
- Pedestal moraine (1)
- Pediastrum (1)
- Pedogenic carbonate nodules (1)
- Pedotransfer function (1)
- Pegmatoid (1)
- Pentacyclic triterpene methyl ethers (1)
- Per capita growth rate (1)
- Perchlorate (1)
- Perennial frozen ground (1)
- Performance (1)
- Peri-urban agriculture (1)
- Peridotites (1)
- Peridotitic melts (1)
- Permafrost carbon feedback (1)
- Permafrost coasts (1)
- Permafrost degradation (1)
- Permafrost ecosystem (1)
- Permafrost peatlands (1)
- Permanent uplift (1)
- Permian-Triassic boundary (1)
- Persistence (1)
- Perumytilus mussels (1)
- Peruvian fore arc (1)
- Pesticide transport (1)
- Petrogenesis (1)
- Petrography (1)
- Pharmaceuticals (1)
- Phase angle (1)
- Phenological correction (1)
- Phenotypic plasticity (1)
- Phosphates (1)
- Phosphogenesis (1)
- Phylogeny (1)
- Physical environment (1)
- Physical rock properties (1)
- Phytolith dissolution (1)
- Phytolith morphotypes (1)
- Phytoplankton (1)
- Piedmont Zone (1)
- Pierson-Moskowitz spectra (1)
- Pigments (1)
- Pilot-scale constructed wetland (1)
- Pilze (1)
- Pine (1)
- Pinus pinaster (1)
- Pitzer (1)
- Plan oblique relief (1)
- Planetary cartography (1)
- Plant growth (1)
- Plant macro-remains (1)
- Plant n-alkanes (1)
- Plant phenology (1)
- Plasma convection (1)
- Plateau margins (1)
- Pleistocene and Holocene climate (1)
- Pleistocene/Holocene transition (1)
- Plio-Pleistocene timeframe (1)
- Plio-Pleistocene transition (1)
- Plio-Pleistozän Zeitfenster (1)
- Plio-pleistocene transition (1)
- Pliocene (1)
- Poaceae (1)
- Pohang (Korea) (1)
- Point cloud (1)
- Polarisation analysis (1)
- Pollen size (1)
- Pollen source area (1)
- Pollen trap (1)
- Pollen-climate calibration (1)
- Pollen-climate relationship (1)
- Pollen-climate transfer function (1)
- Pollinator conservation (1)
- Polymerization (1)
- Polymorphs (1)
- Ponds (1)
- Pontides (1)
- Population density (1)
- Population dynamics (1)
- Pore analysis (1)
- Pore network modeling (1)
- Porous sandstone (1)
- Portugal (1)
- Poshtuk (1)
- Poshtuk metapelites (1)
- Post-glacial landscape (1)
- Posterior estimation (1)
- Potamogeton/Stuckenia (1)
- Potassic white mica (1)
- Potassium (1)
- Power-to-Gas (1)
- Precambrain (1)
- Precaution (1)
- Precession (1)
- Precipitation events (1)
- Precipitation pattern (1)
- Precipitation reconstruction (1)
- Precipitation variability (1)
- Precise point positioning (1)
- Predation (1)
- Predictive models (1)
- Preparedness (1)
- Primitive island-arc (1)
- Probabilistic forecasting (1)
- Probabilistic seismic hazard analysis and Bayesian inference (1)
- Process domains (1)
- Process models (1)
- Procrustes analysis (1)
- Project monitoring (1)
- Proportional population growth rate (1)
- Proto-North Atlantic (1)
- Protolith (1)
- Provenance Analysis (1)
- Provenance analysis (1)
- Provenance studies (1)
- Proximal soil sensing (1)
- Pseudo-binary phase diagrams (1)
- Pseudoleucite (1)
- Pseudotachylyte (1)
- Pu239+240 (1)
- Public good game (1)
- Public policy (1)
- Public-private partnerships (1)
- Pull-Apart (1)
- Pull-Apart Basin (1)
- Pull-apart basin (1)
- Pulsed climate variability hypothesis (1)
- Puna (1)
- Punishment (1)
- Push factor (1)
- Q(10) (1)
- QBO (1)
- Qilian mountains (1)
- Qinghai-Tibetan Plateau (QTP) (1)
- Quantification of runoff components (1)
- Quantile Regression Forest model (1)
- Quantile regression (1)
- Quantile regression forests (1)
- Quantitative reconstruction (1)
- Quantitative regional plant abundance (1)
- Quarter-wavelength principle (1)
- Quaternary climate (1)
- Quaternary climate change (1)
- Quaternary geochronology (1)
- Quaternary maar volcanism (1)
- Quaternary terraces (1)
- Quercus brantii (1)
- Quercus ilex (1)
- Quercus pubescens (1)
- RCP scenarios (1)
- RCP4.5 (1)
- RCP8.5 (1)
- RETC (1)
- REVEALS (1)
- REVEALS (Regional Estimates of VEgetation (1)
- REVEALS model (1)
- RHA1 (1)
- RSCM thermometry (1)
- Rac-metalaxyl (1)
- Radar rainfall data (1)
- Radioactivity (1)
- Radiocarbon (1)
- Radiocarbon age dating (1)
- Radiocarbon and OSL dating (1)
- Radioisotope disequilibria dating (1)
- Radiolaria (1)
- Radon (1)
- Rain gauges (1)
- Rainfall (1)
- Rainfall event (1)
- Rainfall floods (1)
- Rainfall interception (1)
- Rainfall network (1)
- Rainfall simulation (1)
- Rainfall-triggered landslide (1)
- Rainforest (1)
- Raman (1)
- Random Forests (1)
- Rangeland (1)
- Rangeland management (1)
- Rangifer tarandus (1)
- Raoult's law (1)
- Rapid exhumation/cooling (1)
- RapidEye (1)
- Rare common comparison (1)
- Rare earth element (REE) distribution (1)
- Rate of compositional change (1)
- Rattus norvegicus (1)
- Raw observation (1)
- Rayleigh test (1)
- Rb-Sr mineral isochron (1)
- Rb-Sr mineral isochrons (1)
- Reactive transport (1)
- Reactive transport modelling (1)
- Real Estate Portal (1)
- Real time (1)
- Recent forest (1)
- Recharge (1)
- Reclamation (1)
- Reconstruction (1)
- Recovery (1)
- Red River (1)
- Red Sea (1)
- Redox potential (1)
- Redox reaction (1)
- Reducing Emissions from Deforestation and Degradation (REDD plus ) (1)
- Reduction targets (1)
- Redundancy analysis (1)
- Reefs (1)
- Reference site (1)
- Reference station (1)
- Reflectance spectroscopy (1)
- Reflectivity (1)
- Regime shifts (1)
- Regional climate models (1)
- Regional cooperation (1)
- Regional ecosystem service management (1)
- Regional forcings (1)
- Regional objectives (1)
- Regional scale (1)
- Regional-dependence (1)
- Regionalization (1)
- Regolith (1)
- Regoliths (1)
- Relative dating (1)
- Renewable energy (1)
- Renovation (1)
- Rental Prize (1)
- Reproductive performance (1)
- Reptile (1)
- Research needs (1)
- Reservoir (1)
- Reservoir Networks (1)
- Reservoir network (1)
- Reservoir temperature (1)
- Reservoirs (1)
- Residential building stock (1)
- Residual analysis (1)
- Residual maximum likelihood (1)
- Respiration rate (1)
- Response function (1)
- Retention (1)
- Rewetting (1)
- Reykjanes (1)
- Rheic Ocean (1)
- Rheology: crust and (1)
- Rhine basin (1)
- Rhodococcus (1)
- Rifted continental margin (1)
- Ring complex (1)
- Riparian vegetation (1)
- Riparian zone (1)
- Risk assessment (1)
- Risk dominance (1)
- Risk perception (1)
- Risk zoning (1)
- Riskspreading (1)
- River Esera (1)
- River Incision Model (1)
- River Isabena (1)
- River basin (1)
- River bed sediment (1)
- River discharge (1)
- River flow (1)
- River incision (1)
- River profiles (1)
- River-groundwater exchange (1)
- River-groundwater-interaction (1)
- Riverine floods (1)
- Roach (1)
- Rock glacier (1)
- Rock-Eval pyrolysis (1)
- Rocky deserts (1)
- Rodinia (1)
- Role-play (1)
- Romania (1)
- Root morphology (1)
- Root respiration (1)
- Root water uptake (1)
- Rooting depth (1)
- Roots (1)
- Rossby waves (1)
- Rotifers (1)
- Roughness (1)
- Rover station (1)
- Runoff modeling (1)
- Russian Arctic region (1)
- Rutile mineral chemistry (1)
- Ryukyu Group (1)
- Ryukyu Islands (1)
- S-receiver functions (1)
- S-type granite (1)
- S-wave velocity (1)
- S-waves (1)
- SAFIRA II (1)
- SAR (1)
- SDM (1)
- SEBAL (1)
- SEM (1)
- SH waves (1)
- SIMS (1)
- SIO₂ (1)
- SMI (1)
- SN(A)15 (1)
- SPEI (1)
- SPI (1)
- SPM (1)
- SRTM improvements (1)
- SSMI/S (1)
- SW Africa (1)
- Sabzevar (1)
- Salento (1)
- Salinic (1)
- Salt Range (1)
- Salt diapir (1)
- Salt pan (1)
- Salt transport (1)
- Salztransport (1)
- Samara (1)
- Sambagawa (1)
- Sampling strategy (1)
- Sanabria Lake (1)
- Sand dune steppe and grassland vegetation (1)
- Sandstone detrital modes (1)
- Santa Cruz Island (1)
- Santa-Barbara system (1)
- Sarmentofascis (1)
- Satellite gravity data (1)
- Satellite magnetics (1)
- Saturated zone (1)
- Savanna (1)
- Scaling (1)
- Scenario (1)
- Scenario study (1)
- Scenarios (1)
- Schadensprozesse (1)
- Schleswig-Holstein (1)
- Schwerminerale (1)
- Scotland (1)
- Sea level (1)
- Sea of Galilee (1)
- Sea of Marmara (1)
- Sea-level change (1)
- Sea-level changes (1)
- Seagrasses (1)
- Seasonal forecasting (1)
- Seawater intrusion (1)
- Secondary forest (1)
- Sectoral emissions (1)
- Sediment (1)
- Sediment Flux (1)
- Sediment cascade (1)
- Sediment cascades (1)
- Sediment distribution (1)
- Sediment magnetism (1)
- Sediment monitoring (1)
- Sediment production (1)
- Sediment recycling (1)
- Sediment redistribution (1)
- Sediment retention (1)
- Sediment storage (1)
- Sediment supply (1)
- Sediment tails (1)
- Sediment transfer (1)
- Sediment transport (1)
- Sedimentary basin (1)
- Sedimentary facies (1)
- Sedimentary rocks (1)
- Sedimentation rate (1)
- Seed competition (1)
- Seismic anisotropy (1)
- Seismic damage assessment (1)
- Seismic gap (1)
- Seismic hazard (1)
- Seismic hazard assessment (1)
- Seismic imaging (1)
- Seismic investigations (1)
- Seismic load parameters (1)
- Seismic network (1)
- Seismic refraction (1)
- Seismic risk (1)
- Seismic slip distribution (1)
- Seismic source parameters (1)
- Seismicity and tectonic (1)
- Seismo-tectonics (1)
- Seismo-volcanic activity (1)
- Seismogenic sources (1)
- Seismoturbidites (1)
- Self-organizing map (1)
- Self-propping fracture (1)
- Semi-arid savanna (1)
- Semiarid (1)
- Semiarid catchment (1)
- Sensitive areas (1)
- Sentinel 2 (1)
- Sentinel 3 (1)
- Sequence stratigraphy (1)
- Sequences (1)
- Sequential extraction (1)
- Shale gas (1)
- Shallow borehole sensors (1)
- Shallow lakes (1)
- Shallow marine deposits (1)
- Shallow subsurface (1)
- Shan (1)
- Shanderman (1)
- Shannon entropy (1)
- Shape detection (1)
- Shear Zone (1)
- Shear wave splitting (1)
- Shear wave velocity (1)
- Shear zones (1)
- Shell Bar (1)
- Shire River basin (1)
- Shore vegetationa (1)
- Short-lived climate pollutants (1)
- Shrubland regeneration (1)
- Si cycling (1)
- Si extraction (1)
- SiO(2)Molecular dynamics (1)
- SiO2-H2O (1)
- Siberian arctic (1)
- Siderite (1)
- Sierra de Aconquija (1)
- Sierra de San Luis (1)
- Sierras Pampeanas (1)
- Sierras Pampeanas Orientales (1)
- Sigmoid model (1)
- Signal enhancement (1)
- Signal propagation (1)
- Silica (1)
- Silicate weathering (1)
- Silicate- carbonate melts/glasses (1)
- Silk Road (1)
- Sillimanit (1)
- Simulated Mars-like conditions (1)
- Simulation (1)
- Simulation model (1)
- Single station sigma (1)
- Single-station sigma (1)
- Singular value decomposition (1)
- Sinkholes (1)
- Site amplification (1)
- Site characterisation (1)
- Site classification (1)
- Site proxy (1)
- Site response (1)
- Site-adequate land use (1)
- Site-condition proxies (1)
- Site-specific agricultural land-use (1)
- Siurana Reservoir (1)
- Siwalik (1)
- Siwalik Group (1)
- Siwaliks (1)
- Size distribution (1)
- Slab break-off (1)
- Slab retreat (1)
- Slab roll-back (1)
- Slip Distribution (1)
- Slip deficit (1)
- Slip distribution (1)
- Slip rate (1)
- Slip-rate (1)
- Slope exposure (1)
- Slope-area plot (1)
- Sm-Nd (1)
- Smallholder (1)
- Snow (1)
- Snow avalanche recognition (1)
- Snow-Water Equivalent (1)
- Snow-cover (1)
- Snowmelt floods (1)
- Social valuation (1)
- Social-ecological systems (1)
- Socio-economics (1)
- Socio-economy (1)
- Sociocultural valuation (1)
- Socioeconomic scenarios (1)
- Soil C leaching (1)
- Soil C- and N stocks (1)
- Soil carbon (1)
- Soil catena (1)
- Soil contamination (1)
- Soil deposition (1)
- Soil development (1)
- Soil microorganisms (1)
- Soil moisture measurement comparison (1)
- Soil moisture patterns (1)
- Soil moisture regimes (1)
- Soil moisture time series (1)
- Soil monitoring (1)
- Soil organic carbon stocks (1)
- Soil organic carbon storage (1)
- Soil organic matter (1)
- Soil process modelling (1)
- Soil reaction (1)
- Soil redoximorphic feature (1)
- Soil respiration (1)
- Soil stratification (1)
- Soil texture (1)
- Soil thin-section (1)
- Soil tillage (1)
- Soil water balance (1)
- Soil water balance simulation (1)
- Soil water variability (1)
- Soil-environmental relationships (1)
- Soil-water salinity (1)
- Soils (1)
- Solid Earth sciences (1)
- Solute evolution (1)
- Sommer et al. 2006 (1)
- Source (1)
- Source longevity (1)
- Source mechanism (1)
- South Africa (1)
- South Asia (1)
- South Atlantic (1)
- South Central Andes (1)
- South Korea (1)
- South Pacific Gyre (1)
- South-America (1)
- Southern Apennines (1)
- Southern Caspian Basin (1)
- Southern Central Volcanic Zone (1)
- Southern Ethiopian Rift (1)
- Southern Kyrgyzstan (1)
- Southern Levant (1)
- Southern Norway (1)
- Southern Oscillation (1)
- Southern Pamir (1)
- Soybean (1)
- Soziale Medien (1)
- Spatial Modeling (1)
- Spatial analysis (1)
- Spatial analysis and modelling tool (SAMT) (1)
- Spatial and nonspatial graphs (1)
- Spatial and temporal denudation rate (1)
- Spatial autocorrelation (1)
- Spatial coherence (1)
- Spatial distribution (1)
- Spatial patterns (1)
- Spatial policy (1)
- Spatial structure (1)
- Spatially explicit modelling (1)
- Spatially explicit models (1)
- Spatially explicit prediction (1)
- Spatio-temporal variability (1)
- Species conservation (1)
- Species distribution modelling (1)
- Species range shift (1)
- Species richness (1)
- Spectral analysis (1)
- Spectral clustering analysis (1)
- Spectral decomposition (1)
- Spectral intensity (1)
- Spectral unmixing (1)
- Spectrometry (1)
- Spectrophotometry (1)
- Spektroskopie (1)
- Speleoseismology (1)
- Speleothems (1)
- Spin transition (1)
- Spitzbergen (1)
- Sponge spicule (1)
- Sponges (1)
- Sporopollenin (1)
- Spreewald wetland (1)
- Sr-87/Sr-86 (1)
- Sr-Nd-Pb isotopes (1)
- Sr-isotope stratigraphy (1)
- Sri Lanka (1)
- Stability properties (1)
- Stable carbon isotope (1)
- Stable isotope fractionation analysis (1)
- Stable oxygen isotopes (1)
- Stable water isotopes (1)
- Stag hunt (1)
- Stage-discharge (1)
- Stakeholder (1)
- Stakeholder participation (1)
- Stalagmite (1)
- Standardization (1)
- Standardized precipitation index (1)
- Starkregen (1)
- Static bulk modulus (1)
- Statistical Methods (1)
- Statistical analysis (1)
- Statistical downscaling (1)
- Statistical modeling (1)
- Statistical significance (1)
- Statistics (1)
- Steppe (1)
- Steppe-desert (1)
- Stimulation fluids (1)
- Stochastic gradient boosting (1)
- Stochastic model (1)
- Stockholm-convention (1)
- Storm (1)
- Strain (1)
- Strain localisation (1)
- Strain localization Carrara marble (1)
- Strandlines (1)
- Stratal cyclicity (1)
- Strategic uncertainty (1)
- Stratigraphy (1)
- Stream length gradient (1)
- Stream network (1)
- Streamfiow (1)
- Stress field (1)
- Stress measurement (1)
- Stress parameter (1)
- Stress tensor (1)
- Strong motion (1)
- Strong-motion data (1)
- Strong-motion records (1)
- Strontium-isotope stratigraphy (1)
- Structural health monitoring (1)
- Structural inheritance (1)
- Structural models (1)
- Structure effect (1)
- Structure-from-motion (1)
- Sturmhochwasser (1)
- Sturzflut (1)
- Style of faulting (1)
- Störungszone (1)
- Subaerial exposure (1)
- Subantarctic Front (1)
- Subduction Zone (1)
- Subduction earthquakes (1)
- Subduction fluids (1)
- Subduction input (1)
- Subduction interface (1)
- Subduction zone structure (1)
- Subfreezing temperatures (1)
- Submarine channel (1)
- Submarine permafrost (1)
- Submarine sediments (1)
- Submariner Permafrost (1)
- Submerged macrophytes (1)
- Submerged vegetation composition (1)
- Subsea permafrost (1)
- Substrate (1)
- Subsurface energy storage (1)
- Subterranean environment (1)
- Subtropical cyclones (1)
- Sulfate (1)
- Sumatran fault (1)
- Sumba Island (1)
- Summer and winter temperature (1)
- Supercontinent breakup (1)
- Supercontinent cycle (1)
- Support vector machine regression (1)
- Supra-subduction zone (1)
- Surface Exposure Age (1)
- Surface composition (1)
- Surface floods (1)
- Surface roughness parameters (1)
- Surface waves (1)
- Surface-to-borehole spectral ratios (1)
- Surface-wave methods (1)
- Susceptibility (1)
- Suspended sediment transport (1)
- Suspended-sediment yield (1)
- Sustainable cities (1)
- Sustainable development (1)
- Sustainable land use (1)
- Sustainable natural hazard management (1)
- Sutlej River (1)
- Swarm earthquakes (1)
- Symbology (1)
- Syn-eruptive Hyaloclastic deposits (1)
- Synchronization (1)
- Synchrotron X-ray (1)
- Synchrotron tomography (1)
- Syntectonic sedimentation (1)
- Synthetic pyroxene (1)
- Syria (1)
- System (1)
- Systematics (1)
- TDS-1 (1)
- TIN (1)
- TL of feldspar (1)
- TL-thermochronology (1)
- TLS (1)
- TOC (1)
- TRMM satellite data (1)
- Tailings ponds (1)
- Tajik Basin (1)
- Takab (1)
- TanDEM-X DEM (1)
- Tananao Complex (1)
- Tangible losses (1)
- Taphonomy (1)
- Taranaki Basin (1)
- Tarim Basin, NW China (1)
- Tarim basin (1)
- Tasseled Cap transformation (1)
- Tauride (1)
- Taurus petroleum system (1)
- Team (1)
- TechDemoSat-1 (TDS-1) (1)
- Tectonic Evolution (1)
- Tectonic Geomorphology (1)
- Tectonic deformation (1)
- Tectonic reconstruction (1)
- Tectonic uplift (1)
- Tectonic-climate coupling (1)
- Tectonics and climatic interactions (1)
- Temperate deciduous forest (1)
- Temperature sensitivity (1)
- Temperature time series (1)
- Temperaturerekonstruktion (1)
- Temporal clustering (1)
- Temporal dynamics (1)
- Temporal sensitivity (1)
- Temporal spread (1)
- Temporal stability of soil water fluxes (1)
- Temporal variability (1)
- Temporary pond (1)
- TerraSAR-X (1)
- Terrace reoccupation (1)
- Terraces (1)
- Terrain maps (1)
- Terrestrial C sink (1)
- Terrestrial ecosystem development (1)
- Testate amoeba shell (1)
- Testate amoebae (1)
- Testudines (1)
- Teteriv (1)
- Tetrahymanol (1)
- Th-232 (1)
- Th-U-Pb monazite age (1)
- Thaw lakes (1)
- The Geysers (1)
- The northern margin of the South China Sea (1)
- Theriak/Domino (1)
- Thermal electricity production (1)
- Thermal evolution (1)
- Thermo-mechanical modeling (1)
- Thermo-sensitive tracers (1)
- Thermobarometry (1)
- Thermodynamic modeling (1)
- Thermodynamic-geochemical modeling (1)
- Thermotoleranz (1)
- Tholeiite (1)
- Tholeiitic basalts (1)
- Thorichnus-Vatnaspor ichnoassemblage (1)
- Three-dimensional (1)
- Threshold (1)
- Thrombolites (1)
- Tian (1)
- Tian Shan piedmont (1)
- Tian shan (1)
- Tianshan orogenic belt (1)
- Tibetan plateau (1)
- Tidal marsh vegetation (1)
- Tien Shan (western Central Asia) (1)
- Tien Shan Mountains (1)
- Tile drain (1)
- Tillage (1)
- Tillage erosion (1)
- Time-lag effects (1)
- Time-lapse imaging (1)
- Tonian–Cryogenian (1)
- Topographic Wetness Index (TWI) (1)
- Topography reconstruction (1)
- Trace elements (1)
- Trace metals (1)
- Tracer (1)
- Tracers (1)
- Transbaikalia (1)
- Transfer functions (1)
- Transform fault (1)
- Transformation of hydrological signals (1)
- Transpression (1)
- Tree age distribution (1)
- Tree line (1)
- Tree species effect (1)
- Tree-based pursuit (1)
- Tree-ring (1)
- Tree-ring software (1)
- Tremp basin (1)
- Triaxial deformation (1)
- Triggered seismicity (1)
- Triphylite (1)
- Tristan mantle plume (1)
- Triticum aestivum L (1)
- Trophic interactions (1)
- Tropical dry deciduous forests (1)
- Tropical high mountains (1)
- Tropical montane forests (1)
- Tropical rainforest (1)
- Tropical storms (1)
- Tropics (1)
- Trout Lake (1)
- Tso Morari (1)
- Tsunami effect (1)
- Tsunamis (1)
- Tundra (1)
- Tundra-taiga ecotone (1)
- Tuning (1)
- Turbidite (1)
- Turbidite paleoseismology (1)
- Turbidity retrieval (1)
- Turkana depression (1)
- Tuscany (1)
- Tuz Golu Basin (1)
- Twitter (1)
- Type-I error (1)
- U (1)
- U/Pb dating of titanite (1)
- UAS (1)
- UAVs (1)
- UHP eclogites (1)
- UHP edogites and felsic gneisses (1)
- UHP exhumation (1)
- UHP metamorphism (1)
- UNESCO (1)
- UNFCCC (1)
- USLE (1)
- Uk'37 (1)
- Ukraine (1)
- Ultra-high pressure (UHP) (1)
- Ultra-low velocity zones (1)
- Ultrahigh-pressure (1)
- Uncertainty Processor (1)
- Uncertainty analysis (1)
- Uncertainty estimation (1)
- Unconventional gas (1)
- Unconventional gas production (1)
- Unconventional reservoir potential (1)
- Underground gas storage (1)
- Ungauged catchments (1)
- Uniformitarianism (1)
- Unsaturated zone (1)
- Unterrichtsmethoden (1)
- Uplift (1)
- Uplift Rate (1)
- Uplift rate (1)
- Upper Cambrian (1)
- Upper Indus Basin (1)
- Upper Permian Zechstein Group Northern Germany (1)
- Urban CO2 emissions (1)
- Urban Kaya relation (1)
- Urban ecosystem analysis (1)
- Urban energy (1)
- Urban learning lab (1)
- Urban scaling (1)
- Urban sprawl (1)
- Urban water cycle (1)
- V-S,V-30 (1)
- V-p (1)
- V-s profiles (1)
- V-s ratios (1)
- V-s,V-30 (1)
- VI (1)
- VLBI analysis (1)
- VOCs (1)
- Vadose zone (1)
- Valais ocean (1)
- Valley fill (1)
- Valley fills (1)
- Values (1)
- Van Krevelen diagram (1)
- Variability (1)
- Varve (1)
- Varve chronologies (1)
- Varve chronology (1)
- Varve counting (1)
- Varved lake sediments (1)
- Varved sediments (1)
- Varves (1)
- Vascular plants (1)
- Vegetation change (1)
- Vegetation composition (1)
- Vegetation diversity indices (1)
- Vegetation driver (1)
- Vegetation structure (1)
- Vegetation-climate disequilibrium (1)
- Vegetative reproduction (1)
- Velocity models (1)
- Vermicompost (1)
- Versalzung (1)
- Vertical flow filters (1)
- Vertical flux (1)
- Vertical pollen dispersal and deposition (1)
- Vertical resolution (1)
- Vertical-flow soil filter (1)
- Vertisol genesis (1)
- Vietnam (1)
- Vinoren (1)
- Virtual active seismic (1)
- Virulenz (1)
- Viscous blocking (1)
- Visitors (1)
- Visual system (1)
- Visualisation tool (1)
- Visualization (1)
- Volatiles (1)
- Volcan de Colima (1)
- Volcanic activity (1)
- Volcanic arc processes (1)
- Volcanic collapse (1)
- Volcanic disturbances (1)
- Volcanic rift zone (1)
- Volcanic rocks (1)
- Volcaniclastics (1)
- Volcanology (1)
- Volta Basin (1)
- Volume reconstruction (1)
- Vrica Subchron (1)
- Vulnerability mapping (1)
- W Cantabrian coast (1)
- WAPLS (1)
- WASA-SED (1)
- WGHM (1)
- WRF (1)
- WRF-Chem (1)
- WaSiM-ETH (1)
- Walker circulation (1)
- Wall paintings (1)
- Wasserhaushaltsgesetz (1)
- Water (1)
- Water Availability (1)
- Water balance (1)
- Water balance model (1)
- Water chemistry (1)
- Water demand (1)
- Water distribution (1)
- Water quality modelling (1)
- Water resources (1)
- Water stable isotope (1)
- Water storage (1)
- Water storage dynamic (1)
- Water transport (1)
- Water yield (1)
- Watershed (1)
- Wave (1)
- Wave scattering and diffraction (1)
- Wave-built terraces (1)
- Wavelet power spectrum (1)
- Wavelet transform (1)
- Wavelet transformation (1)
- Weather (1)
- Weather patterns (1)
- Weather radar (1)
- Weathering indices (1)
- Web maps (1)
- WebGL (1)
- Weighted model ensembles (1)
- Weighted-average partial least squares (1)
- Weights-of-Evidence (1)
- Well productivity (1)
- West Africa (1)
- West Bohemia (1)
- Western Africa (1)
- Western Alps (1)
- Western Bug (1)
- Western Interior Basin (1)
- Western Qaidam Basin (1)
- Wheat (1)
- White mica Ar-40/ Ar-39 spot ages (1)
- Wide-angle seismic (1)
- Wild bees (1)
- Willingness to pay (1)
- Willow tree (1)
- Wind model (1)
- Wind modelling (1)
- Wind tunnel experiments (1)
- Within-field variation (1)
- Woodchips (1)
- Woody coverage (1)
- WorldDEM (1)
- WorldView-2 (1)
- Wuchiapingian (1)
- X-radiography (1)
- X-ray Raman scattering (1)
- X-ray fluorescence (1)
- X-ray mapping (1)
- XRF analysis (1)
- XRF data (1)
- Xigaze ophiolite (1)
- Xining Basin (1)
- Xinjiang (1)
- Yakutia (1)
- Yamal (1)
- Yangtze River (1)
- Yarlung Tsangpo (1)
- Yedoma Ice Complex (1)
- Yucatan Peninsula (1)
- Yukon (1)
- Yuli belt (1)
- Yurtus Formation (1)
- Z-P approach (1)
- ZHe tracer thermochronology (1)
- Zagros forests (1)
- Zanskar (1)
- Zechstein salt (1)
- Zechstein-Buntsandstein interval (1)
- Zelezna hurka (1)
- Zeolites (1)
- Zermatt-Saas (1)
- Ziphiidae (1)
- Zircon U-Pb age (1)
- Zircon U-Pb dating (1)
- Zircon U/Pb and Pb-Pb ages (1)
- Zircon age (1)
- Zircon dating (1)
- Zooxanthellate corals (1)
- aboveground biomass (1)
- absorption (1)
- acceptability (1)
- accessory minerals (1)
- accommodation-space (1)
- accountability (1)
- accretionary complex (1)
- accretionary prism (1)
- accumulation in soils (1)
- acidophilic microorganisms (1)
- acoustic emission (1)
- acoustic emissions (1)
- action plan (1)
- active continental margin (1)
- active layer (1)
- actively growing bacteria (AGB) (1)
- adaption measure (1)
- adaptive management (1)
- administrative units (1)
- adsorption (1)
- advection (1)
- aeolian (1)
- aeolian input (1)
- aerobic respiration (1)
- aerosols (1)
- afforestation (1)
- age class forest (1)
- age resetting (1)
- age-depth model (1)
- age-elevation relationships (1)
- agent-based models (1)
- agglomeration (1)
- aggradation-incision cycles (1)
- agricultural productivity (1)
- agricultural soils (1)
- agroecosystem (1)
- aillikite (1)
- airborne (1)
- airborne geophysics (1)
- airglow (1)
- albedo (1)
- algorithms (1)
- alkaline granites (1)
- alkaline lake (1)
- alluvial fans (1)
- alluvial-fan sedimentation (1)
- alpine (1)
- alpine environment (1)
- alpine grassland degradation (1)
- alps (1)
- altitudinal zonation (1)
- alveolinaceans (1)
- ambition (1)
- ammonia (1)
- ammonia volatilization (1)
- amphibole (1)
- amplicon sequencing (1)
- analog experiment (1)
- analog modeling (1)
- analog models (1)
- and Granite Magmatism (1)
- andean geology (1)
- anhydrite inclusions (1)
- animal calories (1)
- anorthite (1)
- anoxia (1)
- ant mounds (1)
- antibiotic resistance (1)
- antimicrobial resistance (1)
- apatite (1)
- apatite (U-Th-Sm)/He thermochronology (1)
- apatite fission track (1)
- apatite fission-track (1)
- apatite fission-track thermochronology (1)
- apatite helium thermochronology (1)
- aquifer-river interface (1)
- archaeology (1)
- architecture (1)
- arctic tundra (1)
- arctic water bodies (1)
- arctic-alpine environments (1)
- area-average snow monitoring (1)
- aridification (1)
- arktische Klimaänderung (1)
- artefact avoidance (1)
- artificial light (1)
- artificial light at night (1)
- artificial neural networks (1)
- artificially drained lowland (1)
- assimilation (1)
- asthenosphere (1)
- astronomical calibration (1)
- asymmetric rifting (1)
- atlantic (1)
- atmosphere (1)
- atmosphere-only climate model simulations (1)
- atmospheric aerosols (1)
- atmospheric circulation (1)
- atmospheric deposition (1)
- attenuation (1)
- attitudes (1)
- attitudinal transects (1)
- attraction (1)
- attributes (1)
- attribution (1)
- autocorrelation (1)
- automated monitoring (1)
- automatic chambers (1)
- automatic lineament extraction (1)
- automatic processing (1)
- autotrophic respiration (1)
- back arc basin (1)
- bacterial community composition (1)
- bandgap (1)
- bank infiltration (1)
- base-level fall (1)
- baseflow (1)
- basin modeling (1)
- bat fatalities (1)
- beaver (1)
- bed disturbance (1)
- bedload transport (1)
- bedrock-alluvial channels (1)
- behavioral adaptation (1)
- belowground biomass (1)
- bentonite (1)
- berylium-10 (1)
- beryllium (1)
- best practices (1)
- biodiversity decline (1)
- biofilm (1)
- biogas (1)
- biogeochemistry (1)
- biogeographic provinces (1)
- biogeography (1)
- bioindicators (1)
- biological invasion (1)
- biomanipulation (1)
- biomarkers (1)
- biomaterial (1)
- biomineralization (1)
- biosynthetic fractionation (1)
- black carbon (1)
- blueSeis-3A sensors (1)
- body condition (1)
- body growth rate (1)
- bond strength (1)
- bonding transition (1)
- boosting (1)
- boreal forests (1)
- borehole leakage (1)
- bottom sediments (1)
- boundary element modeling (1)
- boundary exchange (1)
- boundary scavenging (1)
- box turtles (1)
- brackish marsh (1)
- braided alluvial rivers (1)
- branched GDGTs (1)
- breaches (1)
- breccia (1)
- broadband seismometer (1)
- bromeliad (1)
- bromodeoxyuridine (BrdU) immunocytochemistry (1)
- brown (1)
- brushite (1)
- bryophytes (1)
- bubble trap (1)
- bulk chemistry (1)
- burning (1)
- calc-alkaline (1)
- calcium (1)
- caldera collapse (1)
- calderas (1)
- calibration (1)
- canopy height (1)
- capacitive sensors (1)
- captive breeding (1)
- carbon burial (1)
- carbon capture and storage (CCS) (1)
- carbon capture and utilization (CCU) (1)
- carbon density (1)
- carbon export (1)
- carbon flows (1)
- carbon fluxes (1)
- carbon isotopes (1)
- carbon sequestration (1)
- carbon stabilization (1)
- carbon-cycle (1)
- carbonate assimilation (1)
- carbonate precipitation (1)
- carbonate ramp (1)
- carbonates (1)
- carbonatites (1)
- carnallite (1)
- carnivora (1)
- cartography (1)
- case history (1)
- cash crops (1)
- cataclasite (1)
- catchment connectivity (1)
- catchment scale (1)
- catchments (1)
- cell separation (1)
- cellulose (1)
- cement (1)
- cementation (1)
- central Andean foreland (1)
- central Mediterranean (1)
- central Mongolia (1)
- central Poland (1)
- central south island (1)
- channel geometry (1)
- channel migration (1)
- channel projection (1)
- channel steepness (1)
- channel transmission losses (1)
- channel width (1)
- characteristics (1)
- charcoal (1)
- chemical weathering (1)
- chemical-mechanical interaction (1)
- chemistry (1)
- chemocline (1)
- chlorite (1)
- chlorite-phengite thermobarometry (1)
- chloritoid micaschist (1)
- chloritoid stability (1)
- cholecalciferol (1)
- choppering (1)
- chronological construction (1)
- chronology (AICC2012) (1)
- chronostratigraphy (1)
- chronostratigrapy (1)
- circulation (1)
- city district (1)
- classification (1)
- clay mineral (1)
- clay organic coating (1)
- clay sediments (1)
- climate action (1)
- climate adaptation (1)
- climate change co-operation (1)
- climate change cooperation (1)
- climate clubs (1)
- climate instability (1)
- climate networks (1)
- climate reconstructions (1)
- climate time series analysis (1)
- climate transition (1)
- climate variability (1)
- climate warming (1)
- climate-carbon cycle feedbacks (1)
- climate-change mitigation (1)
- climate-change policy (1)
- climate-tectonic feedback processes (1)
- climate-tectonic feedbacks (1)
- climatic and tectonic forcing (1)
- climatology (1)
- clinopyroxenite (1)
- clockwise P-T path (1)
- clonal growth (1)
- closed forest (1)
- club goods (1)
- cluster analysis (1)
- co-benefits (1)
- coastal flooding (1)
- coastal floods (1)
- coastal sand dunes (1)
- coefficient of determination (1)
- coesite (1)
- coexistence (1)
- coexisting phases (1)
- coherence (1)
- coherent noise (1)
- cold surges (1)
- companies (1)
- competition (1)
- competition-defense trade-off (1)
- complexes (1)
- compliance (1)
- components (1)
- composite properties (1)
- compositional gap (1)
- compositional map (1)
- compositional species turnover (1)
- computational fluid dynamics (1)
- computational geosciences (1)
- concentration (1)
- conditional commitments (1)
- conductivity map (1)
- conservation planning (1)
- conservation units (1)
- conservative (1)
- contamination processes (1)
- continental break-up (1)
- continental breakup (1)
- continental collision (1)
- continental lithosphere (1)
- continental neotectonics (1)
- continental rifting (1)
- continental rifts (1)
- continental shelf (1)
- continuous modelling (1)
- continuous snowpack monitoring (1)
- controlled drainage (1)
- convective available potential energy (1)
- convective available potential energy (CAPE) (1)
- convective rainfall (1)
- coordination transformation (1)
- coral (1)
- core flow (1)
- core-shell (1)
- coregistration (1)
- correlation skill (1)
- correlations (1)
- corridors (1)
- cosmogenic burial dating (1)
- cosmogenic erosion rates (1)
- cosmogenic nuclide-dating (1)
- cosmogenic radionuclides (1)
- cost of electricity (COE) (1)
- cost-benefit analysis (1)
- costs of infrastructure (1)
- coumatetralyl (1)
- coupled fluid and heat transport (1)
- covalency (1)
- critical infrastructure resilience (1)
- critical meteorological condition (1)
- crop products (1)
- cross-calibration (1)
- crown roots (1)
- crustal anatexis (1)
- crustal density structure (1)
- crustal fault (1)
- crustal magma chamber (1)
- cryostratigraphy (1)
- crystal growth rate (1)
- crystal nucleation (1)
- crystalline (1)
- cuticle (1)
- cycle (1)
- cyclic stratigraphy (1)
- daily-discharge time (1)
- damage assessment (1)
- damage estimation (1)
- damage model (1)
- damage surveys (1)
- damaging processes (1)
- dams (1)
- data (1)
- data archeology (1)
- data based model (1)
- data fusion (1)
- data scarcity (1)
- data science (1)
- data-based (1)
- data-mining (1)
- databases (1)
- debris avalanche (1)
- debris flows (1)
- debris-flow topography (1)
- decision making (1)
- decision tree (1)
- decompression (1)
- deep convection (1)
- deep long-period earthquakes (1)
- deep low-frequency earthquakes (1)
- deep-level mining (1)
- deep-marine sedimentary processes (1)
- defense against predation (1)
- deforestation (1)
- deformation monitoring (1)
- deglaciation (1)
- degradation (1)
- dehydration (1)
- delayed fluorescence (1)
- delta O-18 (1)
- delta drift (1)
- delta-c-13 (1)
- dendroclimatology (1)
- dendroecology (1)
- dendrometer measurements (1)
- denitrification (1)
- density dependence (1)
- density-driven (1)
- density-driven flow (1)
- density-functional theory (1)
- dependence (1)
- depletion amplitude (1)
- depositional environment (1)
- derived flood frequency (1)
- derived flood risk analysis (1)
- deshadowing (1)
- design (1)
- detachment folds (1)
- deterministic (1)
- detrital carbonate (1)
- detrital geochronology and thermochronology (1)
- detrital zircons (1)
- dew-point temperature (1)
- diagnostics (1)
- diamond (1)
- diatom indicator species (1)
- diatom-bound nitrogen isotopes (1)
- differential split-sample test (1)
- diffusion (1)
- digital core reconstruction (1)
- digital elevation models (1)
- digital grain sizing (1)
- digital terrain analysis (1)
- dike (1)
- dike intrusion (1)
- dike propagation (1)
- dike-induced seismicity (1)
- dike-induced stresses (1)
- diorite (1)
- direct georeferencing (1)
- disaster risk (1)
- disaster risk reduction (1)
- discharge pattern (1)
- discharge variability (1)
- discontinuity surfaces (1)
- disinfection (1)
- dislocation creep (1)
- dispersion maxima (1)
- dissolution properties (1)
- dissolved (1)
- dissolved silica concentration (1)
- distal turbidites (1)
- distributed volcanic fields (1)
- distribution (1)
- disturbance (1)
- disturbance tracking (1)
- ditch irrigation (1)
- ditch system (1)
- diurnal signal (1)
- dolerite (1)
- doming (1)
- double diffusive convection (1)
- downscaling (1)
- downstream fining (1)
- drainage (1)
- drainage network expansion (1)
- drained lake basins (1)
- drought stress (1)
- dryland rivers (1)
- drylands (1)
- dumortierite (1)
- duplex (1)
- dust emission and deposition (1)
- dust sources (1)
- dynamic topography (1)
- dynamical seasonal prediction (1)
- eDNA (1)
- early Holocene (1)
- early eocene (1)
- earth surface processes (1)
- earth system model (1)
- earth system sciences (1)
- earthflow (1)
- earthquake cycle (1)
- earthquake deformation (1)
- earthquake hazard analysis (1)
- earthquake hydrology (1)
- earthquake modeling (1)
- earthquake nucleation (1)
- earthquake sequences (1)
- earthquake source (1)
- earthworm ecological types (1)
- east Africa (1)
- east African rift (1)
- eastern Mediterranean (1)
- eastern Qiangtang terrane (1)
- eastern asia (1)
- eastern south–central Andes (1)
- eclogites (1)
- eco-hydrology (1)
- ecohydrological modelling (1)
- ecological forecasts (1)
- ecological indication (1)
- ecological succession (1)
- ecological theory (1)
- ecology (1)
- economics (1)
- ecosystem change (1)
- ecosystem service cascade (1)
- ecosystem-based adaptation (1)
- ecosystems (1)
- effective elastic properties (1)
- effectiveness (1)
- efficient method (1)
- elastic geobarometry (1)
- elastic rock properties (1)
- elastic waves (1)
- elastin-like recombinamers (1)
- electric fields and currents (1)
- electrical resistivity tomography (1)
- electricity generation (1)
- electromagnetic (1)
- electromagnetic imaging (1)
- electromagnetic scattering (1)
- electromagnetics (1)
- electron lifetime (1)
- electron microprobe (1)
- electron transport (1)
- electronic structure (1)
- electrons (1)
- elevated CO2 (1)
- emergency (1)
- emergency management (1)
- emergency preparedness (1)
- emergency response (1)
- empirical (1)
- end-member mixing (1)
- energy security (1)
- energy transfer (1)
- enhanced geothermal systems (EGS) (1)
- ensemble modeling (1)
- environmental change (1)
- environmental remediation (1)
- environmental seismology (1)
- environmentalism (1)
- eocene thermal maximum (1)
- epistemic (1)
- epsilon Nd (1)
- equations (1)
- equatorial electrojet (EEJ) (1)
- equatorial plasma depletion (1)
- equilibrium assemblage (1)
- erosion rate (1)
- erosion rates (1)
- erosion-climate link (1)
- eruption (1)
- eruptions (1)
- eruptive cycle (1)
- eutrophication (1)
- evaporite minerals (1)
- event coincidence analysis (1)
- events (1)
- ex-ante impact assessment (1)
- exhumation and uplift (1)
- expedition (1)
- experimental catchments (1)
- experimental design (1)
- experimental petrology (1)
- experiments (1)
- exploration (1)
- exsolution microstructures (1)
- exsolution textures (1)
- extent of rhizosphere (1)
- extinction event (1)
- extreme discharge (1)
- extreme events (1)
- extremes (1)
- facilitation (1)
- falling sphere viscosimetry (1)
- fallout radionuclides (1)
- farmland biodiversity (1)
- fatigue (1)
- fatty acids (1)
- fault bend (1)
- fault bend fold (1)
- fault creep (1)
- fault interaction (1)
- fault linkage (1)
- fault network (1)
- fault zone (1)
- faulting behavior (1)
- faults (1)
- feedback (1)
- feeding trait (1)
- fenite (1)
- fens (1)
- ferropicrite magmas (1)
- fine fraction (1)
- finite element modeling (1)
- fire (1)
- fire history (1)
- fission track thermochronology (1)
- fission-track (1)
- flash flood (1)
- flat-slab (1)
- flat-slab subduction (1)
- flexible model (1)
- flood damage (1)
- flood events (1)
- flood generating processes (1)
- flood genesis (1)
- flood hazard (1)
- flood hazard mapping; (1)
- flood loss estimation (1)
- flood loss model transfer (1)
- flood mechanisms (1)
- flood modelling; (1)
- flood risk analysis (1)
- flood seasonality (1)
- flood typology (1)
- floodplain wetlands (1)
- floodplains (1)
- flow accumulation (1)
- flow cytometry (1)
- flow regime (1)
- flow velocity (1)
- flow-through experiment (1)
- flowering time (1)
- fluid flow and thermal modelling (1)
- fluid injection (1)
- fluid regime (1)
- fluorescence (1)
- fluorescence imaging (1)
- fluorescence-activated cell sorting (FACS) (1)
- fluvial (1)
- fluvial floods (1)
- fluvial response (1)
- fluvial strath terraces (1)
- fluvial terrace (1)
- fluvial terraces (1)
- flux (1)
- flux tracking (1)
- focal mechanisms (1)
- folds (1)
- food grain policies (1)
- food quality (1)
- food security (1)
- food systems (1)
- food web (1)
- fore arc (1)
- forearc (1)
- forecast (1)
- foreland basin (1)
- foreland-basin stratigraphy (1)
- forest change (1)
- forest structure (1)
- fossil pollen (1)
- fracking (1)
- fractional snow cover (1)
- fracture aperture (1)
- fracture growth (1)
- freeze-thaw cycling (1)
- frequency-domain electromagnetics (1)
- freshwater biodiversity (1)
- freshwater ecosystems (1)
- freshwater ostracods (1)
- frictional melt (1)
- frictional properties (1)
- frontal accretion (1)
- frost‐ cracking (1)
- frozen soil (1)
- full (1)
- functional response (1)
- functional trait correlations (1)
- functional traits (1)
- fundamental frequency (1)
- fungi (1)
- fuzzy logic (1)
- gabbros (1)
- gap analysis (1)
- gas partial pressure (1)
- gas storage (1)
- gas supply conditions (1)
- gas-solid (1)
- gaylussite (1)
- gender (1)
- gene sequencing (1)
- generative model (1)
- generic sampling (1)
- geo-bio interaction (1)
- geochemical cycling (1)
- geodynamic evolution of SE Anatolia (1)
- geodynamic modeling (1)
- geoecology (1)
- geographical range shifts (1)
- geoinformatics (1)
- geologic hazards (1)
- geologic versus geodetic rates (1)
- geomagnetic (1)
- geomagnetic indices (1)
- geomagnetic observatory data (1)
- geomagnetic storm drivers (1)
- geomagnetism (1)
- geomodeling (1)
- geomorphic connectivity (1)
- geomorphic markers (1)
- geostatistics (1)
- geothermal reservoir (1)
- geo–bio interaction (1)
- giant earthquakes (1)
- glacial and interglacial permafrost (1)
- glacial buzzsaw (1)
- glacial equilibrium (1)
- glacial geomorphology (1)
- glacial lakes (1)
- glacial-interglacial cycles (1)
- glacier chemistry (1)
- glacier flow (1)
- glacier melt (1)
- glacier variation (1)
- glacierized basins (1)
- glaciers (1)
- glaciolacustrine sediment (1)
- glaciological instruments and methods (1)
- glass (1)
- glasses (1)
- global (1)
- global Si cycle (1)
- global climate (1)
- global microbial biomass (1)
- global monsoon (1)
- global sensitivity analysis (1)
- gneiss domes (1)
- gold (1)
- grain (1)
- grain boundary sliding (1)
- grain storage (1)
- granite (1)
- granite melts (1)
- granulite (1)
- graphitization (1)
- grassland vegetation (1)
- grasslands (1)
- gravitational collapse (1)
- gravity modeling (1)
- gravity observations (1)
- gravity-driven slope deformation (1)
- grazing defence (1)
- green algae (1)
- green infrastructure (1)
- green-green dilemma (1)
- greenhouse gas emissions (1)
- gridded data (1)
- ground ice (1)
- ground motion modeling (1)
- ground motion models (1)
- ground motion prediction equations (1)
- ground response analysis (1)
- ground-motion modelling (1)
- groundwater (1)
- groundwater age (1)
- groundwater dynamics (1)
- groundwater flow modeling (1)
- groundwater level (1)
- groundwater lysimeter (1)
- groundwater surface water interaction (1)
- groundwater table (1)
- groundwater vulnerability (1)
- groundwater-surface water (1)
- groundwater-surface water exchange (1)
- groundwater-surface water interaction (1)
- growth rate (1)
- growth response (1)
- growth strata (1)
- growth structures (1)
- guano (1)
- gulf coastal plain (1)
- habitat modeling (1)
- habitat suitability models (1)
- hafnium analysis (1)
- hafnon (1)
- hanging wall (1)
- hardgrounds (1)
- heat flow (1)
- heat tracing (1)
- heat-stress (1)
- heavy metals (1)
- heavy-tailed distributions (1)
- hemolysins (1)
- hemolysis (1)
- herd composition (1)
- heterogeneity in soil hydraulic properties (1)
- heterotrophic respiration (1)
- heuristic analysis (1)
- hexadecane (1)
- high mountain environments (1)
- high pressure and temperature (1)
- high pressure research (1)
- high spatial resolution (1)
- high temperature (1)
- high temporal resolution (1)
- high-Pmetamorphism (1)
- high-density reservoir network (1)
- high-frequency data (1)
- high-precision gravimeter (1)
- high-pressure and Barrovian-type metamorphism (1)
- high-pressure incubation system (1)
- high-pressure metamorphism (1)
- high-pressure metasedimentary rocks (1)
- high-resolution biomarkers (1)
- high-resolution record (1)
- higher education (1)
- hillslope (1)
- hiss waves (1)
- historical geography (1)
- historical geomagnetic storms (1)
- historische Hochwasser (1)
- hominin (1)
- hominins (1)
- hotspot (1)
- huddle test (1)
- human evolution (1)
- human settlement (1)
- human-environment system (1)
- hummocky (1)
- hybrid (1)
- hybrid modelling (1)
- hydrate formation (1)
- hydrate formation process (1)
- hydraulic conductivity (1)
- hydraulic fracturing (1)
- hydro-geological system (1)
- hydro-meterological hazards (1)
- hydrocarbon field (1)
- hydrocarbons (1)
- hydrochemistry (1)
- hydroclimatology (1)
- hydroclimatology of floods (1)
- hydrodynamic interactions (1)
- hydrodynamic level (1)
- hydrogen (1)
- hydrogen stable isotopes (1)
- hydrogenase (1)
- hydrogeology (1)
- hydrograph partitioning curves (1)
- hydrologic modeling (1)
- hydrological behaviour (1)
- hydrological conditioning (1)
- hydrological modeling (1)
- hydrological modelling (1)
- hydrological signatures (1)
- hydrometric network design (1)
- hydrothermal alteration (1)
- hydrothermal system; (1)
- hydrothermal systems (1)
- hydrous melt (1)
- hydroxyapatite (1)
- hydroyxapatite (1)
- hyperaridity (1)
- hypersaline lake (1)
- hyperspectral (1)
- hypothetical trend (1)
- hysteresis pattern (1)
- ice (1)
- ice dynamics (1)
- ice sheet (1)
- ice-grain mixture (1)
- ice-rafted debris (1)
- ice-sheet modelling (1)
- ice-shelf tributary glaciers (1)
- identifiability analysis (1)
- identifying influential nodes (1)
- igneous texture (1)
- ilmenite (1)
- image enhancement (1)
- immersive 3D geovisualization (1)
- immobilization (1)
- impact forecasting (1)
- impacts (1)
- impoundment rate (1)
- in (1)
- in situ stress (1)
- in-flight (1)
- in-stream gravel bar (1)
- inclusions (1)
- indigenous people (1)
- indirect facilitation (1)
- individual-based model (1)
- industrial ecology (1)
- inelastic X-ray scattering (1)
- inelastic properties (1)
- inference (1)
- infiltration (1)
- infiltration patterns (1)
- infrared spectroscopy (1)
- inheritance (1)
- injections (1)
- injectivity (1)
- inner magnetosphere (1)
- innovation (1)
- input-output (I-O) analysis (1)
- insects (1)
- insights (1)
- intangible impacts (1)
- integrated modelling (1)
- integrated river basin management (1)
- integrated river basin modelling (1)
- integrative modelling framework (1)
- intensification (1)
- interaction (1)
- interannual variability (1)
- intercultural understanding (1)
- interdisciplinarity (1)
- interdisciplinary research (1)
- interferometric SAR (InSAR) (1)
- intermontane basins (1)
- intermontane valleys (1)
- internal structure (1)
- interpretation (1)
- intrabasinal faulting (1)
- intracontinental deformation (1)
- intraplate deformation (1)
- inundation (1)
- inundation simulation (1)
- inverse analysis (1)
- inverse modeling (1)
- inverse modelling (1)
- inverse problem (1)
- inversion (1)
- inversion tectonics (1)
- ionic conductivity (1)
- ionospheric irregularities (1)
- iron (1)
- iron feature depth (IFD) (1)
- irrigation (1)
- irrigation runoff (1)
- isotopic analysis (1)
- isotopic methods (1)
- kettle hole (1)
- kinematic analysis (1)
- knickzone (1)
- kokchetavite (1)
- kumdykolite (1)
- lacustrine primary productivity (LPP) (1)
- lagoon (1)
- lagoons (1)
- lake (1)
- lake Donggi Cona (1)
- lake catchments (1)
- lake change (1)
- lake drainage (1)
- lake dynamics (1)
- lake eutrophication (1)
- lake monitoring (1)
- lake shoreline (1)
- lake stratification (1)
- lake-level changes (1)
- laminography (1)
- land conversion (1)
- land degradation (1)
- land restoration; NDVI (1)
- land use (1)
- land use and land cover change (1)
- land use functions (1)
- land-use (1)
- land-use intensity (1)
- landsat (1)
- landscape connectivity (1)
- landscape effect (1)
- landscape evolution modeling (1)
- landscape response to climate change (1)
- landscape transience (1)
- lanthanides (1)
- lanthanoid migration (1)
- larger foraminifera (1)
- last glacial (1)
- last glacial period (1)
- late Palaeozoic (1)
- lateglacial (1)
- lateral erosion (1)
- lateral fluxes (1)
- lateral spread (1)
- laterally constrained inversion (1)
- latitude (1)
- lattice preferred orientations (1)
- lava dome (1)
- layered mafic intrusion (1)
- leading edge (1)
- leaf water evaporative H-2-enrichment (1)
- leaf wax delta D (1)
- leaf wax n-alkanes (1)
- leaf-wax n-alkane delta D (1)
- learning success (1)
- legume-grass mixture (1)
- length measurements (1)
- length of day (1)
- level (1)
- lichens (1)
- life-history strategy (1)
- light (1)
- light pollution (1)
- limestone (1)
- lipid metabolism (1)
- liquid structure (1)
- liquids (1)
- lithic technology development (1)
- lithium pegmatites (1)
- lithium-ion battery electrolyte (1)
- lithofacies proportion modeling (1)
- lithology (1)
- lithosphere dynamics (1)
- lithosphere-asthenosphere boundary (1)
- lithosphere-mantle wind interactions (1)
- lithospheric layering (1)
- littoral zone (1)
- livestock (1)
- livestock feed (1)
- lizard (1)
- load stress (1)
- loading conditions (1)
- local adaptation (1)
- local food (1)
- localization (1)
- localized flooding (1)
- location (1)
- location of scatterers (1)
- locking degree (1)
- lonar lake (1)
- loss and damage (1)
- low molecular weight organic acids (1)
- low temperature chronology (1)
- low velocity zone (1)
- low-frequency (1)
- low-grade metamorphism (1)
- low-relief (1)
- lower crustal bodies (1)
- luminescence dating (1)
- lumped parameter model (1)
- lunar tide (1)
- lunar tide of EEJ (1)
- lupin (1)
- machine-learning (1)
- macroecology (1)
- macropore flow (1)
- macropores (1)
- mafic migmatite (1)
- magma evolution (1)
- magma ocean (1)
- magma plumbing system (1)
- magma reservoirs (1)
- magma-poor (1)
- magmatic arc (1)
- magmatic processes (1)
- magmatic underplating (1)
- magmatism (1)
- magnesiodumortierite (1)
- magnesium silicate skarn (1)
- magnetic fabric (1)
- magnetic parameters (1)
- magnetic surveying (1)
- magnetics (1)
- magnetosphere (1)
- magnetospheric convection (1)
- magnetotellurics (1)
- magnitude & frequency (1)
- maize (1)
- majorite (1)
- mantle convection (1)
- mantle deformation (1)
- mantle discontinuities (1)
- mantle evolution (1)
- mantle flow modeling (1)
- mantle formation (1)
- mantle plume (1)
- mapping (1)
- marble (1)
- margins (1)
- marine-controlled source electromagnetic method (1)
- mass exchange (1)
- mass spectrometry (1)
- mass wasting (1)
- mathematical geology (1)
- maximum (1)
- maximum entropy (MaxEnt) (1)
- meadow (1)
- mean transit time (1)
- measurement frequency (1)
- mechanical pressure (1)
- mechanism (1)
- mechanistic model (1)
- mechanistic models (1)
- mega-monsoon (1)
- megathrust (1)
- megathrust earthquake (1)
- melilitite (1)
- melt inclusions; nanocarbonatites (1)
- melt-melt immiscibility (1)
- melting (1)
- melts (1)
- memory (1)
- meridional overturning circulation (1)
- meso-scale ecosystems (1)
- mesoscale convective systems (1)
- meta-ophiolites (1)
- meta-pelites (1)
- metagenomic analysis (1)
- metal recycling plants (1)
- metal- organic frameworks (1)
- metal-containing ionic (1)
- metal-containing ionic liquids; (1)
- metaophiolite (1)
- metapelitic rock (1)
- metasomatism (1)
- meteoric 10Be (1)
- meteoric diagenesis (1)
- meteorological drought (1)
- meteorology and atmospheric dynamics (1)
- methane hydrate (1)
- methanogenic archaea (1)
- methanol (1)
- methods (1)
- micro-CT scan (1)
- microbes (1)
- microbial community (1)
- microbial diversity (1)
- microbial lipid (1)
- microbialite (1)
- microbiology (1)
- microdiamond (1)
- microfossil (1)
- microporous materials (1)
- microsatellites (1)
- microscopy (1)
- microseisms (1)
- mid-latitude Westerlies (1)
- mid-latitudes flow (1)
- mid-lithospheric discontinuity (1)
- midlatitude nighttime magnetic fluctuation (1)
- mine waste (1)
- mineral deposits (1)
- mineral mapping (1)
- mineralization (1)
- minimum gradient support regularization (1)
- mining sciences (1)
- minirhizotron (1)
- mire (1)
- miscibility gap (1)
- mitigation (1)
- mixed cropping (1)
- mixed gas hydrates (1)
- mobile Raman-microprobe (1)
- model calibration (1)
- model enhancement (1)
- model selection (1)
- model structure (1)
- model validation (1)
- modelling systems (1)
- modern pollen (1)
- modern surface pollen (1)
- modern surface sediments (1)
- mofette systems (1)
- moisture variations in India (1)
- monitoring network (1)
- monsoon onset (1)
- monsoon river hydrology (1)
- monsunale Variabilität (1)
- moraine (1)
- moraine landscape (1)
- morphological adaptation (1)
- morphological traits (1)
- morphometric indices (1)
- morphometry (1)
- morphotypes (1)
- mosaicking (1)
- motivation theory (1)
- mountain birch (1)
- mountain geomorphology (1)
- mountains (1)
- mountains near cities (1)
- movement (1)
- mu RF (1)
- multi-attribute (1)
- multi-proxy reconstructions (1)
- multi-scale (MA-MS) proportion calibration (1)
- multi-slab (1)
- multi-spectral analysis (1)
- multi-stage diagenesis (1)
- multi-taxon (1)
- multi-temporal RapidEye satellite data (1)
- multi-thermochronometer (1)
- multi-year insurance (1)
- multidrug-resistant Escherichia coli (1)
- multilevel probabilistic flood loss model (1)
- multiobjective calibration (1)
- multiparameter (1)
- multiperspective reception of AvH (1)
- multisensor (1)
- multisensor system (1)
- multispectral (1)
- multitemporal (1)
- multivariable (1)
- multivariate Statistik (1)
- multiyear drought (1)
- multi‐ temporal analyses (1)
- municipality (1)
- mylonite (1)
- n-Alkane (1)
- n-alkanes (1)
- nanocomposite material (1)
- nanogranite (1)
- nanogranitoids (1)
- natural dams (1)
- natural hazard (1)
- natural hazard management (1)
- nature conservation (1)
- nature-based solutions (NBS) (1)
- near surface (1)
- near-surface monitoring (1)
- neotectonics (1)
- nested catchments (1)
- nested plot (1)
- network analysis (1)
- neutron imaging (1)
- neutron radiography (1)
- neutron simulations (1)
- neutron tomography (1)
- night lights (1)
- nightlights (1)
- nighttime MSTID (1)
- nitrate export dynamic (1)
- nitrogen biogeochemistry (1)
- noble gases (1)
- noise cross (1)
- non-double-couple components (1)
- non-resonant inelastic X-ray scattering (1)
- non-state actors (1)
- non-vascular epiphyte (1)
- nonstationarity (1)
- nontidal ocean loading (1)
- nordatlantische Klimaänderung (1)
- normal-fault evolution (1)
- north-atlantic (1)
- north-eastern Brazil (1)
- north-western Argentina (1)
- northern Eurasia (1)
- northern Kenya Rift (1)
- northern Puna (1)
- northern high latitudes (1)
- northwestern Europe (1)
- northwestern Iran (1)
- numerical models (1)
- numerical solution (1)
- numerics (1)
- nutrient retention (1)
- nutrient status (1)
- object-based damage modeling (1)
- object-based image analysis (1)
- ocean acidification (1)
- ocean bottom seismology (1)
- ocean circulation (1)
- ocean surface (1)
- ocean-crust formation (1)
- oceanic lithosphere (1)
- oceanic lithosphere and mantle (1)
- oceanic transform and fracture zone processes (1)
- oceans (1)
- offscraping (1)
- oligocene climate (1)
- ongonite (1)
- online (1)
- open (1)
- open data (1)
- operational service (1)
- ophiolite (1)
- opinion (1)
- optical cell (1)
- optical data (1)
- optical remote sensing (1)
- optical sensors (1)
- optically stimulated luminescence (1)
- optimization (1)
- optimum temperature (1)
- orbital forcing (1)
- ordination (1)
- organic carbon cycle (1)
- organic geochemistry (1)
- organic layer (1)
- origination (1)
- orogen-parallel extension (1)
- orogenic plateau evolution (1)
- orogenic wedge (1)
- orographic barrier (1)
- orographic barrier uplift (1)
- ostracod shells (1)
- out-of-sequence deformation (1)
- outburst flood (1)
- overwintering (1)
- oxidation state (1)
- oxidizer (1)
- oxygen (1)
- oxygen dynamics (1)
- oxygen fractionation model (1)
- oxygen isotopes (1)
- pH dynamics (1)
- pH mapping (1)
- palaeoclimate reconstruction (1)
- palaeoclimate records (1)
- palaeoclimatology (1)
- palaeolimnology (1)
- paleo-delta (1)
- paleo-erosion rate (1)
- paleo-erosion rates (1)
- paleo-sediment (1)
- paleoaltimetry proxies (1)
- paleoceanography (1)
- paleoclimate proxy (1)
- paleoclimatic reconstructions (1)
- paleoclimatology (1)
- paleoelevation (1)
- paleoenvironment (1)
- paleohydrology (1)
- paleomagnetism and rock magnetism (1)
- paleomagnetism applied to tectonics (1)
- paleoreservoir age (1)
- paleosol (1)
- paleosol sequence (1)
- parallel evolution (1)
- parameter emulation (1)
- parameter estimation (1)
- parameterization (1)
- parametric and nonparametric comparison (1)
- parametric georeferencing (1)
- parasitism (1)
- parathyroid hormone (1)
- pargasite (1)
- part 1 (1)
- part I (1)
- particle size (1)
- particulate organic carbon (1)
- passive continental margin (1)
- passive microwave (1)
- passive seismic monitoring (1)
- past circulation (1)
- pastoral abandonment (1)
- pasture (1)
- patched vegetation cover (1)
- patterned ground (1)
- peak discharge (1)
- peak-temperature pattern (1)
- peat characterization (1)
- peatland carbon storage (1)
- peatland geomorphology (1)
- peatland hydrology (1)
- pebblecounts (1)
- pegmatite (1)
- pelagic zone (1)
- pelitic migmatite (1)
- peperite (1)
- peralkalinity (1)
- peraluminosity (1)
- perception (1)
- perennial crop (1)
- peri-urban agriculture (1)
- periglacial landscapes (1)
- peritectic phase (1)
- permafrost carbon feedback (1)
- permafrost disturbances (1)
- permafrost ecosystems (1)
- permafrost lowlands (1)
- permafrost region (1)
- permafrost regions (1)
- permeability test (1)
- permeability-porosity relationship (1)
- permutation entropy (1)
- pesticides (1)
- petrography (1)
- petrostructural analysis (1)
- phagotrophy (1)
- phase space time delay embedding reconstruction (1)
- phase symmetry (1)
- phlogopite (1)
- phosphate (1)
- phreatophytes (1)
- phycocyanin (1)
- phylotypes (1)
- physical experiments (1)
- physical stratigraphy (1)
- phytogenic silica (1)
- phytolith (1)
- picocyanobacteria diversity (1)
- picoseismicity (1)
- piggyback basin (1)
- pioneer zone (1)
- pipe detection (1)
- pitch angle diffusion coefficient (1)
- pitfalls (1)
- pixel-level fusion (1)
- plan oblique relief (1)
- planetary waves (1)
- plankton (1)
- planning indicators (1)
- plant transformation (1)
- plant water relations (1)
- plant wax biomarker (1)
- plant-animal-soil-system (1)
- plant-plant interactions (1)
- plasma drifts (1)
- plasmidome (1)
- plastic degradation (1)
- plastisphere (1)
- plate boundary fault (1)
- plate coupling force (1)
- plate reconstructions (1)
- plate tectonics (1)
- platinum (1)
- playa-lake (1)
- plume-induced (1)
- plume-ridge interaction (1)
- pockmark (1)
- point cloud (1)
- polarimetric SAR (1)
- polarization analysis (1)
- policy (1)
- pollen accumulation rates (1)
- pollen mapping (1)
- pollen morphology (1)
- pollen productivity (1)
- pollen taxa (1)
- pollination (1)
- pollution indices (1)
- polyamine (1)
- polyammonium salt (1)
- polycarboxylate (1)
- polymorphism (1)
- polymorphs (1)
- polyzwitterion (1)
- population density (1)
- population dynamics (1)
- population growth (1)
- population recovery (1)
- population size (1)
- pore-scale (1)
- porous media (1)
- porphyry Cu-Au deposit (1)
- post-collision (1)
- post-collisional setting (1)
- postmidnight (1)
- postseismic deformation (1)
- potentially affected areas (PAA) (1)
- potentially toxic elements (1)
- pre-Maya settlement (1)
- pre-Siwalik (1)
- pre-monsoon (1)
- precaution (1)
- precipitation anomaly (1)
- precipitation reconstruction (1)
- precursor (1)
- predator-prey cycles (1)
- predator-prey model (1)
- prediction (1)
- prediction uncertainty (1)
- preferences (1)
- preferences in land management (1)
- pressure solution (1)
- pressures (1)
- principal component analysis (1)
- principal component analysis (PCA) (1)
- prior derivation (1)
- private governance (1)
- probabilistic (1)
- probabilistic approaches (1)
- probabilistic discrimination (1)
- probabilistic modeling (1)
- process based (1)
- process life cycle assessment (1)
- process simulation (1)
- process-based model (1)
- process-based statistics (1)
- processes and landforms of glacial erosion (1)
- production rate (1)
- prograding lobes (1)
- project database (1)
- prolonged droughts (1)
- propagation (1)
- protactinium (1)
- protection (1)
- protection motivation theory (PMT) (1)
- protists (1)
- proto-Paratethys (1)
- protozoa (1)
- provenance (1)
- proxy calibration (1)
- pseudomorphism (1)
- pseudosection (1)
- pseudotachylyte (1)
- psychrotolerant (1)
- pull-apart basin (1)
- pulsed climate variability framework (1)
- quality (1)
- quantitative precipitation estimation (1)
- quantitative research (1)
- quarternary channels (1)
- quartz (1)
- quartz sandstone (1)
- radar imaging (1)
- radar interferometry (1)
- radiation belts (1)
- radiation-damage (1)
- radio science (1)
- radio wave propagation (1)
- radio-echo sounding (1)
- radiocarbon (1)
- radiogenic heat-production (1)
- radiometric alignment (1)
- railway transportation (1)
- rain attenuation (1)
- rain detection (1)
- rain effect (1)
- rain splash (1)
- rainfall events (1)
- rainfall partitioning (1)
- rainfall simulation (1)
- rainfall-runoff (1)
- rainforest (1)
- rainforest crisis (1)
- rainy-season (1)
- ramp (1)
- random vibration (1)
- range shifts (1)
- rangeland management (1)
- rapid damage mapping (1)
- reaction (1)
- reactivation (1)
- reactive transport model (1)
- reanalysis (1)
- receiver functions (1)
- recovery (1)
- recruitment (1)
- recurrence quantification analysis (1)
- redox processes (1)
- redox reactions (1)
- reduction (1)
- reef (1)
- reflection seismic (1)
- reforms (1)
- refuge (1)
- regimes (1)
- regional deformation (1)
- regional development (1)
- regional mapping (1)
- regionalisation (1)
- regression (1)
- regression tree (1)
- regulation (1)
- reindeer (1)
- relative pollen productivity (1)
- relative sea-level (1)
- relevant pollen source area (1)
- relict landscape (1)
- relief (1)
- relief development (1)
- relief map (1)
- remote (1)
- remote sensing data (1)
- remotely sensed evapotranspiration (1)
- renya Rift (1)
- reproductive success (1)
- repulsion (1)
- required minimum runoff (1)
- resampling (1)
- reservoir (1)
- reservoir volume (1)
- residential buildings (1)
- resistance (1)
- response (1)
- response time (1)
- restoration (1)
- return flow (1)
- reversible scavenging (1)
- rheological weakening (1)
- rhizosphere (1)
- rhizosphere biogeochemistry (1)
- rhizosphere hydraulic properties (1)
- rhyolites (1)
- rift transfer zone (1)
- rift variability (1)
- rifts (1)
- rigorous geocoding (1)
- ring current electrons (1)
- ring faulting (1)
- riparian zone (1)
- riparian zones (1)
- risk assessment (1)
- risk communication (1)
- risk management (1)
- risk mitigation (1)
- risk modeling (1)
- risk perception (1)
- river (1)
- river discharge (1)
- river dynamics (1)
- river erosion (1)
- river floods (1)
- river plume (1)
- river restoration (1)
- river sediment (1)
- river terraces (1)
- river transport (1)
- riveraquifer interaction (1)
- rock and mineral magnetism (1)
- rock exhumation (1)
- rock glacier (1)
- rock glaciers (1)
- rock magnetism (1)
- rock strength (1)
- rock uplift (1)
- rock uplift-relief scaling (1)
- rockfalls (1)
- rodent control (1)
- root activity (1)
- root biomass (1)
- root density (1)
- root depth distribution (1)
- root distribution (1)
- root exudation (1)
- root lengths density (1)
- root penetration (1)
- root respiration (1)
- root system (1)
- root water uptake (1)
- root-soil interaction (1)
- rotation (1)
- rotational seismology (1)
- run-on (1)
- rutile-type (1)
- sPlot (1)
- saline aquifer (1)
- saline groundwater (1)
- saline lake (1)
- saline pan (1)
- saline pan cycle (1)
- saline permafrost (1)
- salinization (1)
- salmon (1)
- salt dissolution (1)
- sampling bias (1)
- sampling locations (1)
- san andreas fault (1)
- savanna (1)
- savannah (1)
- savannas (1)
- scale (1)
- scale-dependence (1)
- scaling relation (1)
- scenario (1)
- scenario analysis (1)
- scientific drilling (1)
- sea (1)
- sea floor morphology (1)
- sea level (1)
- sea level change (1)
- sea level trends (1)
- sea surface height (1)
- sea surface temperature reconstructions (1)
- sea turtle (1)
- sea-level projections (1)
- seafloor sediment failure (1)
- sealevel (1)
- seasonal forecast (1)
- seasonal patterns (1)
- seasonal precipitation (1)
- seasonality effect (1)
- security and economy (1)
- sediment budget (1)
- sediment delivery processes (1)
- sediment flux (1)
- sediment flux hysteresis (1)
- sediment input (1)
- sediment mobility (1)
- sediment output (1)
- sediment production (1)
- sediment source fingerprinting (1)
- sediment thickness (1)
- sediment transit time (1)
- sediment transport (1)
- sediment-routing system connectivity (1)
- sediment-supply ratio (A /S) (1)
- sediment-transport model (1)
- sedimentary DNA (1)
- sedimentary ancient DNA (1)
- sedimentary basins (1)
- sedimentary contact (1)
- sedimentary cycles (1)
- sedimentary loading and unloading cycles (1)
- sedimentation pattern (1)
- segregating oceanic crust (1)
- seismic anisotropy (1)
- seismic moment release (1)
- seismic monitoring (1)
- seismic risk (1)
- seismic tomography (1)
- seismic waves (1)
- seismicity and tectonics (1)
- seismicity model (1)
- seismisches Hintergrundrauschen (1)
- seismo-electromagnetic (1)
- seismomechanics (1)
- seismotectonic segmentation (1)
- self-similarity (1)
- semi-arid area (1)
- semiarid grassland (1)
- sensing (1)
- sensitivity analyses (1)
- sentinel-1 (1)
- sentinel-2 (1)
- sequestration (1)
- series ERA-interim (1)
- serpentinite carbonation (1)
- service sectors (1)
- shaking (1)
- shallow earthquakes (1)
- shallow groundwater (1)
- shallow groundwater tables (1)
- shallow translational landslides (1)
- shallow-water chemostratigraphy (1)
- shear localization (1)
- shell-architecture (1)
- shoreline movement direction (1)
- shoreline movement rate (1)
- shortening (1)
- shotgun sequencing (1)
- shrub expansion (1)
- shrub thinning (1)
- shrubline (1)
- siderite (1)
- signal-to-noise ratio (1)
- silica concentration (1)
- silica gel (1)
- sill (1)
- silvopastoral systems (1)
- simulation (1)
- simulation model (1)
- simulation-based (1)
- singleslab (1)
- site amplification (1)
- situ Raman spectroscopy (1)
- size fractions (1)
- skill (1)
- slab-mantle decoupling (1)
- slab-mantle interface (1)
- slags (1)
- slip model (1)
- slip partitioning (1)
- slope failure (1)
- slow slip (1)
- small baseline subset (SBAS) (1)
- snow characteristics (1)
- snow grain size (1)
- snow hydrology (1)
- snow melt (1)
- social (1)
- social justice (1)
- social valuation (1)
- social vulnerability (1)
- socioeconomic scenarios (1)
- soft law (1)
- software (1)
- soil (1)
- soil CO2 sampling tubes (1)
- soil Si pools (1)
- soil aggregates (1)
- soil heterogeneity (1)
- soil horizonation (1)
- soil landscape (1)
- soil moisture dynamics (1)
- soil moisture profile (1)
- soil organic matter (1)
- soil parameters (1)
- soil texture (1)
- soil water distribution (1)
- soil-adjusted vegetation index (1)
- soil-root interaction (1)
- soils (1)
- solar radiation (1)
- solid Earth degassing (1)
- solid solution (1)
- source (1)
- source array design (1)
- source direction (1)
- source rock evaluation (1)
- source time function (1)
- source-to-sink (1)
- southern Central Andes (1)
- southern hemisphere oceans (1)
- soya beans (1)
- soybean cultivation (1)
- spatial autocorrelation (1)
- spatial correlation (1)
- spatial extent (1)
- spatial heterogeneity (1)
- spatial parameterization (1)
- spatial planning (1)
- spatial sampling (1)
- spatial scales (1)
- spatially and temporally explicit modelling macroecology (1)
- spatially explicit agent-based modeling (1)
- spatially explicit model (1)
- special sensor microwave imager (1)
- special sensor microwave imager/sounder (1)
- speciation (1)
- species distribution modelling (1)
- species richness (1)
- species-area relationship (SAR) (1)
- specific stream power (1)
- specific surface area (1)
- specific yield (1)
- spectral adjustment (1)
- spectral analysis (1)
- spectrogram (1)
- speleothem (1)
- spin (1)
- spinel (1)
- splay fault (1)
- splay faults (1)
- splitting parameters (1)
- stable (1)
- stable craton (1)
- stakeholder participation (1)
- stalagmite (1)
- stand structure (1)
- standards (1)
- static stress change (1)
- statistical methods (1)
- statistical seismology (1)
- statistics (1)
- steady state topography (1)
- steepness index (1)
- stemflow (1)
- steppe soils (1)
- stick slip (1)
- stochastic dynamical systems (1)
- stochastic filtering (1)
- storage capacity (1)
- storage-discharge relationship (1)
- storm flood (1)
- storm surge (1)
- stormflow (1)
- stormflow generation (1)
- strain transient (1)
- strainmeter data (1)
- strath terraces (1)
- stratification (1)
- stratigraphy (1)
- stream (1)
- stream power (1)
- stream profile (1)
- stream water (1)
- streamflow probabilistic forecasting (1)
- streamflow response (1)
- streamwater chemistry (1)
- stress (1)
- stress field (1)
- stress state (1)
- stress-tolerance genes (1)
- structural (1)
- structural mapping (1)
- structure from motion (1)
- structured additive model (1)
- student survey (1)
- sub-sampling (1)
- subaerial exposure (1)
- subalkaline to alkaline magmatism (1)
- subarctic (1)
- subarctic Pacific stratification (1)
- subduction accretion (1)
- subduction and exhumation (1)
- subduction erosion (1)
- subduction history (1)
- subduction initiation (1)
- subduction initiation (PISI) (1)
- subduction interface (1)
- subduction zone earthquakes (1)
- subduction-collision (1)
- subfossil Cladocera (1)
- submarine (1)
- submarine permafrost (1)
- submerged cave (1)
- subsea (1)
- subsidence (1)
- subsidence analysis (1)
- subsurface heterogeneities (1)
- subsurface microbiology (1)
- sulfur solubility (1)
- sulfur speciation (1)
- sulphate metasomatism (1)
- summer (1)
- summer monsoon (1)
- supercontinent Nuna (1)
- supergene ores (1)
- superplasticity (1)
- supervised machine learning (1)
- surface inflation (1)
- surface reflectance (1)
- surface runoff (1)
- surface sealing (1)
- surface type-function-concept (1)
- surface uplift (1)
- surface water flooding (1)
- surface water groundwater interaction (1)
- surface water levels (1)
- surface wave (1)
- surface wave, inversion, near surface (1)
- surprise (1)
- surveys (1)
- survival (1)
- suspended particulate matter (1)
- suspended sediment transport (1)
- sustainability (1)
- sustained casing pressure (1)
- swarm LP (1)
- swarms (1)
- switzerland (1)
- symplectite (1)
- synchronization (1)
- synthesis gas (1)
- synthetic aperture radar (SAR) (1)
- synthetic flood events (1)
- system architecture (1)
- system boundary (1)
- table-top experiment (1)
- tabular mining (1)
- taiga forest (1)
- talik (1)
- tantalum (1)
- target (1)
- techno-economic model (1)
- tectonic (1)
- tectonic evolution (1)
- tectonic inheritance (1)
- tectonic inversion (1)
- tectonic reconstruction (1)
- tectonic shortening (1)
- tectonism (1)
- teleseismic tomography (1)
- temperature coefficient (1)
- temperature extremes (1)
- temperature response (1)
- temperature sensor (1)
- temperature time series (1)
- temporal disaggregation (1)
- temporal evolution (1)
- tensile opening (1)
- tensile strength (1)
- tephra (1)
- terrain map (1)
- terrestrial (1)
- terrestrial cosmogenic nuclides (1)
- terrestrial ecosystems (1)
- terrestrial higher plant waxes (1)
- tetrahalido metallates (1)
- tetrahalidometallates (1)
- tetrahedral boron (1)
- thaw (1)
- the Ogooue Delta (1)
- theory (1)
- thermal effect (1)
- thermal field (1)
- thermal overprint (1)
- thermal properties (1)
- thermo-erosion (1)
- thermobarometry (1)
- thermochemical modeling (1)
- thermodynamic equilibrium (1)
- thermodynamic modelling (1)
- thermodynamics (1)
- thermohaline processes (1)
- thermokarst lake (1)
- thermokarst lake dynamics (1)
- thermokarst lakes (1)
- thermomechanical modeling (1)
- thermophiles; (1)
- thermoregulation (1)
- thermotolerance (1)
- thick-skinned deformation (1)
- thickness of the lithosphere (1)
- thickness-displacement relationships (1)
- thrust tectonics (1)
- tibetan plateau (1)
- tide gauge (1)
- tide gauge observations (1)
- tillage (1)
- tilt (1)
- time-scale (1)
- time-series (1)
- time-series mapping (1)
- tin (1)
- titanite (1)
- tomato (1)
- tomography (1)
- topographic analysis (1)
- topographic asymmetry (1)
- topography (1)
- tourmaline (1)
- trace element transport (1)
- trace elements (1)
- trait-based approaches (1)
- trait-based neighbourhood model (1)
- trajectories (1)
- transdisciplinary research (1)
- transfer (1)
- transfer functions (1)
- transferability (1)
- transform fault (1)
- transform faults (1)
- transient (1)
- transient erosion (1)
- transient response (1)
- transit-time (1)
- transition (1)
- transitions (1)
- transport processes (1)
- travel time distribution (1)
- travel time distributions (1)
- tree line alteration (1)
- tremor (1)
- trench advance (1)
- trench-parallel extension (1)
- trend detection (1)
- trend significance (1)
- triangle method (1)
- triggered earthquake (1)
- tritium assay (1)
- tropic state index (1)
- tropical biodiversity (1)
- tropical inland water bodies (1)
- tropical lowland rainforest (1)
- tropical montane forest (1)
- tropical peatlands (1)
- tropical speleothems (1)
- tropical swamp (1)
- truncation error estimate (1)
- tsunami (1)
- tsunami hazards (1)
- tundra (1)
- tundra-taiga ecotone (1)
- turbidites (1)
- turbidity (1)
- turbidity currents (1)
- two phase aggregates (1)
- typical steppe (1)
- ultrahigh-pressure (1)
- ultrahigh-pressure (UHP) (1)
- ultramafic granulites (1)
- ultrasonication (1)
- uncertainty analysis (1)
- uncertainty quantification (1)
- underground coal gasification (1)
- underground coal gasification (UCG) (1)
- underplating (1)
- ungauged basins (1)
- unmanaged forest (1)
- upconversion nanoparticles (1)
- uplift and erosion (1)
- uplift rate changes (1)
- upper tail behaviour (1)
- uranium speciation (1)
- urban green (1)
- urban green spaces (1)
- urban infill development (1)
- urban planning practice (1)
- urbanization (1)
- vadose zone (1)
- valley distribution (1)
- van Genuchten-Mualem (1)
- variability (1)
- variable selection (1)
- variance (1)
- variogram (1)
- varved sediments (1)
- vascular epiphyte (1)
- vegetation change (1)
- vegetation cover (1)
- vegetation degradation (1)
- vegetation dynamics (1)
- vegetation expansion (1)
- vegetation history (1)
- vegetation model (1)
- vegetation reconstruction (1)
- vegetation states (1)
- vegetation trajectories (1)
- vegetation-climate-fire-soil feedbacks (1)
- vegetation-plot database (1)
- vertical water flux (1)
- very high resolution imagery (1)
- very low-low-grade metamorphism (1)
- viscosity (1)
- visualisation (1)
- viverridae (1)
- volcanic deformation (1)
- volcanic earthquakes (1)
- volcanic eruption (1)
- volcanic glass (1)
- volcanic island (1)
- volcanism (1)
- volcano-seismology (1)
- voring basin (1)
- wasting (1)
- water age (1)
- water availability (1)
- water balance model (1)
- water budget (1)
- water demand (1)
- water distribution (1)
- water fluxes (1)
- water height-area-volume curve (1)
- water isotopes (1)
- water resources management (1)
- water rock interaction (1)
- water scarcity (1)
- water security (1)
- water storage (1)
- water storage capacity (1)
- water yield (1)
- water-energy-food nexus (1)
- water-extractable elements (1)
- water-limited environment (1)
- watersheds (1)
- wave number (1)
- waveform (1)
- waveform inversion (1)
- waves and tides (1)
- weakening mechanisms (1)
- weather (1)
- weather pattern (1)
- weathering indices (1)
- weathering inputs (1)
- welfare (1)
- westernmost Tibetan Plateau (1)
- wet meadow (1)
- wetland hydrology (1)
- whole Earth images (1)
- wildfire (1)
- wildflower mixture (1)
- wind (1)
- wind energy production (1)
- wind energy-biodiversity conflict (1)
- wind erosion (1)
- wireline logs (1)
- woody encroachment (1)
- yedoma (1)
- ytterbian xenotime-(Y) (1)
- zinc (1)
- zircon U-Pb geochronology (1)
- zircon fission tracks (1)
- zircon fission-track dating (1)
- zircon provenance (1)
- zircon uranium-thorium-helium (1)
- zoning (1)
- zoogeomorphology (1)
- zooprophylaxis (1)
- Überflutung (1)
- Überflutungssimulation (1)
Institute
- Institut für Geowissenschaften (3042) (remove)
Many widely used observational data sets are comprised of several overlapping instrument records. While data inter-calibration techniques often yield continuous and reliable data for trend analysis, less attention is generally paid to maintaining higher-order statistics such as variance and autocorrelation. A growing body of work uses these metrics to quantify the stability or resilience of a system under study and potentially to anticipate an approaching critical transition in the system. Exploring the degree to which changes in resilience indicators such as the variance or autocorrelation can be attributed to non-stationary characteristics of the measurement process – rather than actual changes in the dynamical properties of the system – is important in this context. In this work we use both synthetic and empirical data to explore how changes in the noise structure of a data set are propagated into the commonly used resilience metrics lag-one autocorrelation and variance. We focus on examples from remotely sensed vegetation indicators such as vegetation optical depth and the normalized difference vegetation index from different satellite sources. We find that time series resulting from mixing signals from sensors with varied uncertainties and covering overlapping time spans can lead to biases in inferred resilience changes. These biases are typically more pronounced when resilience metrics are aggregated (for example, by land-cover type or region), whereas estimates for individual time series remain reliable at reasonable sensor signal-to-noise ratios. Our work provides guidelines for the treatment and aggregation of multi-instrument data in studies of critical transitions and resilience.
Records from ocean bottom seismometers (OBSs) are highly contaminated by noise, which is much stronger compared to data from most land stations, especially on the horizontal components. As a consequence, the high energy of the oceanic noise at frequencies below 1 Hz considerably complicates the analysis of the teleseismic earthquake signals recorded by OBSs.
Previous studies suggested different approaches to remove low-frequency noises from OBS recordings but mainly focused on the vertical component. The records of horizontal components, which are crucial for the application of many methods in passive seismological analysis of body and surface waves, could not be much improved in the teleseismic frequency band. Here we introduce a noise reduction method, which is derived from the harmonic–percussive separation algorithms used in Zali et al. (2021), in order to separate long-lasting narrowband signals from broadband transients in the OBS signal. This leads to significant noise reduction of OBS records on both the vertical and horizontal components and increases the earthquake signal-to-noise ratio (SNR) without distortion of the broadband earthquake waveforms. This is demonstrated through tests with synthetic data. Both SNR and cross-correlation coefficients showed significant improvements for different realistic noise realizations. The application of denoised signals in surface wave analysis and receiver functions is discussed through tests with synthetic and real data.
A new solid-state material, N-butyl pyridinium diiodido argentate(I), is synthesized using a simple and effective one-pot approach. In the solid state, the compound exhibits 1D ([AgI2](-))(n) chains that are stabilized by the N-butyl pyridinium cation. The 1D structure is further manifested by the formation of long, needle-like crystals, as revealed from electron microscopy. As the general composition is derived from metal halide-based ionic liquids, the compound has a low melting point of 100-101 degrees C, as confirmed by differential scanning calorimetry. Most importantly, the compound has a conductivity of 10(-6) S cm(-1) at room temperature. At higher temperatures the conductivity increases and reaches to 10(-4 )S cm(-1) at 70 degrees C. In contrast to AgI, however, the current material has a highly anisotropic 1D arrangement of the ionic domains. This provides direct and tuneable access to fast and anisotropic ionic conduction. The material is thus a significant step forward beyond current ion conductors and a highly promising prototype for the rational design of highly conductive ionic solid-state conductors for battery or solar cell applications.
A comprehensive workflow to analyze ensembles of globally inverted 2D electrical resistivity models
(2022)
Electrical resistivity tomography (ERT) aims at imaging the subsurface resistivity distribution and provides valuable information for different geological, engineering, and hydrological applications. To obtain a subsurface resistivity model from measured apparent resistivities, stochastic or deterministic inversion procedures may be employed. Typically, the inversion of ERT data results in non-unique solutions; i.e., an ensemble of different models explains the measured data equally well. In this study, we perform inference analysis of model ensembles generated using a well-established global inversion approach to assess uncertainties related to the nonuniqueness of the inverse problem. Our interpretation strategy starts by establishing model selection criteria based on different statistical descriptors calculated from the data residuals. Then, we perform cluster analysis considering the inverted resistivity models and the corresponding data residuals. Finally, we evaluate model uncertainties and residual distributions for each cluster. To illustrate the potential of our approach, we use a particle swarm optimization (PSO) algorithm to obtain an ensemble of 2D layer-based resistivity models from a synthetic data example and a field data set collected in Loon-Plage, France. Our strategy performs well for both synthetic and field data and allows us to extract different plausible model scenarios with their associated uncertainties and data residual distributions. Although we demonstrate our workflow using 2D ERT data and a PSObased inversion approach, the proposed strategy is general and can be adapted to analyze model ensembles generated from other kinds of geophysical data and using different global inversion approaches.
River-valley morphology preserves information on tectonic and climatic conditions that shape landscapes. Observations suggest that river discharge and valley-wall lithology are the main controls on valley width. Yet, current models based on these observations fail to explain the full range of cross-sectional valley shapes in nature, suggesting hitherto unquantified controls on valley width. In particular, current models cannot explain the existence of paired terrace sequences that form under cyclic climate forcing. Paired river terraces are staircases of abandoned floodplains on both valley sides, and hence preserve past valley widths. Their formation requires alternating phases of predominantly river incision and predominantly lateral planation, plus progressive valley narrowing. While cyclic Quaternary climate changes can explain shifts between incision and lateral erosion, the driving mechanism of valley narrowing is unknown. Here, we extract valley geometries from climatically formed, alluvial river-terrace sequences and show that across our dataset, the total cumulative terrace height (here: total valley height) explains 90%–99% of the variance in valley width at the terrace sites. This finding suggests that valley height, or a parameter that scales linearly with valley height, controls valley width in addition to river discharge and lithology. To explain this valley-width-height relationship, we reformulate existing valley-width models and suggest that, when adjusting to new boundary conditions, alluvial valleys evolve to a width at which sediment removal from valley walls matches lateral sediment supply from hillslope erosion. Such a hillslope-channel coupling is not captured in current valley-evolution models. Our model can explain the existence of paired terrace sequences under cyclic climate forcing and relates valley width to measurable field parameters. Therefore, it facilitates the reconstruction of past climatic and tectonic conditions from valley topography.
Python is used in a wide range of geoscientific applications, such as in processing images for remote sensing, in generating and processing digital elevation models, and in analyzing time series. This book introduces methods of data analysis in the geosciences using Python that include basic statistics for univariate, bivariate, and multivariate data sets, time series analysis, and signal processing; the analysis of spatial and directional data; and image analysis. The text includes numerous examples that demonstrate how Python can be used on data sets from the earth sciences. The supplementary electronic material (available online through Springer Link) contains the example data as well as recipes that include all the Python commands featured in the book.
Sea level rise and coastal erosion have inundated large areas of Arctic permafrost. Submergence by warm and saline waters increases the rate of inundated permafrost thaw compared to sub-aerial thawing on land. Studying the contact between the unfrozen and frozen sediments below the seabed, also known as the ice-bearing permafrost table (IBPT), provides valuable information to understand the evolution of sub-aquatic permafrost, which is key to improving and understanding coastal erosion prediction models and potential greenhouse gas emissions. In this study, we use data from 2D electrical resistivity tomography (ERT) collected in the nearshore coastal zone of two Arctic regions that differ in their environmental conditions (e.g., seawater depth and resistivity) to image and study the subsea permafrost. The inversion of 2D ERT data sets is commonly performed using deterministic approaches that favor smoothed solutions, which are typically interpreted using a user-specified resistivity threshold to identify the IBPT position. In contrast, to target the IBPT position directly during inversion, we use a layer-based model parameterization and a global optimization approach to invert our ERT data. This approach results in ensembles of layered 2D model solutions, which we use to identify the IBPT and estimate the resistivity of the unfrozen and frozen sediments, including estimates of uncertainties. Additionally, we globally invert 1D synthetic resistivity data and perform sensitivity analyses to study, in a simpler way, the correlations and influences of our model parameters. The set of methods provided in this study may help to further exploit ERT data collected in such permafrost environments as well as for the design of future field experiments.
During the last 5 Ma the Earth's ocean-atmosphere system passed through several major transitions, many of which are discussed as possible triggers for human evolution. A classic in this context is the possible influence of the closure of the Panama Strait, the intensification of Northern Hemisphere Glaciation, a stepwise increase in aridity in Africa, and the first appearance of the genus Homo about 2.5 - 2.7 Ma ago. Apart from the fact that the correlation between these events does not necessarily imply causality, many attempts to establish a relationship between climate and evolution fail due to the challenge of precisely localizing an a priori unknown number of changes potentially underlying complex climate records. The kernel-based Bayesian inference approach applied here allows inferring the location, generic shape, and temporal scale of multiple transitions in established records of Plio-Pleistocene African climate. By defining a transparent probabilistic analysis strategy, we are able to identify conjoint changes occurring across the investigated terrigenous dust records from Ocean Drilling Programme (ODP) sites in the Atlantic Ocean (ODP 659), Arabian (ODP 721/722) and Mediterranean Sea (ODP 967). The study indicates a two-step transition in the African climate proxy records at (2.35-2.10) Ma and (1.70 - 1.50) Ma, that may be associated with the reorganization of the Hadley-Walker Circulation. .
Diet analysis of bats killed at wind turbines suggests large-scale losses of trophic interactions
(2022)
Agricultural practice has led to landscape simplification and biodiversity decline, yet recently, energy-producing infrastructures, such as wind turbines, have been added to these simplified agroecosystems, turning them into multi-functional energy-agroecosystems. Here, we studied the trophic interactions of bats killed at wind turbines using a DNA metabarcoding approach to shed light on how turbine-related bat fatalities may possibly affect local habitats. Specifically, we identified insect DNA in the stomachs of common noctule bats (Nyctalus noctula) killed by wind turbines in Germany to infer in which habitats these bats hunted. Common noctule bats consumed a wide variety of insects from different habitats, ranging from aquatic to terrestrial ecosystems (e.g., wetlands, farmland, forests, and grasslands). Agricultural and silvicultural pest insects made up about 20% of insect species consumed by the studied bats. Our study suggests that the potential damage of wind energy production goes beyond the loss of bats and the decline of bat populations. Bat fatalities at wind turbines may lead to the loss of trophic interactions and ecosystem services provided by bats, which may add to the functional simplification and impaired crop production, respectively, in multi-functional ecosystems.
A volcanic eruption is usually preceded by seismic precursors, but their interpretation and use for forecasting the eruption onset time remain a challenge. A part of the eruptive processes in open conduits of volcanoes may be similar to those encountered in geysers. Since geysers erupt more often, they are useful sites for testing new forecasting methods. We tested the application of Permutation Entropy (PE) as a robust method to assess the complexity in seismic recordings of the Strokkur geyser, Iceland. Strokkur features several minute-long eruptive cycles, enabling us to verify in 63 recorded cycles whether PE behaves consistently from one eruption to the next one. We performed synthetic tests to understand the effect of different parameter settings in the PE calculation. Our application to Strokkur shows a distinct, repeating PE pattern consistent with previously identified phases in the eruptive cycle. We find a systematic increase in PE within the last 15 s before the eruption, indicating that an eruption will occur. We quantified the predictive power of PE, showing that PE performs better than seismic signal strength or quiescence when it comes to forecasting eruptions.
ArcticBeach v1.0
(2022)
In the Arctic, air temperatures are increasing and sea ice is declining, resulting in larger waves and a longer open water season, all of which intensify the thaw and erosion of ice-rich coasts. Climate change has been shown to increase the rate of Arctic coastal erosion, causing problems for Arctic cultural heritage, existing industrial, military, and civil infrastructure, as well as changes in nearshore biogeochemistry. Numerical models that reproduce historical and project future Arctic erosion rates are necessary to understand how further climate change will affect these problems, and no such model yet exists to simulate the physics of erosion on a pan-Arctic scale. We have coupled a bathystrophic storm surge model to a simplified physical erosion model of a permafrost coastline. This Arctic erosion model, called ArcticBeach v1.0, is a first step toward a physical parameterization of Arctic shoreline erosion for larger-scale models. It is forced by wind speed and direction, wave period and height, sea surface temperature, all of which are masked during times of sea ice cover near the coastline. Model tuning requires observed historical retreat rates (at least one value), as well as rough nearshore bathymetry. These parameters are already available on a pan-Arctic scale. The model is validated at three study sites at 1) Drew Point (DP), Alaska, 2) Mamontovy Khayata (MK), Siberia, and 3) Veslebogen Cliffs, Svalbard. Simulated cumulative retreat rates for DP and MK respectively (169 and 170 m) over the time periods studied at each site (2007-2016, and 1995-2018) are found to the same order of magnitude as observed cumulative retreat (172 and 120 m). The rocky Veslebogen cliffs have small observed cumulative retreat rates (0.05 m over 2014-2016), and our model was also able to reproduce this same order of magnitude of retreat (0.08 m). Given the large differences in geomorphology between the study sites, this study provides a proof-of-concept that ArcticBeach v1.0 can be applied on very different permafrost coastlines. ArcticBeach v1.0 provides a promising starting point to project retreat of Arctic shorelines, or to evaluate historical retreat in places that have had few observations.
The Arctic is greatly affected by climate change. Increasing air temperatures drive permafrost thaw and an increase in coastal erosion and river discharge. This results in a greater input of sediment and organic matter into nearshore waters, impacting ecosystems by reducing light transmission through the water column and altering biogeochemistry. This potentially results in impacts on the subsistence economy of local people as well as the climate due to the transformation of suspended organic matter into greenhouse gases. Even though the impacts of increased suspended sediment concentrations and turbidity in the Arctic nearshore zone are well-studied, the mechanisms underpinning this increase are largely unknown. Wave energy and tides drive the level of turbidity in the temperate and tropical parts of the world, and this is generally assumed to also be the case in the Arctic. However, the tidal range is considerably lower in the Arctic, and processes related to the occurrence of permafrost have the potential to greatly contribute to nearshore turbidity. In this study, we use high-resolution satellite imagery alongside in situ and ERA5 reanalysis data of ocean and climate variables in order to identify the drivers of nearshore turbidity, along with its seasonality in the nearshore waters of Herschel Island Qikiqtaruk, in the western Canadian Arctic. Nearshore turbidity correlates well to wind direction, wind speed, significant wave height, and wave period. Nearshore turbidity is superiorly correlated to wind speed at the Beaufort Shelf compared to in situ measurements at Herschel Island Qikiqtaruk, showing that nearshore turbidity, albeit being of limited spatial extent, is influenced by large-scale weather and ocean phenomenons. We show that, in contrast to the temperate and tropical ocean, freshly eroded material is the predominant driver of nearshore turbidity in the Arctic, rather than resuspension, which is caused by the vulnerability of permafrost coasts to thermo-erosion.
Increasing arctic coastal erosion rates imply a greater release of sediments and organic matter into the coastal zone. With 213 sediment samples taken around Herschel Island-Qikiqtaruk, Canadian Beaufort Sea, we aimed to gain new insights on sediment dynamics and geochemical properties of a shallow arctic nearshore zone. Spatial characteristics of nearshore sediment texture (moderately to poorly sorted silt) are dictated by hydrodynamic processes, but ice-related processes also play a role. We determined organic matter (OM) distribution and inferred the origin and quality of organic carbon by C/N ratios and stable carbon isotopes delta C-13. The carbon content was higher offshore and in sheltered areas (mean: 1.0 wt.%., S.D.: 0.9) and the C/N ratios also showed a similar spatial pattern (mean: 11.1, S.D.: 3.1), while the delta C-13 (mean: -26.4 parts per thousand VPDB, S.D.: 0.4) distribution was more complex. We compared the geochemical parameters of our study with terrestrial and marine samples from other studies using a bootstrap approach. Sediments of the current study contained 6.5 times and 1.8 times less total organic carbon than undisturbed and disturbed terrestrial sediments, respectively. Therefore, degradation of OM and separation of carbon pools take place on land and continue in the nearshore zone, where OM is leached, mineralized, or transported beyond the study area.
Seismology, like many scientific fields, e.g., music information retrieval and speech signal pro- cessing, is experiencing exponential growth in the amount of data acquired by modern seismo- logical networks. In this thesis, I take advantage of the opportunities offered by "big data" and by the methods developed in the areas of music information retrieval and machine learning to predict better the ground motion generated by earthquakes and to study the properties of the surface layers of the Earth. In order to better predict seismic ground motions, I propose two approaches based on unsupervised deep learning methods, an autoencoder network and Generative Adversarial Networks. The autoencoder technique explores a massive amount of ground motion data, evaluates the required parameters, and generates synthetic ground motion data in the Fourier amplitude spectra (FAS) domain. This method is tested on two synthetic datasets and one real dataset. The application on the real dataset shows that the substantial information contained within the FAS data can be encoded to a four to the five-dimensional manifold. Consequently, only a few independent parameters are required for efficient ground motion prediction. I also propose a method based on Conditional Generative Adversarial Networks (CGAN) for simulating ground motion records in the time-frequency and time domains. CGAN generates the time-frequency domains based on the parameters: magnitude, distance, and shear wave velocities to 30 m depth (VS30). After generating the amplitude of the time-frequency domains using the CGAN model, instead of classical conventional methods that assume the amplitude spectra with a random phase spectrum, the phase of the time-frequency domains is recovered by minimizing the observed and reconstructed spectrograms. In the second part of this dissertation, I propose two methods for the monitoring and characterization of near-surface materials and site effect analyses. I implement an autocorrelation function and an interferometry method to monitor the velocity changes of near-surface materials resulting from the Kumamoto earthquake sequence (Japan, 2016). The observed seismic velocity changes during the strong shaking are due to the non-linear response of the near-surface materials. The results show that the velocity changes lasted for about two months after the Kumamoto mainshock. Furthermore, I used the velocity changes to evaluate the in-situ strain-stress relationship. I also propose a method for assessing the site proxy "VS30" using non-invasive analysis. In the proposed method, a dispersion curve of surface waves is inverted to estimate the shear wave velocity of the subsurface. This method is based on the Dix-like linear operators, which relate the shear wave velocity to the phase velocity. The proposed method is fast, efficient, and stable. All of the methods presented in this work can be used for processing "big data" in seismology and for the analysis of weak and strong ground motion data, to predict ground shaking, and to analyze site responses by considering potential time dependencies and nonlinearities.
The origin of the First Bend of the Yangtze River is key to understanding the birth of the modern Yangtze River. Despite considerable efforts, the timing and mechanism of formation of the First Bend remain highly debated. Inverse river-profile modeling of three tributaries (Chongjiang, Lima, and Gudu) of the Jinsha River, integrated with regional tectonic and geomorphic interpretations, allows the onset of incision at the First Bend to be constrained to 28-20 Ma. The spatio-temporal coincidence of initial river incision and activity of Yulong Thrust Belt in southeastern Tibet highlights thrusting to be fundamental in reshaping the pre-existing stream network at the First Bend. These results enable us to reinterpret a change in sedimentary environment from a braided river to a swamp-like lake in the Jianchuan Basin south of the First Bend, recording the destruction of the hypothesized southwards-flowing paleo-Jinsha and Shuiluo Rivers at ~36-35 Ma by magmatism. During the late Oligoceneearly Miocene, the paleo-Shuiluo River was diverted to the north by focused rock uplift due to thrusting along the Yulong Thrust Belt, which also led to exhumation of the Jianchuan Basin. Diversion of the paleo-Shuiluo River can be explained by capture from a downstream river in the footwall of the Yulong Thrust Belt. Subsequent rapid headward erosion, that was caused by thrusting-induced drop of local base level, is recorded by upstream younging ages for the onset of incision and led to the formation of the First Bend. The combination of new ages for the onset of incision at 28-20 Ma at the First Bend and younger ages upstream indicates northwards expansion of the Jinsha River at a rate of 62 +/- 18 mm/yr. Our results suggest that the origin of the First Bend was likely triggered by thrusting at 28-20 Ma, after which the Yangtze River formed.
The Gofa Province and the Chew Bahir Basin of southern Ethiopia constitute tectonically active regions, where the Southern Main Ethiopian Rift converges with the Northern Kenya Rift through a wide zone of extensional deformation with several north to northeast-trending, left-stepping en-e & PRIME;chelon basins. This sector of the Southern Main Ethiopian Rift is characterized by a semi-arid climate and a largely uniform lithology, and thus provides ideal conditions for studying the different parameters that define the tectonic and geomorphic features of this complex kinematic transfer zone. In this study, the degree of tectonic activity, spatiotemporal variations in extension, and the nature of kinematic linkage between different fault systems of the transfer zone are constrained by detailed quantitative geomorphic analysis of river catchments and focused field work. We analyzed fluvial and landscape morphometric characteristics in combination with structural, seismicity, and climatic data to better evaluate the tectono-geomorphic history of this transfer zone. Our data reveal significant north-south variations in the degree of extension from the Sawula Basin in the north (mature) to the Chew Bahir Basin in the south (juvenile). First, normalized channel-steepness indices and the spatial arrangement of knickpoints in footwall-draining streams suggest a gradual, southward shift in extensional deformation and recent tectonic activity. Second, based on 1-k(m) radius local relief and mean-hillslope maximum values that are consistent with ksn anomalies, we confirm strain localization within zones of fault interaction. Third, morphometric indices such as hypsometry, basin asymmetry factor, and valley floor width to valley height ratio also indicate a north to south gradient in tectonic activity, highlighting the importance of such a wide transfer zone with diffuse extension linking different rift segments during the break-up of continental crust.
Here I present a comparison between two of the most widely used reduced-complexity models for the representation of sediment transport and deposition processes, namely the transport-limited (or TL) model and the under-capacity (or xi-q) model more recently developed by Davy and Lague (2009). Using both models, I investigate the behavior of a sedimentary continental system of length L fed by a fixed sedimentary flux from a catchment of size A(0) in a nearby active orogen through which sediments transit to a fixed base level representing a large river, a lake or an ocean. This comparison shows that the two models share the same steady-state solution, for which I derive a simple 1D analytical expression that reproduces the major features of such sedimentary systems: a steep fan that connects to a shallower alluvial plain. The resulting fan geometry obeys basic observational constraints on fan size and slope with respect to the upstream drainage area, A(0). The solution is strongly dependent on the size of the system, L, in comparison to a distance L-0, which is determined by the size of A(0), and gives rise to two fundamentally different types of sedimentary systems: a constrained system where L < L-0 and open systems where L > L-0. I derive simple expressions that show the dependence of the system response time on the system characteristics, such as its length, the size of the upstream catchment area, the amplitude of the incoming sedimentary flux and the respective rate parameters (diffusivity or erodibility) for each of the two models. I show that the xi-q model predicts longer response times. I demonstrate that although the manner in which signals propagates through the sedimentary system differs greatly between the two models, they both predict that perturbations that last longer than the response time of the system can be recorded in the stratigraphy of the sedimentary system and in particular of the fan. Interestingly, the xi-q model predicts that all perturbations in the incoming sedimentary flux will be transmitted through the system, whereas the TL model predicts that rapid perturbations cannot. I finally discuss why and under which conditions these differences are important and propose observational ways to determine which of the two models is most appropriate to represent natural systems.
The creation of building exposure models for seismic risk assessment is frequently challenging due to the lack of availability of detailed information on building structures. Different strategies have been developed in recent years to overcome this, including the use of census data, remote sensing imagery and volunteered graphic information (VGI). This paper presents the development of a building-by-building exposure model based exclusively on openly available datasets, including both VGI and census statistics, which are defined at different levels of spatial resolution and for different moments in time. The initial model stemming purely from building-level data is enriched with statistics aggregated at the neighbourhood and city level by means of a Monte Carlo simulation that enables the generation of full realisations of damage estimates when using the exposure model in the context of an earthquake scenario calculation. Though applicable to any other region of interest where analogous datasets are available, the workflow and approach followed are explained by focusing on the case of the German city of Cologne, for which a scenario earthquake is defined and the potential damage is calculated. The resulting exposure model and damage estimates are presented, and it is shown that the latter are broadly consistent with damage data from the 1978 Albstadt earthquake, notwithstanding the differences in the scenario. Through this real-world application we demonstrate the potential of VGI and open data to be used for exposure modelling for natural risk assessment, when combined with suitable knowledge on building fragility and accounting for the inherent uncertainties.
Neoarchean (similar to 2.73-2.70 Ga) accretionary history of the eastern Dharwar Craton, India
(2022)
Cratonic mid-crustal plutons may contain supracrustal enclaves that preserve evidence of an earlier growth history. The Eastern Dharwar craton records Neoarchean two-stage accretionary sequential growth (2.70 and 2.55 Ga) and a chronology of their enclaves could refine orogenic models. To test whether the metamorphic history of their enclaves was related to any of these stages, phase equilibria modelling and combined Lu-Hf and Sm-Nd geochronology on garnet were conducted on metapsammite, now preserved as garnet-orthopyroxene-cordierite gneiss. Phase equilibria modelling indicates peak metamorphic conditions, similar to 850 degrees C and similar to 8.5 kbar (M1a), were followed by near isothermal decompression to 5-6 kbar (M1b) and isobaric cooling to similar to 800 degrees C (M1c). The thermobaric gradient related to peak metamorphic conditions, similar to 30 degrees C kbar(-1), is typical of collisional orogens. Regression of the whole-rock and garnet, for sample S17b, yield Lu-Hf isochron ages of 2733 +/- 29 Ma, and for sample S18, 2724 +/- 13 Ma. A Lu-Hf weighted mean age for the porphyroblastic garnet suggests growth at 2725.5 +/- 11.9 Ma during the M1a-M1b stages. In contrast, the whole-rock sample S17b and the garnet fractions yield a Sm-Nd isochron age of 2696 +/- 10 Ma. From sample S18 the whole rock, garnet fractions, and orthopyroxene yield an isochron age of 2683 +/- 15 Ma. The garnet Sm-Nd weighted mean age at 2692.0 +/- 8.3 Ma constrains the M1b-M1c stages. We suggest that the protoliths to these supracrustal enclaves were deposited in an arc tectonic setting and underwent thickening followed by heating during peeled-back lithospheric convergence. Therefore, the earliest of the craton-forming accretionary stages is preserved as the similar to 2.73 Ga granulite-facies enclaves, marginally older than the 2.70-2.65 Ga cratonic greenstone volcanism. Tectonic exhumation of these mid-crustal granulite enclaves was in response to the late-Proterozoic (similar to 1.7 Ga) Bhopalpatnam orogeny.
Data recorded by distributed acoustic sensing (DAS) along an optical fibre sample the spatial and temporal properties of seismic wavefields at high spatial density. Often leading to massive amount of data when collected for seismic monitoring along many kilometre long cables. The spatially coherent signals from weak seismic arrivals within the data are often obscured by incoherent noise. We present a flexible and computationally efficient filtering technique, which makes use of the dense spatial and temporal sampling of the data and that can handle the large amount of data. The presented adaptive frequency-wavenumber filter suppresses the incoherent seismic noise while amplifying the coherent wavefield. We analyse the response of the filter in time and spectral domain, and we demonstrate its performance on a noisy data set that was recorded in a vertical borehole observatory showing active and passive seismic phase arrivals. Lastly, we present a performant open-source software implementation enabling real-time filtering of large DAS data sets.
The geometry of carbonate platforms reflects the interaction of several factors. However, the impact of carbonate-producing organisms has been poorly investigated so far. This study applies stratigraphic forward modelling (SFM) and sensitivity analysis to examine, referenced to the Miocene Llucmajor Platform, the effect of changes of dominant biotic production in the oligophotic and euphotic zones on platform geometry. Our results show that the complex interplay of carbonate production rates, bathymetry and variations in accommodation space control the platform geometry. The main driver of progradation is the oligophotic production of rhodalgal sediments during the lowstands. This study demonstrates that platform geometry and internal architecture varies significantly according to the interaction of the predominant carbonate-producing biotas. The input parameters for this study are based on well-understood Miocene carbonate biotas with characteristic euphotic, oligophotic and photo-independent carbonate production in which it is crucial that each carbonate-producing class is modelled explicitly within the simulation run and not averaged with a single carbonate production-depth profile. This is important in subsurface exploration studies based on stratigraphic forward models where the overall platform geometry may be approximated through calibration runs, and constrained by seismic surveys and wellbores. However, the internal architecture is likely to be oversimplified without an in-depth understanding of the target carbonate system and a transfer to forward modelling parameters.
The LArge-scale Reservoir Simulator (LARS) has been previously developed to study hydrate dissociation in hydrate-bearing systems under in-situ conditions. In the present study, a numerical framework of equations of state describing hydrate formation at equilibrium conditions has been elaborated and integrated with a numerical flow and transport simulator to investigate a multi-stage hydrate formation experiment undertaken in LARS. A verification of the implemented modeling framework has been carried out by benchmarking it against another established numerical code. Three-dimensional (3D) model calibration has been performed based on laboratory data available from temperature sensors, fluid sampling, and electrical resistivity tomography. The simulation results demonstrate that temperature profiles, spatial hydrate distribution, and bulk hydrate saturation are consistent with the observations. Furthermore, our numerical framework can be applied to calibrate geophysical measurements, optimize post-processing workflows for monitoring data, improve the design of hydrate formation experiments, and investigate the temporal evolution of sub-permafrost methane hydrate reservoirs.
The Mackenzie Delta (MD) is a permafrost-bearing region along the coasts of the Canadian Arctic which exhibits high sub-permafrost gas hydrate (GH) reserves. The GH occurring at the Mallik site in the MD is dominated by thermogenic methane (CH4), which migrated from deep conventional hydrocarbon reservoirs, very likely through the present fault systems. Therefore, it is assumed that fluid flow transports dissolved CH4 upward and out of the deeper overpressurized reservoirs via the existing polygonal fault system and then forms the GH accumulations in the Kugmallit-Mackenzie Bay Sequences. We investigate the feasibility of this mechanism with a thermo-hydraulic-chemical numerical model, representing a cross section of the Mallik site. We present the first simulations that consider permafrost formation and thawing, as well as the formation of GH accumulations sourced from the upward migrating CH4-rich formation fluid. The simulation results show that temperature distribution, as well as the thickness and base of the ice-bearing permafrost are consistent with corresponding field observations. The primary driver for the spatial GH distribution is the permeability of the host sediments. Thus, the hypothesis on GH formation by dissolved CH4 originating from deeper geological reservoirs is successfully validated. Furthermore, our results demonstrate that the permafrost has been substantially heated to 0.8-1.3 degrees C, triggered by the global temperature increase of about 0.44 degrees C and further enhanced by the Arctic Amplification effect at the Mallik site from the early 1970s to the mid-2000s.
The SiDroForest (Siberian drone-mapped forest inventory) data collection is an attempt to remedy the scarcity of forest structure data in the circumboreal region by providing adjusted and labeled tree-level and vegetation plot-level data for machine learning and upscaling purposes. We present datasets of vegetation composition and tree and plot level forest structure for two important vegetation transition zones in Siberia, Russia; the summergreen-evergreen transition zone in Central Yakutia and the tundra-taiga transition zone in Chukotka (NE Siberia). The SiDroForest data collection consists of four datasets that contain different complementary data types that together support in-depth analyses from different perspectives of Siberian Forest plot data for multi-purpose applications. i. Dataset 1 provides unmanned aerial vehicle (UAV)-borne data products covering the vegetation plots surveyed during fieldwork (Kruse et al., 2021, ). The dataset includes structure-from-motion (SfM) point clouds and red-green-blue (RGB) and red-green-near-infrared (RGN) orthomosaics. From the orthomosaics, point-cloud products were created such as the digital elevation model (DEM), canopy height model (CHM), digital surface model (DSM) and the digital terrain model (DTM). The point-cloud products provide information on the three-dimensional (3D) structure of the forest at each plot. Dataset 2 contains spatial data in the form of point and polygon shapefiles of 872 individually labeled trees and shrubs that were recorded during fieldwork at the same vegetation plots (van Geffen et al., 2021c, ). The dataset contains information on tree height, crown diameter, and species type. These tree and shrub individually labeled point and polygon shapefiles were generated on top of the RGB UVA orthoimages. The individual tree information collected during the expedition such as tree height, crown diameter, and vitality are provided in table format. This dataset can be used to link individual information on trees to the location of the specific tree in the SfM point clouds, providing for example, opportunity to validate the extracted tree height from the first dataset. The dataset provides unique insights into the current state of individual trees and shrubs and allows for monitoring the effects of climate change on these individuals in the future. Dataset 3 contains a synthesis of 10 000 generated images and masks that have the tree crowns of two species of larch ( and ) automatically extracted from the RGB UAV images in the common objects in context (COCO) format (van Geffen et al., 2021a, ). As machine-learning algorithms need a large dataset to train on, the synthetic dataset was specifically created to be used for machine-learning algorithms to detect Siberian larch species. Larix gmeliniiLarix cajanderiDataset 4 contains Sentinel-2 (S-2) Level-2 bottom-of-atmosphere processed labeled image patches with seasonal information and annotated vegetation categories covering the vegetation plots (van Geffen et al., 2021b, ). The dataset is created with the aim of providing a small ready-to-use validation and training dataset to be used in various vegetation-related machine-learning tasks. It enhances the data collection as it allows classification of a larger area with the provided vegetation classes. The SiDroForest data collection serves a variety of user communities. <br /> The detailed vegetation cover and structure information in the first two datasets are of use for ecological applications, on one hand for summergreen and evergreen needle-leaf forests and also for tundra-taiga ecotones. Datasets 1 and 2 further support the generation and validation of land cover remote-sensing products in radar and optical remote sensing. In addition to providing information on forest structure and vegetation composition of the vegetation plots, the third and fourth datasets are prepared as training and validation data for machine-learning purposes. For example, the synthetic tree-crown dataset is generated from the raw UAV images and optimized to be used in neural networks. Furthermore, the fourth SiDroForest dataset contains S-2 labeled image patches processed to a high standard that provide training data on vegetation class categories for machine-learning classification with JavaScript Object Notation (JSON) labels provided. The SiDroForest data collection adds unique insights into remote hard-to-reach circumboreal forest regions.
The new in situ geodynamic laboratory established in the framework of the ICDP Eger project aims to develop the most modern, comprehensive, multiparameter laboratory at depth for studying earthquake swarms, crustal fluid flow, mantle-derived CO2 and helium degassing, and processes of the deep biosphere. In order to reach a new level of high-frequency, near-source and multiparameter observation of earthquake swarms and related phenomena, such a laboratory comprises a set of shallow boreholes with high-frequency 3-D seismic arrays as well as modern continuous real-time fluid monitoring at depth and the study of the deep biosphere.
This laboratory is located in the western part of the Eger Rift at the border of the Czech Republic and Germany (in the West Bohemia–Vogtland geodynamic region) and comprises a set of five boreholes around the seismoactive zone. To date, all monitoring boreholes have been drilled. This includes the seismic monitoring boreholes S1, S2 and S3 in the crystalline units north and east of the major Nový Kostel seismogenic zone, borehole F3 in the Hartoušov mofette field and borehole S4 in the newly discovered Bažina maar near Libá. Supplementary borehole P1 is being prepared in the Neualbenreuth maar for paleoclimate and biological research. At each of these sites, a borehole broadband seismometer will be installed, and sites S1, S2 and S3 will also host a 3-D seismic array composed of a vertical geophone chain and surface seismic array. Seismic instrumenting has been completed in the S1 borehole and is in preparation in the remaining four monitoring boreholes. The continuous fluid monitoring site of Hartoušov includes three boreholes, F1, F2 and F3, and a pilot monitoring phase is underway. The laboratory also enables one to analyze microbial activity at CO2 mofettes and maar structures in the context of changes in habitats. The drillings into the maar volcanoes contribute to a better understanding of the Quaternary paleoclimate and volcanic activity.
The Ice, Cloud, and Land Elevation Satellite-2 (ICESat-2) with its land and vegetation height data product (ATL08), and Global Ecosystem Dynamics Investigation (GEDI) with its terrain elevation and height metrics data product (GEDI Level 2A) missions have great potential to globally map ground and canopy heights. Canopy height is a key factor in estimating above-ground biomass and its seasonal changes; these satellite missions can also improve estimated above-ground carbon stocks. This study presents a novel Sparse Vegetation Detection Algorithm (SVDA) which uses ICESat-2 (ATL03, geolocated photons) data to map tree and vegetation heights in a sparsely vegetated savanna ecosystem. The SVDA consists of three main steps: First, noise photons are filtered using the signal confidence flag from ATL03 data and local point statistics. Second, we classify ground photons based on photon height percentiles. Third, tree and grass photons are classified based on the number of neighbors. We validated tree heights with field measurements (n = 55), finding a root-mean-square error (RMSE) of 1.82 m using SVDA, GEDI Level 2A (Geolocated Elevation and Height Metrics product): 1.33 m, and ATL08: 5.59 m. Our results indicate that the SVDA is effective in identifying canopy photons in savanna ecosystems, where ATL08 performs poorly. We further identify seasonal vegetation height changes with an emphasis on vegetation below 3 m; widespread height changes in this class from two wet-dry cycles show maximum seasonal changes of 1 m, possibly related to seasonal grass-height differences. Our study shows the difficulties of vegetation measurements in savanna ecosystems but provides the first estimates of seasonal biomass changes.
On 7 January 2020, an M-w 6.4 earthquake occurred in the northeastern Caribbean, a few kilometers offshore of the island of Puerto Rico. It was the mainshock of a complex seismic sequence, characterized by a large number of energetic earthquakes illuminating an east-west elongated area along the southwestern coast of Puerto Rico. Deformation fields constrained by Interferometric Synthetic Aperture Radar and Global Navigation Satellite System data indicate that the coseismic movements affected only the western part of the island. To assess the mainshock's source fault parameters, we combined the geodetically derived coseismic deformation with teleseismic waveforms using Bayesian inference. The results indicate a roughly east-west oriented fault, dipping northward and accommodating similar to 1.4 m of transtensional motion. Besides, the determined location and orientation parameters suggest an offshore continuation of the recently mapped North Boqueron Bay-Punta Montalva fault in southwest Puerto Rico. This highlights the existence of unmapped faults with moderate-to-large earthquake potential within the Puerto Rico region.
Despite more than half a century of hominin fossil discoveries in eastern Africa, the regional environmental context of hominin evolution and dispersal is not well established due to the lack of continuous palaeoenvironmental records from one of the proven habitats of early human populations, particularly for the Pleistocene epoch. Here we present a 620,000-year environmental record from Chew Bahir, southern Ethiopia, which is proximal to key fossil sites. Our record documents the potential influence of different episodes of climatic variability on hominin biological and cultural transformation. The appearance of high anatomical diversity in hominin groups coincides with long-lasting and relatively stable humid conditions from similar to 620,000 to 275,000 years bp (episodes 1-6), interrupted by several abrupt and extreme hydroclimate perturbations. A pattern of pronounced climatic cyclicity transformed habitats during episodes 7-9 (similar to 275,000-60,000 years bp), a crucial phase encompassing the gradual transition from Acheulean to Middle Stone Age technologies, the emergence of Homo sapiens in eastern Africa and key human social and cultural innovations. Those accumulative innovations plus the alignment of humid pulses between northeastern Africa and the eastern Mediterranean during high-frequency climate oscillations of episodes 10-12 (similar to 60,000-10,000 years bp) could have facilitated the global dispersal of H. sapiens.
The new in situ geodynamic laboratory established in the framework of the ICDP Eger project aims to develop the most modern, comprehensive, multiparameter laboratory at depth for studying earthquake swarms, crustal fluid flow, mantle-derived CO2 and helium degassing, and processes of the deep biosphere. In order to reach a new level of high-frequency, near-source and multiparameter observation of earthquake swarms and related phenomena, such a laboratory comprises a set of shallow boreholes with high-frequency 3-D seismic arrays as well as modern continuous real-time fluid monitoring at depth and the study of the deep biosphere.
This laboratory is located in the western part of the Eger Rift at the border of the Czech Republic and Germany (in the West Bohemia-Vogtland geodynamic region) and comprises a set of five boreholes around the seismoactive zone. To date, all monitoring boreholes have been drilled. This includes the seismic monitoring boreholes S1, S2 and S3 in the crystalline units north and east of the major Novy Kostel seismogenic zone, borehole F3 in the Hartousov mofette field and borehole S4 in the newly discovered Bazina maar near Liba. Supplementary borehole P1 is being prepared in the Neualbenreuth maar for paleoclimate and biological research. At each of these sites, a borehole broadband seismometer will be installed, and sites S1, S2 and S3 will also host a 3-D seismic array composed of a vertical geophone chain and surface seismic array. Seismic instrumenting has been completed in the S1 borehole and is in preparation in the remaining four monitoring boreholes. The continuous fluid monitoring site of Hartousov includes three boreholes, F1, F2 and F3, and a pilot monitoring phase is underway. The laboratory also enables one to analyze microbial activity at CO2 mofettes and maar structures in the context of changes in habitats. The drillings into the maar volcanoes contribute to a better understanding of the Quaternary paleoclimate and volcanic activity.
We use a dense seismic network on the Reykjanes Peninsula, Iceland, to image a group of earthquakes at 10-12 km depth, 2 km north-east of 2021 Fagradalsfjall eruption site. These deep earthquakes have a lower frequency content compared to earthquakes located in the upper, brittle crust and are similar to deep long period (DLP) seismicity observed at other volcanoes in Iceland and around the world. We observed several swarms of DLP earthquakes between the start of the study period (June 2020) and the initiation of the 3-week-long dyke intrusion that preceded the eruption in March 2021. During the eruption, DLP earthquake swarms returned 1 km SW of their original location during periods when the discharge rate or fountaining style of the eruption changed. The DLP seismicity is therefore likely to be linked to the magma plumbing system beneath Fagradalsfjall. However, the DLP seismicity occurred similar to 5 km shallower than where petrological modelling places the near-Moho magma storage region in which the Fagradalsfjall lava was stored. We suggest that the DLP seismicity was triggered by the exsolution of CO2-rich fluids or the movement of magma at a barrier to the transport of melt in the lower crust. Increased flux through the magma plumbing system during the eruption likely adds to the complexity of the melt migration process, thus causing further DLP seismicity, despite a contemporaneous magma channel to the surface.
The spatial pattern of extreme precipitation from 40 years of gauge data in the central Himalaya
(2022)
The topography of the Himalaya exerts a substantial control on the spatial distribution of monsoonal rainfall, which is a vital water source for the regional economy and population. But the occurrence of short-lived and high-intensity precipitation results in socio-economic losses. This study relies on 40 years of daily data from 204 ground stations in Nepal to derive extreme precipitation thresholds, amounts, and days at the 95th percentile. We additionally determine the precipitation magnitude-frequency relation. We observe that extreme precipitation amounts follow an almost uniform band parallel to topographic contour lines in the southern Himalaya mountains in central and eastern Nepal but not in western Nepal. The relationship of extreme precipitation indices with topographic relief shows that extreme precipitation thresholds decrease with increasing elevation, but extreme precipitation days increase in higher elevation areas. Furthermore, stations above 1 km elevation exhibit a power-law relation in the rainfall magnitude-frequency framework. Stations at higher elevations generally have lower values of power-law exponents than low elevation areas. This suggests a fundamentally different behaviour of the rainfall distribution and an increased occurrence of extreme rainfall storms in the high elevation areas of Nepal.
A review of source models to further the understanding of the seismicity of the Groningen field
(2022)
The occurrence of felt earthquakes due to gas production in Groningen has initiated numerous studies and model attempts to understand and quantify induced seismicity in this region. The whole bandwidth of available models spans the range from fully deterministic models to purely empirical and stochastic models. In this article, we summarise the most important model approaches, describing their main achievements and limitations. In addition, we discuss remaining open questions and potential future directions of development.
40Ar/39Ar dating of a hydrothermal pegmatitic buddingtonite–muscovite assemblage from Volyn, Ukraine
(2022)
We determined Ar-40/Ar-39 ages of buddingtonite, occurring together with muscovite, with the laser-ablation method. This is the first attempt to date the NH4-feldspar buddingtonite, which is typical for sedimentary-diagenetic environments of sediments, rich in organic matter, or in hydrothermal environments, associated with volcanic geyser systems. The sample is a hydrothermal breccia, coming from the Paleoproterozoic pegmatite field of the Korosten Plutonic Complex, Volyn, Ukraine. A detailed characterization by optical methods, electron microprobe analyses, backscattered electron imaging, and IR analyses showed that the buddingtonite consists of euhedral-appearing platy crystals of tens of micrometers wide, 100 or more micrometers in length, which consist of fine-grained fibers of <= 1 mu m thickness. The crystals are sector and growth zoned in terms of K-NH4-H3O content. The content of K allows for an age determination with the Ar-40/Ar-39 method, as well as in the accompanying muscovite, intimately intergrown with the buddingtonite. The determinations on muscovite yielded an age of 1491 +/- 9 Ma, interpreted as the hydrothermal event forming the breccia. However, buddingtonite apparent ages yielded a range of 563 +/- 14 Ma down to 383 +/- 12 Ma, which are interpreted as reset ages due to Ar loss of the fibrous buddingtonite crystals during later heating. We conclude that buddingtonite is suited for Ar-40/Ar-39 age determinations as a supplementary method, together with other methods and minerals; however, it requires a detailed mineralogical characterization, and the ages will likely represent minimum ages.
The main Marmara fault (MMF) extends for 150 km through the Sea of Marmara and forms the only portion of the North Anatolian fault zone that has not ruptured in a large event (Mw >7) for the last 250 yr. Accordingly, this portion is potentially a major source contributing to the seismic hazard of the Istanbul region. On 26 September 2019, a sequence of moderate-sized events started along the MMF only 20 km south of Istanbul and were widely felt by the population. The largest three events, 26 September Mw 5.8 (10:59 UTC), 26 September 2019 Mw 4.1 (11:26 UTC), and 20 January 2020 Mw 4.7 were recorded by numerous strong-motion seismic stations and the resulting ground motions were compared to the predicted means resulting from a set of the most recent ground-motion prediction equations (GMPEs). The estimated residuals were used to investigate the spatial variation of ground motion across the Marmara region. Our results show a strong azimuthal trend in ground-motion residuals, which might indicate systematically repeating directivity effects toward the eastern Marmara region.
Sulfate reduction is the quantitatively most important process to degrade organic matter in anoxic marine sediment and has been studied intensively in a variety of settings. Guaymas Basin, a young marginal ocean basin, offers the unique opportunity to study sulfate reduction in an environment characterized by organic-rich sediment, high sedimentation rates, and high geothermal gradients (100-958 degrees C km(-1)). We measured sulfate reduction rates (SRR) in samples taken during the International Ocean Discovery Program (IODP) Expedition 385 using incubation experiments with radiolabeled (SO42-)-S-35 carried out at in situ pressure and temperature. The highest SRR (387 nmol cm(-3) d(-1)) was recorded in near-surface sediments from Site U1548C, which had the steepest geothermal gradient (958 degrees C km(-1)). At this site, SRR were generally over an order of magnitude higher than at similar depths at other sites (e.g., 387-157 nmol cm(-3) d(-1) at 1.9 mbsf from Site U1548C vs. 46-1.0 nmol cm(-3) d(-1) at 2.1 mbsf from Site U1552B). Site U1546D is characterized by a sill intrusion, but it had already reached thermal equilibrium and SRR were in the same range as nearby Site U1545C, which is minimally affected by sills. The wide temperature range observed at each drill site suggests major shifts in microbial community composition with very different temperature optima but awaits confirmation by molecular biological analyses. At the transition between the mesophilic and thermophilic range around 40 degrees C-60 degrees C, sulfate-reducing activity appears to be decreased, particularly in more oligotrophic settings, but shows a slight recovery at higher temperatures.
Eight d-metal-containing N-butylpyridinium ionic liquids (ILs) with the nominal composition (C4Py)2[Ni0.5M0.5Cl4] or (C4Py)2[Zn0.5M0.5Cl4] (M = Cu, Co, Mn, Ni, Zn; C4Py = N-butylpyridinium) were synthesized, characterized, and investigated for their optical properties. Single crystal and powder X-ray analysis shows that the compounds are isostructural to existing examples based on other d-metal ions. Inductively coupled plasma optical emission spectroscopy measurements confirm that the metal/metal ratio is around 50 : 50. UV-Vis spectroscopy shows that the optical absorption can be tuned by selection of the constituent metals. Moreover, the compounds can act as an optical sensor for the detection of gases such as ammonia as demonstrated via a simple prototype setup.
Fifteen N-butylpyridinium salts - five monometallic [C4Py](2)[MBr4] and ten bimetallic [C4Py](2)[(M0.5M0.5Br4)-M-a-Br-b] (M=Co, Cu, Mn, Ni, Zn) - were synthesized, and their structures and thermal and electrochemical properties were studied. All the compounds are ionic liquids (ILs) with melting points between 64 and 101 degrees C. Powder and single-crystal X-ray diffraction show that all ILs are isostructural. The electrochemical stability windows of the ILs are between 2 and 3 V. The conductivities at room temperature are between 10(-5) and 10(-6) S cm(-1). At elevated temperatures, the conductivities reach up to 10(-4) S cm(-1) at 70 degrees C. The structures and properties of the current bromide-based ILs were also compared with those of previous examples using chloride ligands, which illustrated differences and similarities between the two groups of ILs.
Hydrodynamic interactions, i.e. the floodplain storage effects caused by inundations upstream on flood wave propagation, inundation areas, and flood damage downstream, are important but often ignored in large-scale flood risk assessments. Although new methods considering these effects sometimes emerge, they are often limited to a small or meso scale. In this study, we investigate the role of hydrodynamic interactions and floodplain storage on flood hazard and risk in the German part of the Rhine basin. To do so, we compare a new continuous 1D routing scheme within a flood risk model chain to the piece-wise routing scheme, which largely neglects floodplain storage. The results show that floodplain storage is significant, lowers water levels and discharges, and reduces risks by over 50%. Therefore, for accurate risk assessments, a system approach must be adopted, and floodplain storage and hydrodynamic interactions must carefully be considered.
Tropical Lake Sentani in the Indonesian Province Papua consists of four separate basins and is surrounded by a catchment with a very diverse geology. We characterized the surface sediment (upper 5 cm) of the lake's four sub-basins based on multivariate statistical analyses (principal component analysis, hierarchical clustering) of major element compositions obtained by X-ray fluorescence scanning. Three types of sediment are identified based on distinct compositional differences between rivers, shallow/proximal and deep/distal lake sediments. The different sediment types are mainly characterized by the correlation of elements associated with redox processes (S, Mn, Fe), carbonates (Ca), and detrital input (Ti, Al, Si, K) derived by river discharge. The relatively coarse-grained river sediments mainly derive form the mafic catchment geology and contribution of the limestone catchment geology is only limited. Correlation of redox sensitive and detrital elements are used to reveal oxidation conditions, and indicate oxic conditions in river samples and reducing conditions for lake sediments. Organic carbon (TOC) generally correlates with redox sensitive elements, although a correlation between TOC and individual elements change strongly between the three sediment types. Pyrite is the quantitatively dominant reduced sulfur mineral, monosulfides only reach appreciable concentrations in samples from rivers draining mafic and ultramafic catchments. Our study shows large spatial heterogeneity within the lake's sub-basins that is mainly caused by catchment geology and topography, river runoff as well as the bathymetry and the depth of the oxycline. We show that knowledge about lateral heterogeneity is crucial for understanding the geochemical and sedimentological variations recorded by these sediments. The highly variable conditions make Lake Sentani a natural laboratory, with its different sub-basins representing different depositional environments under identical tropical climate conditions.
Devolatilization of subducting lithologies liberates COH-fluids. These may become partially sequestered in peridotites in the slab and the overlying forearc mantle, affecting the cycling of volatiles and fluid mobile elements in subduction zones. Here we assess the magnitudes, timescales and mechanism of channelized injection of COH-fluids doped with Ca-aq(2+), Sr-aq(2+) and Ba-aq(2+) into the dry forearc mantle by performing piston cylinder experiments between 1-2.5 GPa and 600-700 degrees C. Cylindrical cores of natural spinel-bearing harzburgites were used as starting materials. Based on mineral assemblage and composition three reaction zones are distinguishable from the rim towards the core of primary olivine and orthopyroxene grains. Zone 1 contains carbonates + quartz +/- kyanite and zone 2 contains carbonates + talc +/- chlorite. Olivine is further replaced in zone 3 by either antigorite+ magnesite or magnesite +talc within or above antigorite stability, respectively. Orthopyroxene is replaced in zone 3 by talc + chlorite. Mineral assemblages and the compositions of secondary minerals depend on fluid composition and the replaced primary silicate. The extent of alteration depends on fluid CO2 content and fluid/rock-ratio, and is further promoted by fluid permeable reaction zones and reaction driven cracking. Our results show that COH-fluid induced metasomatism of the forearc mantle is self-perpetuating and efficient at sequestering Ca-aq(2+), Sr-aq(2+), Ba-aq(2+) and CO2aq into newly formed carbonates. This process is fast with 90% of the available C sequestered and nearly 50% of the initial minerals altered at 650 degrees C, 2 GPa within 55 h. The dissolution of primary silicates under high COH-fluid/rock-ratios, as in channelized fluid flow, enriches SiO2aq in the fluid, while CO2aq is sequestered into carbonates. In an open system, the remaining CO2-depleted, Si-enriched aqueous fluid may cause Si-metasomatism in the forearc further away from the injection of the COH-fluid into peridotite.
Evolution of chemical bonding and spin-pairing energy in ferropericlase across Its spin transition
(2022)
The evolution of chemical bonding in ferropericlase, (Mg,Fe)O, with pressure may affect the physical and chemical properties of the Earth's lower mantle. Here, we report high-pressure optical absorption spectra of single-crystalline ferropericlase ((Mg0.87Fe0.13)O) up to 135 GPa. Combined with a re-evaluation of published partial fluorescence yield X-ray absorption spectroscopy data, we show that the covalency of the Fe-O bond increases with pressure, but the iron spin transition at 57-76.5 GPa reverses this trend. The qualitative crossover in chemical bonding suggests that the spin-pairing transition weakens the Fe-O bond in ferropericlase. We find, that the spin transition in ferropericlase is caused by both the increase of the ligand field-splitting energy and the decrease in the spin-pairing energy of high-spin Fe2+.
Landslides
(2022)
Erosion by landslides is a common phenomenon in mountain regions around the globe, affecting all climatic zones. Landslides facilitate bedrock weathering, pedogenesis and ecological succession, being key drivers of biodiversity. Landslide chronosequences have long been used for studies of vegetation succession in initial ecosystems, but they further offer ideal model systems for studies of soil development and microbial community succession. In this review we synthesize the state of knowledge on the role of landslides in ecosystems, their influence on element cycles and interactions with biota. Further, we discuss feedback mechanisms between global warming, landslide activity and greenhouse gas emissions. In the view of increasing anthropogenic influence and climate change, soils are becoming a critical resource. Due to their ubiquity, landslide chronosequences have the potential to provide critical insights into soil development under different climates and thereby contribute to future soil restoration efforts.
Deep hydrothermal Mo, W, and base metal mineralization at the Sweet Home mine (Detroit City portal) formed in response to magmatic activity during the Oligocene. Microthermometric data of fluid inclusions trapped in greisen quartz and fluorite suggest that the early-stage mineralization at the Sweet Home mine precipitated from low- to medium-salinity (1.5-11.5 wt% equiv. NaCl), CO2-bearing fluids at temperatures between 360 and 415 degrees C and at depths of at least 3.5 km. Stable isotope and noble gas isotope data indicate that greisen formation and base metal mineralization at the Sweet Home mine was related to fluids of different origins. Early magmatic fluids were the principal source for mantle-derived volatiles (CO2, H2S/SO2, noble gases), which subsequently mixed with significant amounts of heated meteoric water. Mixing of magmatic fluids with meteoric water is constrained by delta H-2(w)-delta O-18(w) relationships of fluid inclusions. The deep hydrothermal mineralization at the Sweet Home mine shows features similar to deep hydrothermal vein mineralization at Climax-type Mo deposits or on their periphery. This suggests that fluid migration and the deposition of ore and gangue minerals in the Sweet Home mine was triggered by a deep-seated magmatic intrusion. The findings of this study are in good agreement with the results of previous fluid inclusion studies of the mineralization of the Sweet Home mine and from Climax-type Mo porphyry deposits in the Colorado Mineral Belt.
The quantification of spatial propagation of extreme precipitation events is vital in water resources planning and disaster mitigation. However, quantifying these extreme events has always been challenging as many traditional methods are insufficient to capture the nonlinear interrelationships between extreme event time series. Therefore, it is crucial to develop suitable methods for analyzing the dynamics of extreme events over a river basin with a diverse climate and complicated topography. Over the last decade, complex network analysis emerged as a powerful tool to study the intricate spatiotemporal relationship between many variables in a compact way. In this study, we employ two nonlinear concepts of event synchronization and edit distance to investigate the extreme precipitation pattern in the Ganga river basin. We use the network degree to understand the spatial synchronization pattern of extreme rainfall and identify essential sites in the river basin with respect to potential prediction skills. The study also attempts to quantify the influence of precipitation seasonality and topography on extreme events. The findings of the study reveal that (1) the network degree is decreased in the southwest to northwest direction, (2) the timing of 50th percentile precipitation within a year influences the spatial distribution of degree, (3) the timing is inversely related to elevation, and (4) the lower elevation greatly influences connectivity of the sites. The study highlights that edit distance could be a promising alternative to analyze event-like data by incorporating event time and amplitude and constructing complex networks of climate extremes.
A detailed analysis of horizontal and vertical particulate matter (PM) fluxes during wind erosion has been done, based on measurements of PM smaller than 10, 2.5, and 1.0 mu mm, at windward and leeward positions on a measuring field. The three fractions of PM measurement are differently influenced by the increasing wind and shear velocities of the wind. The measured concentrations of the coarser fractions of the fine dust, PM10, and PM2.5, increase with wind and shear velocity, whereas the PM1.0 concentrations show no clear correlation to the shear velocity. The share of PM2.5 on PM10 depends on the measurement height and wind speed and varies between 4 and 12 m/s at the 1 m height ranging from 25% to 7% (average 10%), and at the 4 m height from 39% to 23% (average 30%). Although general relationships between wind speed, PM concentration, and horizontal and vertical fluxes could be found, the contribution of the measuring field was very low, as balances of incoming and outgoing fluxes show. Consequently, the measured PM concentrations are determined from a variety of sources, such as traffic on unpaved roads, cattle drives, tillage operations, and wind erosion, and thus, represent all components of land use and landscape structure in the near and far surroundings of the measuring field. The current results may reflect factors from the landscape scale rather than the influence of field-related variables. The measuring devices used to monitor PM concentrations showed differences of up to 20%, which led to considerable deviations when determining total balances. Differences up to 67% between the calculated fluxes prove the necessity of a previous calibration of the devices used. (c) 2022 International Research and Training Centre on Erosion and Sedimentation/the World Association for Sedimentation and Erosion Research.
At the interface between the lithosphere and the atmosphere, the critical zone records the complex interactions between erosion, climate, geologic substrate, and life and can be directly monitored. Long data records (30 consecutive years for sediment yields) collected in the sparsely vegetated, steep, and small marly badland catchments of the Draix-Bleone Critical Zone Observatory (CZO), SE France, allow analyzing potential climatic controls on regolith dynamics and sediment export. Although widely accepted as a first-order control, rainfall variability does not fully explain the observed interannual variability in sediment export. Previous studies in this area have suggested that frost-weathering processes could drive regolith production and potentially modulate the observed pattern of sediment export. Here, we define sediment export anomalies as the residuals from a predictive model with annual rainfall intensity above a threshold as the control. We then use continuous soil temperature data recorded at different locations over multiple years to highlight the role of different frost-weathering processes (i.e., ice segregation versus volumetric expansion) in regolith production. Several proxies for different frost-weathering processes have been calculated from these data and compared to the sediment export anomalies, with careful consideration of field data quality. Our results suggest that frost-cracking intensity (linked to ice segregation) can explain about half (47 %-64 %) of the sediment export anomalies. In contrast, the number of freeze-thaw cycles (linked to volumetric expansion) has only a minor impact on catchment sediment response. The time spent below 0 degrees C also correlates well with the sediment export anomalies and requires fewer field data to be calculated than the frost-cracking intensity. Thus, frost-weathering processes modulate sediment export by controlling regolith production in these catchments and should be taken into account when building predictive models of sediment export from these badlands under a changing climate.
Continental rifting is responsible for the generation of major sedimentary basins, both during rift inception and during the formation of rifted continental margins. Geophysical and field studies revealed that rifts feature complex networks of normal faults but the factors controlling fault network properties and their evolution are still matter of debate. Here, we employ high-resolution 2D geodynamic models (ASPECT) including two-way coupling to a surface processes (SP) code (FastScape) to conduct 12 models of major rift types that are exposed to various degrees of erosion and sedimentation. We further present a novel quantitative fault analysis toolbox (Fatbox), which allows us to isolate fault growth patterns, the number of faults, and their length and displacement throughout rift history. Our analysis reveals that rift fault networks may evolve through five major phases: (a) distributed deformation and coalescence, (b) fault system growth, (c) fault system decline and basinward localization, (d) rift migration, and (e) breakup. These phases can be correlated to distinct rifted margin domains. Models of asymmetric rifting suggest rift migration is facilitated through both ductile and brittle deformation within a weak exhumation channel that rotates subhorizontally and remains active at low angles. In sedimentation-starved settings, this channel satisfies the conditions for serpentinization. We find that SP are not only able to enhance strain localization and to increase fault longevity but that they also reduce the total length of the fault system, prolong rift phases and delay continental breakup.
We construct and examine the prototype of a deep learning-based ground-motion model (GMM) that is both fully data driven and nonergodic. We formulate ground-motion modeling as an image processing task, in which a specific type of neural network, the U-Net, relates continuous, horizontal maps of earthquake predictive parameters to sparse observations of a ground-motion intensity measure (IM). The processing of map-shaped data allows the natural incorporation of absolute earthquake source and observation site coordinates, and is, therefore, well suited to include site-, source-, and path-specific amplification effects in a nonergodic GMM. Data-driven interpolation of the IM between observation points is an inherent feature of the U-Net and requires no a priori assumptions. We evaluate our model using both a synthetic dataset and a subset of observations from the KiK-net strong motion network in the Kanto basin in Japan. We find that the U-Net model is capable of learning the magnitude???distance scaling, as well as site-, source-, and path-specific amplification effects from a strong motion dataset. The interpolation scheme is evaluated using a fivefold cross validation and is found to provide on average unbiased predictions. The magnitude???distance scaling as well as the site amplification of response spectral acceleration at a period of 1 s obtained for the Kanto basin are comparable to previous regional studies.
Cosmic-ray neutron sensing (CRNS) has become an effective method to measure soil moisture at a horizontal scale of hundreds of metres and a depth of decimetres. Recent studies proposed operating CRNS in a network with overlapping footprints in order to cover root-zone water dynamics at the small catchment scale and, at the same time, to represent spatial heterogeneity. In a joint field campaign from September to November 2020 (JFC-2020), five German research institutions deployed 15 CRNS sensors in the 0.4 km2 Wüstebach catchment (Eifel mountains, Germany). The catchment is dominantly forested (but includes a substantial fraction of open vegetation) and features a topographically distinct catchment boundary. In addition to the dense CRNS coverage, the campaign featured a unique combination of additional instruments and techniques: hydro-gravimetry (to detect water storage dynamics also below the root zone); ground-based and, for the first time, airborne CRNS roving; an extensive wireless soil sensor network, supplemented by manual measurements; and six weighable lysimeters. Together with comprehensive data from the long-term local research infrastructure, the published data set (available at https://doi.org/10.23728/b2share.756ca0485800474e9dc7f5949c63b872; Heistermann et al., 2022) will be a valuable asset in various research contexts: to advance the retrieval of landscape water storage from CRNS, wireless soil sensor networks, or hydrogravimetry; to identify scale-specific combinations of sensors and methods to represent soil moisture variability; to improve the understanding and simulation of land–atmosphere exchange as well as hydrological and hydrogeological processes at the hillslope and the catchment scale; and to support the retrieval of soil water content from airborne and spaceborne remote sensing platforms.
The effect of lithology on the relationship between denudation rate and chemical weathering pathways
(2022)
The denudation of rocks in mountain belts exposes a range of fresh minerals to the surface of the Earth that are chemically weathered by acidic and oxygenated fluids. The impact of the resulting coupling between denudation and weathering rates fundamentally depends on the types of minerals that are weathering. Whereas silicate weathering sequesters CO2, the combination of sulfide oxidation and carbonate dissolution emits CO2 to the atmosphere. Here, we combine the concentrations of dissolved major elements in stream waters with Be-10 basin-wide denudation rates from 35 small catchments in eastern Tibet to elucidate the importance of lithology in modulating the relationships between denudation rate, chemical weathering pathways, and CO2 consumption or release. Our catchments span 3 orders of magnitude in denudation rate in low-grade flysch, high-grade metapelites, and granitoid rocks. For each stream, we estimate the concentrations of solutes sourced from silicate weathering, carbonate dissolution, and sulfide oxidation using a mixing model. We find that for all lithologies, cation concentrations from silicate weathering are largely independent of denudation rate, but solute concentrations from carbonates and, where present, sulfides increase with increasing denudation rate. With increasing denudation rates, weathering may therefore shift from consuming to releasing CO2 in both (meta)sedimentary and granitoid lithologies. For a given denudation rate, we report dissolved solid concentrations and inferred weathering fluxes in catchments underlain by (meta)sedimentary rock that are 2-10 times higher compared to catchments containing granitoid lithologies, even though climatic and topographic parameters do not vary systematically between these catchments. Thus, varying proportions of exposed (meta)sedimentary and igneous rocks during orogenesis could lead to changes in the sequestration and release of CO2 that are independent of denudation rate.
Wetlands are dynamic ecosystems that require continuous monitoring and assessment of degradation status to design strategies for their sustainable management. While hydrology provides the primary functional control for the wetland ecosystem, the loss of landscape connectivity influences wetland degradation in a major way as it leads to fragmentation. This article aims to integrate hydrogeomorphic and ecological concepts for the assessment of degradation status and its causal factors for a large wetland in the western Ganga plains, India, the Haiderpur, using a wetlandscape approach. We have used a remote-sensing-based approach, which offers a powerful tool for assessing and linking cross-scale structures, functions, and controls in a wetlandscape. The Haiderpur, a Ramsar site since December 2021, is an artificial wetland located on the right bank of the Ganga River wherein the inflows are controlled by a barrage constructed on the Ganga River apart from smaller tributaries flowing in from the north. A novel aspect of this work is the integration of river dynamics and its connectivity to the wetlandscape to understand the spatiotemporal variability in the waterspread area in the wetland. In this work, we have developed an integrated wetlandscape assessment approach by evaluating wetland's geomorphic and hydrological connectivity status for the period 1993-2019 (25 years) across three different spatial scales - regional, catchment, and wetland. We have highlighted the ecological implications of connectivity and patch dynamics for developing sustainable wetland management plans.
The Walker Circulation (WC) is an east-west trending band of atmospheric circulation cells along the equator and the predominant controller of heat and moisture transport in the tropics. Its variability is closely linked to the sea-surface temperature (SST) changes across the Pacific, the Indian and the Atlantic Oceans and can have pronounced effects on the humidity regimes of the adjacent continents. In recent years, the evolution of the WC during the Plioand Pleistocene epochs has been intensely studied in the context of the effectiveness of the tropics in modulating global climate change (e.g., the intensification of Northern Hemisphere glaciation). However, the onset of the modern WC pattern as well as its global impact during the Plioand Pleistocene is controversially assessed in the literature. For its onset, previous studies have suggested dates ranging between 2.4 and 0.8 million years ago (Myr), while its argued impact ranges from crucially influencing the increase of Northern Hemisphere ice sheet growth by channelling heat and moisture from the tropics into the high latitudes to having no effect on global ice volume changes. In order to achieve a comprehensive understanding of the spatiotemporal evolution of the WC during this time frame, we statistically analysed 30 globally distributed SST records covering the low and high latitudes between 3.5 and 1.5 Myr, encompassing the Late Pliocene to Early Pleistocene. We utilized a statistical change-point regression model to determine significant change points in the SST evolution of the (sub)-tropics and high latitudes that potentially relate to changes in the WC. We find that the WC experienced a multifaceted evolution between the Late Pliocene and the Early Pleistocene with significant transitional steps at-2.7 and-2.1 Ma. Our results suggest after the Late Pliocene, a pre-modern WC set in, which was characterized by a progressively strengthened Pacific Walker Cell alongside a weakened Indian Ocean Walker Cell. This change was potentially triggered by the constriction of the Indonesian seaway, an important transmitter between the Pacific and Indian Ocean. The ensuing mode of the WC intensified until-2.1 Myr, when SST values around the global scale signalled a progressive strengthening of the Indian Walker Cell in phase with the progressive strengthening of the Pacific and Atlantic Cells. Our findings indicate that a shift from a pre-modern to a modern-like WC potentially only occurred during the mid-Pleistocene.
The first step towards assessing hazards in seismically active regions involves mapping capable faults and estimating their recurrence times. While the mapping of active faults is commonly based on distinct geologic and geomorphic features evident at the surface, mapping blind seismogenic faults is complicated by the absence of on-fault diagnostic features. Here we investigated the Pichilemu Fault in coastal Chile, unknown until it generated a Mw 7.0 earthquake in 2010. The lack of evident surface faulting suggests activity along a partly-hidden blind fault. We used off-fault deformed marine terraces to estimate a fault-slip rate of 0.52 ± 0.04 m/ka, which, when integrated with satellite geodesy suggests a 2.12 ± 0.2 ka recurrence time for Mw~7.0 normal-faulting earthquakes. We propose that extension in the Pichilemu region is associated with stress changes during megathrust earthquakes and accommodated by sporadic slip during upper-plate earthquakes, which has implications for assessing the seismic potential of cryptic faults along convergent margins and elsewhere.
Alexander von Humboldt
(2022)
This book aims to view and to understand Alexander von Humboldt from different perspectives and in varying disciplinary contexts. His contributions addressed numerous topics in the earth but also life sciences—spanning from geo-botany, climatology, paleontology, oceanography, mineralogy, resources, and hydrogeology to links between the environmental impact of humans, erosion, and climate change. From the very beginning, he paved the way for a modern, integrated earth system science approach to decipher, characterize, and model the different forcing factors and their feedback mechanisms. It becomes obvious that Humboldt’s holistic approach is far beyond simple description and empiric data collection. As documented and analyzed in the different texts of this volume, he combines observation and analysis with emotions and subjective perceptions in a very affectionate way. However, this publication does not intend to add another encyclopedic text compilation but to observe and critically analyze this unique personality´s relevance in a modern context, particularly in discussing environmental and social key issues in the twenty-first century.
We have developed a 1D laterally constrained inversion of surface-wave dispersion curves based on the minimum gradient support regularization, which allows solutions with tunable sharpness in the vertical and horizontal directions. The forward modeling consists of a finite-elements approach incorporated in a flexible nonparametric gradient-based inversion scheme, which has already demonstrated good stability and convergence capabilities when tested on other kinds of data. Our deterministic inversion procedure is performed in the shear-wave velocity log space as we noticed that the associated Jacobian indicates a reduced model dependency, and this, in turn, decreases the risks of local nonconvexity. We show several synthetics and one field example to demonstrate the effectiveness and the applicability of the proposed approach.
The response of rapidly compressed highly oriented pyrolytic graphite (HOPG) normal to its basal plane was investigated at a pressure of & SIM;80 GPa. Ultrafast x-ray diffraction using & SIM;100 fs pulses at the Materials Under Extreme Conditions sector of the Linac Coherent Light Source was used to probe the changes in crystal structure resulting from picosecond timescale compression at laser drive energies ranging from 2.5 to 250 mJ. A phase transformation from HOPG to a highly textured hexagonal diamond structure is observed at the highest energy, followed by relaxation to a still highly oriented, but distorted graphite structure following release. We observe the formation of a highly oriented lonsdaleite within 20 ps, subsequent to compression. This suggests that a diffusionless martensitic mechanism may play a fundamental role in phase transition, as speculated in an early work on this system, and more recent static studies of diamonds formed in impact events. Published by AIP Publishing.
We produce climate projections through the 21st century using the fractional energy balance equation (FEBE): a generalization of the standard energy balance equation (EBE). The FEBE can be derived from Budyko-Sellers models or phenomenologically through the application of the scaling symmetry to energy storage processes, easily implemented by changing the integer order of the storage (derivative) term in the EBE to a fractional value.
The FEBE is defined by three parameters: a fundamental shape parameter, a timescale and an amplitude, corresponding to, respectively, the scaling exponent h, the relaxation time tau and the equilibrium climate sensitivity (ECS). Two additional parameters were needed for the forcing: an aerosol recalibration factor alpha to account for the large aerosol uncertainty and a volcanic intermittency correction exponent upsilon. A Bayesian framework based on historical temperatures and natural and anthropogenic forcing series was used for parameter estimation. Significantly, the error model was not ad hoc but rather predicted by the model itself: the internal variability response to white noise internal forcing.
The 90 % credible interval (CI) of the exponent and relaxation time were h = [0.33, 0.44] (median = 0.38) and tau = [2.4, 7.0] (median = 4.7) years compared to the usual EBE h = 1, and literature values of tau typically in the range 2-8 years. Aerosol forcings were too strong, requiring a decrease by an average factor alpha = [0.2, 1.0] (median = 0.6); the volcanic intermittency correction exponent was upsilon = [0.15, 0.41] (median = 0.28) compared to standard values alpha = upsilon = 1. The overpowered aerosols support a revision of the global modern (2005) aerosol forcing 90 % CI to a narrower range [ -1.0, -0.2] W m(-2). The key parameter ECS in comparison to IPCC AR5 (and to the CMIP6 MME), the 90 % CI range is reduced from [1.5, 4.5] K ([2.0, 5.5] K) to [1.6, 2.4] K ([1.5, 2.2] K), with median value lowered from 3.0 K (3.7 K) to 2.0 K (1.8 K) Similarly we found for the transient climate response (TCR), the 90 % CI range shrinks from [1.0, 2.5] K ([1.2, 2.8] K) to [1.2, 1.8] K ([1.1, 1.6] K) and the median estimate decreases from 1.8 K (2.0 K) to 1.5 K (1.4 K). As often seen in other observational-based studies, the FEBE values for climate sensitivities are therefore somewhat lower but still consistent with those in IPCC AR5 and the CMIP6 MME. <br /> Using these parameters, we made projections to 2100 using both the Representative Concentration Pathway (RCP) and Shared Socioeconomic Pathway (SSP) scenarios, and compared them to the corresponding CMIP5 and CMIP6 multi-model ensembles (MMEs). The FEBE historical reconstructions (1880-2020) closely follow observations, notably during the 1998-2014 slowdown ("hiatus"). We also reproduce the internal variability with the FEBE and statistically validate this against centennial-scale temperature observations. Overall, the FEBE projections were 10 %-15 % lower but due to their smaller uncertainties, their 90 % CIs lie completely within the GCM 90 % CIs. This agreement means that the FEBE validates the MME, and vice versa.
The current awareness of the high importance of urban green leads to a stronger need for tools to comprehensively represent urban green and its benefits. A common scientific approach is the development of urban ecosystem services (UES) based on remote sensing methods at the city or district level. Urban planning, however, requires fine-grained data that match local management practices. Hence, this study linked local biotope and tree mapping methods to the concept of ecosystem services. The methodology was tested in an inner-city district in SW Germany, comparing publicly accessible areas and non-accessible courtyards. The results provide area-specific [m(2)] information on the green inventory at the microscale, whereas derived stock and UES indicators form the basis for comparative analyses regarding climate adaptation and biodiversity. In the case study, there are ten times more micro-scale green spaces in private courtyards than in the public space, as well as twice as many trees. The approach transfers a scientific concept into municipal planning practice, enables the quantitative assessment of urban green at the microscale and illustrates the importance for green stock data in private areas to enhance decision support in urban development. Different aspects concerning data collection and data availability are critically discussed.
The authors demonstrate that a vegetation system's ability to recover from disturbances-its resilience-can be estimated from its natural variability. Global patterns of resilience loss and gains since the early 1990s reveal shifts towards widespread resilience loss since the early 2000s.
The character and health of ecosystems worldwide is tightly coupled to changes in Earth's climate. Theory suggests that ecosystem resilience-the ability of ecosystems to resist and recover from external shocks such as droughts and fires-can be inferred from their natural variability. Here, we quantify vegetation resilience globally with complementary metrics based on two independent long-term satellite records. We first empirically confirm that the recovery rates from large perturbations can be closely approximated from internal vegetation variability across vegetation types and climate zones. On the basis of this empirical relationship, we quantify vegetation resilience continuously and globally from 1992 to 2017. Long-term vegetation resilience trends are spatially heterogeneous, with overall increasing resilience in the tropics and decreasing resilience at higher latitudes. Shorter-term trends, however, reveal a marked shift towards a global decline in vegetation resilience since the early 2000s, particularly in the equatorial rainforest belt.
Nocardioides alcanivorans sp. nov., a novel hexadecane-degrading species isolated from plastic waste
(2022)
Strain NGK65(T), a novel hexadecane degrading, non-motile, Gram-positive, rod-to-coccus shaped, aerobic bacterium, was isolated from plastic polluted soil sampled at a landfill.
Strain NGK65(T) hydrolysed casein, gelatin, urea and was catalase-positive. It optimally grew at 28 degrees C. in 0-1% NaCl and at pH 7.5-8.0. Glycerol, D-glucose, arbutin, aesculin, salicin, potassium 5-ketogluconate. sucrose, acetate, pyruvate and hexadecane were used as sole carbon sources.
The predominant membrane fatty acids were iso-C-16:0 followed by iso-C(17:)0 and C-18:1 omega 9c. The major polar lipids were phosphatidylglycerol, phosphatidylethanolamine, phosphatidylinositol and hydroxyphosphatidylinositol.
The cell-wall peptidoglycan type was A3 gamma, with LL-diaminopimelic acid and glycine as the diagnostic amino acids. MK 8 (H-4) was the predominant menaquinone. Phylogenetic analysis based on 16S rRNA gene sequences indicated that strain NGK65(T) belongs to the genus Nocardioides (phylum Actinobacteria). appearing most closely related to Nocardioides daejeonensis MJ31(T) (98.6%) and Nocardioides dubius KSL-104(T) (98.3%).
The genomic DNA G+C content of strain NGK65(T) was 68.2%.
Strain NGK65(T) and the type strains of species involved in the analysis had average nucleotide identity values of 78.3-71.9% as well as digital DNA-DNA hybridization values between 22.5 and 19.7%, which clearly indicated that the isolate represents a novel species within the genus Nocardioides.
Based on phenotypic and molecular characterization, strain NGK65(T) can clearly be differentiated from its phylogenetic neighbours to establish a novel species, for which the name Nocardioides alcanivorans sp. nov. is proposed.
The type strain is NGK65(T) (=DSM 113112(T)=NCCB 100846(T)).
ABSTRACT: Structural evolution of cesium triiodide at high pressures has been revealed by synchrotron single-crystal X-ray diffraction. Cesium triiodide undergoes a first-order phase transition above 1.24(3) GPa from an orthorhombic to a trigonal system. This transition is coupled with severe reorganization of the polyiodide network from a layered to three-dimensional architecture. Quantum chemical calculations show that even though the two polymorphic phases are nearly isoenergetic under ambient conditions, the PV term is decisive in stabilizing the trigonal polymorph above the transition point. Phonon calculations using a non-local correlation functional that accounts for dispersion interactions confirm that this polymorph is dynamically unstable under ambient conditions. The high-pressure behavior of crystalline CsI3 can be correlated with other alkali metal trihalides, which undergo a similar sequence of structural changes upon load.
Flood risk management in Germany follows an integrative approach in which both private households and businesses can make an important contribution to reducing flood damage by implementing property-level adaptation measures. While the flood adaptation behavior of private households has already been widely researched, comparatively less attention has been paid to the adaptation strategies of businesses. However, their ability to cope with flood risk plays an important role in the social and economic development of a flood-prone region. Therefore, using quantitative survey data, this study aims to identify different strategies and adaptation drivers of 557 businesses damaged by a riverine flood in 2013 and 104 businesses damaged by pluvial or flash floods between 2014 and 2017. Our results indicate that a low perceived self-efficacy may be an important factor that can reduce the motivation of businesses to adapt to flood risk. Furthermore, property-owners tended to act more proactively than tenants. In addition, high experience with previous flood events and low perceived response costs could strengthen proactive adaptation behavior. These findings should be considered in business-tailored risk communication.
Die Hochwasserkatastrophe im Juli 2021 in Westdeutschland erfordert eine kritische Diskussion über die Abschätzung der Hochwassergefährdung, Aktualisierung von Hochwassergefahrenkarten und Kommunikation von extremen Hochwasserszenarien. In der vorliegenden Arbeit wurde die Extremwertstatistik für die jährlichen maximalen Spitzenabflüsse am Pegel Altenahr im Ahrtal mit und ohne Berücksichtigung historischer Hochwasser berechnet und verglichen. Die Schätzung der Wiederkehrperiode für das aktuelle Hochwasser mittels Generalisierter Extremwertverteilung (GEV) unter Berücksichtigung historischer Hochwasser schwankt zwischen etwa 2.600 und über 58.700 Jahren (90%-Konfidenzintervall) mit einem Median bei etwa 8.600 Jahren, wogegen die Schätzung, die nur auf der systematisch gemessenen Abflusszeitreihe von 74 Jahren basiert, theoretisch eine Wiederkehrperiode von über 100 Millionen Jahren ergeben würde. Die Berücksichtigung der historischen Hochwasser führt zu einer dramatischen Änderung der Hochwasserquan-
tile, die für eine Gefahrenkartierung zugrunde gelegt werden. Die Anpassung der GEV an die Zeitreihe mit historischen Hochwassern zeigt dennoch, dass das GEV-Modell möglicherweise die Grundgesamtheit der Hochwasser im Ahrtal nicht adäquat abbilden kann. Es könnte sich im vorliegenden Fall um eine gemischte Stichprobe handeln, in der die extremen Hochwasser im Vergleich zu kleineren Ereignissen durch besondere Prozesse hervorgerufen werden. Somit könnten die Wahrscheinlichkeiten von extremen Hochwassern deutlich größer sein, als aus dem GEV-Modell hervorgeht. Hier sollte in Zukunft die Anwendung einer prozessbasierten Mischverteilung
untersucht werden. Der Vergleich von amtlichen Gefahrenkarten zu Extremhochwassern (HQextrem) im Ahrtal mit den Überflutungsflächen vom Juli 2021
zeigt eine deutliche Diskrepanz in den betroffenen Gebieten und die Notwendigkeit, die Grundlagen zur Erstellung der Extremszenarien zu überdenken. Die hydrodynamisch-numerischen Simulationen von 1.000-jährlichen Hochwassern (HQ1000) unter Berücksichtigung historischer Ereignisse und des größten historischen Hochwassers 1804 können die Gefährdung des Juli-Hochwassers 2021 deutlich besser widerspiegeln, wenngleich auch diese beiden Szenarien die Überflutungsflächen unterschätzen. Besondere Effekte wie die Verklausung von Brücken und die geomorphologischen Änderungen im Flussschlauch führten zu noch größeren Überflutungs- flächen im Juli 2021, als die Simulationsergebnisse zeigten. Basierend auf dieser Analyse wird eine einheitliche Festlegung von HQextrem bei Hochwassergefahrenkartierungen in Deutschland vorgeschlagen, die sich an höheren Hochwasserquantilen im Bereich von HQ1000 orientiert. Zusätzlich sollen simulationsbasierte Rekonstruktionen von den größten verlässlich dokumentierten historischen Hochwassern und/oder synthetische Worst-Case-Szenarien in den Hochwassergefahrenkarten gesondert dargestellt werden. Damit wird ein wichtiger Beitrag geleistet, um die potenziell betroffene Bevölkerung und das Katastrophenmanagement vor Überraschungen durch sehr seltene und extreme Hochwasser in Zukunft besser zu schützen.
Understanding the key factors influencing the water quality of large river systems forms an important basis for the assessment and protection of cross-regional ecosystems and the implementation of adapted water management concepts. However, identifying these factors requires in-depth comprehension of the unique environmental systems, which can only be achieved by detailed water quality monitoring.
Within the scope of the joint science and sports event "Elbschwimmstaffel" (swimming relay on the river Elbe) in June/July 2017 organized by the German Ministry of Education and Research, water quality data were acquired along a 550 km long stretch of the Elbe River in Germany. During the survey, eight physiochemical water quality parameters were recorded in high spatial and temporal resolution with the BIOFISH multisensor system. Multivariate statistical methods were applied to identify and delineate processes influencing the water quality.
The BIOFISH dataset revealed that phytoplankton activity has a major impact on the water quality of the Elbe River in the summer months. The results suggest that phytoplankton biomass constitutes a substantial proportion of the suspended particles and that photosynthetic activity of phytoplankton is closely related to significant temporal changes in pH and oxygen saturation.
An evaluation of the BIOFISH data based on the combination of statistical analysis with weather and discharge data shows that the hydrological and meteorological history of the sampled water body was the main driver of phytoplankton dynamics. This study demonstrates the capacity of longitudinal river surveys with the BIOFISH or similar systems for water quality assessment, the identification of pollution sources and their utilization for online in situ monitoring of rivers.
This study deals with the East Beni Suef Basin (Eastern Desert, Egypt) and aims to evaluate the source-generative potential, reconstruct the burial and thermal history, examine the most influential parameters on thermal maturity modeling, and improve on the models already published for the West Beni Suef to ultimately formulate a complete picture of the whole basin evolution.
Source rock evaluation was carried out based on TOC, Rock-Eval pyrolysis, and visual kerogen petrography analyses. Three kerogen types (II, II/III, and III) are distinguished in the East Beni Suef Basin, where the Abu Roash "F" Member acts as the main source rock with good to excellent source potential, oil-prone mainly type II kerogen, and immature to marginal maturity levels.
The burial history shows four depositional and erosional phases linked with the tectonic evolution of the basin. A hiatus (due to erosion or non-deposition) has occurred during the Late Eocene-Oligocene in the East Beni Suef Basin, while the West Beni Suef Basin has continued subsiding.
Sedimentation began later (Middle to Late Albian) with lower rates in the East Beni Suef Basin compared with the West Beni Suef Basin (Early Albian). The Abu Roash "F" source rock exists in the early oil window with a present-day transformation ratio of about 19% and 21% in the East and West Beni Suef Basin, respectively, while the Lower Kharita source rock, which is only recorded in the West Beni Suef Basin, has reached the late oil window with a present-day transformation ratio of about 70%.
The magnitude of erosion and heat flow have proportional and mutual effects on thermal maturity.
We present three possible scenarios of basin modeling in the East Beni Suef Basin concerning the erosion from the Apollonia and Dabaa formations.
Results of this work can serve as a basis for subsequent 2D and/or 3D basin modeling, which are highly recommended to further investigate the petroleum system evolution of the Beni Suef Basin.
The subsurface is a temporally dynamic and spatially heterogeneous compartment of the Earth's critical zone, and biogeochemical transformations taking place in this compartment are crucial for the cycling of nutrients.
The impact of spatial heterogeneity on such microbially mediated nutrient cycling is not well known, which imposes a severe challenge in the prediction of in situ biogeochemical transformation rates and further of nutrient loading contributed by the groundwater to the surface water bodies.
Therefore, we used a numerical modelling approach to evaluate the sensitivity of groundwater microbial biomass distribution and nutrient cycling to spatial heterogeneity in different scenarios accounting for various residence times.
The model results gave us an insight into domain characteristics with respect to the presence of oxic niches in predominantly anoxic zones and vice versa depending on the extent of spatial heterogeneity and the flow regime.
The obtained results show that microbial abundance, distribution, and activity are sensitive to the applied flow regime and that the mobile (i.e. observable by groundwater sampling) fraction of microbial biomass is a varying, yet only a small, fraction of the total biomass in a domain. Furthermore, spatial heterogeneity resulted in anaerobic niches in the domain and shifts in microbial biomass between active and inactive states. The lack of consideration of spatial heterogeneity, thus, can result in inaccurate estimation of microbial activity. In most cases this leads to an overestimation of nutrient removal (up to twice the actual amount) along a flow path.
We conclude that the governing factors for evaluating this are the residence time of solutes and the Damkohler number (Da) of the biogeochemical reactions in the domain. We propose a relationship to scale the impact of spatial heterogeneity on nutrient removal governed by the logioDa.
This relationship may be applied in upscaled descriptions of microbially mediated nutrient cycling dynamics in the subsurface thereby resulting in more accurate predictions of, for example, carbon and nitrogen cycling in groundwater over long periods at the catchment scale.
The Permo-Triassic period marks the time interval between Hercynian (Variscan) orogenic events in the Tien Shan and the North Pamir, and the Cimmerian accretion of the Gondwana-derived Central and South Pamir to the southern margin of the Paleo-Asian continent. A well-preserved Permo-Triassic volcano-sedimentary sequence from the Chinese North Pamir yields important information on the geodynamic evolution of Asia’s pre-Cimmerian southern margin. The oldest volcanic rocks from that section are dated to the late Guadalupian epoch by a rhyolite and a dacitic dike that gave zircon U-Pb ages of ~260 Ma. Permian volcanism was largely pyroclastic and mafic to intermediate. Upsection, a massive ignimbritic crystal tuff in the Chinese Qimgan valley was dated to 244.1 +/- 1.1 Ma, a similar unit in the nearby Gez valley to 245 +/- 11 Ma, and an associated rhyolite to 233.4 +/- 1.1 Ma. Deposition of the locally ~200 m thick crystal tuff unit follows an unconformity and marks the onset of intense, mainly mafic to intermediate, calc-alkaline magmatic activity. Triassic volcanic activity in the North Pamir was coeval with the major phase of Cimmerian intrusive activity in the Karakul-Mazar arc-accretionary complex to the south, caused by northward subduction of the Paleo-Tethys. It also coincided with the emplacement of basanitic and carbonatitic dikes and a thermal event in the South Tien Shan, to the north of our study area. Evidence for arc-related magmatic activity in a back-arc position provides strong arguments for back-arc extension or transtension and basin formation. This puts the Qimgan succession in line with a more than 1000 km long realm of extensional Triassic back-arc basins known from the North Pamir in the Kyrgyz Altyn Darya valley (Myntekin formation), the North Pamir of Tajikistan and Afghanistan, and the Afghan Hindukush (Doab formation) and further west from the Paropamisus and Kopet Dag (Aghdarband, NE Iran).
Magmatic continental rifts often constitute nascent plate boundaries, yet long-term extension rates and transient rate changes associated with these early stages of continental breakup remain difficult to determine. Here, we derive a time-averaged minimum extension rate for the inner graben of the Northern Kenya Rift (NKR) of the East African Rift System for the last 0.5 m.y. We use the TanDEM-X science digital elevation model to evaluate fault-scarp geometries and determine fault throws across the volcano-tectonic axis of the inner graben of the NKR. Along rift-perpendicular profiles, amounts of cumulative extension are determined, and by integrating four new Ar-40/Ar-39 radiometric dates for the Silali volcano into the existing geochronology of the faulted volcanic units, time-averaged extension rates are calculated. This study reveals that in the inner graben of the NKR, the long-term extension rate based on mid-Pleistocene to recent brittle deformation has minimum values of 1.0-1.6 mm yr(-1), locally with values up to 2.0 mm yr(-1). A comparison with the decadal, geodetically determined extension rate reveals that at least 65% of the extension must be accommodated within a narrow, 20-km-wide zone of the inner rift. In light of virtually inactive border faults of the NKR, we show that extension is focused in the region of the active volcano-tectonic axis in the inner graben, thus highlighting the maturing of continental rifting in the NKR.
Draft Genome Sequence of Nocardioides alcanivorans NGK65(T), a Hexadecane-Degrading Bacterium
(2022)
The Gram-positive bacterium Nocardioides alcanivorans NGK65(T) was isolated from plastic-polluted soil and cultivated on medium with polyethylene as the single carbon source. Nanopore sequencing revealed the presence of candidate enzymes for the biodegradation of polyethylene. Here, we report the draft genome of this newly described member of the terrestrial plastisphere.
Frequency-domain electromagnetic (FDEM) data are commonly inverted to characterize subsurface geoelectrical properties using smoothness constraints in 1D inversion schemes assuming a layered medium.
Smoothness constraints are suitable for imaging gradual transitions of subsurface geoelectrical properties caused, for example, by varying sand, clay, or fluid content. However, such inversion approaches are limited in characterizing sharp interfaces. Alternative regularizations based on the minimum gradient support (MGS) stabilizers can, instead, be used to promote results with different levels of smoothness/sharpness selected by simply acting on the so-called focusing parameter.
The MGS regularization has been implemented for different kinds of geophysical data inversion strategies. However, concerning FDEM data, the MGS regularization has only been implemented for vertically constrained inversion (VCI) approaches but not for laterally constrained inversion (LCI) approaches.
We present a novel LCI approach for FDEM data using the MGS regularization for the vertical and lateral direction. Using synthetic and field data examples, we demonstrate that our approach can efficiently and automatically provide a set of model solutions characterized by different levels of sharpness and variable lateral consistencies.
In terms of data misfit, the obtained set of solutions contains equivalent models allowing us also to investigate the non-uniqueness of FDEM data inversion.
In an ocean-continent subduction zone, the assessment of the lithospheric thermal state is essential to determine the controls of the deformation within the upper plate and the dip angle of the subducting lithosphere. In this study, we evaluate the degree of influence of both the configuration of the upper plate (i.e., thickness and composition of the rock units) and variations of the subduction angle on the lithospheric thermal field of the southern Central Andes (29 degrees-39 degrees S). Here, the subduction angle increases from subhorizontal (5 degrees) north of 33 degrees S to steep (similar to 30 degrees) in the south. We derived the 3D temperature and heat flow distribution of the lithosphere in the southern Central Andes considering conversion of S wave tomography to temperatures together with steady-state conductive thermal modeling. We found that the orogen is overall warmer than the forearc and the foreland and that the lithosphere of the northern part of the foreland appears colder than its southern counterpart. Sedimentary blanketing and the thickness of the radiogenic crust exert the main control on the shallow thermal field (<50km depth). Specific conditions are present where the oceanic slab is relatively shallow (<85 km depth) and the radiogenic crust is thin. This configuration results in relatively colder temperatures compared to regions where the radiogenic crust is thick and the slab is steep. At depths >50km, the temperatures of the overriding plate are mainly controlled by the mantle heat input and the subduction angle. The thermal field of the upper plate likely preserves the flat subduction angle and influences the spatial distribution of shortening.
We examined the relationship between the mechanical strength of the lithosphere and the distribution of seismicity within the overriding continental plate of the southern Central Andes (SCA, 29 degrees-39 degrees S), where the oceanic Nazca Plate changes its subduction angle between 33 degrees S and 35 degrees S, from subhorizontal in the north (<5 degrees) to steep in the south (similar to 30 degrees). We computed the long-term lithospheric strength based on an existing 3D model describing variations in thickness, density, and temperature of the main geological units forming the lithosphere of the SCA and adjacent forearc and foreland regions. The comparison between our results and seismicity within the overriding plate (upper-plate seismicity) shows that most of the events occur within the modeled brittle domain of the lithosphere. The depth where the deformation mode switches from brittle frictional to thermally activated ductile creep provides a conservative lower bound to the seismogenic zone in the overriding plate of the study area. We also found that the majority of upper-plate earthquakes occurs within the realm of first-order contrasts in integrated strength (12.7-13.3 log Pam in the Andean orogen vs. 13.5-13.9 log Pam in the forearc and the foreland). Specific conditions characterize the mechanically strong northern foreland of the Andes, where seismicity is likely explained by the effects of slab steepening.
Beyond CO2 equivalence
(2022)
In this article we review the physical and chemical properties of methane (CH4) relevant to impacts on climate, ecosystems, and air pollution, and examine the extent to which this is reflected in climate and air pollution governance. Although CH4 is governed under the UNFCCC climate regime, its treatment there is limited to the ways in which it acts as a "CO2 equivalent" climate forcer on a 100-year time frame. The UNFCCC framework neglects the impacts that CH4 has on near-term climate, as well its impacts on human health and ecosystems, which are primarily mediated by methane's role as a precursor to tropospheric ozone. Frameworks for air quality governance generally address tropospheric ozone as a pollutant, but do not regulate CH4 itself. Methane's climate and air quality impacts, together with its alarming rise in atmospheric concentrations in recent years, make it clear that mitigation of CH4 emissions needs to be accelerated globally. We examine challenges and opportunities for further progress on CH4 mitigation within the international governance landscapes for climate change and air pollution.
The Devonian Las Chacras-Potrerillos batholith comprises six nested monzonitic to granitic intrusions with metaluminous to weakly peraluminous composition and a Sr-Nd isotopic signature indicating a dominantly juvenile mantle-derived source. The chemically most evolved units in the southern batholith contain a large number of intra-granitic, pod-shaped tourmaline-bearing pegmatites. This study uses in situ chemical and boron isotopic analyses of tourmaline from nine of these pegmatites to discuss their relationship to the respective host intrusions and the implications of their B-isotope composition for the source and evolution of the magmas. The tourmalines reveal a diversity in element composition (e.g., FeO, MgO, TiO2, CaO, MnO, F) which distinguishes individual pegmatites from one another. However, all have a narrow 5 11 B range of -13.7 to -10.5%0 (n = 100) which indicates a relatively uniform magmatic system and similar temperature conditions during tourmaline crystallization. The average delta(11) B value of -11.7%0 is typical for S-type granites and is within the range reported for peraluminous granites. pegmatites, and metamorphic units of the Ordovician basement into which the Las Chacras-Potrerillos batholith intruded. The B-isotope evidence argues for a crustal boron source like that of the Ordovician basement, in contrast to the metaluminous to weakly peraluminous composition and juvenile initial Sr and Nd isotope ratios of the Las Chacras-Potrerillos batholith magmas. We propose that the boron was not derived from the magma source region but was incorporated from dehydration melting of elastic metasedimentary rocks higher up in the crustal column.
A tale of shifting relations
(2021)
Understanding the dynamics between the East Asian summer (EASM) and winter monsoon (EAWM) is needed to predict their variability under future global warming scenarios. Here, we investigate the relationship between EASM and EAWM as well as the mechanisms driving their variability during the last 10,000 years by stacking marine and terrestrial (non-speleothem) proxy records from the East Asian realm. This provides a regional and proxy independent signal for both monsoonal systems. The respective signal was subsequently analysed using a linear regression model. We find that the phase relationship between EASM and EAWM is not time-constant and significantly depends on orbital configuration changes. In addition, changes in the Atlantic Meridional Overturning circulation, Arctic sea-ice coverage, El Niño-Southern Oscillation and Sun Spot numbers contributed to millennial scale changes in the EASM and EAWM during the Holocene. We also argue that the bulk signal of monsoonal activity captured by the stacked non-speleothem proxy records supports the previously argued bias of speleothem climatic archives to moisture source changes and/or seasonality.
Spectral analysis is a technique of time-series analysis that decomposes signals into linear combinations of harmonic components. Rooted in the 19th century, spectral analysis gained popularity in palaeoclimatology since the early 1980s. This was partly due to the availability of long time series of past climates, but also the development of new, partly adapted methods and the increasing spread of affordable personal computers. This paper reviews the most important methods of spectral analysis for palaeoclimate time series and discusses the prerequisites for their application as well as advantages and disadvantages. The paper also offers an overview of suitable software, as well as computer code for using the methods on synthetic examples.
We present an approach for rapidly estimating full moment tensors of earthquakes and their parameter uncertainties based on short time windows of recorded seismic waveform data by considering deep learning of Bayesian Neural Networks (BNNs). The individual neural networks are trained on synthetic seismic waveform data and corresponding known earthquake moment-tensor parameters. A monitoring volume has been predefined to form a three-dimensional grid of locations and to train a BNN for each grid point. Variational inference on several of these networks allows us to consider several sources of error and how they affect the estimated full moment-tensor parameters and their uncertainties. In particular, we demonstrate how estimated parameter distributions are affected by uncertainties in the earthquake centroid location in space and time as well as in the assumed Earth structure model. We apply our approach as a proof of concept on seismic waveform recordings of aftershocks of the Ridgecrest 2019 earthquake with moment magnitudes ranging from Mw 2.7 to Mw 5.5. Overall, good agreement has been achieved between inferred parameter ensembles and independently estimated parameters using classical methods. Our developed approach is fast and robust, and therefore, suitable for down-stream analyses that need rapid estimates of the source mechanism for a large number of earthquakes.
The intensification of Northern Hemisphere glaciations at the end of the Pliocene epoch marks one of the most substantial climatic shifts of the Cenozoic. Despite global cooling, sea surface temperatures in the high latitude North Atlantic Ocean rose between 2.9–2.7 million years ago. Here we present sedimentary geochemical proxy data from the Gulf of Cadiz to reconstruct the variability of Mediterranean Outflow Water, an important heat source to the North Atlantic. We find evidence for enhanced production of Mediterranean Outflow from the mid-Pliocene to the late Pliocene which we infer could have driven a sub-surface heat channel into the high-latitude North Atlantic. We then use Earth System Models to constrain the impact of enhanced Mediterranean Outflow production on the northward heat transport in the North Atlantic. In accord with the proxy data, the numerical model results support the formation of a sub-surface channel that pumped heat from the subtropics into the high latitude North Atlantic. We further suggest that this mechanism could have delayed ice sheet growth at the end of the Pliocene.
This habilitation thesis includes seven case studies that examine climate variability during the past 3.5 million years from different temporal and spatial perspectives. The main geographical focus is on the climatic events of the of the African and Asian monsoonal system, the North Atlantic as well as the Arctic Ocean. The results of this study are based on marine and terrestrial climate archives obtained by sedimentological and geochemical methods, and subsequently analyzed by various statistical methods.
The results herein presented results provide a picture of the climatic background conditions of past cold and warm periods, the sensitivity of past climatic climate phases in relation to changes in the atmospheric carbon dioxide content, and the tight linkage between the low and high latitude climate system. Based on the results, it is concluded that a warm background climate state strongly influenced and/or partially reversed the linear relationships between individual climate processes that are valid today. Also, the driving force of the low latitudes for climate variability of the high latitudes is emphasized in the present work, which is contrary to the conventional view that the global climate change of the past 3.5 million years was predominantly controlled by the high latitude climate variability. Furthermore, it is found that on long geologic time scales (>1000 years to millions of years), solar irradiance variability due to changes in the Earth-Sun-Moon System may have increased the sensitivity of low and high latitudes to Influenced changes in atmospheric carbon dioxide.
Taken together, these findings provide new insights into the sensitivity of past climate phases and provide new background conditions for numerical models, that predict future climate change.
Climatic change alters the frequency and intensity of natural hazards. In order to assess potential future changes in flood seasonality in the Rhine River Basin, we analyse changes in streamflow, snowmelt, precipitation, and evapotranspiration at 1.5, 2.0 and 3.0 ◦C global warming levels. The mesoscale Hydrological Model (mHM) forced with an ensemble of climate projection scenarios (five general circulation models under three representative concentration pathways) is used to simulate the present and future climate conditions of both, pluvial and nival hydrological regimes. Our results indicate that the interplay between changes in snowmelt- and rainfall-driven runoff is crucial to understand changes in streamflow maxima in the Rhine River. Climate projections suggest that future changes in flood characteristics in the entire Rhine River are controlled by both, more intense precipitation events and diminishing snow packs. The nature of this interplay defines the type of change in runoff peaks. On the sub-basin level (the Moselle River), more intense rainfall during winter is mostly counterbalanced by reduced snowmelt contribution to the streamflow. In the High Rhine (gauge at Basel), the strongest increases in streamflow maxima show up during winter, when strong increases in liquid precipitation intensity encounter almost unchanged snowmelt-driven runoff. The analysis of snowmelt events suggests that at no point in time during the snowmelt season, a warming climate results in an increase in the risk of snowmelt-driven flooding. We do not find indications of a transient merging of pluvial and nival floods due to climate warming.
The Arctic environments constitute rich and dynamic ecosystems, dominated by microorganisms extremely well adapted to survive and function under severe conditions. A range of physiological adaptations allow the microbiota in these habitats to withstand low temperatures, low water and nutrient availability, high levels of UV radiation, etc. In addition, other adaptations of clear competitive nature are directed at not only surviving but thriving in these environments, by disrupting the metabolism of neighboring cells and affecting intermicrobial communication. Since Arctic microbes are bioindicators which amplify climate alterations in the environment, the Arctic region presents the opportunity to study local microbiota and carry out research about interesting, potentially virulent phenotypes that could be dispersed into other habitats around the globe as a consequence of accelerating climate change. In this context, exploration of Arctic habitats as well as descriptions of the microbes inhabiting them are abundant but microbial competitive strategies commonly associated with virulence and pathogens are rarely reported. In this project, environmental samples from the Arctic region were collected and microorganisms (bacteria and fungi) were isolated. The clinical relevance of these microorganisms was assessed by observing the following virulence markers: ability to grow at a range of temperatures, expression of antimicrobial resistance and production of hemolysins. The aim of this project is to determine the frequency and relevance of these characteristics in an effort to understand microbial adaptations in habitats threatened by climate change. The isolates obtained and described here were able to grow at a range of temperatures, in some cases more than 30 °C higher than their original isolation temperature. A considerable number of them consistently expressed compounds capable of lysing sheep and bovine erythrocytes on blood agar at different incubation temperatures. Ethanolic extracts of these bacteria were able to cause rapid and complete lysis of erythrocyte suspensions and might even be hemolytic when assayed on human blood. In silico analyses showed a variety of resistance elements, some of them novel, against natural and synthetic antimicrobial compounds. In vitro experiments against a number of antimicrobial compounds showed resistance phenotypes belonging to wild-type populations and some non-wild type which clearly denote human influence in the acquisition of antimicrobial resistance. The results of this project demonstrate the presence of virulence-associated factors expressed by microorganisms of natural, non-clinical environments. This study contains some of the first reports, to the best of our knowledge, of hemolytic microbes isolated from the Arctic region. In addition, it provides additional information about the presence and expression of intrinsic and acquired antimicrobial resistance in environmental isolates, contributing to the understanding of the evolution of relevant pathogenic species and opportunistic pathogens. Finally, this study highlights some of the potential risks associated with changes in the polar regions (habitat melting and destruction, ecosystem transition and re-colonization) as important indirect consequences of global warming and altered climatic conditions around the planet.
Ground-penetrating radar (GPR) is a standard geophysical technique used to image near-surface structures in sedimentary environments. In such environments, GPR data acquisition and processing are increasingly following 3D strategies. However, the processed GPR data volumes are typically still interpreted using selected 2D slices and manual concepts such as GPR facies analyses. In seismic volume interpretation, the application of (semi-)automated and reproducible approaches such as 3D attribute analyses as well as the production of attribute-based facies models are common practices today. In contrast, the field of 3D GPR attribute analyses and corresponding facies models is largely untapped. We have developed and applied a workflow to produce 3D attribute-based GPR facies models comprising the dominant sedimentary reflection patterns in a GPR volume, which images complex sandy structures on the dune island of Spiekeroog (Northern Germany). After presenting our field site and details regarding our data acquisition and processing, we calculate and filter 3D texture attributes to generate a database comprising the dominant texture features of our GPR data. Then, we perform a dimensionality reduction of this database to obtain meta texture attributes, which we analyze and integrate using composite imaging and (also considering additional geometric information) fuzzy c-means cluster analysis resulting in a classified GPR facies model. Considering our facies model and a corresponding GPR facies chart, we interpret our GPR data set in terms of near-surface sedimentary units, the corresponding depositional environments, and the recent formation history at our field site. Thus, we demonstrate the potential of our workflow, which represents a novel and clear strategy to perform a more objective and consistent interpretation of 3D GPR data collected across different sedimentary environments.
Soziale Medien sind ein wesentlicher Bestandteil des Alltags von Schüler*innen und gleichzeitig zunehmend wichtig in Wirtschaft, Politik und Wissenschaft. Am Beispiel von Twitter zeigt dieser Beitrag, dass soziale Medien im Unterricht auch für die Beantwortung geographischer Fragestellungen verwendet werden können. Hierfür eignen sich Twitter-Daten aufgrund ihrer Georeferenzierung und weiterer interessanter Inhalte besonders. Der Beitrag gibt einen Überblick über die Verwendung von Twitter für sozialwissenschaftliche und humangeographische Fragestellungen und reflektiert die Nutzung von Twitter im Unterricht. Für die Unterrichtspraxis werden Beispiele zu den Themen Braunkohle, Flutereignisse und Raumwahrnehmungen sowie Anleitungen zur Auswertung, Anwendung und Reflexion von Twitter-Analysen vorgestellt.
Precambrian meta-pelites of the Poshtuk area in northwest Iran contain the prograde mineral assemblage staurolite-garnet-chloritoid-muscovite-biotite that was replaced by the assemblage garnet-staurolite-chlorite-muscovite-biotite at peak metamorphic condition.
Whole-rock compositions reveal that high Fe, Al and Mn contents of their protolith rendered them prone to form these assemblages. Pseudosections calculated in KFMASH, MnKFMASH, and MnNCKFMASHO systems were used to investigate the P-T evolution of the samples. They clearly show the significant effect of MnO on the stability of the chloritoid-bearing assemblages and the formation of garnet through consumption of chlorite and chloritoid. The pseudosection in a T- aH(2)O diagram shows that the studied assemblage could be stable only at a(H2O)>0.8. X-Mg isopleths for garnet and biotite point to peak P-T conditions of about 3.75 kbar and 575 degrees C. Chloritoid stability is overstepped with such conditions. This can be attributed to thermal perturbation due to plutonism. It is concluded, metamorphism was primarily controlled by advective heat from magmatic intrusions in the Poshtuk area. The Precambrian basement complexes were extensively overprinted by the Pan-African Orogeny as well as younger magmatic and metamorphic activities associated to Alpine Orogeny during convergence of Arabian and Eurasian plate.
The concentration of sulfur that can be dissolved in a silicate liquid is of fundamental importance because it is closely associated with several major Earth-related processes. Considerable effort has been made to understand the interplay between the effects of silicate melt composition and its capac-ity to retain sulfur, but the dependence on pressure and temperature is mostly based on experiments performed at pressures and temperatures below 6 GPa and 2073 K. Here we present a study of the effects of pressure and temperature on sulfur content at sulfide saturation of a peridotitic liquid. We performed 14 multi-anvil experiments using a peridotitic starting composition, and we produced 25 new measurements at conditions ranging from 7 to 23 GPa and 2173 to 2623 K. We analyzed the recovered samples using both electron microprobe and laser ablation ICP-MS. We compiled our data together with previously published data that were obtained at lower P-T conditions and with various silicate melt compositions. We present a new model based on this combined data set that encompasses the entire range of upper mantle pressure-temperature conditions, along with the effect of a wide range of silicate melt compositions. Our findings are consistent with earlier work based on extrapolation from lower-pressure and lower-temperature experiments and show a decrease of sulfur content at sulfide saturation (SCSS) with increasing pressure and an increase of SCSS with increasing temperature. We have extrapolated our results to pressure-temperature conditions of the Earth's primitive magma ocean, and show that FeS will exsolve from the molten silicate and can effectively be extracted to the core by a process that has been termed the "Hadean Matte." We also discuss briefly the implications of our results for the lunar magma ocean.
The sediment profile from Lake Goscia(z) over dot in central Poland comprises a continuous, seasonally resolved and exceptionally well-preserved archive of the Younger Dryas (YD) climate variation. This provides a unique opportunity for detailed investigation of lake system responses during periods of rapid climate cooling (YD onset) and warming (YD termination). The new varve record of Lake Goscia(z) over dot presented here spans 1662 years from the late Allerod (AL) to the early Preboreal (PB). Microscopic varve counting provides an independent chronology with a YD duration of 1149+14/-22 years, which confirms previous results of 1140 +/- 40 years. We link stable oxygen isotopes and chironomid-based air temperature reconstructions with the response of various geochemical and varve microfacies proxies especially focusing on the onset and termination of the YD. Cooling at the YD onset lasted similar to 180 years, which is about a century longer than the terminal warming that was completed in similar to 70 years. During the AL/YD transition, environmental proxy data lagged the onset of cooling by similar to 90 years and revealed an increase of lake productivity and internal lake re-suspension as well as slightly higher detrital sediment input. In contrast, rapid warming and environmental changes during the YD/PB transition occurred simultaneously. However, initial changes such as declining diatom deposition and detrital input occurred already a few centuries before the rapid warming at the YD/PB transition. These environmental changes likely reflect a gradual increase in summer air temperatures already during the YD. Our data indicate complex and differing environmental responses to the major climate changes related to the YD, which involve different proxy sensitivities and threshold processes.
Hydromechanical investigations on the self-propping potential of fractures in tight sandstones
(2021)
The hydromechanical properties of single self-propping fractures under stress are of fundamental interest for fractured-rock hydrology and a large number of geotechnical applications. This experimental study investigates fracture closure and hydraulic aperture changes of displaced tensile fractures, aligned tensile fractures, and saw-cut fractures for two types of sandstone (i.e., Flechtinger and Fontainebleau) with contrasting mechanical properties, cycling confining pressure between 5 and 30 MPa. Emphasis is placed on how surface roughness, fracture wall offset, and the mechanical properties of the contact asperities affect the self-propping potential of these fractures under normal stress. A relative fracture wall displacement can significantly increase fracture aperture and hydraulic conductivity, but the degree of increase strongly depends on the fracture surface roughness. For smooth fractures, surface roughness remains scale-independent as long as the fracture area is larger than a roll-off wavelength and thus any further displacement does not affect fracture aperture. For rough tensile fractures, these are self-affine over a larger scale so that an incremental fracture wall offset likely leads to an increase in fracture aperture. X-ray microtomography of the fractures indicates that the contact area ratio of the tensile fractures after the confining pressure cycle inversely correlates with the fracture wall offset yielding values in the range of about 3-25%, depending, first, on the respective surface roughness and, second, on the strength of the asperities in contact. Moreover, the contact asperities mainly occur isolated and tend to be preferentially oriented in the direction perpendicular to the fracture wall displacement which, in turn, may induce flow anisotropy. This, overall, implies that relatively harder sedimentary rocks have a higher self-propping potential for sustainable fluid flow through fractures in comparison to relatively soft rocks when specific conditions regarding surface roughness and fracture wall offset are met.
The lithosphere is often assumed to reside in a thermal steady-state when quantitatively describing the temperature distribution in continental interiors and sedimentary basins, but also at active plate boundaries. Here, we investigate the applicability limit of this assumption at slowly deforming continental rifts. To this aim, we assess the tectonic thermal imprint in numerical experiments that cover a range of realistic rift configurations. For each model scenario, the deviation from thermal equilibrium is evaluated. This is done by comparing the transient temperature field of every model to a corresponding steady-state model with an identical structural configuration. We find that the validity of the thermal steady-state assumption strongly depends on rift type, divergence velocity, sampling location, and depth within the rift. Maximum differences between transient and steady-state models occur in narrow rifts, at the rift sides, and if the extension rate exceeds 0.5-2 mm/a. Wide rifts, however, reside close to thermal steady-state even for high extension velocities. The transient imprint of rifting appears to be overall negligible for shallow isotherms with a temperature less than 100 degrees C. Contrarily, a steady-state treatment of deep crustal isotherms leads to an underestimation of crustal temperatures, especially for narrow rift settings. Thus, not only relatively fast rifts like the Gulf of Corinth, Red Sea, and Main Ethiopian Rift, but even slow rifts like the Kenya Rift, Rhine Graben, and Rio Grande Rift must be expected to feature a pronounced transient component in the temperature field and to therefore violate the thermal steady-state assumption for deeper crustal isotherms.
The computational costs associated with coupled reactive transport simulations are mostly due to the chemical subsystem: replacing it with a pre-trained statistical surrogate is a promising strategy to achieve decisive speedups at the price of small accuracy losses and thus to extend the scale of problems which can be handled. We introduce a hierarchical coupling scheme in which "full-physics" equation-based geochemical simulations are partially replaced by surrogates. Errors in mass balance resulting from multivariate surrogate predictions effectively assess the accuracy of multivariate regressions at runtime: inaccurate surrogate predictions are rejected and the more expensive equation-based simulations are run instead. Gradient boosting regressors such as XGBoost, not requiring data standardization and being able to handle Tweedie distributions, proved to be a suitable emulator. Finally, we devise a surrogate approach based on geochemical knowledge, which overcomes the issue of robustness when encountering previously unseen data and which can serve as a basis for further development of hybrid physics-AI modelling.
The global geological volatile cycle (H, C, N) plays an important role in the long term self-regulation of the Earth system. However, the complex interaction between its deep, solid Earth components (i.e. crust and mantle), Earth's fluid envelopes (i.e. atmosphere and hydrosphere) and plate tectonic processes is a subject of ongoing debate. In this study we want to draw attention to how the presence of primary melt (MI) and fluid (FI) inclusions in high-grade metamorphic minerals could help constrain the crustal component of the volatile cycle. To that end, we review the distribution of MI and FI throughout Earth's history, from ca. 3.0 Ga ago up to the present day. We argue that the lower crust might constitute an important, long-term, volatile storage unit, capable to influence the composition of the surface envelopes through the mean of weathering, crustal thickening, partial melting and crustal assimilation during volcanic activity. Combined with thermodynamic modelling, our compilation indicates that periods of well-established plate tectonic regimes at <0.85 Ga and 1.7-2.1 Ga, might be more prone to the reworking of supracrustal lithologies and the storage of volatiles in the lower crust. Such hypothesis has implication beyond the scope of metamorphic petrology as it potentially links geodynamic mechanisms to habitable surface conditions. MI and FI in metamorphic crustal rocks then represent an invaluable archive to assess and quantify the co-joint evolution of plate tectonics and Earth's external processes. (C) 2021 China University of Geosciences (Beijing) and Peking University. Production and hosting by Elsevier B.V. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
"In spite of ever-increasing research into natural hazards, the reported damage from natural disasters continues to rise, increasingly disrupting human activities. We, as scientists who study the way in which the part of Earth most relevant to society- the surface-behaves, are disturbed and frustrated by this trend. It appears that the large amounts of funding devoted each year to research into reducing the impacts of natural disasters could be much more effective in producing useful results. At the same time we are aware that society, as represented by its decision makers, while increasingly concerned at the impacts of natural disasters on lives and economies, is reluctant to acknowledge the intrinsic activity of Earth's surface and to take steps to adapt societal behaviour to minimise the impacts of natural disasters. Understanding and managing natural hazards and disasters are beyond matters of applied earth science, and also involve considering human societal, economic and political decisions"