Refine
Year of publication
- 2021 (129) (remove)
Document Type
- Article (84)
- Doctoral Thesis (26)
- Postprint (16)
- Monograph/Edited Volume (1)
- Habilitation Thesis (1)
- Master's Thesis (1)
Is part of the Bibliography
- yes (129) (remove)
Keywords
- PHREEQC (5)
- reactive transport (4)
- ALOS World 3D (2)
- ASTER GDEM (2)
- Alpen (2)
- Alps (2)
- Arctic Ocean (2)
- Argentina (2)
- Argentinien (2)
- Big Naryn complex (2)
- Copernicus DEM (2)
- DEM noise (2)
- Environmental sciences (2)
- Exhumation (2)
- Forschungsmethodik (2)
- Fourier analysis (2)
- GNSS-integrated water vapour (2)
- Germany (2)
- Global Navigation Satellite System (GNSS) (2)
- HVSR (2)
- Kuilyu complex (2)
- Nearshore zone (2)
- Ocean color remote sensing (2)
- Ocean sciences (2)
- Paläoklimadynamik (2)
- Rheologie (2)
- SRTM (2)
- Solid Earth sciences (2)
- Soziale Medien (2)
- TRMM (2)
- TanDEM-X (2)
- Tianshan orogenic belt (2)
- Tonian–Cryogenian (2)
- Turbidity retrieval (2)
- Twitter (2)
- Unterrichtsmethoden (2)
- WorldDEM (2)
- Younger Dryas (2)
- blueSeis-3A sensors (2)
- calc-alkaline (2)
- central Poland (2)
- climate change (2)
- climate change adaptation (2)
- coherency (2)
- coherent noise (2)
- convective available potential energy (CAPE) (2)
- correlation (2)
- damage (2)
- elastic rock properties (2)
- environmental seismology (2)
- extreme rainfall (2)
- fatigue (2)
- fundamental frequency (2)
- governance (2)
- heterogeneity (2)
- heuristic analysis (2)
- huddle test (2)
- innovation (2)
- insurance (2)
- lake sediments (2)
- magmatic arc (2)
- mass (2)
- mountain geomorphology (2)
- natural hazard (2)
- noise cross (2)
- numerical modeling (2)
- permafrost (2)
- preparedness (2)
- recovery (2)
- repository far-field (2)
- rotational seismology (2)
- sedimentation pattern (2)
- seismic monitoring (2)
- slope failure (2)
- social (2)
- sorption (2)
- source direction (2)
- time series (2)
- transferability (2)
- urban infill development (2)
- wasting (2)
- weathering (2)
- (compliant) cracks (1)
- 3D root (1)
- Abbaufrontkartierung (1)
- Abbildende Spektroskopie (1)
- African climate (1)
- Afrikanisches Klima (1)
- Afyon volcanics (1)
- AlpArray (1)
- Altersmodelierung (1)
- Aluminium– silicates (1)
- Andean plateau (1)
- Anden (1)
- Andes (1)
- Anthropocene (1)
- Antibiotikaresistenz (1)
- Ar-39 (1)
- Ar-40 (1)
- Arctic (1)
- Arctic climate change (1)
- Arktis (1)
- Bakterien (1)
- Balanced cross section (1)
- Baltic Sea coast (1)
- Biodiversität (1)
- Biogeowissenschaften (1)
- Biomarker (1)
- Boundary element method (1)
- Bruchmechanik (1)
- Bushveld Complex (1)
- Caimancito oil field (1)
- Caimancito-Ölfeld (1)
- Campo petrolero Caimancito (1)
- Central Asia (1)
- Chirete (1)
- Cinética de fases (1)
- Cinética del querógeno (1)
- Contamination (1)
- Corundum (1)
- Cretaceous basin (1)
- Crystal nucleation (1)
- Cuenca Cretácica (1)
- Cuenca intramontana (1)
- Cuesta de la chilca (1)
- Cyanobium (1)
- Cyclostratigraphy (1)
- Dam engineering (1)
- Deformación cuaternaria (1)
- Deformation (1)
- Deuterium Exzesses (1)
- Diaguita (1)
- Dichtemodellierung (1)
- Digitale Gesteinsphysik (1)
- Drucklösungsprozesse (1)
- Duplex (1)
- Dynamic bulk modulus (1)
- Décollement (1)
- EXAFS (1)
- Earthquake forecasting (1)
- Earthquake ground motions (1)
- Earthquake hazards (1)
- Earthquake source observations (1)
- Earthquakes (1)
- East African Rift (1)
- Einengungsraten (1)
- Elastic response (1)
- Elastische Gesteinseigenschaften (1)
- Energy and society (1)
- Equant (stiff) pores (1)
- Erdbeben (1)
- Erdbebenvorhersage (1)
- Erdbeobachtung (1)
- Europe (1)
- Experimental (1)
- Experimental petrology (1)
- Famatinian (1)
- Fernerkundung (1)
- Fluid (1)
- Fluid-Gesteinswechselwirkungen (1)
- Fluide (1)
- Fluidströmung (1)
- Flüsse (1)
- Fold and thrust belt (1)
- Formación Yacoraite (1)
- Fracture mechanics (1)
- Fracture sealing (1)
- Fracture wall offset (1)
- GDGT (1)
- Gasgeochemie (1)
- Geochemical indices (1)
- Geochemical modelling (1)
- Geochemistry (1)
- Geology (1)
- Geomorphologie (1)
- Geophysics (1)
- Geothermal (1)
- Geothermal monitoring (1)
- Geothermisches Monitoring (1)
- Geothermobarometry (1)
- Glaciers (1)
- Global earthquake data (1)
- Globale Erdbebenkatalogdaten (1)
- Gläser (1)
- Granite (1)
- Gravity (1)
- Grundwasser-Oberflächenwasser-Interaktion (1)
- Heavy metals (1)
- Hierarchical clustering (1)
- High-pressure (1)
- High-temperature experiments (1)
- Himalaya (1)
- Hochdruck (1)
- Holocene (1)
- Hydraulic aperture (1)
- Hydro-meteorological indices (1)
- Hämolyse (1)
- IHPV (1)
- Interseismic strain rates (1)
- Interseismiche Dehnungsraten (1)
- Intramontane basin (1)
- Intramontanes Becken (1)
- Inverse theory (1)
- Joint inversion (1)
- Karbonatschmelze (1)
- Kenia (1)
- Kenya (1)
- Kenya Rift (1)
- Kerogenkinetik (1)
- Kinematics of crustal and mantle deformation (1)
- Klimawandel (1)
- Krankheitserreger (1)
- Kreidebecken (1)
- Kurpsai dam (1)
- LGM (1)
- Lake Issyk‐ Kul (1)
- Lake-surfaces variability (1)
- Landfill (1)
- Landslide inventory (1)
- Landslide susceptibility (1)
- Late Holocene (1)
- Leones Glacier (1)
- Lithospheric strength (1)
- Lithosphärenfestigkeit (1)
- Logistic regression (1)
- Lower crust (1)
- MATLAB (1)
- MC-ICP-MS (1)
- Marmarameer (1)
- Martinez del Tineo (1)
- Matrix diffusion (1)
- Mechanical aperture (1)
- Mechanical properties (1)
- Melainabacteria (1)
- Melilitit (1)
- Merensky Reef (1)
- Metastability (1)
- Methylheptadecanes (1)
- Micro-structure (1)
- Mikro-CT (1)
- Minor (1)
- Model (1)
- Modell (1)
- Moment tensor inversion (1)
- Momententensorinversion (1)
- Monsoonal variability (1)
- Mont Terri (1)
- Multivariate statistical analysis (1)
- Nanolayers (1)
- Nanorocks (1)
- Narrow (1)
- Neogene (1)
- Neotektonik (1)
- Nordanatolische Störungszone (1)
- Normal (1)
- North (1)
- North Anatolian Fault Zone (1)
- North Atlantic climate change (1)
- Northern Patagonian Icefield (1)
- Numerische Modellierung (1)
- Operational and environmental effects (1)
- Orbital forcing (1)
- Organofazies (1)
- Ostafrikanisches Rift (1)
- Ostseeküste (1)
- P-waves (1)
- PGE (1)
- PGM (1)
- PT path (1)
- Paleoclimate (1)
- Paleoclimate dynamics (1)
- Paleoclimatic dynamics (1)
- Paläohydrologie (1)
- Paläoökologie (1)
- Panasqueira (1)
- Passive Kontinentalränder (1)
- Passive margins (1)
- Peridotitic melts (1)
- Permafrost-Taustörungen (1)
- Permafrostlandschaften (1)
- Permeabilität (1)
- Permeabilitätsentwicklung (1)
- PhaseKinetics (1)
- Phasenkinetik (1)
- Piedmont Zone (1)
- Pilze (1)
- Pitzer (1)
- Plate tectonics (1)
- Plio-Pleistocene timeframe (1)
- Plio-Pleistozän Zeitfenster (1)
- Pollen (1)
- Pollenproduktivitätsschätzungen (1)
- Porous sandstone (1)
- Porphyrische Kupferlagerstätte (1)
- Poshtuk (1)
- Precambrain (1)
- Precipitation variability (1)
- Probability distributions (1)
- Quartz (1)
- Quartäre Deformation (1)
- Quaternary deformation (1)
- REVEALS (1)
- Ramos X-11 (1)
- Randelementmethode (1)
- Raoult's law (1)
- Reactive transport (1)
- Regional forcings (1)
- Reifegradbezogene Biomarker (1)
- Remote Sensing (1)
- Remote sensing (1)
- Rheological modeling (1)
- Rheologische Modellierung (1)
- Rheology (1)
- Rheology: crust and (1)
- Risk assessment (1)
- Riss (1)
- Río Pescado (1)
- S-waves (1)
- Salt Range (1)
- Salta basin (1)
- Salta-Becken (1)
- Sandstein (1)
- Savannen-Ökologie (1)
- Schwerkraft (1)
- Sea of Marmara (1)
- Seismic cycle (1)
- Seismic noise (1)
- Seismotektonik (1)
- Self-propping fracture (1)
- Sericytochromatia (1)
- Shan (1)
- Shortening rates (1)
- Sierras Pampeanas Orientales (1)
- Silikatschmelze (1)
- Site effects (1)
- Slope (1)
- Snow-cover (1)
- Soil contamination (1)
- Source longevity (1)
- South American Monsoon (1)
- South Korea (1)
- Southern Kyrgyzstan (1)
- Space geodetic surveys (1)
- Spectral analysis (1)
- Spektroskopie (1)
- Static bulk modulus (1)
- Statistical seismology (1)
- Statistische Seismologie (1)
- Strahlung und chemische Eigenschaften (1)
- Strain (1)
- Strong-motion (1)
- Structural health monitoring (1)
- Strukturgeologie (1)
- Strukturmodellierung (1)
- Sturmhochwasser (1)
- Superconducting gravimetry (1)
- Supraleit-Gravimetrie (1)
- Surface roughness (1)
- Synthetische Sandsteine (1)
- System (1)
- Tasas de acortamiento (1)
- Tektonik (1)
- Thermal (1)
- Thermal modeling (1)
- Thermal treatment (1)
- Thermisch (1)
- Thermische Modellierung (1)
- Thermotoleranz (1)
- Tian (1)
- Time series analysis (1)
- Tungsten–tin deposits (1)
- UV fs laser ablation (1)
- Uk’37 (1)
- Unloading (1)
- Upper Indus Basin (1)
- Varves (1)
- Verdichtung (1)
- Versalzung (1)
- Virulenz (1)
- Volatiles (1)
- Volcanology (1)
- Wave propagation (1)
- Waveform inversion (1)
- Western Alps (1)
- XANES (1)
- XAS (1)
- Yacoraite Formation (1)
- ZHe tracer thermochronology (1)
- Zeitreihenanalyse (1)
- Zeitserie (1)
- Zustands-Übergangs-Modelle (1)
- Zyklostratigraphie (1)
- acoustic emissions (1)
- adaptation (1)
- age modeling (1)
- age-related biomarkers (1)
- algorithms (1)
- alteration geochemistry (1)
- amplicon sequencing (1)
- analog experiment (1)
- antibiotic resistance (1)
- antimicrobial resistance (1)
- arctic (1)
- arctic water bodies (1)
- arktische Klimaänderung (1)
- asymmetric rifting (1)
- attributes (1)
- automated monitoring (1)
- bacteria (1)
- basin analysis (1)
- biodegradación (1)
- biodegradation (1)
- biodiversity (1)
- biogeoscience (1)
- biologischer Abbau (1)
- biomarcadores diagnósticos de edad (1)
- biomarcadores diagnósticos de madurez (1)
- biomarker (1)
- body waves (1)
- broadband seismometer (1)
- bubble trap (1)
- calderas (1)
- carbon stabilization (1)
- carbonate melt (1)
- carnallite (1)
- cementation (1)
- change detection (1)
- chloritoid stability (1)
- climate-change mitigation (1)
- climate-change policy (1)
- coexisting phases (1)
- components (1)
- compression (1)
- continental rifts (1)
- convection (1)
- convolutional neural network (1)
- core-shell (1)
- d-excess (1)
- damage assessment (1)
- debris flows (1)
- deep learning (1)
- deformation (1)
- density modeling (1)
- density-driven (1)
- density-driven flow (1)
- diffusion (1)
- digital core reconstruction (1)
- digital grain sizing (1)
- digital rock physics (1)
- dike (1)
- dike propagation (1)
- downstream fining (1)
- dryland (1)
- earthquake source (1)
- earthquakes (1)
- ecological succession (1)
- elastic waves (1)
- emergency (1)
- emergency preparedness (1)
- energy transfer (1)
- equations (1)
- erosion (1)
- eruptions (1)
- eruptive cycle (1)
- exhumation (1)
- extracellular DNA (1)
- facies (1)
- faltendes neuronales Netzwerk (1)
- fault bend fold (1)
- flood events (1)
- flood risk management (1)
- fluid flow (1)
- fluid-rock interactions (1)
- fluvial geomorphology (1)
- formation damage (1)
- fracture growth (1)
- freeze-thaw cycling (1)
- frost‐ cracking (1)
- full (1)
- fungi (1)
- gas geochemistry (1)
- gas supply conditions (1)
- geodynamics (1)
- geologic hazards (1)
- geological hyperspectral image classification (1)
- geologische hyperspektrale Bildklassifikation (1)
- geomorphology (1)
- geothermal energy (1)
- geothermal exploration (1)
- geothermal monitoring (1)
- geothermische Exploration (1)
- geothermische Überwachung (1)
- geyser (1)
- glacial erosion (1)
- glasses (1)
- grain (1)
- grain-size distribution (1)
- ground-penetrating radar (1)
- groundwater-surface water (1)
- hemolysis (1)
- high pressure (1)
- high temperature (1)
- high-pressure (1)
- hydrate formation process (1)
- hydraulic fracturing (1)
- hydro-geological system (1)
- hydrothermal systems (1)
- hyperspectral (1)
- hyperspektral (1)
- imaging spectroscopy (1)
- in (1)
- inheritance (1)
- injections (1)
- injectivity (1)
- interaction (1)
- interpretation (1)
- intracellular DNA (1)
- kerogen kinetics (1)
- lake monitoring (1)
- lake stratification (1)
- laminography (1)
- landsat (1)
- lanthanides (1)
- lanthanoid migration (1)
- lithobiont (1)
- lithosphere (1)
- local structure (1)
- location (1)
- lokale Struktur (1)
- machine learning (1)
- magma ocean (1)
- magmatic-hydrothermal systems (1)
- magnetostratigraphy (1)
- manaderos de petróleo (1)
- matríz mineral (1)
- maturity-related biomarkers (1)
- melilitite (1)
- meta-ophiolites (1)
- meta-pelites (1)
- micro-CT (1)
- micro-CT scan (1)
- mine face mapping (1)
- mineral matrix (1)
- mineralische Matrix (1)
- mixed gas hydrates (1)
- modeling (1)
- moment tensor (1)
- monsunale Variabilität (1)
- multi-spectral analysis (1)
- multivariate Statistik (1)
- multivariate statistics (1)
- multi‐ temporal analyses (1)
- n-alkane (1)
- n-alkanes (1)
- natural hazards (1)
- nature-based solutions (NBS) (1)
- natürlichen Ölaustritten (1)
- neotectonics (1)
- neutron imaging (1)
- nordatlantische Klimaänderung (1)
- northern high latitudes (1)
- numerical (1)
- numerical model (1)
- nördliche hohe Breitengrade (1)
- oberflächennahe Geophysík (1)
- offener Tagebau (1)
- oil seeps (1)
- open pit mining (1)
- organofacies (1)
- paleoecology (1)
- paleohydrology (1)
- pathogens (1)
- pebblecounts (1)
- permafrost landscapes (1)
- permafrost lowlands (1)
- permafrost thaw (1)
- permafrost thaw disturbances (1)
- permeability (1)
- permeability evolution (1)
- permeability-porosity relationship (1)
- phreeqc (1)
- picocyanobacteria diversity (1)
- pollen (1)
- pore-scale (1)
- porous media (1)
- porphyry copper deposit (1)
- pressure solution (1)
- pseudosection (1)
- psychrotolerant (1)
- radiación y propiedades químicas (1)
- radial flow (1)
- radiation and chemical properties (1)
- radiolyse (1)
- radiolysis (1)
- radiólisis (1)
- rainfall events (1)
- ramp (1)
- redox processes (1)
- relief (1)
- response (1)
- retrogressive thaw slumps (1)
- rheology (1)
- rhizosphere biogeochemistry (1)
- rift variability (1)
- rifting (1)
- rivers (1)
- rock (1)
- rock fracture (1)
- rockfalls (1)
- root activity (1)
- root-soil interaction (1)
- salinization (1)
- salt dissolution (1)
- sandstones (1)
- savanna ecology (1)
- sedaDNA (1)
- sediment production (1)
- sedimentology (1)
- sedimentäre alte DNA (1)
- seismic interpretation (1)
- seismic waves (1)
- seismische Interpretation (1)
- seismology (1)
- seismotectonic (1)
- sentinel-2 (1)
- shallow geophysics (1)
- shoreline movement direction (1)
- shoreline movement rate (1)
- signal-to-noise ratio (1)
- silicate melt (1)
- silicate melts (1)
- silikatische Schmelzen (1)
- simulation (1)
- situ Raman spectroscopy (1)
- size fractions (1)
- socioeconomic scenarios (1)
- solar radiation (1)
- source (1)
- spatial correlation (1)
- spectroscopy (1)
- stabilen Isotopen (1)
- stable isotope (1)
- state-transition models (1)
- storm flood (1)
- stress (1)
- stress field (1)
- structural (1)
- structural geology (1)
- structural modelling (1)
- subarctic (1)
- sulfur solubility (1)
- supergene ores (1)
- sustainability (1)
- swarms (1)
- synthetic sandstone (1)
- system architecture (1)
- tectonics (1)
- temperature (1)
- temperature extremes (1)
- thaw (1)
- thermal (1)
- thermal field (1)
- thermisches Feld (1)
- thermo-erosion (1)
- thermotolerance (1)
- tilt (1)
- topographic asymmetry (1)
- topography (1)
- tourmaline (1)
- trace elements (1)
- trajectories (1)
- tremor (1)
- upconversion nanoparticles (1)
- uranium speciation (1)
- vegetation cover (1)
- very high resolution imagery (1)
- virulence (1)
- volcanic earthquakes (1)
- water rock interaction (1)
- waveform (1)
- white mica (1)
- Þeistareykir Iceland (1)
- Þeistareykir Island (1)
Institute
- Institut für Geowissenschaften (129) (remove)
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.
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.