TY  - JOUR
A1  - Ketenoglu, Didem
A1  - Spiekermann, Georg
A1  - Harder, Manuel
A1  - Oz, Erdinc
A1  - Koz, Cevriye
A1  - Yagci, Mehmet C.
A1  - Yilmaz, Eda
A1  - Yin, Zhong
A1  - Sahle, Christoph J.
A1  - Detlefs, Blanka
A1  - Yavas, Hasan
T1  - X-ray Raman spectroscopy of lithium-ion battery electrolyte solutions in a flow cell
JF  - Journal of synchrotron radiation
N2  - The effects of varying LiPF6 salt concentration and the presence of lithium bis(oxalate)borate additive on the electronic structure of commonly used lithium-ion battery electrolyte solvents (ethylene carbonate-dimethyl carbonate and propylene carbonate) have been investigated. X-ray Raman scattering spectroscopy (a non-resonant inelastic X-ray scattering method) was utilized together with a closed-circle flow cell. Carbon and oxygen K-edges provide characteristic information on the electronic structure of the electrolyte solutions, which are sensitive to local chemistry. Higher Li+ ion concentration in the solvent manifests itself as a blue-shift of both the pi* feature in the carbon edge and the carbonyl pi* feature in the oxygen edge. While these oxygen K-edge results agree with previous soft X-ray absorption studies on LiBF4 salt concentration in propylene carbonate, carbon K-edge spectra reveal a shift in energy, which can be explained with differing ionic conductivities of the electrolyte solutions.
KW  - non-resonant inelastic X-ray scattering
KW  - lithium-ion battery electrolyte
KW  - C and O K-edge spectra
Y1  - 2018
U6  - https://doi.org/10.1107/S1600577518001662
SN  - 0909-0495
SN  - 1600-5775
VL  - 25
SP  - 537
EP  - 542
PB  - International Union of Crystallography
CY  - Chester
ER  - 
TY  - JOUR
A1  - Wilke, Max
T1  - X-Ray Absorption Spectroscopy Measurements
JF  - Magmas Under Pressure : Advances in High-Pressure Experiments on Structure and Properties of Melts
N2  - An overview is given on the current state of X-ray absorption measurements on silicate melts and glasses. The challenges, limitations, and achievements of analyzing X-ray absorption spectra measured in liquids to determine structural properties of major and minor elements in magmas are described, with particular focus on describing non-Gaussian pair distribution functions in highly disordered glasses and melts, measured at in situ conditions. This includes a discussion on the progress of combining experiments with data from molecular dynamics simulations. For the measurements at conditions of the deep Earth, various experimental approaches and necessities are discussed and two examples are described in more detail. Finally, the achievements and prospects are presented for measuring X-ray absorption spectra indirectly by X-ray Raman scattering.
Y1  - 2018
SN  - 978-0-12-811274-8
SN  - 978-0-12-811301-1
U6  - https://doi.org/10.1016/B978-0-12-811301-1.00006-X
SP  - 155
EP  - 178
PB  - Elsevier
CY  - Amsterdam
ER  - 
TY  - JOUR
A1  - Ashastina, Kseniia
A1  - Kuzmina, Svetlana
A1  - Rudaya, Natalia
A1  - Troeva, Elena I.
A1  - Schoch, Werner H.
A1  - Roemermann, Christine
A1  - Reinecke, Jennifer
A1  - Otte, Volker
A1  - Savvinov, Grigoriy
A1  - Wesche, Karsten
A1  - Kienast, Frank
T1  - Woodlands and steppes
BT  - Pleistocene vegetation in Yakutia's most continental part recorded in the Batagay permafrost sequence
JF  - Quaternary science reviews : the international multidisciplinary research and review journal
N2  - Based on fossil organism remains including plant macrofossils, charcoal, pollen, and invertebrates preserved in syngenetic deposits of the Batagay permafrost sequence in the Siberian Yana Highlands, we reconstructed the environmental history during marine isotope stages (MIS) 6 to 2. Two fossil assemblages, exceptionally rich in plant remains, allowed for a detailed description of the palaeo-vegetation during two climate extremes of the Late Pleistocene, the onset of the last glacial maximum (LGM) and the last interglacial. In addition, altogether 41 assemblages were used to outline the vegetation history since the penultimate cold stage of MIS 6. Accordingly, meadow steppes analogue to modern communities of the phytosociological order Festucetalia lenensis formed the primary vegetation during the Saalian and Weichselian cold stages. Cold-resistant tundra-steppe communities (Carici rupestris-Kobresietea bellardii) as they occur above the treeline today were, in contrast to more northern locations, mostly lacking. During the last interglacial, open coniferous woodland similar to modern larch taiga was the primary vegetation at the site. Abundant charcoal indicates wildfire events during the last interglacial. Zoogenic disturbances of the local vegetation were indicated by the presence of ruderal plants, especially by abundant Urtica dioica, suggesting that the area was an interglacial refugium for large herbivores. Meadow steppes, which formed the primary vegetation during cold stages and provided potentially suitable pastures for herbivores, were a significant constituent of the plant cover in the Yana Highlands also under the full warm stage conditions of the last interglacial. Consequently, meadow steppes occurred in the Yana Highlands during the entire investigated timespan from MIS 6 to MIS 2 documenting a remarkable environmental stability. Thus, the proportion of meadow steppe vegetation merely shifted in response to the respectively prevailing climatic conditions. Their persistence indicates low precipitation and a relatively warm growing season throughout and beyond the late Pleistocene. The studied fossil record also proves that modern steppe occurrences in the Yana Highlands did not establish as late as in the Holocene but instead are relicts of a formerly continuous steppe belt extending from Central Siberia to Northeast Yakutia during the Pleistocene. The persistence of plants and invertebrates characteristic of meadow steppe vegetation in interior Yakutia throughout the late Quaternary indicates climatic continuity and documents the suitability of this region as a refugium also for other organisms of the Pleistocene mammoth steppe including the iconic large herbivores. (C)2018 Elsevier Ltd. All rights reserved.
KW  - Palaeo-vegetation
KW  - Plant macrofossils
KW  - Invertebrates
KW  - Modern analogues
KW  - Pollen
KW  - Ground squirrel nest
KW  - Last cold stage
KW  - Eemian
KW  - Beringia
Y1  - 2018
U6  - https://doi.org/10.1016/j.quascirev.2018.07.032
SN  - 0277-3791
VL  - 196
SP  - 38
EP  - 61
PB  - Elsevier
CY  - Oxford
ER  - 
TY  - JOUR
A1  - Francke, Till
A1  - Baroni, Gabriele
A1  - Brosinsky, Arlena
A1  - Foerster, Saskia
A1  - Lopez-Tarazon, José Andrés
A1  - Sommerer, Erik
A1  - Bronstert, Axel
T1  - What Did Really Improve Our Mesoscale Hydrological Model?
BT  - a Multidimensional Analysis Based on Real Observations
JF  - Water resources research
N2  - Modelers can improve a model by addressing the causes for the model errors (data errors and structural errors). This leads to implementing model enhancements (MEs), for example, meteorological data based on more monitoring stations, improved calibration data, and/or modifications in process formulations. However, deciding on which MEs to implement remains a matter of expert knowledge. After implementing multiple MEs, any improvement in model performance is not easily attributed, especially when considering different objectives or aspects of this improvement (e.g., better dynamics vs. reduced bias). We present an approach for comparing the effect of multiple MEs based on real observations and considering multiple objectives (MMEMO). A stepwise selection approach and structured plots help to address the multidimensionality of the problem. Tailored analyses allow a differentiated view on the effect of MEs and their interactions. MMEMO is applied to a case study employing the mesoscale hydro-sedimentological model WASA-SED for the Mediterranean-mountainous Isabena catchment, northeast Spain. The investigated seven MEs show diverse effects: some MEs (e.g., rainfall data) cause improvements for most objectives, while other MEs (e.g., land use data) only affect a few objectives or even decrease model performance. Interaction of MEs was observed for roughly half of the MEs, confirming the need to address them in the analysis. Calibration and increasing the temporal resolution showed by far stronger impact than any of the other MEs. The proposed framework can be adopted in other studies to analyze the effect of MEs and, thus, facilitate the identification and implementation of the most promising MEs for comparable cases.
KW  - modeling
KW  - sensitivity analyses
KW  - model enhancement
KW  - sediment
Y1  - 2018
U6  - https://doi.org/10.1029/2018WR022813
SN  - 0043-1397
SN  - 1944-7973
VL  - 54
IS  - 11
SP  - 8594
EP  - 8612
PB  - American Geophysical Union
CY  - Washington
ER  - 
TY  - JOUR
A1  - Duy, Nguyen Le
A1  - Heidbüchel, Ingo
A1  - Meyer, Hanno
A1  - Merz, Bruno
A1  - Apel, Heiko
T1  - What controls the stable isotope composition of precipitation in the Mekong Delta?
BT  - a model-based statistical approach
JF  - Hydrology and earth system sciences : HESS
N2  - This study analyzes the influence of local and regional climatic factors on the stable isotopic composition of rainfall in the Vietnamese Mekong Delta (VMD) as part of the Asian monsoon region. It is based on 1.5 years of weekly rainfall samples. In the first step, the isotopic composition of the samples is analyzed by local meteoric water lines (LMWLs) and single-factor linear correlations. Additionally, the contribution of several regional and local factors is quantified by multiple linear regression (MLR) of all possible factor combinations and by relative importance analysis. This approach is novel for the interpretation of isotopic records and enables an objective quantification of the explained variance in isotopic records for individual factors. In this study, the local factors are extracted from local climate records, while the regional factors are derived from atmospheric backward trajectories of water particles. The regional factors, i.e., precipitation, temperature, relative humidity and the length of backward trajectories, are combined with equivalent local climatic parameters to explain the response variables delta O-18, delta H-2, and d-excess of precipitation at the station of measurement. The results indicate that (i) MLR can better explain the isotopic variation in precipitation (R-2 = 0.8) compared to single-factor linear regression (R-2 = 0.3); (ii) the isotopic variation in precipitation is controlled dominantly by regional moisture regimes (similar to 70 %) compared to local climatic conditions (similar to 30 %); (iii) the most important climatic parameter during the rainy season is the precipitation amount along the trajectories of air mass movement; (iv) the influence of local precipitation amount and temperature is not sig-nificant during the rainy season, unlike the regional precipitation amount effect; (v) secondary fractionation processes (e.g., sub-cloud evaporation) can be identified through the d-excess and take place mainly in the dry season, either locally for delta O-18 and delta H-2, or along the air mass trajectories for d-excess. The analysis shows that regional and local factors vary in importance over the seasons and that the source regions and transport pathways, and particularly the climatic conditions along the pathways, have a large influence on the isotopic composition of rainfall. Although the general results have been reported qualitatively in previous studies (proving the validity of the approach), the proposed method provides quantitative estimates of the controlling factors, both for the whole data set and for distinct seasons. Therefore, it is argued that the approach constitutes an advancement in the statistical analysis of isotopic records in rainfall that can supplement or precede more complex studies utilizing atmospheric models. Due to its relative simplicity, the method can be easily transferred to other regions, or extended with other factors. The results illustrate that the interpretation of the isotopic composition of precipitation as a recorder of local climatic conditions, as for example performed for paleorecords of water isotopes, may not be adequate in the southern part of the Indochinese Peninsula, and likely neither in other regions affected by monsoon processes. However, the presented approach could open a pathway towards better and seasonally differentiated reconstruction of paleoclimates based on isotopic records.
Y1  - 2018
U6  - https://doi.org/10.5194/hess-22-1239-2018
SN  - 1027-5606
SN  - 1607-7938
VL  - 22
IS  - 2
SP  - 1239
EP  - 1262
PB  - Copernicus
CY  - Göttingen
ER  - 
TY  - JOUR
A1  - Emberson, Robert
A1  - Galy, Albert
A1  - Hovius, Niels
T1  - Weathering of Reactive Mineral Phases in Landslides Acts as a Source of Carbon Dioxide in Mountain Belts
JF  - Journal of geophysical research : Earth surface
N2  - Bedrock landsliding in mountain belts can elevate overall chemical weathering rates through rapid dissolution of exhumed reactive mineral phases in transiently stored deposits. This link between a key process of erosion and the resultant weathering affects the sequestering of carbon dioxide through weathering of silicate minerals and broader links between erosion in active orogens and climate change. Here we address the effect on the carbon cycle of weathering induced by bedrock landsliding in Taiwan and the Western Southern Alps of New Zealand. Using solute chemistry data from samples of seepage from landslide deposits and river discharge from catchments with variable proportions of landsliding, we model the proportion of silicate and carbonate weathering and the balance of sulfuric and carbonic acids that act as weathering agents. We correct for secondary precipitation, geothermal, and cyclic input, to find a closer approximation of the weathering explicitly occurring within landslide deposits. We find highly variable proportions of sulfuric and carbonic acids driving weathering in landslides and stable hillslopes. Despite this variability, the predominance of rapid carbonate weathering within landslides and catchments where mass wasting is prevalent results at best in limited sequestration of carbon dioxide by this process of rapid erosion. In many cases where sulfuric acid is a key weathering agent, a net release of CO2 to the atmosphere occurs. This suggests that a causal link between erosion in mountain belts and climate change through the sequestration of CO2, if it exists, must operate through a process other than chemical weathering driven by landsliding. Plain Language Summary There is a long-standing debate surrounding the link between erosion and climate. It is often suggested that as temperatures increase, rainier and stormier weather could increase erosion of rock; as that rock is exposed, silicate minerals within could break down, which, on long time scales, can remove CO2 from the atmosphere, lowering global temperatures and acting as a negative feedback. Recent studies have shown that landslide deposits are key locations for the link between chemical weathering and physical erosion in some mountain belts. To test how landslides affect the erosion-climate link, we used samples of water seeping through landslides in Taiwan and New Zealand to calculate the amount of carbon dioxide that is either absorbed or released through this chemical reaction. We find that the large amount of freshly exposed rock in Taiwanese landslide deposits contains significant carbonate rock and sulfide minerals; the net result of the weathering of these minerals is a release of carbon dioxide, which inverts the traditional perspective on the role erosion plays in controlling carbon dioxide release. In some mountain belts, it seems that increased erosion and resulting landsliding may act to increase carbon dioxide in the air, opening further questions into the nature of erosional-climatic links.
KW  - chemical weathering
KW  - landslides
KW  - erosion-climate link
KW  - carbon dioxide
Y1  - 2018
U6  - https://doi.org/10.1029/2018JF004672
SN  - 2169-9003
SN  - 2169-9011
VL  - 123
IS  - 10
SP  - 2695
EP  - 2713
PB  - American Geophysical Union
CY  - Washington
ER  - 
TY  - JOUR
A1  - Francke, Till
A1  - Förster, Saskia
A1  - Brosinsky, Arlena
A1  - Sommerer, Erik
A1  - Lopez-Tarazonl, Jose Andres
A1  - Güntner, Andreas
A1  - Batalla, Ramon J.
A1  - Bronstert, Axel
T1  - Water and sediment fluxes in Mediterranean mountainous regions
BT  - comprehensive dataset for hydro-sedimentological analyses and modelling in a mesoscale catchment (River Isabena, NE Spain)
JF  - Earth System Science Data
N2  - A comprehensive hydro-sedimentological dataset for the Isabena catchment, northeastern (NE) Spain, for the period 2010-2018 is presented to analyse water and sediment fluxes in a Mediterranean mesoscale catchment. The dataset includes rainfall data from 12 rain gauges distributed within the study area complemented by meteorological data of 12 official meteo-stations. It comprises discharge data derived from water stage measurements as well as suspended sediment concentrations (SSCs) at six gauging stations of the River Isabena and its sub-catchments. Soil spectroscopic data from 351 suspended sediment samples and 152 soil samples were collected to characterize sediment source regions and sediment properties via fingerprinting analyses. The Isabena catchment (445 km(2)) is located in the southern central Pyrenees ranging from 450 m to 2720 m a.s.l.; together with a pronounced topography, this leads to distinct temperature and precipitation gradients. The River Isabena shows marked discharge variations and high sediment yields causing severe siltation problems in the downstream Barasona Reservoir. The main sediment source is badland areas located on Eocene marls that are well connected to the river network. The dataset features a comprehensive set of variables in a high spatial and temporal resolution suitable for the advanced process understanding of water and sediment fluxes, their origin and connectivity and sediment budgeting and for the evaluation and further development of hydro-sedimentological models in Mediterranean mesoscale mountainous catchments.
Y1  - 2018
U6  - https://doi.org/10.5194/essd-10-1063-2018
SN  - 1866-3508
SN  - 1866-3516
VL  - 10
IS  - 2
SP  - 1063
EP  - 1075
PB  - Copernicus
CY  - Göttingen
ER  - 
TY  - JOUR
A1  - Namiki, Atsuko
A1  - Rivalta, Eleonora
A1  - Woith, Heiko
A1  - Willey, Timothy
A1  - Parolai, Stefano
A1  - Walter, Thomas R.
T1  - Volcanic activities triggered or inhibited by resonance of volcanic edifices to large earthquakes
JF  - Geology
N2  - The existence of a causal link between large earthquakes and volcanic unrest is widely accepted. Recent observations have also revealed counterintuitive negative responses of volcanoes to large earthquakes, including decreased gas emissions and subsidence in volcanic areas. In order to explore the mechanisms that could simultaneously explain both the positive and negative responses of volcanic activity to earthquakes, we here focus on the role played by topography. In the laboratory, we shook a volcanic edifice analogue, made of gel, previously injected with a buoyant fluid. We find that shaking triggers rapid migration of the buoyant fluid upward, downward, or laterally, depending on the fluid’s buoyancy and storage depth; bubbly fluids stored at shallow depth ascend, while low-buoyancy fluids descend or migrate laterally. The migration of fluids induced by shaking is two orders of magnitude faster than without shaking. Downward or lateral fluid migration may decrease volcanic gas emissions and cause subsidence as a negative response, while upward migration is consistent both with an increase in volcanic activity and immediate unrest (deformation and seismicity) after large earthquakes. The fluid migration is more efficient when the oscillation frequency is close to the resonance frequency of the edifice. The resonance frequency for a 30-km-wide volcanic mountain range, such as those where subsidence was observed, is ∼0.07 Hz. Only large earthquakes are able to cause oscillation at such low frequencies.
Y1  - 2018
U6  - https://doi.org/10.1130/G45323.1
SN  - 0091-7613
SN  - 1943-2682
VL  - 47
IS  - 1
SP  - 67
EP  - 70
PB  - American Institute of Physics
CY  - Boulder
ER  - 
TY  - JOUR
A1  - Coesfeld, Jacqueline
A1  - Anderson, Sharolyn J.
A1  - Baugh, Kimberly
A1  - Elvidge, Christopher D.
A1  - Schernthanner, Harald
A1  - Kyba, Christopher C. M.
T1  - Variation of Individual Location Radiance in VIIRS DNB Monthly Composite Images
JF  - Remote sensing
N2  - With the growing size and use of night light time series from the Visible Infrared Imaging Radiometer Suite Day/Night Band (DNB), it is important to understand the stability of the dataset. All satellites observe differences in pixel values during repeat observations. In the case of night light data, these changes can be due to both environmental effects and changes in light emission. Here we examine the stability of individual locations of particular large scale light sources (e.g., airports and prisons) in the monthly composites of DNB data from April 2012 to September 2017. The radiances for individual pixels of most large light emitters are approximately normally distributed, with a standard deviation of typically 15-20% of the mean. Greenhouses and flares, however, are not stable sources. We observe geospatial autocorrelation in the monthly variations for nearby sites, while the correlation for sites separated by large distances is small. This suggests that local factors contribute most to the variation in the pixel radiances and furthermore that averaging radiances over large areas will reduce the total variation. A better understanding of the causes of temporal variation would improve the sensitivity of DNB to lighting changes.
KW  - artificial light at night
KW  - light pollution
KW  - night lights
KW  - VIIRS DNB
Y1  - 2018
U6  - https://doi.org/10.3390/rs10121964
SN  - 2072-4292
VL  - 10
IS  - 12
PB  - MDPI
CY  - Basel
ER  - 
TY  - GEN
A1  - Gholamrezaie, Ershad
A1  - Scheck-Wenderoth, Magdalena
A1  - Sippel, Judith
A1  - Strecker, Manfred
T1  - Variability of the geothermal gradient across two differently aged magma-rich continental rifted margins of the Atlantic Ocean
BT  - the Southwest African and the Norwegian margins
N2  - Abstract. The aim of this study is to investigate the shallow thermal field differences for two differently aged passive continental margins by analyzing regional variations in geothermal gradient and exploring the controlling factors for these variations. Hence, we analyzed two previously published 3-D conductive and lithospheric-scale thermal models of the Southwest African and the Norwegian passive margins. These 3-D models differentiate various sedimentary, crustal, and mantle units and integrate different geophysical data such as seismic observations and the gravity field. We extracted the temperature–depth distributions in 1 km intervals down to 6 km below the upper thermal boundary condition. The geothermal gradient was then calculated for these intervals between the upper thermal boundary condition and the respective depth levels (1, 2, 3, 4, 5, and 6 km below the upper thermal boundary condition). According to our results, the geothermal gradient decreases with increasing depth and shows varying lateral trends and values for these two different margins. We compare the 3-D geological structural models and the geothermal gradient variations for both thermal models and show how radiogenic heat production, sediment insulating effect, and thermal lithosphere–asthenosphere boundary (LAB) depth influence the shallow thermal field pattern. The results indicate an ongoing process of oceanic mantle cooling at the young Norwegian margin compared with the old SW African passive margin that seems to be thermally equilibrated in the present day.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 414 
KW  - radiogenic heat-production
KW  - European basin system
KW  - lower crustal bodies
KW  - north-atlantic
KW  - subsidence analysis
KW  - sedimentary basins
KW  - tectonic evolution
KW  - Argentine margine
KW  - thermal field
KW  - voring basin
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-409493
ER  - 
TY  - JOUR
A1  - Gholamrezaie, Ershad
A1  - Scheck-Wenderoth, Magdalena
A1  - Sippel, Judith
A1  - Strecker, Manfred
T1  - Variability of the geothermal gradient across two differently aged magma-rich continental rifted margins of the Atlantic Ocean
BT  - the Southwest African and the Norwegian margins
JF  - Solid Earth
N2  - Abstract. The aim of this study is to investigate the shallow thermal field differences for two differently aged passive continental margins by analyzing regional variations in geothermal gradient and exploring the controlling factors for these variations. Hence, we analyzed two previously published 3-D conductive and lithospheric-scale thermal models of the Southwest African and the Norwegian passive margins. These 3-D models differentiate various sedimentary, crustal, and mantle units and integrate different geophysical data such as seismic observations and the gravity field. We extracted the temperature–depth distributions in 1 km intervals down to 6 km below the upper thermal boundary condition. The geothermal gradient was then calculated for these intervals between the upper thermal boundary condition and the respective depth levels (1, 2, 3, 4, 5, and 6 km below the upper thermal boundary condition). According to our results, the geothermal gradient decreases with increasing depth and shows varying lateral trends and values for these two different margins. We compare the 3-D geological structural models and the geothermal gradient variations for both thermal models and show how radiogenic heat production, sediment insulating effect, and thermal lithosphere–asthenosphere boundary (LAB) depth influence the shallow thermal field pattern. The results indicate an ongoing process of oceanic mantle cooling at the young Norwegian margin compared with the old SW African passive margin that seems to be thermally equilibrated in the present day.
KW  - radiogenic heat-production
KW  - European basin system
KW  - lower crustal bodies
KW  - north-atlantic
KW  - subsidence analysis
KW  - sedimentary basins
KW  - tectonic evolution
KW  - Argentine margine
KW  - thermal field
KW  - voring basin
Y1  - 2018
U6  - https://doi.org/10.5194/se-9-139-2018
SN  - 1869-9529
SN  - 1869-9510
VL  - 9
IS  - 1
SP  - 139
EP  - 158
PB  - Copernicus
CY  - Göttingen
ER  - 
TY  - JOUR
A1  - Irrgang, Anna Maria
A1  - Lantuit, Hugues
A1  - Manson, Gavin K.
A1  - Günther, Frank
A1  - Grosse, Guido
A1  - Overduin, Pier Paul
T1  - Variability in rates of coastal change along the Yukon Coast, 1951 to 2015
JF  - Journal of geophysical research : Earth surface
N2  - To better understand the reaction of Arctic coasts to increasing environmental pressure, coastal changes along a 210-km length of the Yukon Territory coast in north-west Canada were investigated. Shoreline positions were acquired from aerial and satellite images between 1951 and 2011. Shoreline change rates were calculated for multiple time periods along the entire coast and at six key sites. Additionally, Differential Global Positioning System (DGPS) measurements of shoreline positions from seven field sites were used to analyze coastal dynamics from 1991 to 2015 at higher spatial resolution. The whole coast has a consistent, spatially averaged mean rate of shoreline change of 0.7 +/- 0.2 m/a with a general trend of decreasing erosion from west to east. Additional data from six key sites shows that the mean shoreline change rate decreased from -1.3 +/- 0.8 (1950s-1970s) to -0.5 +/- 0.6 m/a (1970s-1990s). This was followed by a significant increase in shoreline change to -1.3 +/- 0.3 m/a in the 1990s to 2011. This increase is confirmed by DGPS measurements that indicate increased erosion rates at local rates up to -8.9 m/a since 2006. Ground surveys and observations with remote sensing data indicate that the current rate of shoreline retreat along some parts of the Yukon coast is higher than at any time before in the 64-year-long observation record. Enhanced availability of material in turn might favor the buildup of gravel features, which have been growing in extent throughout the last six decades. Plain Language Summary The Arctic is warming, but the impacts on its coasts are not well documented. To better understand the reaction of Arctic coasts to increasing environmental pressure, shoreline position changes along a 210-km length of the Yukon Territory coast in northwest Canada were investigated for the time period from 1951 to 2015. Shoreline positions were extracted from historical aerial images from the 1950s, 1970s, and 1990s and from satellite images from 2011. Additionally, measurements of shoreline positions from field sites were used to analyze coastal dynamics from 1991 to 2015. The mean shoreline change rate was -1.3 m/a between the 1950s and 1970s and followed by a decrease to -0.5 m/a between the 1970s to 1990s. This was followed by a significant increase in mean shoreline change rates again to -1.3 m/a in the 1990s to 2011 time period. This acceleration in erosion is confirmed by field measurements that indicate increased erosion rates at high local rates up to -8.9 m/a since 2006. Enhanced coastal erosion might, in turn, favor the buildup of gravel features, which have been growing in extent throughout the last six decades.
Y1  - 2018
U6  - https://doi.org/10.1002/2017JF004326
SN  - 2169-9003
SN  - 2169-9011
VL  - 123
IS  - 4
SP  - 779
EP  - 800
PB  - American Geophysical Union
CY  - Washington
ER  - 
TY  - GEN
A1  - Smith, Taylor
A1  - Bookhagen, Bodo
T1  - Using passive microwave data to understand spatio-temporal trends and dynamics in snow-water storage in High Mountain Asia
T2  - active and passive microwave remote sensing for environmental monitoring II
N2  - High Mountain Asia provides water for more than a billion downstream users. Many catchments receive the majority of their yearly water budget in the form of snow - the vast majority of which is not monitored by sparse weather networks. We leverage passive microwave data from the SSMI series of satellites (SSMI, SSMI/S, 1987-2016), reprocessed to 3.125 km resolution, to examine trends in the volume and spatial distribution of snow-water equivalent (SWE) in the Indus Basin. We find that the majority of the Indus has seen an increase in snow-water storage. There exists a strong elevation-trend relationship, where high-elevation zones have more positive SWE trends. Negative trends are confined to the Himalayan foreland and deeply-incised valleys which run into the Upper Indus. This implies a temperature-dependent cutoff below which precipitation increases are not translated into increased SWE. Earlier snowmelt or a higher percentage of liquid precipitation could both explain this cutoff.(1) Earlier work 2 found a negative snow-water storage trend for the entire Indus catchment over the time period 1987-2009 (-4 x 10(-3) mm/yr). In this study based on an additional seven years of data, the average trend reverses to 1.4 x 10(-3). This implies that the decade since the mid-2000s was likely wetter, and positively impacted long-term SWE trends. This conclusion is supported by an analysis of snowmelt onset and end dates which found that while long-term trends are negative, more recent (since 2005) trends are positive (moving later in the year).(3)
KW  - Passive Microwave
KW  - Snow
KW  - Climate Change
KW  - High Mountain Asia
Y1  - 2018
SN  - 978-1-5106-2160-2
U6  - https://doi.org/10.1117/12.2323827
SN  - 0277-786X
SN  - 1996-756X
VL  - 10788
PB  - SPIE-INT Soc Optical Engineering
CY  - Bellingham
ER  - 
TY  - RPRT
A1  - Thieken, Annegret
A1  - Dierck, Julia
A1  - Dunst, Lea
A1  - Göpfert, Christian
A1  - Heidenreich, Anna
A1  - Hetz, Karen
A1  - Kern, Julia
A1  - Kern, Kristine
A1  - Lipp, Torsten
A1  - Lippert, Cordine
A1  - Meves, Monika
A1  - Niederhafner, Stefan
A1  - Otto, Antje
A1  - Rohrbacher, Christian
A1  - Schmidt, Katja
A1  - Strate, Leander
A1  - Stumpp, Inga
A1  - Walz, Ariane
T1  - Urbane Resilienz gegenüber extremen Wetterereignissen – Typologien und Transfer von Anpassungsstrategien in kleinen Großstädten und Mittelstädten (ExTrass)
BT  - Verbundvorhaben „Zukunftsstadt“ (Definitionsprojekt)
N2  - Weltweit verursachen Städte etwa 70 % der Treibhausgasemissionen und sind daher wichtige Akteure im Klimaschutz bzw. eine wichtige Zielgruppe von Klimapolitiken. Gleichzeitig sind Städte besonders stark von möglichen Auswirkungen des Klimawandels betroffen: Insbesondere extreme Wetterereignisse wie Hitzewellen oder Starkregenereignisse mit Überflutungen verursachen in Städten hohe Sachschäden und wirken sich negativ auf die Gesundheit der städtischen Bevölkerung aus. Daher verfolgt das Projekt ExTrass das Ziel, die städtische Resilienz gegenüber extremen Wetterereignissen in enger Zusammenarbeit mit Stadtverwaltungen, Strukturen des Bevölkerungsschutzes und der Zivilgesellschaft zu stärken. Im Fokus stehen dabei (kreisfreie) Groß- und Mittelstädte mit 50.000 bis 500.000 Einwohnern, insbesondere die Fallstudienstädte Potsdam, Remscheid und Würzburg.
Der vorliegende Bericht beinhaltet die Ergebnisse der 14-monatigen Definitionsphase von ExTrass, in der vor allem die Abstimmung eines Arbeitsprogramms im Mittelpunkt stand, das in einem nachfolgenden dreijährigen Forschungsprojekt (F+E-Phase) gemeinsam von Wissenschaft und Praxispartnern umgesetzt werden soll. Begleitend wurde eine Bestandsaufnahme von Klimaanpassungs- und Klimaschutzstrategien/-plänen in 99 deutschen Groß- und Mittelstädten vorgenommen. Zudem wurden für Potsdam und Würzburg Pfadanalysen für die Klimapolitik durchgeführt. Darin wird insbesondere die Bedeutung von Schlüsselakteuren deutlich. Weiterhin wurden im Rahmen von Stakeholder-Workshops Anpassungsherausforderungen und aktuelle Handlungsbedarfe in den Fallstudienstädten identifiziert und Lösungsansätze erarbeitet, die in der F+E-Phase entwickelt und getestet werden sollen. Neben Maßnahmen auf gesamtstädtischer Ebene und auf Stadtteilebene wurden Maßnahmen angestrebt, die die Risikowahrnehmung, Vorsorge und Selbsthilfefähigkeit von Unternehmen und Bevölkerung stärken können. Daher wurde der Stand der Risikokommunikation in Deutschland für das Projekt aufgearbeitet und eine erste Evaluation von Risikokommunikationswerkzeugen durchgeführt. Der Bericht endet mit einer Kurzfassung des Arbeitsprogramms 2018-2021.
N2  - Cities are responsible for around 70 % of the global greenhouse gas emissions and are hence important for climate mitigation; consequently they are a crucial target group of climate policies. At the same time, cities are also severely affected by potential impacts of climate change: extreme weather events such as heat waves or heavy precipitation (pluvial floods) cause high economic losses in urban areas and have adverse effects on the health of the urban population. Therefore, the project ExTrass is aimed at measurably enhancing cities’ resilience against extreme weather events jointly with representatives of urban administrations, disaster assistance and civil society. The project focusses on small metropolises and medium-sized cities with 50,000 to 500,000 inhabitants, in particular on the case study cities of Potsdam, Remscheid and Würzburg.
The report summarizes the results of a 14-month definition phase whose main purpose was to define the research program of the successive 3-year-R+D-project, to be implemented jointly by researchers and practitioners. In addition, an inventory of climate change adaptation and climate mitigation strategies and plans of 99 German metropolises and medium-sized cities was created. Moreover, an in-depth analysis of the pathways of climate policies in the cities of Potsdam and Würzburg was conducted, which particularly revealed the relevance of key personalities. Furthermore, current challenges in climate adaptation and needs for action were identified during stakeholder workshops in the case study cities. In addition, possible solutions were discussed which will be implemented and tested during the R+D-project. Besides measures on the city level and on the level of urban districts, options that improve risk awareness, preparedness and coping capacities of enterprises and residents are strived for. Thus the state-of-the-art of risk communication in Germany was reviewed for the project and a first evaluation of a serious game was performed. The report ends with a brief outline of the work program 2018-2021.
KW  - Klimaanpassung
KW  - Klimaschutz
KW  - Pfadanalysen
KW  - Stadtentwicklung
KW  - Hitze
KW  - Starkregen
KW  - Risikokommunikation
KW  - Potsdam
KW  - Würzburg
KW  - Deutschland
KW  - Climate Adaptation
KW  - Climate Mitigation
KW  - analysis of pathways
KW  - urban development
KW  - heat
KW  - pluvial flooding
KW  - risk communication
KW  - city of Potsdam
KW  - city of Wuerzburg
KW  - Germany
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-416067
ER  - 
TY  - JOUR
A1  - Goodwin, Guillaume C. H.
A1  - Mudd, Simon M.
A1  - Clubb, Fiona J.
T1  - Unsupervised detection of salt marsh platforms
BT  - a topographic method
JF  - Earth surface dynamics
N2  - Salt marshes filter pollutants, protect coastlines against storm surges, and sequester carbon, yet are under threat from sea level rise and anthropogenic modification. The sustained existence of the salt marsh ecosystem depends on the topographic evolution of marsh platforms. Quantifying marsh platform topography is vital for improving the management of these valuable landscapes. The determination of platform boundaries currently relies on supervised classification methods requiring near-infrared data to detect vegetation, or demands labour-intensive field surveys and digitisation. We propose a novel, unsupervised method to reproducibly isolate salt marsh scarps and platforms from a digital elevation model (DEM), referred to as Topographic Identification of Platforms (TIP). Field observations and numerical models show that salt marshes mature into subhorizontal platforms delineated by subvertical scarps. Based on this premise, we identify scarps as lines of local maxima on a slope raster, then fill landmasses from the scarps upward, thus isolating mature marsh platforms. We test the TIP method using lidar-derived DEMs from six salt marshes in England with varying tidal ranges and geometries, for which topographic platforms were manually isolated from tidal flats. Agreement between manual and unsupervised classification exceeds 94% for DEM resolutions of 1 m, with all but one site maintaining an accuracy superior to 90% for resolutions up to 3 m. For resolutions of 1 m, platforms detected with the TIP method are comparable in surface area to digitised platforms and have similar elevation distributions. We also find that our method allows for the accurate detection of local block failures as small as 3 times the DEM resolution. Detailed inspection reveals that although tidal creeks were digitised as part of the marsh platform, unsupervised classification categorises them as part of the tidal flat, causing an increase in false negatives and overall platform perimeter. This suggests our method may benefit from combination with existing creek detection algorithms. Fallen blocks and high tidal flat portions, associated with potential pioneer zones, can also lead to differences between our method and supervised mapping. Although pioneer zones prove difficult to classify using a topographic method, we suggest that these transition areas should be considered when analysing erosion and accretion processes, particularly in the case of incipient marsh platforms. Ultimately, we have shown that unsupervised classification of marsh platforms from high-resolution topography is possible and sufficient to monitor and analyse topographic evolution.
Y1  - 2018
U6  - https://doi.org/10.5194/esurf-6-239-2018
SN  - 2196-6311
SN  - 2196-632X
VL  - 6
IS  - 1
SP  - 239
EP  - 255
PB  - Copernicus
CY  - Göttingen
ER  - 
TY  - THES
A1  - Agarwal, Ankit
T1  - Unraveling spatio-temporal climatic patterns via multi-scale complex networks
T1  - Aufklärung raumzeitlicher Klimamuster über komplexe Netzwerke mit mehreren Maßstäben
N2  - The climate is a complex dynamical system involving interactions and feedbacks among different processes at multiple temporal and spatial scales. Although numerous studies have attempted to understand the climate system, nonetheless, the studies investigating the multiscale characteristics of the climate are scarce. Further, the present set of techniques are limited in their ability to unravel the multi-scale variability of the climate system. It is completely plausible that extreme events and abrupt transitions, which are of great interest to climate community, are resultant of interactions among processes operating at multi-scale. For instance, storms, weather patterns, seasonal irregularities such as El Niño, floods and droughts, and decades-long climate variations can be better understood and even predicted by quantifying their multi-scale dynamics. This makes a strong argument to unravel the interaction and patterns of climatic processes at different scales. With this background, the thesis aims at developing measures to understand and quantify multi-scale interactions within the climate system.
In the first part of the thesis, I proposed two new methods, viz, multi-scale event synchronization (MSES) and wavelet multi-scale correlation (WMC) to capture the scale-specific features present in the climatic processes. The proposed methods were tested on various synthetic and real-world time series in order to check their applicability and replicability. The results indicate that both methods (WMC and MSES) are able to capture scale-specific associations that exist between processes at different time scales in a more detailed manner as compared to the traditional single scale counterparts. 
In the second part of the thesis, the proposed multi-scale similarity measures were used in constructing climate networks to investigate the evolution of spatial connections within climatic processes at multiple timescales. The proposed methods WMC and MSES, together with complex network were applied to two different datasets. 
In the first application, climate networks based on WMC were constructed for the univariate global sea surface temperature (SST) data to identify and visualize the SSTs patterns that develop very similarly over time and distinguish them from those that have long-range teleconnections to other ocean regions. Further investigations of climate networks on different timescales revealed (i) various high variability and co-variability regions, and (ii) short and long-range teleconnection regions with varying spatial distance. The outcomes of the study not only re-confirmed the existing knowledge on the link between SST patterns like El Niño Southern Oscillation and the Pacific Decadal Oscillation, but also suggested new insights into the characteristics and origins of long-range teleconnections.
In the second application, I used the developed non-linear MSES similarity measure to quantify the multivariate teleconnections between extreme Indian precipitation and climatic patterns with the highest relevance for Indian sub-continent. The results confirmed significant non-linear influences that were not well captured by the traditional methods. Further, there was a substantial variation in the strength and nature of teleconnection across India, and across time scales.
Overall, the results from investigations conducted in the thesis strongly highlight the need for considering the multi-scale aspects in climatic processes, and the proposed methods provide robust framework for quantifying the multi-scale characteristics.
N2  - Das Klima ist ein komplexes Zusammenspiel verschiedener Mechanismen und Rückkopplungen auf mehreren zeitlichen und räumlichen Skalen. Viele Studien beschäftigten sich mit dem diesem System, nur wenige jedoch konzentrierten sich auf das Multiskalenverhalten des Klimas. Vor allem die bis dato verfügbaren Techniken schränkten eine vertiefte Analyse der Klimavariabilität auf unterschiedlichen Skalen ein. Von großen Interesse in der aktuellen Klimaforschung sind Extremereignisse und plötzliche Veränderungen, welche höchstwahrscheinlich aus dem Zusammenwirken von Prozessen auf unterschiedlichen Skalen hervorgehen. Um Stürme, wiederkehrende Wetterlagen, jahreszeitliche Phänomene wie El Niño, Fluten, Dürren oder Klimaschwankungen über Jahrzehnte besser zu verstehen oder sogar vorhersagen zu können, müssen wir deren Dynamik auf unterschiedlichen Skalen quantifizieren. In der vorliegenden Arbeit werden Mittel und Wege präsentiert um das Zusammenwirken auf verschiedenen Skalen im Klimasystem besser zu verstehen und zu quantifizieren.
Im ersten Teil dieser Arbeit stelle ich zwei Methoden, multi-scale event synchronization (MSES) und wavelet multi-scale correlation (WMC) vor, welche skalenspezifischen Eigenschaften in klimatischen Prozessen abbilden. Die vorgestellte Methode wurde mit mehreren synthetischen und realen Zeitreihen getestet um ihre Anwendbarkeit und Reproduzierbarkeit zu überprüfen. Die Ergebnisse zeigen, dass beide Methoden Beziehungen auf unterschiedlichen zeitlichen Skalen detaillierter als traditionelle Ansätze abbilden können.
Im zweiten Teil dieser Arbeit bilde ich klimatische Netzwerke mithilfe eines Maßes zur Ähnlichkeit auf Multiskalen. Dabei untersuche ich die Entwicklung von räumlichen Beziehungen um klimatische Prozesse auf mehreren Zeitskalen zu verstehen. Die Methoden WMC und MSES werden zusammen mit komplexen Netzwerken auf zwei Datensätze angewendet.
In der ersten Anwendung werden klimatische Netzwerke mit WMC für univariate globale Meeresoberflächentemperaturen gebildet. Auf unterschiedlichen Zeitskalen sollen dabei kurze und lange Fernwirkungen, welche andernfalls auf einer einzigen Zeitskale unerkannt blieben, entdeckt werden. In diesem Klimanetzwerk ließ sich eine starke Variabilität über die Zeit feststellen, was auf eine skalenfreie und kleinräumige Netzstruktur auf großem, beziehungsweise kleinem Maßstab schließen lässt. Weitere Untersuchungen von Klimanetzwerken auf unterschiedlichen Zeitskalen zeigte (i) hohe Variabilität und Co-Variabilität in Regionen, und (ii) Fernbeziehungen auf kurzen und langen Entfernungen mit variabler räumlicher Distanz. Die Ergebnisse bestätigen bekannte physikalischen Wechselwirkungen und daher auch die Stärken meines Ansatzes. Dadurch ergeben sich neue Einblicke in die Klimatologie von Ozeanen, sodass beispielsweise konvektive Prozesse in der Atmosphäre eine Abhängigkeit über weite Entfernungen aufweisen können.
In der zweiten Anwendung verwendeten wir das von mir entwickelte, nicht-lineare MSES Ähnlichkeitsmaß um multivariate Fernbeziehungen zwischen Starkniederschlägen und klimatischen Mustern über Indien zu quantifizieren. Unsere Ergebnisse bestätigen signifikante, nicht-lineare Einflüsse, welche von traditionellen Methoden bisher unzureichend abgebildet wurden. Des Weiteren fanden wir deutliche Schwankungen in der Stärke und in der Ausprägung von Fernbeziehungen über Indien und über Zeitskalen.
Zusammenfassend zeigen die Ergebnisse dieser Fallstudien, dass Multiskalen in Klimaprozessen entschieden berücksichtigt werden müssen und dass der entwickelte methodische Rahmen adäquat die charakteristischen Prozesse quantifizieren kann.
KW  - complex network
KW  - wavelet
KW  - climate global and local patterns
KW  - extreme events
KW  - multiscale network
KW  - event synchronization
KW  - komplexes Netzwerk
KW  - Wavelet
KW  - globale und lokale Muster des Klimas
KW  - extreme Ereignisse
KW  - Multiskalen Netzwerk
KW  - Ereignissynchronisation
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-423956
ER  - 
TY  - JOUR
A1  - Deal, Eric
A1  - Braun, Jean
A1  - Botter, Gianluca
T1  - Understanding the role of rainfall and hydrology in determining fluvial erosion efficiency
JF  - Journal of geophysical research : Earth surface
N2  - Due to the challenges in upscaling daily climatic forcing to geological time, physically realistic models describing how rainfall drives fluvial erosion are lacking. To bridge this gap between short-term hydrology and long-term geomorphology, we derive a theoretical framework for long-term fluvial erosion rates driven by realistic climate by integrating an established stochastic-mechanistic model of hydrology into a threshold-stochastic formulation of stream power. The hydrological theory provides equations for the daily streamflow probability distribution as a function of climatic boundary conditions. The new parameters introduced are rooted firmly in established climatic and hydrological theory. This allows us to account for how fluvial erosion rates respond to changes in rainfall intensity, frequency, evapotranspiration rates, and soil moisture dynamics in a way that is consistent with existing theories. We use this framework to demonstrate how hydroclimatic conditions and erosion threshold magnitude control the degree of nonlinearity between steepness index and erosion rate. We find that hydrological processes can have a significant influence on how erosive a particular climatic forcing will be. By accounting for the influence of hydrology on fluvial erosion, we conclude that climate is an important control on erosion rates and long-term landscape evolution.
Y1  - 2108
U6  - https://doi.org/10.1002/2017JF004393
SN  - 2169-9003
SN  - 2169-9011
VL  - 123
IS  - 4
SP  - 744
EP  - 778
PB  - American Geophysical Union
CY  - Washington
ER  - 
TY  - JOUR
A1  - Zhuang, Guangsheng
A1  - Johnstone, Samuel A.
A1  - Hourigan, Jeremy
A1  - Ritts, Bradley
A1  - Robinson, Alexander
A1  - Sobel, Edward
T1  - Understanding the geologic evolution of Northern Tibetan Plateau with multiple thermochronometers
JF  - Gondwana research : international geoscience journal ; official journal of the International Association for Gondwana Research
N2  - The early onset of deformation following the India-Asia collision, Neogene expanse of uplift, and complex systems that comprise strike-slip faults, thrust faults, and intermontane basins characterize the Cenozoic tectonism of Northern Tibetan Plateau and raise two prominent questions in orogenic geodynamics: 1) What mechanism(s) control(s) the transfer of stress related to the India-Asia collision across the distance of >2000 km; and 2) Why the development of high topography was delayed in the Northern Tibetan Plateau and what does it reveal about how the internal forces and external boundary conditions evolved. To address these two questions, we reconstruct a holistic spatial-temporal deformation history of the Northern Tibetan Plateau by using a range of thermochronometers, with closure temperature spanning from 350 degrees C to-60-70 degrees C. This multi-thermochronometer study reveals three stages of faulting related cooling, in the early Cretaceous, in Paleocene-Eocene and in middle-late Miocene. We observe that Paleocene-Eocene deformation was spatially restricted and mostly occurred on reactivated Cretaceous structures, indicating a control of pre-existing weakness on early Cenozoic deformation. Extensive Neogene deformation contrasts with restricted Paleocene-Eocene deformation and relatively quiescent shortening during the Oligocene-early Miocene, which implies a change in the regional tectonics regime. Global plate reconstructions show that this tectonic reorganization is coeval with an increase in Pacific-Asia plate convergence rates. We argue that this change in regional tectonics is a result of increasing constrictive environment of the eastern plate boundary, which changed the behavior of the Altyn Tagh fault the boundary fault of Northern Tibetan Plateau, causing it to change from feeding slip into structures out of the plateau to feeding slip into structures at plateau margins.
KW  - Northern Tibetan Plateau
KW  - Thermochronology
KW  - Altyn Tagh Fault
KW  - Pacific-Asia convergence
KW  - Gravitational potential energy
Y1  - 2018
U6  - https://doi.org/10.1016/j.gr.2018.02.014
SN  - 1342-937X
SN  - 1878-0571
VL  - 58
SP  - 195
EP  - 210
PB  - Elsevier
CY  - Amsterdam
ER  - 
TY  - JOUR
A1  - Ktenidou, Olga-Joan
A1  - Roumelioti, Zafeiria
A1  - Abrahamson, Norman
A1  - Cotton, Fabrice
A1  - Pitilakis, Kyriazis
A1  - Hollender, Fabrice
T1  - Understanding single-station ground motion variability and uncertainty (sigma)
BT  - lessons learnt from EUROSEISTEST
JF  - Bulletin of earthquake engineering : official publication of the European Association for Earthquake Engineering
N2  - Accelerometric data from the well-studied valley EUROSEISTEST are used to investigate ground motion uncertainty and variability. We define a simple local ground motion prediction equation (GMPE) and investigate changes in standard deviation (σ) and its components, the between-event variability (τ) and within-event variability (φ). Improving seismological metadata significantly reduces τ (30–50%), which in turn reduces the total σ. Improving site information reduces the systematic site-to-site variability, φ S2S (20–30%), in turn reducing φ, and ultimately, σ. Our values of standard deviations are lower than global values from literature, and closer to path-specific than site-specific values. However, our data have insufficient azimuthal coverage for single-path analysis. Certain stations have higher ground-motion variability, possibly due to topography, basin edge or downgoing wave effects. Sensitivity checks show that 3 recordings per event is a sufficient data selection criterion, however, one of the dataset’s advantages is the large number of recordings per station (9–90) that yields good site term estimates. We examine uncertainty components binning our data with magnitude from 0.01 to 2 s; at smaller magnitudes, τ decreases and φ SS increases, possibly due to κ and source-site trade-offs Finally, we investigate the alternative approach of computing φ SS using existing GMPEs instead of creating an ad hoc local GMPE. This is important where data are insufficient to create one, or when site-specific PSHA is performed. We show that global GMPEs may still capture φ SS , provided that: (1) the magnitude scaling errors are accommodated by the event terms; (2) there are no distance scaling errors (use of a regionally applicable model). Site terms (φ S2S ) computed by different global GMPEs (using different site-proxies) vary significantly, especially for hard-rock sites. This indicates that GMPEs may be poorly constrained where they are sometimes most needed, i.e., for hard rock.
KW  - Ground motion
KW  - Variability
KW  - Uncertainty
KW  - Single station sigma
KW  - Site response
Y1  - 2018
U6  - https://doi.org/10.1007/s10518-017-0098-6
SN  - 1570-761X
SN  - 1573-1456
VL  - 16
IS  - 6
SP  - 2311
EP  - 2336
PB  - Springer
CY  - Dordrecht
ER  - 
TY  - JOUR
A1  - Baroni, Gabriele
A1  - Scheiffele, Lena M.
A1  - Schrön, Martin
A1  - Ingwersen, Joachim
A1  - Oswald, Sascha
T1  - Uncertainty, sensitivity and improvements in soil moisture estimation with cosmic-ray neutron sensing
JF  - Journal of hydrology
N2  - Cosmic-ray neutron sensing (CRNS) is a promising proximal soil sensing technique to estimate soil moisture at intermediate scale and high temporal resolution. However, the signal shows complex and non-unique response to all hydrogen pools near the land surface, providing some challenges for soil moisture estimation in practical applications. Aims of the study were 1) to assess the uncertainty of CRNS as a stand-alone approach to estimate volumetric soil moisture in cropped field 2) to identify the causes of this uncertainty 3) and possible improvements. Two experimental sites in Germany were equipped with a CRNS probe and point-scale soil moisture network. Additional monitoring activities were conducted during the crop growing season to characterize the soil-plant systems. This data is used to identify and quantify the different sources of uncertainty (factors). An uncertainty analysis, based on Monte Carlo approach, is applied to propagate these uncertainties to CRNS soil moisture estimations. In addition, a sensitivity analysis based on the Sobol’ method is performed to identify the most important factors explaining this uncertainty. Results show that CRNS soil moisture compares well to the soil moisture network when these point-scale values are weighted to account for the spatial sensitivity of the signal and other sources of hydrogen (lattice water and organic carbon) are added to the water content. However, the performance decreases when CRNS is considered as a stand-alone method to retrieve the actual (non-weighted) volumetric soil moisture. The support volume (penetration depth and radius) shows also a considerable uncertainty, especially in relatively dry soil moisture conditions. Four of the seven factors analyzed (the vertical soil moisture profile, bulk density, incoming neutron correction and the calibrated parameter N0) were found to play an important role. Among the possible improvements identified, a simple correction factor based on vertical point-scale soil moisture profiles shows to be a promising approach to account for the sensitivity of the CRNS signal to the upper soil layers.
KW  - Soil moisture
KW  - Cosmic-ray neutrons
KW  - Uncertainty analysis
KW  - Sensitivity analysis
Y1  - 2018
U6  - https://doi.org/10.1016/j.jhydrol.2018.07.053
SN  - 0022-1694
SN  - 1879-2707
VL  - 564
SP  - 873
EP  - 887
PB  - Elsevier
CY  - Amsterdam
ER  -