@article{RedlichZhangBenjaminetal.2022, author = {Redlich, Sarah and Zhang, Jie and Benjamin, Caryl and Dhillon, Maninder Singh and Englmeier, Jana and Ewald, J{\"o}rg and Fricke, Ute and Ganuza, Cristina and Haensel, Maria and Hovestadt, Thomas and Kollmann, Johannes and Koellner, Thomas and K{\"u}bert-Flock, Carina and Kunstmann, Harald and Menzel, Annette and Moning, Christoph and Peters, Wibke and Riebl, Rebekka and Rummler, Thomas and Rojas-Botero, Sandra and Tobisch, Cynthia and Uhler, Johannes and Uphus, Lars and M{\"u}ller, J{\"o}rg and Steffan-Dewenter, Ingolf}, title = {Disentangling effects of climate and land use on biodiversity and ecosystem services—A multi-scale experimental design}, series = {Methods in Ecology and Evolution}, volume = {13}, journal = {Methods in Ecology and Evolution}, number = {2}, doi = {10.1111/2041-210X.13759}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-258270}, pages = {514-527}, year = {2022}, abstract = {Climate and land-use change are key drivers of environmental degradation in the Anthropocene, but too little is known about their interactive effects on biodiversity and ecosystem services. Long-term data on biodiversity trends are currently lacking. Furthermore, previous ecological studies have rarely considered climate and land use in a joint design, did not achieve variable independence or lost statistical power by not covering the full range of environmental gradients. Here, we introduce a multi-scale space-for-time study design to disentangle effects of climate and land use on biodiversity and ecosystem services. The site selection approach coupled extensive GIS-based exploration (i.e. using a Geographic information system) and correlation heatmaps with a crossed and nested design covering regional, landscape and local scales. Its implementation in Bavaria (Germany) resulted in a set of study plots that maximise the potential range and independence of environmental variables at different spatial scales. Stratifying the state of Bavaria into five climate zones (reference period 1981-2010) and three prevailing land-use types, that is, near-natural, agriculture and urban, resulted in 60 study regions (5.8 × 5.8 km quadrants) covering a mean annual temperature gradient of 5.6-9.8°C and a spatial extent of ~310 × 310 km. Within these regions, we nested 180 study plots located in contrasting local land-use types, that is, forests, grasslands, arable land or settlement (local climate gradient 4.5-10°C). This approach achieved low correlations between climate and land use (proportional cover) at the regional and landscape scale with |r ≤ 0.33| and |r ≤ 0.29| respectively. Furthermore, using correlation heatmaps for local plot selection reduced potentially confounding relationships between landscape composition and configuration for plots located in forests, arable land and settlements. The suggested design expands upon previous research in covering a significant range of environmental gradients and including a diversity of dominant land-use types at different scales within different climatic contexts. It allows independent assessment of the relative contribution of multi-scale climate and land use on biodiversity and ecosystem services. Understanding potential interdependencies among global change drivers is essential to develop effective restoration and mitigation strategies against biodiversity decline, especially in expectation of future climatic changes. Importantly, this study also provides a baseline for long-term ecological monitoring programs.}, language = {en} } @techreport{MeyerJobLaneretal.2022, author = {Meyer, Constantin and Job, Hubert and Laner, Peter and Omizzolo, Andrea and Kollmann, Nadia and Clare, Jasmin and Vesely, Philipp and Riedler, Walter and Plassmann, Guido and Coronado, Oriana and Praper Gulič, Sergeja and Gulič, Andrej and Koblar, Simon and Teofili, Corrado and Rohringer, Verena and Schoßleitner, Richard and Ainz, Gerhard}, title = {OpenSpaceAlps - Manuale di Pianificazione: Prospettive per la salvaguardia coerente degli Spazi Aperti nella regione alpina}, doi = {10.25972/OPUS-27704}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-277042}, pages = {114}, year = {2022}, abstract = {Nella regione alpina, si pu{\`o} osservare il continuo consumo di spazi aperti a causa dell'aumento di aree di insediamento e di infrastrutture tecniche e la conseguente impermeabilizzazione del suolo. Questo fenomeno porta principalmente alla perdita di suolo agricolo. A seconda dell'estensione dello sviluppo, si riscontra anche una maggiore frammentazione del paesaggio, che {\`e} associata all'isolamento degli habitat naturali e alla perdita della connettivit{\`a} ecologica, cos{\`i} come ad altre conseguenze negative. Il progetto OpenSpaceAlps ha affrontato questo problema e, sulla base di procedure cooperative partecipate attuate in diverse regioni pilota alpine, ha sviluppato approcci e strategie di soluzione per la salvaguardia sostenibile degli spazi aperti. Questo manuale supporta le attivit{\`a} e il processo decisionale di vari stakeholder, in primo luogo i pianificatori delle autorit{\`a} pubbliche di pianificazione. Sulla base di un'analisi delle sfide e delle condizioni generali nella regione alpina, il manuale presenta e confronta i "principi" centrali della pianificazione degli spazi aperti. Inoltre, vengono discusse strategie di pianificazione integrata per diverse categorie spaziali.}, subject = {Raumordnung}, language = {it} } @article{ReinermannGessnerAsametal.2022, author = {Reinermann, Sophie and Gessner, Ursula and Asam, Sarah and Ullmann, Tobias and Schucknecht, Anne and Kuenzer, Claudia}, title = {Detection of grassland mowing events for Germany by combining Sentinel-1 and Sentinel-2 time series}, series = {Remote Sensing}, volume = {14}, journal = {Remote Sensing}, number = {7}, issn = {2072-4292}, doi = {10.3390/rs14071647}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-267164}, year = {2022}, abstract = {Grasslands cover one-third of the agricultural area in Germany and play an important economic role by providing fodder for livestock. In addition, they fulfill important ecosystem services, such as carbon storage, water purification, and the provision of habitats. These ecosystem services usually depend on the grassland management. In central Europe, grasslands are grazed and/or mown, whereby the management type and intensity vary in space and time. Spatial information on the mowing timing and frequency on larger scales are usually not available but would be required in order to assess the ecosystem services, species composition, and grassland yields. Time series of high-resolution satellite remote sensing data can be used to analyze the temporal and spatial dynamics of grasslands. Within this study, we aim to overcome the drawbacks identified by previous studies, such as optical data availability and the lack of comprehensive reference data, by testing the time series of various Sentinel-2 (S2) and Sentinal-1 (S1) parameters and combinations of them in order to detect mowing events in Germany in 2019. We developed a threshold-based algorithm by using information from a comprehensive reference dataset of heterogeneously managed grassland parcels in Germany, obtained by RGB cameras. The developed approach using the enhanced vegetation index (EVI) derived from S2 led to a successful mowing event detection in Germany (60.3\% of mowing events detected, F1-Score = 0.64). However, events shortly before, during, or shortly after cloud gaps were missed and in regions with lower S2 orbit coverage fewer mowing events were detected. Therefore, S1-based backscatter, InSAR, and PolSAR features were investigated during S2 data gaps. From these, the PolSAR entropy detected mowing events most reliably. For a focus region, we tested an integrated approach by combining S2 and S1 parameters. This approach detected additional mowing events, but also led to many false positive events, resulting in a reduction in the F1-Score (from 0.65 of S2 to 0.61 of S2 + S1 for the focus region). According to our analysis, a majority of grasslands in Germany are only mown zero to two times (around 84\%) and are probably additionally used for grazing. A small proportion is mown more often than four times (3\%). Regions with a generally higher grassland mowing frequency are located in southern, south-eastern, and northern Germany.}, language = {en} } @article{SognoKleinKuenzer2022, author = {Sogno, Patrick and Klein, Igor and Kuenzer, Claudia}, title = {Remote sensing of surface water dynamics in the context of global change — a review}, series = {Remote Sensing}, volume = {14}, journal = {Remote Sensing}, number = {10}, issn = {2072-4292}, doi = {10.3390/rs14102475}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-275274}, year = {2022}, abstract = {Inland surface water is often the most accessible freshwater source. As opposed to groundwater, surface water is replenished in a comparatively quick cycle, which makes this vital resource — if not overexploited — sustainable. From a global perspective, freshwater is plentiful. Still, depending on the region, surface water availability is severely limited. Additionally, climate change and human interventions act as large-scale drivers and cause dramatic changes in established surface water dynamics. Actions have to be taken to secure sustainable water availability and usage. This requires informed decision making based on reliable environmental data. Monitoring inland surface water dynamics is therefore more important than ever. Remote sensing is able to delineate surface water in a number of ways by using optical as well as active and passive microwave sensors. In this review, we look at the proceedings within this discipline by reviewing 233 scientific works. We provide an extensive overview of used sensors, the spatial and temporal resolution of studies, their thematic foci, and their spatial distribution. We observe that a wide array of available sensors and datasets, along with increasing computing capacities, have shaped the field over the last years. Multiple global analysis-ready products are available for investigating surface water area dynamics, but so far none offer high spatial and temporal resolution.}, language = {en} } @article{LappeUllmannBachofer2022, author = {Lappe, Ronja and Ullmann, Tobias and Bachofer, Felix}, title = {State of the Vietnamese coast — assessing three decades (1986 to 2021) of coastline dynamics using the Landsat archive}, series = {Remote Sensing}, volume = {14}, journal = {Remote Sensing}, number = {10}, issn = {2072-4292}, doi = {10.3390/rs14102476}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-275281}, year = {2022}, abstract = {Vietnam's 3260 km coastline is densely populated, experiences rapid urban and economic growth, and faces at the same time a high risk of coastal hazards. Satellite archives provide a free and powerful opportunity for long-term area-wide monitoring of the coastal zone. This paper presents an automated analysis of coastline dynamics from 1986 to 2021 for Vietnam's entire coastal zone using the Landsat archive. The proposed method is implemented within the cloud-computing platform Google Earth Engine to only involve publicly and globally available datasets and tools. We generated annual coastline composites representing the mean-high water level and extracted sub-pixel coastlines. We further quantified coastline change rates along shore-perpendicular transects, revealing that half of Vietnam's coast did not experience significant change, while the remaining half is classified as erosional (27.7\%) and accretional (27.1\%). A hotspot analysis shows that coastal segments with the highest change rates are concentrated in the low-lying deltas of the Mekong River in the south and the Red River in the north. Hotspots with the highest accretion rates of up to +47 m/year are mainly associated with the construction of artificial coastlines, while hotspots with the highest erosion rates of -28 m/year may be related to natural sediment redistribution and human activity.}, language = {en} } @article{HalbgewachsWegmanndaPonte2022, author = {Halbgewachs, Magdalena and Wegmann, Martin and da Ponte, Emmanuel}, title = {A spectral mixture analysis and landscape metrics based framework for monitoring spatiotemporal forest cover changes: a case study in Mato Grosso, Brazil}, series = {Remote Sensing}, volume = {14}, journal = {Remote Sensing}, number = {8}, issn = {2072-4292}, doi = {10.3390/rs14081907}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-270644}, year = {2022}, abstract = {An increasing amount of Brazilian rainforest is being lost or degraded for various reasons, both anthropogenic and natural, leading to a loss of biodiversity and further global consequences. Especially in the Brazilian state of Mato Grosso, soy production and large-scale cattle farms led to extensive losses of rainforest in recent years. We used a spectral mixture approach followed by a decision tree classification based on more than 30 years of Landsat data to quantify these losses. Research has shown that current methods for assessing forest degradation are lacking accuracy. Therefore, we generated classifications to determine land cover changes for each year, focusing on both cleared and degraded forest land. The analyses showed a decrease in forest area in Mato Grosso by 28.8\% between 1986 and 2020. In order to measure changed forest structures for the selected period, fragmentation analyses based on diverse landscape metrics were carried out for the municipality of Colniza in Mato Grosso. It was found that forest areas experienced also a high degree of fragmentation over the study period, with an increase of 83.3\% of the number of patches and a decrease of the mean patch area of 86.1\% for the selected time period, resulting in altered habitats for flora and fauna.}, language = {en} } @article{YangYaoLietal.2022, author = {Yang, Xuting and Yao, Wanqiang and Li, Pengfei and Hu, Jinfei and Latifi, Hooman and Kang, Li and Wang, Ningjing and Zhang, Dingming}, title = {Changes of SOC content in China's Shendong coal mining area during 1990-2020 investigated using remote sensing techniques}, series = {Sustainability}, volume = {14}, journal = {Sustainability}, number = {12}, issn = {2071-1050}, doi = {10.3390/su14127374}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-278939}, year = {2022}, abstract = {Coal mining, an important human activity, disturbs soil organic carbon (SOC) accumulation and decomposition, eventually affecting terrestrial carbon cycling and the sustainability of human society. However, changes of SOC content and their relation with influential factors in coal mining areas remained unclear. In the study, predictive models of SOC content were developed based on field sampling and Landsat images for different land-use types (grassland, forest, farmland, and bare land) of the largest coal mining area in China (i.e., Shendong). The established models were employed to estimate SOC content across the Shendong mining area during 1990-2020, followed by an investigation into the impacts of climate change and human disturbance on SOC content by a Geo-detector. Results showed that the models produced satisfactory results (R\(^2\) > 0.69, p < 0.05), demonstrating that SOC content over a large coal mining area can be effectively assessed using remote sensing techniques. Results revealed that average SOC content in the study area rose from 5.67 gC·kg\(^{-1}\) in 1990 to 9.23 gC·kg\(^{-1}\) in 2010 and then declined to 5.31 gC·Kg\(^{-1}\) in 2020. This could be attributed to the interaction between the disturbance of soil caused by coal mining and the improvement of eco-environment by land reclamation. Spatially, the SOC content of farmland was the highest, followed by grassland, and that of bare land was the lowest. SOC accumulation was inhibited by coal mining activities, with the effect of high-intensity mining being lower than that of moderate- and low-intensity mining activities. Land use was found to be the strongest individual influencing factor for SOC content changes, while the interaction between vegetation coverage and precipitation exerted the most significant influence on the variability of SOC content. Furthermore, the influence of mining intensity combined with precipitation was 10 times higher than that of mining intensity alone.}, language = {en} } @article{UllmannMoellerBaumhaueretal.2022, author = {Ullmann, Tobias and M{\"o}ller, Eric and Baumhauer, Roland and Lange-Athinodorou, Eva and Meister, Julia}, title = {A new Google Earth Engine tool for spaceborne detection of buried palaeogeographical features - examples from the Nile Delta (Egypt)}, series = {E\&G Quaternary Science Journal}, volume = {71}, journal = {E\&G Quaternary Science Journal}, number = {2}, doi = {10.5194/egqsj-71-243-2022}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-300164}, pages = {243-247}, year = {2022}, abstract = {No abstract available.}, language = {en} } @article{TrappeBuedelMeisteretal.2022, author = {Trappe, Julian and B{\"u}del, Christian and Meister, Julia and Baumhauer, Roland}, title = {Combining geophysical and geomorphological data to reconstruct the development of relief of a medieval castle site in the Spessart low mountain range, Germany}, series = {Earth Surface Processes and Landforms}, volume = {47}, journal = {Earth Surface Processes and Landforms}, number = {1}, doi = {10.1002/esp.5242}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-257433}, pages = {228-241}, year = {2022}, abstract = {Within the Spessart low mountain range in central Germany, numerous castle ruins of the 13th century ce exist. Their construction and destruction were often determined by the struggle for political and economic supremacy in the region and for control over the Spessart's natural resources. Wahlmich Castle is located in a relatively uncommon strategic and geomorphological position, characterized by a fairly remote position and atypical rough relief. In order to reconstruct the local relief development and possible human impact, a multi-method approach was applied combining two-dimensional geoelectrical measurements, geomorphological mapping and stratigraphic-sedimentological investigations. This provides new insights into the influence of landscape characteristics on choices of castle locations. The combined geoelectrical, geomorphological and stratigraphic-sedimentological data show that the rough relief is of natural origin and influenced by regional faulting, which triggered sliding and slumping as well as weathering and dissection of the surface deposits. The rough relief and the lithology permitted intensive land use and building activities. However, the location of the castle offered access to and possibly control over important medieval traffic routes and also represented certain ownership claims in the Aschaff River valley. The economic situation combined with rivalry between different elites led to the castle being built in a geomorphological challenging and strategically less valuable location. Focusing on castles located in rare and challenging geomorphological positions may therefore lead to a better understanding of castle siting in the future.}, language = {en} } @article{Hardaker2022, author = {Hardaker, Sina}, title = {More Than Infrastructure Providers - Digital Platforms' Role and Power in Retail Digitalisation in Germany}, series = {Tijdschrift voor Economische en Sociale Geografie}, volume = {113}, journal = {Tijdschrift voor Economische en Sociale Geografie}, number = {3}, doi = {10.1111/tesg.12511}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-287297}, pages = {310 -- 328}, year = {2022}, abstract = {Digital platforms, such as Amazon, represent the major beneficiaries of the Covid-19 crisis. This study examines the role of digital platforms and their engagement in digitalisation initiatives targeting (small) brick-and-mortar retailers in Germany, thereby contributing to a better understanding of how digital platforms augment, substitute or reorganise physical retail spaces. This study applies a mixed-method approach based on qualitative interviews, participant observation as well as media analysis. First, the study illustrates the controversial role of digital platforms by positioning themselves as supporting partners of the (offline) retailers, while simultaneously shifting power towards the platforms themselves. Second, digital platforms have established themselves not only as infrastructure providers but also as actors within these infrastructures, framing digital as well as physical retail spaces, inter alia due to their role as publicly legitimised retail advisers. Third, while institutions want to help retailers to survive, they simultaneously enhance retailers' dependency on digital platforms.}, language = {en} } @article{KacicKuenzer2022, author = {Kacic, Patrick and Kuenzer, Claudia}, title = {Forest biodiversity monitoring based on remotely sensed spectral diversity — a review}, series = {Remote Sensing}, volume = {14}, journal = {Remote Sensing}, number = {21}, issn = {2072-4292}, doi = {10.3390/rs14215363}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-290535}, year = {2022}, abstract = {Forests are essential for global environmental well-being because of their rich provision of ecosystem services and regulating factors. Global forests are under increasing pressure from climate change, resource extraction, and anthropologically-driven disturbances. The results are dramatic losses of habitats accompanied with the reduction of species diversity. There is the urgent need for forest biodiversity monitoring comprising analysis on α, β, and γ scale to identify hotspots of biodiversity. Remote sensing enables large-scale monitoring at multiple spatial and temporal resolutions. Concepts of remotely sensed spectral diversity have been identified as promising methodologies for the consistent and multi-temporal analysis of forest biodiversity. This review provides a first time focus on the three spectral diversity concepts "vegetation indices", "spectral information content", and "spectral species" for forest biodiversity monitoring based on airborne and spaceborne remote sensing. In addition, the reviewed articles are analyzed regarding the spatiotemporal distribution, remote sensing sensors, temporal scales and thematic foci. We identify multispectral sensors as primary data source which underlines the focus on optical diversity as a proxy for forest biodiversity. Moreover, there is a general conceptual focus on the analysis of spectral information content. In recent years, the spectral species concept has raised attention and has been applied to Sentinel-2 and MODIS data for the analysis from local spectral species to global spectral communities. Novel remote sensing processing capacities and the provision of complementary remote sensing data sets offer great potentials for large-scale biodiversity monitoring in the future.}, language = {en} } @article{DhillonDahmsKuebertFlocketal.2022, author = {Dhillon, Maninder Singh and Dahms, Thorsten and K{\"u}bert-Flock, Carina and Steffan-Dewenter, Ingolf and Zhang, Jie and Ullmann, Tobias}, title = {Spatiotemporal Fusion Modelling Using STARFM: Examples of Landsat 8 and Sentinel-2 NDVI in Bavaria}, series = {Remote Sensing}, volume = {14}, journal = {Remote Sensing}, number = {3}, issn = {2072-4292}, doi = {10.3390/rs14030677}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-323471}, year = {2022}, abstract = {The increasing availability and variety of global satellite products provide a new level of data with different spatial, temporal, and spectral resolutions; however, identifying the most suited resolution for a specific application consumes increasingly more time and computation effort. The region's cloud coverage additionally influences the choice of the best trade-off between spatial and temporal resolution, and different pixel sizes of remote sensing (RS) data may hinder the accurate monitoring of different land cover (LC) classes such as agriculture, forest, grassland, water, urban, and natural-seminatural. To investigate the importance of RS data for these LC classes, the present study fuses NDVIs of two high spatial resolution data (high pair) (Landsat (30 m, 16 days; L) and Sentinel-2 (10 m, 5-6 days; S), with four low spatial resolution data (low pair) (MOD13Q1 (250 m, 16 days), MCD43A4 (500 m, one day), MOD09GQ (250 m, one-day), and MOD09Q1 (250 m, eight day)) using the spatial and temporal adaptive reflectance fusion model (STARFM), which fills regions' cloud or shadow gaps without losing spatial information. These eight synthetic NDVI STARFM products (2: high pair multiply 4: low pair) offer a spatial resolution of 10 or 30 m and temporal resolution of 1, 8, or 16 days for the entire state of Bavaria (Germany) in 2019. Due to their higher revisit frequency and more cloud and shadow-free scenes (S = 13, L = 9), Sentinel-2 (overall R\(^2\) = 0.71, and RMSE = 0.11) synthetic NDVI products provide more accurate results than Landsat (overall R\(^2\) = 0.61, and RMSE = 0.13). Likewise, for the agriculture class, synthetic products obtained using Sentinel-2 resulted in higher accuracy than Landsat except for L-MOD13Q1 (R\(^2\) = 0.62, RMSE = 0.11), resulting in similar accuracy preciseness as S-MOD13Q1 (R\(^2\) = 0.68, RMSE = 0.13). Similarly, comparing L-MOD13Q1 (R\(^2\) = 0.60, RMSE = 0.05) and S-MOD13Q1 (R\(^2\) = 0.52, RMSE = 0.09) for the forest class, the former resulted in higher accuracy and precision than the latter. Conclusively, both L-MOD13Q1 and S-MOD13Q1 are suitable for agricultural and forest monitoring; however, the spatial resolution of 30 m and low storage capacity makes L-MOD13Q1 more prominent and faster than that of S-MOD13Q1 with the 10-m spatial resolution.}, language = {en} } @article{GhasemiLatifiPourhashemi2022, author = {Ghasemi, Marziye and Latifi, Hooman and Pourhashemi, Mehdi}, title = {A novel method for detecting and delineating coppice trees in UAV images to monitor tree decline}, series = {Remote Sensing}, volume = {14}, journal = {Remote Sensing}, number = {23}, issn = {2072-4292}, doi = {10.3390/rs14235910}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-297258}, year = {2022}, abstract = {Monitoring tree decline in arid and semi-arid zones requires methods that can provide up-to-date and accurate information on the health status of the trees at single-tree and sample plot levels. Unmanned Aerial Vehicles (UAVs) are considered as cost-effective and efficient tools to study tree structure and health at small scale, on which detecting and delineating tree crowns is the first step to extracting varied subsequent information. However, one of the major challenges in broadleaved tree cover is still detecting and delineating tree crowns in images. The frequent dominance of coppice structure in degraded semi-arid vegetation exacerbates this problem. Here, we present a new method based on edge detection for delineating tree crowns based on the features of oak trees in semi-arid coppice structures. The decline severity in individual stands can be analyzed by extracting relevant information such as texture from the crown area. Although the method presented in this study is not fully automated, it returned high performances including an F-score = 0.91. Associating the texture indices calculated in the canopy area with the phenotypic decline index suggested higher correlations of the GLCM texture indices with tree decline at the tree level and hence a high potential to be used for subsequent remote-sensing-assisted tree decline studies.}, language = {en} } @article{KleinCoccoUereyenetal.2022, author = {Klein, Igor and Cocco, Arturo and Uereyen, Soner and Mannu, Roberto and Floris, Ignazio and Oppelt, Natascha and Kuenzer, Claudia}, title = {Outbreak of Moroccan locust in Sardinia (Italy): a remote sensing perspective}, series = {Remote Sensing}, volume = {14}, journal = {Remote Sensing}, number = {23}, issn = {2072-4292}, doi = {10.3390/rs14236050}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-297232}, year = {2022}, abstract = {The Moroccan locust has been considered one of the most dangerous agricultural pests in the Mediterranean region. The economic importance of its outbreaks diminished during the second half of the 20th century due to a high degree of agricultural industrialization and other human-caused transformations of its habitat. Nevertheless, in Sardinia (Italy) from 2019 on, a growing invasion of this locust species is ongoing, being the worst in over three decades. Locust swarms destroyed crops and pasture lands of approximately 60,000 ha in 2022. Drought, in combination with increasing uncultivated land, contributed to forming the perfect conditions for a Moroccan locust population upsurge. The specific aim of this paper is the quantification of land cover land use (LCLU) influence with regard to the recent locust outbreak in Sardinia using remote sensing data. In particular, the role of untilled, fallow, or abandoned land in the locust population upsurge is the focus of this case study. To address this objective, LCLU was derived from Sentinel-2A/B Multispectral Instrument (MSI) data between 2017 and 2021 using time-series composites and a random forest (RF) classification model. Coordinates of infested locations, altitude, and locust development stages were collected during field observation campaigns between March and July 2022 and used in this study to assess actual and previous land cover situation of these locations. Findings show that 43\% of detected locust locations were found on untilled, fallow, or uncultivated land and another 23\% within a radius of 100 m to such areas. Furthermore, oviposition and breeding sites are mostly found in sparse vegetation (97\%). This study demonstrates that up-to-date remote sensing data and target-oriented analyses can provide valuable information to contribute to early warning systems and decision support and thus to minimize the risk concerning this agricultural pest. This is of particular interest for all agricultural pests that are strictly related to changing human activities within transformed habitats.}, language = {en} } @article{AnsahAbuKleemannetal.2022, author = {Ansah, Christabel Edena and Abu, Itohan-Osa and Kleemann, Janina and Mahmoud, Mahmoud Ibrahim and Thiel, Michael}, title = {Environmental contamination of a biodiversity hotspot — action needed for nature conservation in the Niger Delta, Nigeria}, series = {Sustainability}, volume = {14}, journal = {Sustainability}, number = {21}, issn = {2071-1050}, doi = {10.3390/su142114256}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-297214}, year = {2022}, abstract = {The Niger Delta belongs to the largest swamp and mangrove forests in the world hosting many endemic and endangered species. Therefore, its conservation should be of highest priority. However, the Niger Delta is confronted with overexploitation, deforestation and pollution to a large extent. In particular, oil spills threaten the biodiversity, ecosystem services, and local people. Remote sensing can support the detection of spills and their potential impact when accessibility on site is difficult. We tested different vegetation indices to assess the impact of oil spills on the land cover as well as to detect accumulations (hotspots) of oil spills. We further identified which species, land cover types, and protected areas could be threatened in the Niger Delta due to oil spills. The results showed that the Enhanced Vegetation Index, the Normalized Difference Vegetation Index, and the Soil Adjusted Vegetation Index were more sensitive to the effects of oil spills on different vegetation cover than other tested vegetation indices. Forest cover was the most affected land-cover type and oil spills also occurred in protected areas. Threatened species are inhabiting the Niger Delta Swamp Forest and the Central African Mangroves that were mainly affected by oil spills and, therefore, strong conservation measures are needed even though security issues hamper the monitoring and control.}, language = {en} } @article{HaHuthBachoferetal.2022, author = {Ha, Tuyen V. and Huth, Juliane and Bachofer, Felix and Kuenzer, Claudia}, title = {A review of Earth observation-based drought studies in Southeast Asia}, series = {Remote Sensing}, volume = {14}, journal = {Remote Sensing}, number = {15}, issn = {2072-4292}, doi = {10.3390/rs14153763}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-286258}, year = {2022}, abstract = {Drought is a recurring natural climatic hazard event over terrestrial land; it poses devastating threats to human health, the economy, and the environment. Given the increasing climate crisis, it is likely that extreme drought phenomena will become more frequent, and their impacts will probably be more devastating. Drought observations from space, therefore, play a key role in dissimilating timely and accurate information to support early warning drought management and mitigation planning, particularly in sparse in-situ data regions. In this paper, we reviewed drought-related studies based on Earth observation (EO) products in Southeast Asia between 2000 and 2021. The results of this review indicated that drought publications in the region are on the increase, with a majority (70\%) of the studies being undertaken in Vietnam, Thailand, Malaysia and Indonesia. These countries also accounted for nearly 97\% of the economic losses due to drought extremes. Vegetation indices from multispectral optical remote sensing sensors remained a primary source of data for drought monitoring in the region. Many studies (~21\%) did not provide accuracy assessment on drought mapping products, while precipitation was the main data source for validation. We observed a positive association between spatial extent and spatial resolution, suggesting that nearly 81\% of the articles focused on the local and national scales. Although there was an increase in drought research interest in the region, challenges remain regarding large-area and long time-series drought measurements, the combined drought approach, machine learning-based drought prediction, and the integration of multi-sensor remote sensing products (e.g., Landsat and Sentinel-2). Satellite EO data could be a substantial part of the future efforts that are necessary for mitigating drought-related challenges, ensuring food security, establishing a more sustainable economy, and the preservation of the natural environment in the region.}, language = {en} } @article{KoehlerBauerDietzetal.2022, author = {Koehler, Jonas and Bauer, Andr{\´e} and Dietz, Andreas J. and Kuenzer, Claudia}, title = {Towards forecasting future snow cover dynamics in the European Alps — the potential of long optical remote-sensing time series}, series = {Remote Sensing}, volume = {14}, journal = {Remote Sensing}, number = {18}, issn = {2072-4292}, doi = {10.3390/rs14184461}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-288338}, year = {2022}, abstract = {Snow is a vital environmental parameter and dynamically responsive to climate change, particularly in mountainous regions. Snow cover can be monitored at variable spatial scales using Earth Observation (EO) data. Long-lasting remote sensing missions enable the generation of multi-decadal time series and thus the detection of long-term trends. However, there have been few attempts to use these to model future snow cover dynamics. In this study, we, therefore, explore the potential of such time series to forecast the Snow Line Elevation (SLE) in the European Alps. We generate monthly SLE time series from the entire Landsat archive (1985-2021) in 43 Alpine catchments. Positive long-term SLE change rates are detected, with the highest rates (5-8 m/y) in the Western and Central Alps. We utilize this SLE dataset to implement and evaluate seven uni-variate time series modeling and forecasting approaches. The best results were achieved by Random Forests, with a Nash-Sutcliffe efficiency (NSE) of 0.79 and a Mean Absolute Error (MAE) of 258 m, Telescope (0.76, 268 m), and seasonal ARIMA (0.75, 270 m). Since the model performance varies strongly with the input data, we developed a combined forecast based on the best-performing methods in each catchment. This approach was then used to forecast the SLE for the years 2022-2029. In the majority of the catchments, the shift of the forecast median SLE level retained the sign of the long-term trend. In cases where a deviating SLE dynamic is forecast, a discussion based on the unique properties of the catchment and past SLE dynamics is required. In the future, we expect major improvements in our SLE forecasting efforts by including external predictor variables in a multi-variate modeling approach.}, language = {en} } @article{JobMeyerCoronadoetal.2022, author = {Job, Hubert and Meyer, Constantin and Coronado, Oriana and Koblar, Simon and Laner, Peter and Omizzolo, Andrea and Plassmann, Guido and Riedler, Walter and Vesely, Philipp and Schindelegger, Arthur}, title = {Open spaces in the European Alps — GIS-based analysis and implications for spatial planning from a transnational perspective}, series = {Land}, volume = {11}, journal = {Land}, number = {9}, issn = {2073-445X}, doi = {10.3390/land11091605}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-288207}, year = {2022}, abstract = {This article presents an open space concept of areas that are kept permanently free from buildings, technical infrastructure, and soil sealing. In the European Alps, space is scarce because of the topography; conflicts often arise between competing land uses such as permanent settlements and commercial activity. However, the presence of open spaces is important for carbon sequestration and the prevention of natural hazards, especially given climate change. A GIS-based analysis was conducted to identify an alpine-wide inventory of large-scale near-natural areas, or simply stated, open spaces. The method used identified the degree of infrastructure development for natural landscape units. Within the Alpine Convention perimeter, near-natural areas (with a degree of infrastructural development of up to 20\%) account for a share of 51.5\%. Only 14.5\% of those areas are highly protected and are mostly located in high altitudes of over 1500 m or 2000 m above sea level. We advocate that the remaining Alpine open spaces must be preserved through the delimitation of more effective protection mechanisms, and green corridors should be safeguarded through spatial planning. To enhance the ecological connectivity of open spaces, there is the need for tailored spatial and sectoral planning strategies to prevent further landscape fragmentation and to coordinate new forms of land use for renewable energy production.}, language = {en} } @article{DongWurmTaubenboeck2022, author = {Dong, Ruirui and Wurm, Michael and Taubenb{\"o}ck, Hannes}, title = {Seasonal and diurnal variation of land surface temperature distribution and its relation to land use/land cover patterns}, series = {International Journal of Environmental Research and Public Health}, volume = {19}, journal = {International Journal of Environmental Research and Public Health}, number = {19}, issn = {1660-4601}, doi = {10.3390/ijerph191912738}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-290393}, year = {2022}, abstract = {The surface urban heat island (SUHI) affects the quality of urban life. Because varying urban structures have varying impacts on SUHI, it is crucial to understand the impact of land use/land cover characteristics for improving the quality of life in cities and urban health. Satellite-based data on land surface temperatures (LST) and derived land use/cover pattern (LUCP) indicators provide an efficient opportunity to derive the required data at a large scale. This study explores the seasonal and diurnal variation of spatial associations from LUCP and LST employing Pearson correlation and ordinary least squares regression analysis. Specifically, Landsat-8 images were utilized to derive LSTs in four seasons, taking Berlin as a case study. The results indicate that: (1) in terms of land cover, hot spots are mainly distributed over transportation, commercial and industrial land in the daytime, while wetlands were identified as hot spots during nighttime; (2) from the land composition indicators, the normalized difference built-up index (NDBI) showed the strongest influence in summer, while the normalized difference vegetation index (NDVI) exhibited the biggest impact in winter; (3) from urban morphological parameters, the building density showed an especially significant positive association with LST and the strongest effect during daytime.}, language = {en} } @article{IbebuchiSchoenbeinPaeth2022, author = {Ibebuchi, Chibuike Chiedozie and Sch{\"o}nbein, Daniel and Paeth, Heiko}, title = {On the added value of statistical post-processing of regional climate models to identify homogeneous patterns of summer rainfall anomalies in Germany}, series = {Climate Dynamics}, volume = {59}, journal = {Climate Dynamics}, number = {9-10}, issn = {0930-7575}, doi = {10.1007/s00382-022-06258-5}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-324122}, pages = {2769-2783}, year = {2022}, abstract = {A fuzzy classification scheme that results in physically interpretable meteorological patterns associated with rainfall generation is applied to classify homogeneous regions of boreal summer rainfall anomalies in Germany. Four leading homogeneous regions are classified, representing the western, southeastern, eastern, and northern/northwestern parts of Germany with some overlap in the central parts of Germany. Variations of the sea level pressure gradient across Europe, e.g., between the continental and maritime regions, is the major phenomenon that triggers the time development of the rainfall regions by modulating wind patterns and moisture advection. Two regional climate models (REMO and CCLM4) were used to investigate the capability of climate models to reproduce the observed summer rainfall regions. Both regional climate models (RCMs) were once driven by the ERA-Interim reanalysis and once by the MPI-ESM general circulation model (GCM). Overall, the RCMs exhibit good performance in terms of the regionalization of summer rainfall in Germany; though the goodness-of-match with the rainfall regions/patterns from observational data is low in some cases and the REMO model driven by MPI-ESM fails to reproduce the western homogeneous rainfall region. Under future climate change, virtually the same leading modes of summer rainfall occur, suggesting that the basic synoptic processes associated with the regional patterns remain the same over Germany. We have also assessed the added value of bias-correcting the MPI-ESM driven RCMs using a simple linear scaling approach. The bias correction does not significantly alter the identification of homogeneous rainfall regions and, hence, does not improve their goodness-of-match compared to the observed patterns, except for the one case where the original RCM output completely fails to reproduce the observed pattern. While the linear scaling method improves the basic statistics of precipitation, it does not improve the simulated meteorological patterns represented by the precipitation regimes.}, language = {en} } @article{RaiZieglerAbeletal.2022, author = {Rai, P. and Ziegler, K. and Abel, D. and Pollinger, F. and Paeth, H.}, title = {Performance of a regional climate model with interactive vegetation (REMO-iMOVE) over Central Asia}, series = {Theoretical and Applied Climatology}, volume = {150}, journal = {Theoretical and Applied Climatology}, number = {3-4}, issn = {0177-798X}, doi = {10.1007/s00704-022-04233-y}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-324155}, pages = {1385-1405}, year = {2022}, abstract = {The current study evaluates the regional climate model REMO (v2015) and its new version REMO-iMOVE, including interactive vegetation and plant functional types (PFTs), over two Central Asian domains for the period of 2000-2015 at two different horizontal resolutions (0.44° and 0.11°). Various statistical metrices along with mean bias patterns for precipitation, temperature, and leaf area index have been used for the model evaluation. A better representation of the spatial pattern of precipitation is found at 0.11° resolution over most of Central Asia. Regarding the mean temperature, both model versions show a high level of agreement with the validation data, especially at the higher resolution. This also reduces the biases in maximum and minimum temperature. Generally, REMO-iMOVE shows an improvement regarding the temperature bias but produces a larger precipitation bias compared to the REMO conventional version with interannually static vegetation. Since the coupled version is capable to simulate the mean climate of Central Asia like its parent version, both can be used for impact studies and future projections. However, regarding the new vegetation scheme and its spatiotemporal representation exemplified by the leaf area index, REMO-iMOVE shows a clear advantage over REMO. This better simulation is caused by the implementation of more realistic and interactive vegetation and related atmospheric processes which consequently add value to the regional climate model.}, language = {en} } @article{FrimmelChakravartiBasei2022, author = {Frimmel, Hartwig E. and Chakravarti, Rajarshi and Basei, Miguel A. S.}, title = {Detrital zircon ages from Archaean conglomerates in the Singhbhum Craton, eastern India: implications on economic Au-U potential}, series = {Mineralium Deposita}, volume = {57}, journal = {Mineralium Deposita}, number = {8}, issn = {0026-4598}, doi = {10.1007/s00126-022-01121-3}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-324084}, pages = {1499-1514}, year = {2022}, abstract = {New U-Pb age and Hf isotope data obtained on detrital zircon grains from Au- and U-bearing Archaean quartz-pebble conglomerates in the Singhbhum Craton, eastern India, specifically the Upper Iron Ore Group in the Badampahar Greenstone Belt and the Phuljhari Formation below the Dhanjori Group provide insights into the zircon provenance and maximum age of sediment deposition. The most concordant, least disturbed \(^{207}\)Pb/\(^{206}\)Pb ages cover the entire range of known magmatic and higher grade metamorphic events in the craton from 3.48 to 3.06 Ga and show a broad maximum between 3.38 and 3.18 Ga. This overlap is also mimicked by Lu-Hf isotope analyses, which returned a wide range in \(_{εHf}\)(t) values from + 6 to - 5, in agreement with the range known from zircon grains in igneous and metamorphic rocks in the Singhbhum Craton. A smaller but distinct age peak centred at 3.06 Ga corresponds to the age of the last major magmatic intrusive event, the emplacement of the Mayurbhanj Granite and associated gabbro, picrite and anorthosite. Thus, these intrusive rocks must form a basement rather than being intrusive into the studied conglomerates as previously interpreted. The corresponding detrital zircon grains all have a subchondritic Hf isotopic composition. The youngest reliable zircon ages of 3.03 Ga in the case of the basal Upper Iron Ore Group in the east of the craton and 3.00 Ga for the Phuljhari Formation set an upper limit on the age of conglomerate sedimentation. Previously published detrital zircon age data from similarly Au-bearing conglomerates in the Mahagiri Quartzite in the Upper Iron Ore Group in the south of the craton gave a somewhat younger maximum age of sedimentation of 2.91 Ga. There, the lower limit on sedimentation is given by an intrusive relationship with a c. 2.8 Ga granite. The time window thus defined for conglomerate deposition on the Singhbhum Craton is almost identical to the age span established for the, in places, Au- and U-rich conglomerates in the Kaapvaal Craton of South Africa: the 2.98-2.78 Ga Dominion Group and Witwatersrand Supergroup in South Africa. Since the recognition of first major concentration of gold on Earth's surface by microbial activity having taken place at around 2.9 Ga, independent of the nature of the hinterland, the above similarity in age substantially increases the potential for discovering Witwatersrand-type gold and/or uranium deposits on the Singhbhum Craton. Further age constraints are needed there, however, to distinguish between supposedly less fertile (with respect to Au) > 2.9 Ga and more fertile < 2.9 Ga successions.}, language = {en} } @article{FaethKunzKneisel2022, author = {F{\"a}th, Julian and Kunz, Julius and Kneisel, Christof}, title = {Monitoring spatiotemporal soil moisture changes in the subsurface of forest sites using electrical resistivity tomography (ERT)}, series = {Journal of Forestry Research}, volume = {33}, journal = {Journal of Forestry Research}, number = {5}, issn = {1007-662X}, doi = {10.1007/s11676-022-01498-x}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-324073}, pages = {1649-1662}, year = {2022}, abstract = {The effects of drought on tree mortality at forest stands are not completely understood. For assessing their water supply, knowledge of the small-scale distribution of soil moisture as well as its temporal changes is a key issue in an era of climate change. However, traditional methods like taking soil samples or installing data loggers solely collect parameters of a single point or of a small soil volume. Electrical resistivity tomography (ERT) is a suitable method for monitoring soil moisture changes and has rarely been used in forests. This method was applied at two forest sites in Bavaria, Germany to obtain high-resolution data of temporal soil moisture variations. Geoelectrical measurements (2D and 3D) were conducted at both sites over several years (2015-2018/2020) and compared with soil moisture data (matric potential or volumetric water content) for the monitoring plots. The greatest variations in resistivity values that highly correlate with soil moisture data were found in the main rooting zone. Using the ERT data, temporal trends could be tracked in several dimensions, such as the interannual increase in the depth of influence from drought events and their duration, as well as rising resistivity values going along with decreasing soil moisture. The results reveal that resistivity changes are a good proxy for seasonal and interannual soil moisture variations. Therefore, 2D- and 3D-ERT are recommended as comparatively non-laborious methods for small-spatial scale monitoring of soil moisture changes in the main rooting zone and the underlying subsurface of forested sites. Higher spatial and temporal resolution allows a better understanding of the water supply for trees, especially in times of drought.}, language = {en} } @article{Ibebuchi2022, author = {Ibebuchi, Chibuike Chiedozie}, title = {Patterns of atmospheric circulation in Western Europe linked to heavy rainfall in Germany: preliminary analysis into the 2021 heavy rainfall episode}, series = {Theoretical and Applied Climatology}, volume = {148}, journal = {Theoretical and Applied Climatology}, number = {1-2}, issn = {0177-798X}, doi = {10.1007/s00704-022-03945-5}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-324100}, pages = {269-283}, year = {2022}, abstract = {The July 2021 heavy rainfall episode in parts of Western Europe caused devastating floods, specifically in Germany. This study examines circulation types (CTs) linked to extreme precipitation in Germany. It was investigated if the classified CTs can highlight the anomaly in synoptic patterns that contributed to the unusual July 2021 heavy rainfall in Germany. The North Atlantic Oscillation was found to be the major climatic mode related to the seasonal and inter-annual variations of most of the classified CTs. On average, wet (dry) conditions in large parts of Germany can be linked to westerly (northerly) moisture fluxes. During spring and summer seasons, the mid-latitude cyclone when located over the North Sea disrupts onshore moisture transport from the North Atlantic Ocean by westerlies driven by the North Atlantic subtropical anticyclone. The CT found to have the highest probability of being associated with above-average rainfall in large part of Germany features (i) enhancement and northward track of the cyclonic system over the Mediterranean; (ii) northward track of the North Atlantic anticyclone, further displacing poleward, the mid-latitude cyclone over the North Sea, enabling band of westerly moisture fluxes to penetrate Germany; (iii) cyclonic system over the Baltic Sea coupled with northeast fluxes of moisture to Germany; (iv) and unstable atmospheric conditions over Germany. In 2021, a spike was detected in the amplitude and frequency of occurrence of the aforementioned wet CT suggesting that in addition to the nearly stationary cut-off low over central Europe, during the July flood episode, anomalies in the CT contributed to the heavy rainfall event.}, language = {en} } @phdthesis{Ibebuchi2023, author = {Ibebuchi, Chibuike Chiedozie}, title = {Bias correction of climate model output for Germany}, doi = {10.25972/OPUS-31264}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-312647}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Regional climate models (RCMs) are tools used to project future climate change at a regional scale. Despite their high horizontal resolution, RCMs are characterized by systematic biases relative to observations, which can result in unrealistic interpretations of future climate change signals. On the other hand, bias correction (BC) is a popular statistical post-processing technique applied to improve the usability of output from climate models. Like every other statistical technique, BC has its strengths and weaknesses. Hence, within the regional context of Germany, and for temperature and precipitation, this study is dedicated to the assessment of the impact of different BC techniques on the RCM output. The focuses are on the impact of BC on the RCM's statistical characterization, and physical consistency defined as the spatiotemporal consistency between the bias-corrected variable and the simulated physical mechanisms governing the variable, as well as the correlations between the bias-corrected variable and other (simulated) climate variables. Five BC techniques were applied in adjusting the systematic biases in temperature and precipitation RCM outputs. The BC techniques are linear scaling, empirical quantile mapping, univariate quantile delta mapping, multivariate quantile delta mapping that considers inter-site dependencies, and multivariate quantile delta mapping that considers inter-variable dependencies (MBCn). The results show that each BC technique adds value in reducing the biases in the statistics of the RCM output, though the added value depends on several factors such as the temporal resolution of the data, choice of RCM, climate variable, region, and the metric used in evaluating the BC technique. Further, the raw RCMs reproduced portions of the observed modes of atmospheric circulation in Western Europe, and the observed temperature, and precipitation meteorological patterns in Germany. After the BC, generally, the spatiotemporal configurations of the simulated meteorological patterns as well as the governing large-scale mechanisms were reproduced. However, at a more localized spatial scale for the individual meteorological patterns, the BC changed the simulated co-variability of some grids, especially for precipitation. Concerning the co-variability among the variables, a physically interpretable positive correlation was found between temperature and precipitation during boreal winter in both models and observations. For most grid boxes in the study domain and on average, the BC techniques that do not adjust inter-variable dependency did not notably change the simulated correlations between the climate variables. However, depending on the grid box, the (univariate) BC techniques tend to degrade the simulated temporal correlations between temperature and precipitation. Further, MBCn which adjusts biases in inter-variable dependency has the skill to improve the correlations between the simulated variables towards observations.}, language = {en} } @phdthesis{Engelbauer2023, author = {Engelbauer, Manuel}, title = {Global assessment of recent UNESCO Biosphere Reserve quality enhancement strategies and interlinkages with other UNESCO labels}, publisher = {W{\"u}rzburg University Press}, address = {W{\"u}rzburg}, isbn = {978-3-95826-196-9}, doi = {10.25972/WUP-978-3-95826-197-6}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-286538}, school = {W{\"u}rzburg University Press}, pages = {XVI, 187}, year = {2023}, abstract = {In 1995, the Second International Biosphere Reserve Congress in Seville resulted in a set of new regulations that spurred a significant paradigm shift in the UNESCO Man and Bio-sphere (MAB) Programme, reconceptualizing the research programme as a modern instrument for the dual mandate of nature conservation and sustainable development. But almost 20 years later, a large proportion of biosphere reserves designated before 1996 still did not comply with the new regulations. In 2013, the International Coordination Council of the MAB Programme announced the 'Exit Strategy' to assess, monitor and improve the quality of the World Network of Biosphere Reserves. However, the strategy also meant that 266 biosphere reserves in 76 member states were faced with the possibility of exclusion from the world network. This study presents a global assessment of the challenges that result from the Exit Strategy and the Process of Excellence and Enhancement that follows. Specifically, it investigates the differences in quality management strategies and the periodic review processes of various biosphere reserves, the effects of those quality management strategies on the MAB Programme and on the 76 directly affected member states, and the interlinkages between the MAB Programme and other UNESCO designations for nature conservation: the natural World Heritage Sites and the Global Geoparks. Semi-structured expert interviews were conducted with 31 participants in 21 different countries, representing all UN regions. To showcase the diversity of the World Network of Bio-sphere Reserves, 20 country-specific case studies are presented, highlighting the challenges of implementing the biosphere reserve concept and, more specifically, the periodic review process. Information gleaned from the experts was transcribed and evaluated using a qualitative content analysis method. The results of this study demonstrate major differences worldwide in the implementation biosphere reserves, especially in the case of the national affiliation of the MAB Programme, the legal recognition of biosphere reserves in national legislation, the usage of the term 'bio-sphere reserve' and the governance structures of the biosphere reserves. Of those represented by the case studies, the four countries with the highest number of voluntary biosphere reserves withdrawals after 2013, Australia, Austria, Bulgaria and the United States of America, show that the Exit Strategy contributed to the streamlining and quality enhancement of the world network. The biosphere reserves in those countries were strictly nature conservation areas without human settlements and were designated as such in the 1970s and 1980s. Only post-Seville biosphere reserves remain in those countries. Some experts have pointed out that there appears to be competition for political attention and funding between the three UNESCO labels for nature conservation. While a combination of the designation of biosphere reserves and World Heritage Sites in one place is favoured by experts, Global Geoparks and Biosphere Reserves are seen as being in competition with each other. This study concludes that quality enhancement strategies were fundamental to improving the credibility and coherence of the MAB Programme. Most pre-Seville biosphere reserves were adapted or the member states were encouraged to withdraw them voluntarily. Challenges in implementing the Exit Strategy were not unique to individual countries but applied equally to all member states with pre-Seville sites. Over the course of the quality enhancement process, many UNESCO member states have become more involved with the MAB Programme, which has led to rejuvenation of the national biosphere reserves network in many countries.}, subject = {Naturschutz}, language = {en} } @book{Wiedemann2023, author = {Wiedemann, Cathrin}, title = {Picken, Packen, Radeln? Betriebsformen, Standorte, Arbeitsprozesse und deren Auswirkungen auf Besch{\"a}ftigte im Lebensmittelonlinehandel in Deutschland}, edition = {1. Auflage}, publisher = {W{\"u}rzburg University Press}, address = {W{\"u}rzburg}, isbn = {978-3-95826-208-9}, issn = {2196-5811}, doi = {10.25972/WUP-978-3-95826-209-6}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-298886}, publisher = {W{\"u}rzburg University Press}, pages = {XV, 171}, year = {2023}, abstract = {Der Lebensmittelonlinehandel in Deutschland gewann, verst{\"a}rkt durch die Covid-19-Pandemie, an Umsatzanteilen im Lebensmitteleinzelhandel. Hierdurch wurden neue Anforderungen an Arbeit und Besch{\"a}ftigung in Deutschland geschaffen. Insbesondere in urbanen R{\"a}umen hat die Lebensmittelzustellung durch neu entstandene Betriebsformen zugenommen. So entstehen durch das Versprechen der Betriebe, Lebensmittel in kurzen Zeitr{\"a}umen zu liefern, verschiedene Logistikstandorte und u.a. urbane Fahrradlieferdienste. W{\"a}hrend Medien und Gewerkschaften bereits vor der Entstehung prek{\"a}rer Arbeitsbedingungen warnen, sind die genauen Auswirkungen des Lebensmittelonlinehandels auf die Entwicklung neuer Arbeitsstandorte und die dort stattfindende Besch{\"a}ftigung nur unzureichend bekannt. Diese Arbeit untersucht den Lebensmittelonlinehandel anhand seiner Betriebsformen, Standorte und Arbeitsprozesse sowie deren Auswirkungen auf Besch{\"a}ftigte in Deutschland. Den konzeptionellen Hintergrund bilden Arbeiten der geographischen Handelsforschung sowie Debatten zu Arbeitsplatzqualit{\"a}t und Besch{\"a}ftigung. F{\"u}r die Analyse sind Prim{\"a}rdaten und Sekund{\"a}rdaten erhoben worden. Es zeigt sich, dass teilweise komplexe Betriebsformen entstehen, bei denen sich die Arbeit und Arbeitsorte ver{\"a}ndern. Zudem entstehen neue Herausforderungen f{\"u}r die Besch{\"a}ftigten (u.a. physische und psychische Belastung), welche in dieser Arbeit identifiziert werden.}, subject = {Arbeitsprozess}, language = {de} } @phdthesis{Abel2023, author = {Abel, Daniel Karl-Joseph}, title = {Weiterentwicklung der Bodenhydrologie des regionalen Klimamodells REMO}, doi = {10.25972/OPUS-31146}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-311468}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Die Bodenfeuchte stellt eine essenzielle Variable f{\"u}r den Energie-, Feuchte- und Stoffaustausch zwischen Landoberfl{\"a}che und Atmosph{\"a}re dar. Ihre Auswirkungen auf Temperatur und Niederschlag sind vielf{\"a}ltig und komplex. Die in Klimamodellen verwendeten Schemata zur Simulation der Bodenfeuchte, auch bodenhydrologische Schemata genannt, sind aufgrund des Ursprungs der Klimamodelle aus Wettermodellen jedoch h{\"a}ufig sehr stark vereinfacht dargestellt. Bei Klimamodellen, die Simulationen mit einer groben Aufl{\"o}sung von mehreren Zehner- oder Hunderterkilometern rechnen, k{\"o}nnen viele Prozesse vernachl{\"a}ssigt werden. Da die Aufl{\"o}sung der Klimamodelle jedoch stetig steigt und mittlerweile beim koordinierten Projekt regionaler Klimamodelle CORDEX-CORE standardm{\"a}ßig bei 0.22° Kantenl{\"a}nge liegt, m{\"u}ssen auch h{\"o}her aufgel{\"o}ste Daten und mehr Prozesse simuliert werden. Dies gilt erst recht mit Blick auf konvektionsaufl{\"o}sende Simulationen mit wenigen Kilometern Kantenl{\"a}nge. Mit steigenden Modellaufl{\"o}sungen steigt zugleich die Komplexit{\"a}t und Differenziertheit der Fragestellungen, die mit Hilfe von Klimamodellen beantwortet werden sollen. An diesem Punkt setzt auch das Projekt BigData@Geo an, in dessen Rahmen die vorliegende Arbeit entstand. Ziel dieses Projektes ist es, hochaufgel{\"o}ste Klimainformationen f{\"u}r den bayerischen Regierungsbezirk Unterfranken f{\"u}r Akteure aus der Land- und Forstwirtschaft sowie dem Weinbau zur Verf{\"u}gung zu stellen. Auf diesen angewandten und grundlegenden Anforderungen und Zielsetzungen basierend, bedarf auch das in dieser Arbeit verwendete regionale Klimamodell REMO (Version 2015) der weiteren Entwicklung. So ist das Hauptziel der Arbeit das bestehende einschichtige bodenhydrologische Schema durch ein mehrschichtiges zu ersetzen. Der Vorteil mehrerer simulierter Bodenschichten besteht darin, dass nun die vertikale Bewegung des Wassers in Form von Versickerung und kapillarem Aufstieg simuliert werden kann. Dies geschieht auf der Basis bodenhydrologischer Parameter, deren Wert in Abh{\"a}ngigkeit vom Boden und der Bodenfeuchte {\"u}ber die Wasserr{\"u}ckhaltekurve bestimmt wird. F{\"u}r diese Kurve existieren verschiedene Parametrisierungen, von denen die Ans{\"a}tze von Clapp-Hornberger und van Genuchten verwendet wurden. Außerdem kann die Bodenfeuchte nun bis zu einer Tiefe von circa 10 m beziehungsweise der Tiefe des anstehenden Gesteins simuliert werden. Damit besteht im Gegensatz zum vorherigen Schema, dessen Tiefe auf die Wurzeltiefe beschr{\"a}nkt ist, die M{\"o}glichkeit, dass Wasser auch unterhalb der Wurzeln zur Verf{\"u}gung stehen kann und somit die absolute im Boden verf{\"u}gbare Wassermenge zunimmt. Die Schichtung erlaubt dar{\"u}ber hinaus die Verdunstung aus unbewachsenem Boden lediglich auf Basis des in der obersten Schicht verf{\"u}gbaren Wassers. Ein weiterer Prozess, der dank der Schichtung und der weiter unten erl{\"a}uterten Datens{\"a}tze neu parametrisiert werden kann, ist die Infiltration. F{\"u}r die Verwendung des Schemas sind Informationen {\"u}ber bodenhydrologische Parameter, die Wurzeltiefe und die Tiefe bis zum anstehenden Gestein erforderlich. Entsprechende Datens{\"a}tze m{\"u}ssen hierf{\"u}r aufbereitet und in das Modell eingebaut werden. Bez{\"u}glich der Wurzeltiefe wurden drei sich bez{\"u}glich der Tiefe, der Definition und der verf{\"u}gbaren Aufl{\"o}sung stark voneinander unterscheidende Datens{\"a}tze verglichen. Letztendlich wird die Wurzeltiefe aus dem mit einer anderen REMO-Version gekoppelten Vegetationsmodul iMOVE verwendet, da zuk{\"u}nftig eine Kopplung dieses Moduls mit dem mehrschichtigen Boden geplant ist und die Wurzeltiefen damit konsistent sind. Zudem ist die zugrundeliegende Aufl{\"o}sung der Daten hoch und es werden maximale Wurzeltiefen ber{\"u}cksichtigt, die besonders wichtig f{\"u}r die Simulation von Landoberfl{\"a}che-Atmosph{\"a}re-Interaktionen sind. Diese Vorteile brachten die anderen Datens{\"a}tze nicht mit. In der finalen Modellversion werden f{\"u}r die Tiefe bis zum anstehenden Gestein und die Korngr{\"o}ßenverteilungen die Daten von SoilGrids verwendet. Ein Vergleich mit anderen Bodendatens{\"a}tzen fand in einer parallel laufenden Dissertation statt (Ziegler 2022). Bei SoilGrids ist hervorzuheben, dass die Korngr{\"o}ßenverteilungen in einer hohen r{\"a}umlichen Aufl{\"o}sung (1 km^2 oder h{\"o}her) und mit mehreren vertikalen Schichten vorliegen. Gegen{\"u}ber dem urspr{\"u}nglich in REMO verwendeten Datensatz mit einer Kantenl{\"a}nge von 0.5° und ohne vertikale Differenzierung ist dies eine starke Verbesserung der Eingangsdaten. Dazu kommt, dass die Korngr{\"o}ßenverteilungen die Verwendung kontinuierlicher Pedotransferfunktionen statt f{\"u}nf diskreter Texturklassen, denen f{\"u}r die bodenhydrologischen Parameter fixe Tabellenwerte zugewiesen werden, erm{\"o}glichen. Dies f{\"u}hrt zu einer deutlich besseren Differenzierung des heterogenen Bodens. Im Rahmen der Arbeit wurden insgesamt 19 Simulationen f{\"u}r Europa und ein erweitertes Deutschlandgebiet mit Aufl{\"o}sungen von 0.44° beziehungsweise 0.11° f{\"u}r den Zeitraum 2000 bis 2018 gerechnet. Dabei zeigte sich, dass die Einf{\"u}hrung des mehrschichtigen Bodenschemas gegen{\"u}ber dem einschichtigen Schema zu einer Verringerung der Bodenfeuchte in der Wurzeltiefe f{\"u}hrt. Nichtsdestotrotz nimmt die absolute Wassermenge des Bodens durch die Ber{\"u}cksichtigung des Bodens unterhalb der Wurzelzone zu. Bezogen auf die einzelnen Schichten wird die Bodenfeuchte damit zwar untersch{\"a}tzt, im Laufe der Modellentwicklung kann jedoch eine Verbesserung im Vergleich zu ERA5 erzielt werden. Das neue Schema f{\"u}hrt zu einer Verringerung der Evapotranspiration, die {\"u}ber alle Schritte der Modellentwicklung und besonders w{\"a}hrend der Sommermonate auftritt. Im Vergleich zu Validationsdaten von ERA5 und GLEAM zeigt sich, dass dies eine Verbesserung dieser Gr{\"o}ße bedeutet, die sowohl in der Fl{\"a}che als auch beim Fehler und in der Verteilung auftritt. Gleiches l{\"a}sst sich f{\"u}r den Oberfl{\"a}chenabfluss sagen. Hierf{\"u}r implementierte Schemata (Philip, Green-Ampt), die anders als das standardm{\"a}ßig verwendete Improved-Arno-Schema bodenhydrologische Parameter ber{\"u}cksichtigen, konnten eine weitere Verbesserung im Flachland zeigen. In Gebirgsregionen nahm der Fehler durch die nicht enthaltene Ber{\"u}cksichtigung der Hangneigung jedoch zu, sodass in der finalen Modellversion auf das Improved-Arno-Schema zur{\"u}ckgegriffen wurde. Die Temperatur steigt durch die urspr{\"u}ngliche Version des mehrschichtigen Schemas zun{\"a}chst an, was zu einer {\"U}ber- statt der vorherigen Untersch{\"a}tzung gegen{\"u}ber E-OBS f{\"u}hrt. Die Modellentwicklung resultiert zwar in einer Reduzierung der Temperatur, jedoch f{\"a}llt diese zu stark aus, sodass der Temperaturfehler letztendlich gr{\"o}ßer als in der einschichtigen Modellversion ist. Da die Evapotranspiration jedoch maßgeblich verbessert wurde, kann dieser Fehler eventuell auf ein {\"u}berm{\"a}ßiges Tuning der Temperatur zur{\"u}ckgef{\"u}hrt werden. Die Betrachtung von Hitzeereignissen am Beispiel der Sommer 2003 und 2018 hat gezeigt, dass die Modellentwicklung dazu beitr{\"a}gt, diese Ereignisse besser als das einschichtige Schema zu simulieren. Zwar trifft dies nicht auf das r{\"a}umliche Verhalten der mittleren Temperatur zu, jedoch auf deren zeitlichen Verlauf. Hinzu kommt die bessere Simulation der t{\"a}glichen Extrem- und besonders der Minimaltemperatur, was zu einer Erh{\"o}hung der t{\"a}glichen Temperaturspanne f{\"u}hrt. Diese wird von Klimamodellen in der Regel zu stark untersch{\"a}tzt. Durch die Ber{\"u}cksichtigung der vertikalen Wasserfl{\"u}sse hat sich jedoch auch gezeigt, dass noch enormes Entwicklungspotenzial mit Blick auf (boden)hydrologische Prozesse besteht. Dies gilt in besonderem Maße f{\"u}r zuk{\"u}nftige Simulationen mit konvektionserlaubender Aufl{\"o}sung. So sollten subskalige Informationen des Bodens und der Orographie ber{\"u}cksichtigt werden. Dies dient einerseits der Repr{\"a}sentation vorliegender Heterogenit{\"a}ten und kann andererseits, wie am Beispiel der Infiltrationsschemata dargelegt, zur Verbesserung bestehender Prozesse beitragen. Da die simulierte Drainage durch das mehrschichtige Bodenschema im gleichen Maße zu- wie der Oberfl{\"a}chenabfluss abnimmt und das Wasser dem Modell in der Folge nicht weiter zur Verf{\"u}gung steht, sollte zuk{\"u}nftig auch Grundwasser im Modell ber{\"u}cksichtigt werden. Eine Vielzahl von Studien konnte einen Mehrwert durch die Implementierung dieser Variable und damit verbundener Prozesse feststellen. Mittelfristig ist jedoch insgesamt die Kopplung an ein hydrologisches Modell zu empfehlen, um die bei hochaufl{\"o}senden Simulationen relevanten Prozesse angemessen repr{\"a}sentieren zu k{\"o}nnen. Hierf{\"u}r bieten sich beispielsweise ParFlow oder mHM an. Insgesamt ist festzuhalten, dass das mehrschichtige Bodenschema einen Mehrwert liefert, da schwer zu simulierende und in der Postprozessierung zu korrigierende Variablen wie die Evapotranspiration und der Oberfl{\"a}chenabfluss deutlich besser modelliert werden k{\"o}nnen als mit dem einschichtigen Schema. Dies gilt auch f{\"u}r die Extremtemperaturen. Beides ist klar auf die Schichtung des Bodens und damit einhergehender Prozesse zur{\"u}ckzuf{\"u}hren. Bez{\"u}glich der Daten zeigt sich, dass die Wurzeltiefe, die Ber{\"u}cksichtigung von SoilGrids und die vertikale Bodeninformation f{\"u}r die weitere Optimierung verantwortlich sind. Dar{\"u}ber hinaus ist der h{\"o}here Informationsgehalt, der anhand der geschichteten Bodenfeuchte zur Verf{\"u}gung steht, ebenfalls als Mehrwert einzustufen.}, subject = {Klima}, language = {de} } @article{LibandaPaeth2023, author = {Libanda, Brigadier and Paeth, Heiko}, title = {Modelling wind speed across Zambia: Implications for wind energy}, series = {International Journal of Climatology}, volume = {43}, journal = {International Journal of Climatology}, number = {2}, doi = {10.1002/joc.7826}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-312134}, pages = {772 -- 786}, year = {2023}, abstract = {Wind energy is a key option in global dialogues about climate change mitigation. Here, we combined observations from surface wind stations, reanalysis datasets, and state-of-the-art regional climate models from the Coordinated Regional Climate Downscaling Experiment (CORDEX Africa) to study the current and future wind energy potential in Zambia. We found that winds are dominated by southeasterlies and are rarely strong with an average speed of 2.8 m·s\(^{-1}\). When we converted the observed surface wind speed to a turbine hub height of 100 m, we found a ~38\% increase in mean wind speed for the period 1981-2000. Further, both simulated and observed wind speed data show statistically significant increments across much of the country. The only areas that divert from this upward trend of wind speeds are the low land terrains of the Eastern Province bordering Malawi. Examining projections of wind power density (WPD), we found that although wind speed is increasing, it is still generally too weak to support large-scale wind power generation. We found a meagre projected annual average WPD of 46.6 W·m\(^{-2}\). The highest WPDs of ~80 W·m\(^{-2}\) are projected in the northern and central parts of the country while the lowest are to be expected along the Luangwa valley in agreement with wind speed simulations. On average, Zambia is expected to experience minor WPD increments of 0.004 W·m\(^{-2}\) per year from 2031 to 2050. We conclude that small-scale wind turbines that accommodate cut-in wind speeds of 3.8 m·s\(^{-1}\) are the most suitable for power generation in Zambia. Further, given the limitations of small wind turbines, they are best suited for rural and suburban areas of the country where obstructions are few, thus making them ideal for complementing the government of the Republic of Zambia's rural electrification efforts.}, language = {en} } @article{DhillonDahmsKuebertFlocketal.2023, author = {Dhillon, Maninder Singh and Dahms, Thorsten and Kuebert-Flock, Carina and Rummler, Thomas and Arnault, Joel and Steffan-Dewenter, Ingolf and Ullmann, Tobias}, title = {Integrating random forest and crop modeling improves the crop yield prediction of winter wheat and oil seed rape}, series = {Frontiers in Remote Sensing}, volume = {3}, journal = {Frontiers in Remote Sensing}, issn = {2673-6187}, doi = {10.3389/frsen.2022.1010978}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-301462}, year = {2023}, abstract = {The fast and accurate yield estimates with the increasing availability and variety of global satellite products and the rapid development of new algorithms remain a goal for precision agriculture and food security. However, the consistency and reliability of suitable methodologies that provide accurate crop yield outcomes still need to be explored. The study investigates the coupling of crop modeling and machine learning (ML) to improve the yield prediction of winter wheat (WW) and oil seed rape (OSR) and provides examples for the Free State of Bavaria (70,550 km2), Germany, in 2019. The main objectives are to find whether a coupling approach [Light Use Efficiency (LUE) + Random Forest (RF)] would result in better and more accurate yield predictions compared to results provided with other models not using the LUE. Four different RF models [RF1 (input: Normalized Difference Vegetation Index (NDVI)), RF2 (input: climate variables), RF3 (input: NDVI + climate variables), RF4 (input: LUE generated biomass + climate variables)], and one semi-empiric LUE model were designed with different input requirements to find the best predictors of crop monitoring. The results indicate that the individual use of the NDVI (in RF1) and the climate variables (in RF2) could not be the most accurate, reliable, and precise solution for crop monitoring; however, their combined use (in RF3) resulted in higher accuracies. Notably, the study suggested the coupling of the LUE model variables to the RF4 model can reduce the relative root mean square error (RRMSE) from -8\% (WW) and -1.6\% (OSR) and increase the R 2 by 14.3\% (for both WW and OSR), compared to results just relying on LUE. Moreover, the research compares models yield outputs by inputting three different spatial inputs: Sentinel-2(S)-MOD13Q1 (10 m), Landsat (L)-MOD13Q1 (30 m), and MOD13Q1 (MODIS) (250 m). The S-MOD13Q1 data has relatively improved the performance of models with higher mean R 2 [0.80 (WW), 0.69 (OSR)], and lower RRMSE (\%) (9.18, 10.21) compared to L-MOD13Q1 (30 m) and MOD13Q1 (250 m). Satellite-based crop biomass, solar radiation, and temperature are found to be the most influential variables in the yield prediction of both crops.}, language = {en} } @article{Ibebuchi2023, author = {Ibebuchi, Chibuike Chiedozie}, title = {On the representation of atmospheric circulation modes in regional climate models over Western Europe}, series = {International Journal of Climatology}, volume = {43}, journal = {International Journal of Climatology}, number = {1}, doi = {10.1002/joc.7807}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-312424}, pages = {668 -- 682}, year = {2023}, abstract = {Atmospheric circulation is a key driver of climate variability, and the representation of atmospheric circulation modes in regional climate models (RCMs) can enhance the credibility of regional climate projections. This study examines the representation of large-scale atmospheric circulation modes in Coupled Model Inter-comparison Project phase 5 RCMs once driven by ERA-Interim, and by two general circulation models (GCMs). The study region is Western Europe and the circulation modes are classified using the Promax rotated T-mode principal component analysis. The results indicate that the RCMs can replicate the classified atmospheric modes as obtained from ERA5 reanalysis, though with biases dependent on the data providing the lateral boundary condition and the choice of RCM. When the boundary condition is provided by ERA-Interim that is more consistent with observations, the simulated map types and the associating time series match well with their counterparts from ERA5. Further, on average, the multi-model ensemble mean of the analysed RCMs, driven by ERA-Interim, indicated a slight improvement in the representation of the modes obtained from ERA5. Conversely, when the RCMs are driven by the GCMs that are models without assimilation of observational data, the representation of the atmospheric modes, as obtained from ERA5, is relatively less accurate compared to when the RCMs are driven by ERA-Interim. This suggests that the biases stem from the GCMs. On average, the representation of the modes was not improved in the multi-model ensemble mean of the five analysed RCMs driven by either of the GCMs. However, when the best-performed RCMs were selected on average the ensemble mean indicated a slight improvement. Moreover, the presence of the North Atlantic Oscillation (NAO) in the simulated modes depends also on the lateral boundary conditions. The relationship between the modes and the NAO was replicated only when the RCMs were driven by reanalysis. The results indicate that the forcing model is the main factor in reproducing the atmospheric circulation.}, language = {en} } @article{OuedraogoHackmanThieletal.2023, author = {Ouedraogo, Valentin and Hackman, Kwame Oppong and Thiel, Michael and Dukiya, Jaiye}, title = {Intensity analysis for urban Land Use/Land Cover dynamics characterization of Ouagadougou and Bobo-Dioulasso in Burkina Faso}, series = {Land}, volume = {12}, journal = {Land}, number = {5}, issn = {2073-445X}, doi = {10.3390/land12051063}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-319397}, year = {2023}, abstract = {Ouagadougou and Bobo-Dioulasso remain the two major urban centers in Burkina Faso with an increasing trend in human footprint. The research aimed at analyzing the Land Use/Land Cover (LULC) dynamics in the two cities between 2003 and 2021 using intensity analysis, which decomposes LULC changes into interval, category and transition levels. The satellite data used for this research were composed of surface reflectance imagery from Landsat 5, Landsat 7 and Landsat 8 acquired from the Google Earth Engine Data Catalogue. The Random Forest, Support Vector Machine and Gradient Tree Boost algorithms were employed to run supervised image classifications for four selected years including 2003, 2009, 2015 and 2021. The results showed that the landscape is changing in both cities due to rapid urbanization. Ouagadougou experienced more rapid changes than Bobo-Dioulasso, with a maximum annual change intensity of 3.61\% recorded between 2015 and 2021 against 2.22\% in Bobo-Dioulasso for the period 2009-2015. The transition of change was mainly towards built-up areas, which gain targeted bare and agricultural lands in both cities. This situation has led to a 78.12\% increase of built-up surfaces in Ouagadougou, while 42.24\% of agricultural land area was lost. However, in Bobo-Dioulasso, the built class has increased far more by 140.67\%, and the agricultural land areas experienced a gain of 1.38\% compared with the 2003 baseline. The study demonstrates that the human footprint is increasing in both cities making the inhabitants vulnerable to environmental threats such as flooding and the effect of an Urban Heat Island, which is information that could serve as guide for sustainable urban land use planning.}, language = {en} } @phdthesis{Dhillon2023, author = {Dhillon, Maninder Singh}, title = {Potential of Remote Sensing in Modeling Long-Term Crop Yields}, doi = {10.25972/OPUS-32258}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-322581}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Accurate crop monitoring in response to climate change at a regional or field scale plays a significant role in developing agricultural policies, improving food security, forecasting, and analysing global trade trends. Climate change is expected to significantly impact agriculture, with shifts in temperature, precipitation patterns, and extreme weather events negatively affecting crop yields, soil fertility, water availability, biodiversity, and crop growing conditions. Remote sensing (RS) can provide valuable information combined with crop growth models (CGMs) for yield assessment by monitoring crop development, detecting crop changes, and assessing the impact of climate change on crop yields. This dissertation aims to investigate the potential of RS data on modelling long-term crop yields of winter wheat (WW) and oil seed rape (OSR) for the Free State of Bavaria (70,550 km2 ), Germany. The first chapter of the dissertation describes the reasons favouring the importance of accurate crop yield predictions for achieving sustainability in agriculture. Chapter second explores the accuracy assessment of the synthetic RS data by fusing NDVIs of two high spatial resolution data (high pair) (Landsat (30 m, 16-days; L) and Sentinel-2 (10 m, 5-6 days; S), with four low spatial resolution data (low pair) (MOD13Q1 (250 m, 16-days), MCD43A4 (500 m, one day), MOD09GQ (250 m, one-day), and MOD09Q1 (250 m, 8-days)) using the spatial and temporal adaptive reflectance fusion model (STARFM), which fills regions' cloud or shadow gaps without losing spatial information. The chapter finds that both L-MOD13Q1 (R2 = 0.62, RMSE = 0.11) and S-MOD13Q1 (R2 = 0.68, RMSE = 0.13) are more suitable for agricultural monitoring than the other synthetic products fused. Chapter third explores the ability of the synthetic spatiotemporal datasets (obtained in chapter 2) to accurately map and monitor crop yields of WW and OSR at a regional scale. The chapter investigates and discusses the optimal spatial (10 m, 30 m, or 250 m), temporal (8 or 16-day) and CGMs (World Food Studies (WOFOST), and the semi-empiric light use efficiency approach (LUE)) for accurate crop yield estimations of both crop types. Chapter third observes that the observations of high temporal resolution (8-day) products of both S-MOD13Q1 and L-MOD13Q1 play a significant role in accurately measuring the yield of WW and OSR. The chapter investigates that the simple light use efficiency (LUE) model (R2 = 0.77 and relative RMSE (RRMSE) = 8.17\%) that required fewer input parameters to simulate crop yield is highly accurate, reliable, and more precise than the complex WOFOST model (R2 = 0.66 and RRMSE = 11.35\%) with higher input parameters. Chapter four researches the relationship of spatiotemporal fusion modelling using STRAFM on crop yield prediction for WW and OSR using the LUE model for Bavaria from 2001 to 2019. The chapter states the high positive correlation coefficient (R) = 0.81 and R = 0.77 between the yearly R2 of synthetic accuracy and modelled yield accuracy for WW and OSR from 2001 to 2019, respectively. The chapter analyses the impact of climate variables on crop yield predictions by observing an increase in R2 (0.79 (WW)/0.86 (OSR)) and a decrease in RMSE (4.51/2.57 dt/ha) when the climate effect is included in the model. The fifth chapter suggests that the coupling of the LUE model to the random forest (RF) model can further reduce the relative root mean square error (RRMSE) from -8\% (WW) and -1.6\% (OSR) and increase the R2 by 14.3\% (for both WW and OSR), compared to results just relying on LUE. The same chapter concludes that satellite-based crop biomass, solar radiation, and temperature are the most influential variables in the yield prediction of both crop types. Chapter six attempts to discuss both pros and cons of RS technology while analysing the impact of land use diversity on crop-modelled biomass of WW and OSR. The chapter finds that the modelled biomass of both crops is positively impacted by land use diversity to the radius of 450 (Shannon Diversity Index ~0.75) and 1050 m (~0.75), respectively. The chapter also discusses the future implications by stating that including some dependent factors (such as the management practices used, soil health, pest management, and pollinators) could improve the relationship of RS-modelled crop yields with biodiversity. Lastly, chapter seven discusses testing the scope of new sensors such as unmanned aerial vehicles, hyperspectral sensors, or Sentinel-1 SAR in RS for achieving accurate crop yield predictions for precision farming. In addition, the chapter highlights the significance of artificial intelligence (AI) or deep learning (DL) in obtaining higher crop yield accuracies.}, subject = {Ernteertrag}, language = {en} } @phdthesis{Dhillon2023, author = {Dhillon, Maninder Singh}, title = {Potential of Remote Sensing in Modeling Long-Term Crop Yields}, doi = {10.25972/OPUS-33052}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-330529}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Accurate crop monitoring in response to climate change at a regional or field scale plays a significant role in developing agricultural policies, improving food security, forecasting, and analysing global trade trends. Climate change is expected to significantly impact agriculture, with shifts in temperature, precipitation patterns, and extreme weather events negatively affecting crop yields, soil fertility, water availability, biodiversity, and crop growing conditions. Remote sensing (RS) can provide valuable information combined with crop growth models (CGMs) for yield assessment by monitoring crop development, detecting crop changes, and assessing the impact of climate change on crop yields. This dissertation aims to investigate the potential of RS data on modelling long-term crop yields of winter wheat (WW) and oil seed rape (OSR) for the Free State of Bavaria (70,550 km2), Germany. The first chapter of the dissertation describes the reasons favouring the importance of accurate crop yield predictions for achieving sustainability in agriculture. Chapter second explores the accuracy assessment of the synthetic RS data by fusing NDVIs of two high spatial resolution data (high pair) (Landsat (30 m, 16-days; L) and Sentinel-2 (10 m, 5-6 days; S), with four low spatial resolution data (low pair) (MOD13Q1 (250 m, 16-days), MCD43A4 (500 m, one day), MOD09GQ (250 m, one-day), and MOD09Q1 (250 m, 8-days)) using the spatial and temporal adaptive reflectance fusion model (STARFM), which fills regions' cloud or shadow gaps without losing spatial information. The chapter finds that both L-MOD13Q1 (R2 = 0.62, RMSE = 0.11) and S-MOD13Q1 (R2 = 0.68, RMSE = 0.13) are more suitable for agricultural monitoring than the other synthetic products fused. Chapter third explores the ability of the synthetic spatiotemporal datasets (obtained in chapter 2) to accurately map and monitor crop yields of WW and OSR at a regional scale. The chapter investigates and discusses the optimal spatial (10 m, 30 m, or 250 m), temporal (8 or 16-day) and CGMs (World Food Studies (WOFOST), and the semi-empiric light use efficiency approach (LUE)) for accurate crop yield estimations of both crop types. Chapter third observes that the observations of high temporal resolution (8-day) products of both S-MOD13Q1 and L-MOD13Q1 play a significant role in accurately measuring the yield of WW and OSR. The chapter investigates that the simple light use efficiency (LUE) model (R2 = 0.77 and relative RMSE (RRMSE) = 8.17\%) that required fewer input parameters to simulate crop yield is highly accurate, reliable, and more precise than the complex WOFOST model (R2 = 0.66 and RRMSE = 11.35\%) with higher input parameters. Chapter four researches the relationship of spatiotemporal fusion modelling using STRAFM on crop yield prediction for WW and OSR using the LUE model for Bavaria from 2001 to 2019. The chapter states the high positive correlation coefficient (R) = 0.81 and R = 0.77 between the yearly R2 of synthetic accuracy and modelled yield accuracy for WW and OSR from 2001 to 2019, respectively. The chapter analyses the impact of climate variables on crop yield predictions by observing an increase in R2 (0.79 (WW)/0.86 (OSR)) and a decrease in RMSE (4.51/2.57 dt/ha) when the climate effect is included in the model. The fifth chapter suggests that the coupling of the LUE model to the random forest (RF) model can further reduce the relative root mean square error (RRMSE) from -8\% (WW) and -1.6\% (OSR) and increase the R2 by 14.3\% (for both WW and OSR), compared to results just relying on LUE. The same chapter concludes that satellite-based crop biomass, solar radiation, and temperature are the most influential variables in the yield prediction of both crop types. Chapter six attempts to discuss both pros and cons of RS technology while analysing the impact of land use diversity on crop-modelled biomass of WW and OSR. The chapter finds that the modelled biomass of both crops is positively impacted by land use diversity to the radius of 450 (Shannon Diversity Index ~0.75) and 1050 m (~0.75), respectively. The chapter also discusses the future implications by stating that including some dependent factors (such as the management practices used, soil health, pest management, and pollinators) could improve the relationship of RS-modelled crop yields with biodiversity. Lastly, chapter seven discusses testing the scope of new sensors such as unmanned aerial vehicles, hyperspectral sensors, or Sentinel-1 SAR in RS for achieving accurate crop yield predictions for precision farming. In addition, the chapter highlights the significance of artificial intelligence (AI) or deep learning (DL) in obtaining higher crop yield accuracies.}, subject = {Ernteertrag}, language = {en} } @phdthesis{Majewski2023, author = {Majewski, Lisa}, title = {Input-Output-Analyse zur Ermittlung der regional{\"o}konomischen Effekte des Tourismus in Schutzgebieten : Eine Adaption der Methodik an internationale Standards am Fallbeispiel Biosph{\"a}rengebiet Schwarzwald}, publisher = {W{\"u}rzburg University Press}, address = {W{\"u}rzburg}, isbn = {978-3-95826-216-4}, issn = {0510-9833}, doi = {10.25972/WUP-978-3-95826-217-1}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-316545}, school = {W{\"u}rzburg University Press}, pages = {XVI, 444}, year = {2023}, abstract = {Schutzgebiete gelten laut der Convention on Biological Diversity als Fl{\"a}cheninstrument zum Schutz der Biodiversit{\"a}t. Menschen profitieren davon unter anderem durch die Nutzung als touristische Attraktion. Sch{\"a}tzungen zufolge werden weltweit etwa acht Mrd. Besuche zur Wahrnehmung des Naturerlebnisangebots der Schutzgebiete erreicht, woraus direkte Besucherausgaben in H{\"o}he von 600 Mrd. US-\$ resultieren. Schutzgebiete sind damit auch bedeutende Wirtschaftsmotoren der regionalen {\"O}konomien. Deutschlands Nationalparks z{\"a}hlen j{\"a}hrlich etwa 53 Mio. Besuchstage, deren t{\"a}gliche Ausgaben vor Ort einen Bruttoumsatz in H{\"o}he von 2,78 Mrd. € generieren. Die touristische Wertsch{\"o}pfung betr{\"a}gt 1,45 Mrd. €. Die weiteren 65 Mio. Besuchstage in deutschen Biosph{\"a}renreservaten erwirtschaften einen Bruttoumsatz in H{\"o}he von 2,94 Mrd. €. Das Einkommen von 172.000 Personen ist vom Tourismus in deutschen Nationalparken und Biosph{\"a}renreservaten abh{\"a}ngig. Im Rahmen einer ersten Studie zu den regional{\"o}konomischen Effekten des Nationalparks Berchtesgaden im Jahr 2002 wurde die touristische Wertsch{\"o}pfungsanalyse als Standardmethode der deutschen Schutzgebietsforschung etabliert. Im Laufe der Jahre wurde sie dahingehend modifiziert, ein vergleichbares, weil standardisiertes Vorgehen anwenden zu k{\"o}nnen. Die internationale Forschung manifestiert mit der Herausgabe eines Leitfadens einen anderen Standard zur regional{\"o}konomischen Wirkungsanalyse des Tourismus in Schutzgebieten: die Input-Output-Analyse. Schutzgebietsverwaltungen in den USA, Kanada, Brasilien, Namibia, S{\"u}dafrika und Finnland f{\"u}hren f{\"u}r ihr Besuchermonitoring Input-Output-Analysen durch. Diese sind im Vergleich zur Wertsch{\"o}pfungsanalyse als der validiere Ansatz einzustufen, weil damit ein Rechenwerk gegeben ist, womit indirekte Vorleistungs- und induzierte Konsumwirkungen zuverl{\"a}ssig quantifiziert werden k{\"o}nnen. Die Wertsch{\"o}pfungsanalyse arbeitet hingegen mit pauschalen Wertsch{\"o}pfungsquoten f{\"u}r alle touristischen Wirtschaftszweige und auf jeder Maßstabsebene. Aufgrund der fehlenden Datenverf{\"u}gbarkeit konnte die Input-Output-Analyse in Deutschland bisher nicht angewandt werden. Eine potenzielle Datenquelle er{\"o}ffnete sich durch das US-amerikanische Modellierungsunternehmen IMPLAN, welches Input-Output-Tabellen f{\"u}r die regionale Ebene der EU anbot. IMPLAN-Daten werden auch vom US-amerikanischen National Park Service verwendet. Die vorliegende Arbeit versteht sich als methodische Weiterentwicklung regional{\"o}konomischer Wirkungsanalysen in Deutschlands Schutzgebieten zur Adaption an internationale Standards. Dazu erfolgt die Applikation der Input-Output-Analyse f{\"u}r das Fallbeispiel des Biosph{\"a}rengebiets Schwarzwald, dessen Regional{\"o}konomie einen {\"u}berschaubaren Analyserahmen bietet. Der Nationalpark Schwarzwald wurde als Vergleichsregion zur Validierung der Ergebnisse untersucht. F{\"u}r eine erweiterte Einordnung der touristischen Multiplikatorwirkung in der Schwarzwaldregion wurde eine multiregionale Input-Output-Analyse durchgef{\"u}hrt, die sich auf die Gebietsabgrenzung der beiden Naturparke Schwarzwald Mitte/Nord und S{\"u}dschwarzwald bezieht. Zur Quantifizierung der direkten Wirkungsebene wurden touristische Kenngr{\"o}ßen der amtlichen Statistik entnommen. Die Berechnung von direkten Wertsch{\"o}pfungsquoten erfolgte gem{\"a}ß ihrer Definition als die in der Region verbleibende Wertsch{\"o}pfung am touristischen Produktionswert. Mittels der Input-Output-Analyse wurden die indirekten und induzierten Effekte des Tourismus im Biosph{\"a}rengebiet Schwarzwald ermittelt. Aus den regionalen Input-Output-Tabellen wurden inverse Koeffizienten abgeleitet, welche die regional{\"o}konomischen Multiplikatoren anzeigen. Zwei Multiplikatortypen wurden f{\"u}r die touristischen Kenngr{\"o}ßen Output, Wertsch{\"o}pfung und Besch{\"a}ftigung berechnet: Typ I-Multiplikatoren bemessen die indirekten Vorleistungseffekte touristischer Ausgaben. Typ II-Multiplikatoren inkludieren auch die induzierten Konsumeffekte. In einem mehrstufigen Prozess der Analyse von weiteren Fallbeispielen k{\"o}nnen regional{\"o}konomische Multiplikatoren f{\"u}r verschiedene Gebietseinheiten validiert und so ganzheitlich abgestimmt f{\"u}r das deutsche Schutzgebietssystem adaptiert werden. Dadurch k{\"o}nnte die Input-Output-Analyse als neue Standardmethode f{\"u}r ein dauerhaftes regional{\"o}konomisches Monitoring in deutschen Schutzgebieten etabliert werden.}, language = {de} } @phdthesis{Reinermann2023, author = {Reinermann, Sophie}, title = {Earth Observation Time Series for Grassland Management Analyses - Development and large-scale Application of a Framework to detect Grassland Mowing Events in Germany}, doi = {10.25972/OPUS-32273}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-322737}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Grasslands shape many landscapes of the earth as they cover about one-third of its surface. They are home and provide livelihood for billions of people and are mainly used as source of forage for animals. However, grasslands fulfill many additional ecosystem functions next to fodder production, such as storage of carbon, water filtration, provision of habitats and cultural values. They play a role in climate change (mitigation) and in preserving biodiversity and ecosystem functions on a global scale. The degree to what these ecosystem functions are present within grassland ecosystems is largely determined by the management. Individual management practices and the use intensity influence the species composition as well as functions, like carbon storage, while higher use intensities (e.g. high mowing frequencies) usually show a negative impact. Especially in Central European countries, like in Germany, the determining influence of grassland management on its physiognomy and ecosystem functions leads to a large variability and small-scale alternations of grassland parcels. Large-scale information on the management and use intensity of grasslands is not available. Consequently, estimations of grassland ecosystem functions are challenging which, however, would be required for large-scale assessments of the status of grassland ecosystems and optimized management plans for the future. The topic of this thesis tackles this gap by investigating the major grassland management practice in Germany, which is mowing, for multiple years, in high spatial resolution and on a national scale. Earth Observation (EO) has the advantage of providing information of the earth's surface on multi-temporal time steps. An extensive literature review on the use of EO for grassland management and production analyses, which was part of this thesis, showed that in particular research on grasslands consisting of small parcels with a large variety of management and use intensity, like common in Central Europe, is underrepresented. Especially the launch of the Sentinel satellites in the recent past now enables the analyses of such grasslands due to their high spatial and temporal resolution. The literature review specifically on the investigation of grassland mowing events revealed that most previous studies focused on small study areas, were exploratory, only used one sensor type and/or lacked a reference data set with a complete range of management options. Within this thesis a novel framework to detect grassland mowing events over large areas is presented which was applied and validated for the entire area of Germany for multiple years (2018-2021). The potential of both sensor types, optical (Sentinel-2) and Synthetic Aperture Radar (SAR) (Sentinel-1) was investigated regarding grassland mowing event detection. Eight EO parameters were investigated, namely the Enhanced Vegetation Index (EVI), the backscatter intensity and the interferometric (InSAR) temporal coherence for both available polarization modes (VV and VH), and the polarimetric (PolSAR) decomposition parameters Entropy, K0 and K1. An extensive reference data set was generated based on daily images of webcams distributed in Germany which resulted in mowing information for grasslands with the entire possible range of mowing frequencies - from one to six in Germany - and in 1475 reference mowing events for the four years of interest. For the first time a observation-driven mowing detection approach including data from Sentinel-2 and Sentinel-1 and combining the two was developed, applied and validated on large scale. Based on a subset of the reference data (13 grassland parcels with 44 mowing events) from 2019 the EO parameters were investigated and the detection algorithm developed and parameterized. This analysis showed that a threshold-based change detection approach based on EVI captured grassland mowing events best, which only failed during periods of clouds. All SAR-based parameters showed a less consistent behavior to mowing events, with PolSAR Entropy and InSAR Coherence VH, however, revealing the highest potential among them. A second, combined approach based on EVI and a SARbased parameter was developed and tested for PolSAR Entropy and InSAR VH. To avoid additional false positive detections during periods in which mowing events are anyhow reliably detected using optical data, the SAR-based mowing detection was only initiated during long gaps within the optical time series (< 25 days). Application and validation of these approaches in a focus region revealed that only using EVI leads to the highest accuracies (F1-Score = 0.65) as combining this approach with SAR-based detection led to a strong increase in falsely detected mowing events resulting in a decrease of accuracies (EVI + PolSAR ENT F1-Score = 0.61; EVI + InSAR COH F1-Score = 0.61). The mowing detection algorithm based on EVI was applied for the entire area of Germany for the years 2018-2021. It was revealed that the largest share of grasslands with high mowing frequencies (at least four mowing events) can be found in southern/south-eastern Germany. Extensively used grassland (mown up to two times) is distributed within the entire country with larger shares in the center and north-eastern parts of Germany. These patterns stay constant in general, but small fluctuations between the years are visible. Early mown grasslands can be found in southern/south-eastern Germany - in line with high mowing frequency areas - but also in central-western parts. The years 2019 and 2020 revealed higher accuracies based on the 1475 mowing events of the multi-annual validation data set (F1-Scores of 0.64 and 0.63), 2018 and 2021 lower ones (F1-Score of 0.52 and 0.50). Based on this new, unprecedented data set, potential influencing factors on the mowing dynamics were investigated. Therefore, climate, topography, soil data and information on conservation schemes were related to mowing dynamics for the year 2020, which showed a high number of valid observations and detection accuracy. It was revealed that there are no strong linear relationships between the mowing frequency or the timing of the first mowing event and the investigated variables. However, it was found that for intensive grassland usage certain climatic and topographic conditions have to be fulfilled, while extensive grasslands appear on the entire spectrum of these variables. Further, higher mowing frequencies occur on soils with influence of ground water and lower mowing frequencies in protected areas. These results show the complex interplay between grassland mowing dynamics and external influences and highlight the challenges of policies aiming to protect grassland ecosystem functions and their need to be adapted to regional circumstances.}, subject = {Gr{\"u}nland}, language = {en} } @phdthesis{Kraff2023, author = {Kraff, Nicolas Johannes}, title = {Analyse raumzeitlicher Ver{\"a}nderungen und ontologische Kategorisierung morphologischer Armutserscheinungen - Eine globale Betrachtung mithilfe von Satellitenbildern und manueller Bildinterpretation}, doi = {10.25972/OPUS-32026}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-320264}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Die st{\"a}dtische Umwelt ist in steter Ver{\"a}nderung, vor allem durch den Bau, aber auch durch die Zerst{\"o}rung von st{\"a}dtischen Elementen. Die formelle Entwicklung ist ein Prozess mit langen Planungszeitr{\"a}umen und die bebaute Landschaft wirkt daher statisch. Dagegen unterliegen informelle oder spontane Siedlungen aufgrund ihrer stets unvollendeten st{\"a}dtischen Form einer hohen Dynamik - so wird in der Literatur berichtet. Allerdings sind Dynamik und die morphologischen Merkmale der physischen Transformation in solchen Siedlungen, die st{\"a}dtische Armut morphologisch repr{\"a}sentieren, auf globaler Ebene bisher kaum mit einer konsistenten Datengrundlage empirisch untersucht worden. Hier setzt die vorliegende Arbeit an. Unter der Annahme, dass die erforschte zeitliche Dynamik in Europa geringer ausf{\"a}llt, stellt sich die generelle Frage nach einer katalogisierten Erfassung physischer Wohnformen von Armut speziell in Europa. Denn Wohnformen der Armut werden oft ausschließlich mit dem ‚Globalen S{\"u}den' assoziiert, insbesondere durch die Darstellung von Slums. Tats{\"a}chlich ist Europa sogar die Wiege der Begriffe ‚Slum' und ‚Ghetto', die vor Jahrhunderten zur Beschreibung von Missst{\"a}nden und Unterdr{\"u}ckung auftauchten. Bis heute weist dieser facettenreiche Kontinent eine enorme Vielfalt an physischen Wohnformen der Armut auf, die ihre Wurzeln in unterschiedlichen Politiken, Kulturen, Geschichten und Lebensstilen haben. Um {\"u}ber diese genannten Aspekte Aufschluss zu erlangen, bedarf es u.a. der Bildanalyse durch Satellitenbilder. Diese Arbeit wird daher mittels Fernerkundung bzw. Erdbeobachtung (EO) sowie zus{\"a}tzlicher Literaturrecherchen und einer empirischen Erhebung erstellt. Um Unsicherheiten konzeptionell und in der Erfassung offenzulegen, ist die Methode der manuellen Bildinterpretation von Armutsgebieten kritisch zu hinterfragen. Das {\"u}bergeordnete Ziel dieser Arbeit ist eine bessere Wissensbasis {\"u}ber Armut zu schaffen, um Maßnahmen zur Reduzierung von Armut entwickeln zu k{\"o}nnen. Die Arbeit dient dabei als eine Antwort auf die Nachhaltigkeitsziele der Vereinten Nationen. Es wird Grundlagenforschung betrieben, indem Wissensl{\"u}cken in der Erdbeobachtung zu physisch-baulichen bzw. morphologischen Erscheinungen von Armut auf Geb{\"a}ude-Ebene explorativ analysiert werden. Die Arbeit wird in drei Forschungsthemen bzw. Studienteile untergliedert: Ziel des ersten Studienteils ist die globale raumzeitliche Erfassung von Dynamiken durch Ankn{\"u}pfung an bisherige Kategorisierungen von Armutsgebieten. Die bisherige Wissensl{\"u}cke soll gef{\"u}llt werden, indem {\"u}ber einen Zeitraum von etwa sieben Jahren in 16 dokumentierten Manifestationen st{\"a}dtischer Armut anhand von Erdbeobachtungsdaten eine zeitliche Analyse der bebauten Umwelt durchgef{\"u}hrt wird. Neben einer global verteilten Gebietsauswahl wird die visuelle Bildinterpretation (MVII) unter Verwendung von hochaufl{\"o}senden optischen Satellitendaten genutzt. Dies geschieht in Kombination mit in-situ- und Google Street View-Bildern zur Ableitung von 3D-Stadtmodellen. Es werden physische Raumstrukturen anhand von sechs r{\"a}umlichen morphologischen Variablen gemessen: Anzahl, Gr{\"o}ße, H{\"o}he, Ausrichtung und Dichte der Geb{\"a}ude sowie Heterogenit{\"a}t der Bebauung. Diese ‚temporale Analyse' zeigt zun{\"a}chst sowohl inter- als auch intra-urbane Unterschiede. Es lassen sich unterschiedliche, aber generell hohe morphologische Dynamiken zwischen den Untersuchungsgebieten finden. Dies dr{\"u}ckt sich in vielf{\"a}ltiger Weise aus: von abgerissenen und rekonstruierten Gebieten bis hin zu solchen, wo Ver{\"a}nderungen innerhalb der gegebenen Strukturen auftreten. Geographisch gesehen resultiert in der Stichprobe eine fortgeschrittene Dynamik, insbesondere in Gebieten des Globalen S{\"u}dens. Gleichzeitig l{\"a}sst sich eine hohe r{\"a}umliche Variabilit{\"a}t der morphologischen Transformationen innerhalb der untersuchten Gebiete beobachten. Trotz dieser teilweise hohen morphologischen Dynamik sind die r{\"a}umlichen Muster von Geb{\"a}udefluchten, Straßen und Freifl{\"a}chen {\"u}berwiegend konstant. Diese ersten Ergebnisse deuten auf einen geringen Wandel in Europa hin, weshalb diese europ{\"a}ischen Armutsgebiete im folgenden Studienteil von Grund auf erhoben und kategorisiert werden. Ziel des zweiten Studienteils ist die Erschaffung einer neuen Kategorisierung, speziell f{\"u}r das in der Wissenschaft unterrepr{\"a}sentierte Europa. Die verschiedenen Formen nicht indizierter Wohnungsmorphologien werden erforscht und kategorisiert, um das bisherige globale wissenschaftliche ontologische Portfolio f{\"u}r Europa zu erweitern. Hinsichtlich dieses zweiten Studienteils bietet eine Literaturrecherche mit mehr als 1.000 gesichteten Artikeln die weitere Grundlage f{\"u}r den folgenden Fokus auf Europa. Auf der Recherche basierend werden mittels der manuellen visuellen Bildinterpretation (engl.: MVII) erneut Satellitendaten zur Erfassung der physischen Morphologien von Wohnformen genutzt. Weiterhin kommen selbst definierte geographische Indikatoren zu Lage, Struktur und formellem Status zum Einsatz. Dar{\"u}ber hinaus werden gesellschaftliche Hintergr{\"u}nde, die durch Begriffe wie ‚Ghetto', ‚Wohnwagenpark', ‚ethnische Enklave' oder ‚Fl{\"u}chtlingslager' beschrieben werden, recherchiert und implementiert. Sie sollen als Erkl{\"a}rungsansatz f{\"u}r Armutsviertel in Europa dienen. Die Stichprobe der europ{\"a}ischen, insgesamt aber unbekannten Grundgesamtheit verdeutlicht eine große Vielfalt an physischen Formen: Es wird f{\"u}r Europa eine neue Kategorisierung von sechs Hauptklassen entwickelt, die von ‚einfachsten Wohnst{\"a}tten' (z. B. Zelten) {\"u}ber ‚behelfsm{\"a}ßige Unterk{\"u}nfte ' (z. B. Baracken, Container) bis hin zu ‚mehrst{\"o}ckigen Bauten' - als allgemeine Taxonomie der Wohnungsnot in Europa - reicht. Die Untersuchung zeigt verschiedene Wohnformen wie z. B. unterirdische oder mobile Typen, verfallene Wohnungen oder große Wohnsiedlungen, die die Armut im Europa des 21. Jahrhunderts widerspiegeln. {\"U}ber die Wohnungsmorphologie hinaus werden diese Klassen durch die Struktur und ihren rechtlichen Status beschrieben - entweder als geplante oder als organisch-gewachsene bzw. weiterhin als formelle, informelle oder hybride (halblegale) Formen. Geographisch lassen sich diese {\"a}rmlichen Wohnformen sowohl in st{\"a}dtischen als auch in l{\"a}ndlichen Gebieten finden, mit einer Konzentration in S{\"u}deuropa. Der Hintergrund bei der Mehrheit der Morphologien betrifft Fl{\"u}chtlinge, ethnische Minderheiten und sozio{\"o}konomisch benachteiligte Menschen - die ‚Unterprivilegierten'. Ziel des dritten Studienteils ist eine kritische Analyse der Methode. Zur Erfassung all dieser Siedlungen werden heutzutage Satellitenbilder aufgrund der Fortschritte bei den Bildklassifizierungsmethoden meist automatisch ausgewertet. Dennoch spielt die MVII noch immer eine wichtige Rolle, z.B. um Trainingsdaten f{\"u}r Machine-Learning-Algorithmen zu generieren oder f{\"u}r Validierungszwecke. In bestimmten st{\"a}dtischen Umgebungen jedoch, z.B. solchen mit h{\"o}chster Dichte und struktureller Komplexit{\"a}t, fordern spektrale und textur-basierte Verflechtungen von {\"u}berlappenden Dachstrukturen den menschlichen Interpreten immer noch heraus, wenn es darum geht einzelne Geb{\"a}udestrukturen zu erfassen. Die kognitive Wahrnehmung und die Erfahrung aus der realen Welt sind nach wie vor unumg{\"a}nglich. Vor diesem Hintergrund zielt die Arbeit methodisch darauf ab, Unsicherheiten speziell bei der Kartierung zu quantifizieren und zu interpretieren. Kartiert werden Dachfl{\"a}chen als ‚Fußabdr{\"u}cke' solcher Gebiete. Der Fokus liegt dabei auf der {\"U}bereinstimmung zwischen mehreren Bildinterpreten und welche Aspekte der Wahrnehmung und Elemente der Bildinterpretation die Kartierung beeinflussen. Um letztlich die Methode der MVII als drittes Ziel selbstkritisch zu reflektieren, werden Experimente als sogenannte ‚Unsicherheitsanalyse' geschaffen. Dabei digitalisieren zehn Testpersonen bzw. Probanden/Interpreten sechs komplexe Gebiete. Hierdurch werden quantitative Informationen {\"u}ber r{\"a}umliche Variablen von Geb{\"a}uden erzielt, um systematisch die Konsistenz und Kongruenz der Ergebnisse zu {\"u}berpr{\"u}fen. Ein zus{\"a}tzlicher Fragebogen liefert subjektive qualitative Informationen {\"u}ber weitere Schwierigkeiten. Da die Grundlage der hierf{\"u}r bisher genutzten Kategorisierungen auf der subjektiven Bildinterpretation durch den Menschen beruht, m{\"u}ssen etwaige Unsicherheiten und damit Fehleranf{\"a}lligkeiten offengelegt werden. Die Experimente zu dieser Unsicherheitsanalyse erfolgen quantifiziert und qualifiziert. Es lassen sich generell große Unterschiede zwischen den Kartierungsergebnissen der Probanden, aber eine hohe Konsistenz der Ergebnisse bei ein und demselben Probanden feststellen. Steigende Abweichungen korrelieren mit einer steigenden baustrukturellen (morphologischen) Komplexit{\"a}t. Ein hoher Grad an Individualit{\"a}t bei den Probanden {\"a}ußert sich in Aspekten wie z.B. Zeitaufwand beim Kartieren, in-situ Vorkenntnissen oder Vorkenntnissen beim Umgang mit Geographischen Informationssystemen (GIS). Nennenswert ist hierbei, dass die jeweilige Datenquelle das Kartierungsverfahren meist beeinflusst. Mit dieser Studie soll also auch an der Stelle der angewandten Methodik eine weitere Wissensl{\"u}cke gef{\"u}llt werden. Die bisherige Forschung komplexer urbaner Areale unter Nutzung der manuellen Bildinterpretation implementiert oftmals keine Unsicherheitsanalyse oder Quantifizierung von Kartierungsfehlern. Fernerkundungsstudien sollten k{\"u}nftig zur Validierung nicht nur zweifelsfrei auf MVII zur{\"u}ckgreifen k{\"o}nnen, sondern vielmehr sind Daten und Methoden notwendig, um Unsicherheiten auszuschließen. Zusammenfassend tr{\"a}gt diese Arbeit zur bisher wenig erforschten morphologischen Dynamik von Armutsgebieten bei. Es werden inter- wie auch intra-urbane Unterschiede auf globaler Ebene pr{\"a}sentiert. Dabei sind allgemein hohe morphologische Transformationen zwischen den selektierten Gebieten festzustellen. Die Ergebnisse deuten auf einen grundlegenden Kenntnismangel in Europa hin, weshalb an dieser Stelle angekn{\"u}pft wird. Eine {\"u}ber Europa verteilte Stichprobe erlaubt eine neue morphologische Kategorisierung der großen Vielfalt an gefundenen physischen Formen. Die Menge an Gebieten erschließt sich in einer unbekannten Grundgesamtheit. Zur Datenaufbereitung bisheriger Analysen m{\"u}ssen Satellitenbilder manuell interpretiert werden. Das Verfahren birgt Unsicherheiten. Als kritische Selbstreflexion zeigt eine Reihe von Experimenten signifikante Unterschiede zwischen den Ergebnissen der Probanden auf, verdeutlicht jedoch bei ein und derselben Person Best{\"a}ndigkeit.}, subject = {Slum}, language = {de} } @article{SteiningerAbelZiegleretal.2023, author = {Steininger, Michael and Abel, Daniel and Ziegler, Katrin and Krause, Anna and Paeth, Heiko and Hotho, Andreas}, title = {ConvMOS: climate model output statistics with deep learning}, series = {Data Mining and Knowledge Discovery}, volume = {37}, journal = {Data Mining and Knowledge Discovery}, number = {1}, issn = {1384-5810}, doi = {10.1007/s10618-022-00877-6}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-324213}, pages = {136-166}, year = {2023}, abstract = {Climate models are the tool of choice for scientists researching climate change. Like all models they suffer from errors, particularly systematic and location-specific representation errors. One way to reduce these errors is model output statistics (MOS) where the model output is fitted to observational data with machine learning. In this work, we assess the use of convolutional Deep Learning climate MOS approaches and present the ConvMOS architecture which is specifically designed based on the observation that there are systematic and location-specific errors in the precipitation estimates of climate models. We apply ConvMOS models to the simulated precipitation of the regional climate model REMO, showing that a combination of per-location model parameters for reducing location-specific errors and global model parameters for reducing systematic errors is indeed beneficial for MOS performance. We find that ConvMOS models can reduce errors considerably and perform significantly better than three commonly used MOS approaches and plain ResNet and U-Net models in most cases. Our results show that non-linear MOS models underestimate the number of extreme precipitation events, which we alleviate by training models specialized towards extreme precipitation events with the imbalanced regression method DenseLoss. While we consider climate MOS, we argue that aspects of ConvMOS may also be beneficial in other domains with geospatial data, such as air pollution modeling or weather forecasts.}, subject = {Klima}, language = {en} } @article{GeyerLandingMeieretal.2023, author = {Geyer, Gerd and Landing, Ed and Meier, Stefan and H{\"o}hn, Stefan}, title = {Oldest known West Gondwanan graptolite: Ovetograptus? sp. (lower Agdzian/lowest Wuliuan; basal Middle Cambrian) of the Franconian Forest, Germany, and review of pre-Furongian graptolithoids}, series = {Pal{\"a}ontologische Zeitschrift}, volume = {97}, journal = {Pal{\"a}ontologische Zeitschrift}, number = {4}, issn = {0031-0220}, doi = {10.1007/s12542-022-00627-5}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-324099}, pages = {677-686}, year = {2023}, abstract = {The occurrence of a likely graptolite in lowest Wuliuan strata of the Franconian Forest almost certainly records the oldest known graptolithoid hemichordate in West Gondwana and possibly the oldest graptolite presently known. The fossil is a delicate, erect, apparently unbranched rhabdosome with narrow thecae tentatively assigned to the poorly known genus Ovetograptus of the Dithecodendridae. This report includes an overview of pre-Furongian graptolithoids with slight corrections on the stratigraphic position of earlier reported species.}, language = {en} } @article{Libanda2023, author = {Libanda, Brigadier}, title = {Performance assessment of CORDEX regional climate models in wind speed simulations over Zambia}, series = {Modeling Earth Systems and Environment}, volume = {9}, journal = {Modeling Earth Systems and Environment}, number = {1}, issn = {2363-6203}, doi = {10.1007/s40808-022-01504-5}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-324147}, pages = {253-262}, year = {2023}, abstract = {There is no single solution to cutting emissions, however, renewable energy projects that are backed by rigorous ex-ante assessments play an important role in these efforts. An inspection of literature reveals critical knowledge gaps in the understanding of future wind speed variability across Zambia, thus leading to major uncertainties in the understanding of renewable wind energy potential over the country. Several model performance metrics, both statistical and graphical were used in this study to examine the performance of CORDEX Africa Regional Climate Models (RCMs) in simulating wind speed across Zambia. Results indicate that wind speed is increasing at the rate of 0.006 m s\(^{-1}\) per year. RCA4-GFDL-ESM2M, RCA4-HadGEM2-ES, RCA4-IPSL-CM5A-MR, and RCA4-CSIRO-MK3.6.0 were found to correctly simulate wind speed increase with varying magnitudes on the Sen's estimator of slope. All the models sufficiently reproduce the annual cycle of wind speed with a steady increase being observed from April reaching its peak around August/September and beginning to drop in October. Apart from RegCM4-MPI-ESM and RegCM4-HadGEM2, the performance of RCMs in simulating spatial wind speed patterns is generally good although they overestimate it by ~ 1 m s\(^{-1}\) in the western and southern provinces of the country. Model performance metrics indicate that with a correlation coefficient of 0.5, a root mean square error of 0.4 m s\(^{-1}\), an RSR value of 7.7 and a bias of 19.9\%, RCA4-GFDL-ESM2M outperforms all other models followed by RCA4-HadGEM2, and RCA4-CM5A-MR respectively. These results, therefore, suggest that studies that use an ensemble of RCA4-GFDL-ESM2M, RCA4-HadGEM2, and RCA4-CM5A-MR would yield useful results for informing future renewable wind energy potential in Zambia.}, language = {en} } @article{KanmegneTamgaLatifiUllmannetal.2023, author = {Kanmegne Tamga, Dan and Latifi, Hooman and Ullmann, Tobias and Baumhauer, Roland and Thiel, Michael and Bayala, Jules}, title = {Modelling the spatial distribution of the classification error of remote sensing data in cocoa agroforestry systems}, series = {Agroforestry Systems}, volume = {97}, journal = {Agroforestry Systems}, number = {1}, issn = {0167-4366}, doi = {10.1007/s10457-022-00791-2}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-324139}, pages = {109-119}, year = {2023}, abstract = {Cocoa growing is one of the main activities in humid West Africa, which is mainly grown in pure stands. It is the main driver of deforestation and encroachment in protected areas. Cocoa agroforestry systems which have been promoted to mitigate deforestation, needs to be accurately delineated to support a valid monitoring system. Therefore, the aim of this research is to model the spatial distribution of uncertainties in the classification cocoa agroforestry. The study was carried out in C{\^o}te d'Ivoire, close to the Ta{\"i} National Park. The analysis followed three steps (i) image classification based on texture parameters and vegetation indices from Sentinel-1 and -2 data respectively, to train a random forest algorithm. A classified map with the associated probability maps was generated. (ii) Shannon entropy was calculated from the probability maps, to get the error maps at different thresholds (0.2, 0.3, 0.4 and 0.5). Then, (iii) the generated error maps were analysed using a Geographically Weighted Regression model to check for spatial autocorrelation. From the results, a producer accuracy (0.88) and a user's accuracy (0.91) were obtained. A small threshold value overestimates the classification error, while a larger threshold will underestimate it. The optimal value was found to be between 0.3 and 0.4. There was no evidence of spatial autocorrelation except for a smaller threshold (0.2). The approach differentiated cocoa from other landcover and detected encroachment in forest. Even though some information was lost in the process, the method is effective for mapping cocoa plantations in C{\^o}te d'Ivoire.}, language = {en} } @article{Ibebuchi2023, author = {Ibebuchi, Chibuike Chiedozie}, title = {Circulation patterns linked to the positive sub-tropical Indian Ocean dipole}, series = {Advances in Atmospheric Sciences}, volume = {40}, journal = {Advances in Atmospheric Sciences}, number = {1}, issn = {0256-1530}, doi = {10.1007/s00376-022-2017-2}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-324119}, pages = {110-128}, year = {2023}, abstract = {The positive phase of the subtropical Indian Ocean dipole (SIOD) is one of the climatic modes in the subtropical southern Indian Ocean that influences the austral summer inter-annual rainfall variability in parts of southern Africa. This paper examines austral summer rain-bearing circulation types (CTs) in Africa south of the equator that are related to the positive SIOD and the dynamics through which specific rainfall regions in southern Africa can be influenced by this relationship. Four austral summer rain-bearing CTs were obtained. Among the four CTs, the CT that featured (i) enhanced cyclonic activity in the southwest Indian Ocean; (ii) positive widespread rainfall anomaly in the southwest Indian Ocean; and (iii) low-level convergence of moisture fluxes from the tropical South Atlantic Ocean, tropical Indian Ocean, and the southwest Indian Ocean, over the south-central landmass of Africa, was found to be related to the positive SIOD climatic mode. The relationship also implies that positive SIOD can be expected to increase the amplitude and frequency of occurrence of the aforementioned CT. The linkage between the CT related to the positive SIOD and austral summer homogeneous regions of rainfall anomalies in Africa south of the equator showed that it is the principal CT that is related to the inter-annual rainfall variability of the south-central regions of Africa, where the SIOD is already known to significantly influence its rainfall variability. Hence, through the large-scale patterns of atmospheric circulation associated with the CT, the SIOD can influence the spatial distribution and intensity of rainfall over the preferred landmass through enhanced moisture convergence.}, language = {en} } @article{PhilippDietzUllmannetal.2023, author = {Philipp, Marius and Dietz, Andreas and Ullmann, Tobias and Kuenzer, Claudia}, title = {A circum-Arctic monitoring framework for quantifying annual erosion rates of permafrost coasts}, series = {Remote Sensing}, volume = {15}, journal = {Remote Sensing}, number = {3}, issn = {2072-4292}, doi = {10.3390/rs15030818}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-304447}, year = {2023}, abstract = {This study demonstrates a circum-Arctic monitoring framework for quantifying annual change of permafrost-affected coasts at a spatial resolution of 10 m. Frequent cloud coverage and challenging lighting conditions, including polar night, limit the usability of optical data in Arctic regions. For this reason, Synthetic Aperture RADAR (SAR) data in the form of annual median and standard deviation (sd) Sentinel-1 (S1) backscatter images covering the months June-September for the years 2017-2021 were computed. Annual composites for the year 2020 were hereby utilized as input for the generation of a high-quality coastline product via a Deep Learning (DL) workflow, covering 161,600 km of the Arctic coastline. The previously computed annual S1 composites for the years 2017 and 2021 were employed as input data for the Change Vector Analysis (CVA)-based coastal change investigation. The generated DL coastline product served hereby as a reference. Maximum erosion rates of up to 67 m per year could be observed based on 400 m coastline segments. Overall highest average annual erosion can be reported for the United States (Alaska) with 0.75 m per year, followed by Russia with 0.62 m per year. Out of all seas covered in this study, the Beaufort Sea featured the overall strongest average annual coastal erosion of 1.12 m. Several quality layers are provided for both the DL coastline product and the CVA-based coastal change analysis to assess the applicability and accuracy of the output products. The predicted coastal change rates show good agreement with findings published in previous literature. The proposed methods and data may act as a valuable tool for future analysis of permafrost loss and carbon emissions in Arctic coastal environments.}, language = {en} } @article{KacicThonfeldGessneretal.2023, author = {Kacic, Patrick and Thonfeld, Frank and Gessner, Ursula and Kuenzer, Claudia}, title = {Forest structure characterization in Germany: novel products and analysis based on GEDI, Sentinel-1 and Sentinel-2 data}, series = {Remote Sensing}, volume = {15}, journal = {Remote Sensing}, number = {8}, issn = {2072-4292}, doi = {10.3390/rs15081969}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-313727}, year = {2023}, abstract = {Monitoring forest conditions is an essential task in the context of global climate change to preserve biodiversity, protect carbon sinks and foster future forest resilience. Severe impacts of heatwaves and droughts triggering cascading effects such as insect infestation are challenging the semi-natural forests in Germany. As a consequence of repeated drought years since 2018, large-scale canopy cover loss has occurred calling for an improved disturbance monitoring and assessment of forest structure conditions. The present study demonstrates the potential of complementary remote sensing sensors to generate wall-to-wall products of forest structure for Germany. The combination of high spatial and temporal resolution imagery from Sentinel-1 (Synthetic Aperture Radar, SAR) and Sentinel-2 (multispectral) with novel samples on forest structure from the Global Ecosystem Dynamics Investigation (GEDI, LiDAR, Light detection and ranging) enables the analysis of forest structure dynamics. Modeling the three-dimensional structure of forests from GEDI samples in machine learning models reveals the recent changes in German forests due to disturbances (e.g., canopy cover degradation, salvage logging). This first consistent data set on forest structure for Germany from 2017 to 2022 provides information of forest canopy height, forest canopy cover and forest biomass and allows estimating recent forest conditions at 10 m spatial resolution. The wall-to-wall maps of the forest structure support a better understanding of post-disturbance forest structure and forest resilience.}, language = {en} } @phdthesis{Philipp2023, author = {Philipp, Marius Balthasar}, title = {Quantifying the Effects of Permafrost Degradation in Arctic Coastal Environments via Satellite Earth Observation}, doi = {10.25972/OPUS-34563}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-345634}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Permafrost degradation is observed all over the world as a consequence of climate change and the associated Arctic amplification, which has severe implications for the environment. Landslides, increased rates of surface deformation, rising likelihood of infrastructure damage, amplified coastal erosion rates, and the potential turnover of permafrost from a carbon sink to a carbon source are thereby exemplary implications linked to the thawing of frozen ground material. In this context, satellite earth observation is a potent tool for the identification and continuous monitoring of relevant processes and features on a cheap, long-term, spatially explicit, and operational basis as well as up to a circumpolar scale. A total of 325 articles published in 30 different international journals during the past two decades were investigated on the basis of studied environmental foci, remote sensing platforms, sensor combinations, applied spatio-temporal resolutions, and study locations in an extensive review on past achievements, current trends, as well as future potentials and challenges of satellite earth observation for permafrost related analyses. The development of analysed environmental subjects, utilized sensors and platforms, and the number of annually published articles over time are addressed in detail. Studies linked to atmospheric features and processes, such as the release of greenhouse gas emissions, appear to be strongly under-represented. Investigations on the spatial distribution of study locations revealed distinct study clusters across the Arctic. At the same time, large sections of the continuous permafrost domain are only poorly covered and remain to be investigated in detail. A general trend towards increasing attention in satellite earth observation of permafrost and related processes and features was observed. The overall amount of published articles hereby more than doubled since the year 2015. New sources of satellite data, such as the Sentinel satellites and the Methane Remote Sensing LiDAR Mission (Merlin), as well as novel methodological approaches, such as data fusion and deep learning, will thereby likely improve our understanding of the thermal state and distribution of permafrost, and the effects of its degradation. Furthermore, cloud-based big data processing platforms (e.g. Google Earth Engine (GEE)) will further enable sophisticated and long-term analyses on increasingly larger scales and at high spatial resolutions. In this thesis, a specific focus was put on Arctic permafrost coasts, which feature increasing vulnerability to environmental parameters, such as the thawing of frozen ground, and are therefore associated with amplified erosion rates. In particular, a novel monitoring framework for quantifying Arctic coastal erosion rates within the permafrost domain at high spatial resolution and on a circum-Arctic scale is presented within this thesis. Challenging illumination conditions and frequent cloud cover restrict the applicability of optical satellite imagery in Arctic regions. In order to overcome these limitations, Synthetic Aperture RADAR (SAR) data derived from Sentinel-1 (S1), which is largely independent from sun illumination and weather conditions, was utilized. Annual SAR composites covering the months June-September were combined with a Deep Learning (DL) framework and a Change Vector Analysis (CVA) approach to generate both a high-quality and circum-Arctic coastline product as well as a coastal change product that highlights areas of erosion and build-up. Annual composites in the form of standard deviation (sd) and median backscatter were computed and used as inputs for both the DL framework and the CVA coastal change quantification. The final DL-based coastline product covered a total of 161,600 km of Arctic coastline and featured a median accuracy of ±6.3 m to the manually digitized reference data. Annual coastal change quantification between 2017-2021 indicated erosion rates of up to 67 m per year for some areas based on 400 m coastal segments. In total, 12.24\% of the investigated coastline featured an average erosion rate of 3.8 m per year, which corresponds to 17.83 km2 of annually eroded land area. Multiple quality layers associated to both products, the generated DL-coastline and the coastal change rates, are provided on a pixel basis to further assess the accuracy and applicability of the proposed data, methods, and products. Lastly, the extracted circum-Arctic erosion rates were utilized as a basis in an experimental framework for estimating the amount of permafrost and carbon loss as a result of eroding permafrost coastlines. Information on permafrost fraction, Active Layer Thickness (ALT), soil carbon content, and surface elevation were thereby combined with the aforementioned erosion rates. While the proposed experimental framework provides a valuable outline for quantifying the volume loss of frozen ground and carbon release, extensive validation of the utilized environmental products and resulting volume loss numbers based on 200 m segments are necessary. Furthermore, data of higher spatial resolution and information of carbon content for deeper soil depths are required for more accurate estimates.}, subject = {Dauerfrostboden}, language = {en} } @article{ReinersSobrinoKuenzer2023, author = {Reiners, Philipp and Sobrino, Jos{\´e} and Kuenzer, Claudia}, title = {Satellite-derived land surface temperature dynamics in the context of global change — a review}, series = {Remote Sensing}, volume = {15}, journal = {Remote Sensing}, number = {7}, issn = {2072-4292}, doi = {10.3390/rs15071857}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-311120}, year = {2023}, abstract = {Satellite-derived Land Surface Temperature (LST) dynamics have been increasingly used to study various geophysical processes. This review provides an extensive overview of the applications of LST in the context of global change. By filtering a selection of relevant keywords, a total of 164 articles from 14 international journals published during the last two decades were analyzed based on study location, research topic, applied sensor, spatio-temporal resolution and scale and employed analysis methods. It was revealed that China and the USA were the most studied countries and those that had the most first author affiliations. The most prominent research topic was the Surface Urban Heat Island (SUHI), while the research topics related to climate change were underrepresented. MODIS was by far the most used sensor system, followed by Landsat. A relatively small number of studies analyzed LST dynamics on a global or continental scale. The extensive use of MODIS highly determined the study periods: A majority of the studies started around the year 2000 and thus had a study period shorter than 25 years. The following suggestions were made to increase the utilization of LST time series in climate research: The prolongation of the time series by, e.g., using AVHRR LST, the better representation of LST under clouds, the comparison of LST to traditional climate change measures, such as air temperature and reanalysis variables, and the extension of the validation to heterogenous sites.}, language = {en} } @article{DhillonKuebertFlockDahmsetal.2023, author = {Dhillon, Maninder Singh and K{\"u}bert-Flock, Carina and Dahms, Thorsten and Rummler, Thomas and Arnault, Joel and Steffan-Dewenter, Ingolf and Ullmann, Tobias}, title = {Evaluation of MODIS, Landsat 8 and Sentinel-2 data for accurate crop yield predictions: a case study using STARFM NDVI in Bavaria, Germany}, series = {Remote Sensing}, volume = {15}, journal = {Remote Sensing}, number = {7}, issn = {2072-4292}, doi = {10.3390/rs15071830}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-311132}, year = {2023}, abstract = {The increasing availability and variety of global satellite products and the rapid development of new algorithms has provided great potential to generate a new level of data with different spatial, temporal, and spectral resolutions. However, the ability of these synthetic spatiotemporal datasets to accurately map and monitor our planet on a field or regional scale remains underexplored. This study aimed to support future research efforts in estimating crop yields by identifying the optimal spatial (10 m, 30 m, or 250 m) and temporal (8 or 16 days) resolutions on a regional scale. The current study explored and discussed the suitability of four different synthetic (Landsat (L)-MOD13Q1 (30 m, 8 and 16 days) and Sentinel-2 (S)-MOD13Q1 (10 m, 8 and 16 days)) and two real (MOD13Q1 (250 m, 8 and 16 days)) NDVI products combined separately to two widely used crop growth models (CGMs) (World Food Studies (WOFOST), and the semi-empiric Light Use Efficiency approach (LUE)) for winter wheat (WW) and oil seed rape (OSR) yield forecasts in Bavaria (70,550 km\(^2\)) for the year 2019. For WW and OSR, the synthetic products' high spatial and temporal resolution resulted in higher yield accuracies using LUE and WOFOST. The observations of high temporal resolution (8-day) products of both S-MOD13Q1 and L-MOD13Q1 played a significant role in accurately measuring the yield of WW and OSR. For example, L- and S-MOD13Q1 resulted in an R\(^2\) = 0.82 and 0.85, RMSE = 5.46 and 5.01 dt/ha for WW, R\(^2\) = 0.89 and 0.82, and RMSE = 2.23 and 2.11 dt/ha for OSR using the LUE model, respectively. Similarly, for the 8- and 16-day products, the simple LUE model (R\(^2\) = 0.77 and relative RMSE (RRMSE) = 8.17\%) required fewer input parameters to simulate crop yield and was highly accurate, reliable, and more precise than the complex WOFOST model (R\(^2\) = 0.66 and RRMSE = 11.35\%) with higher input parameters. Conclusively, both S-MOD13Q1 and L-MOD13Q1, in combination with LUE, were more prominent for predicting crop yields on a regional scale than the 16-day products; however, L-MOD13Q1 was advantageous for generating and exploring the long-term yield time series due to the availability of Landsat data since 1982, with a maximum resolution of 30 m. In addition, this study recommended the further use of its findings for implementing and validating the long-term crop yield time series in different regions of the world.}, language = {en} } @article{SenaratneMuehlbauerKiefletal.2023, author = {Senaratne, Hansi and M{\"u}hlbauer, Martin and Kiefl, Ralph and C{\´a}rdenas, Andrea and Prathapan, Lallu and Riedlinger, Torsten and Biewer, Carolin and Taubenb{\"o}ck, Hannes}, title = {The Unseen — an investigative analysis of thematic and spatial coverage of news on the ongoing refugee crisis in West Africa}, series = {ISPRS International Journal of Geo-Information}, volume = {12}, journal = {ISPRS International Journal of Geo-Information}, number = {4}, issn = {2220-9964}, doi = {10.3390/ijgi12040175}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-313607}, year = {2023}, abstract = {The fastest growing regional crisis is happening in West Africa today, with over 8 million people considered persons of concern. A culmination of identity politics, climate-driven disasters, and extreme poverty has led to this humanitarian crisis in the region and is exacerbated by a lack of political will and misplaced media attention. The current state of the art does not present sufficient investigations of the thematic and spatial coverage of news media of this crisis in this region. This paper studies the spatial coverage of this crisis as reported in the media, and the themes associated with those locations, based on a curated dataset. For the time frame 12 March to 15 September 2021, 2017 news articles related to the refugee crisis in West Africa were examined and manually coded based on (1) the geographical locations mentioned in each article; (2) the themes found in the articles in reference to a location (e.g., Relocation of people in Abuja). The dataset introduces a thematic dimension, as never achieved before, to the conflict-ridden areas in West Africa. A comparative analysis with UNHCR (United Nations High Commissioner for Refugees) data showed that 96.8\% of refugee-related locations in West Africa were not covered by news during the considered time frame. Contrastingly, 80.4\% of locations mentioned in the news do not appear in the UNHCR repository. Most news articles published during this time frame reported on Development aid or Political statements. Linear multiple regression analysis showed GDP per capita and political stability to be among the most influential determinants of news coverage.}, language = {en} } @article{WeismannMoeckelPaethetal.2023, author = {Weismann, Dirk and M{\"o}ckel, Martin and Paeth, Heiko and Slagman, Anna}, title = {Modelling variations of emergency attendances using data on community mobility, climate and air pollution}, series = {Scientific Reports}, volume = {13}, journal = {Scientific Reports}, doi = {10.1038/s41598-023-47857-4}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-357578}, year = {2023}, abstract = {Air pollution is associated with morbidity and mortality worldwide. We investigated the impact of improved air quality during the economic lockdown during the SARS-Cov2 pandemic on emergency room (ER) admissions in Germany. Weekly aggregated clinical data from 33 hospitals were collected in 2019 and 2020. Hourly concentrations of nitrogen and sulfur dioxide (NO2, SO2), carbon and nitrogen monoxide (CO, NO), ozone (O3) and particulate matter (PM10, PM2.5) measured by ground stations and meteorological data (ERA5) were selected from a 30 km radius around the corresponding ED. Mobility was assessed using aggregated cell phone data. A linear stepwise multiple regression model was used to predict ER admissions. The average weekly emergency numbers vary from 200 to over 1600 cases (total n = 2,216,217). The mean maximum decrease in caseload was 5 standard deviations. With the enforcement of the shutdown in March, the mobility index dropped by almost 40\%. Of all air pollutants, NO2 has the strongest correlation with ER visits when averaged across all departments. Using a linear stepwise multiple regression model, 63\% of the variation in ER visits is explained by the mobility index, but still 6\% of the variation is explained by air quality and climate change.}, language = {en} } @article{BellKleinRieseretal.2023, author = {Bell, Alexandra and Klein, Doris and Rieser, Jakob and Kraus, Tanja and Thiel, Michael and Dech, Stefan}, title = {Scientific evidence from space — a review of spaceborne remote sensing applications at the science-policy interface}, series = {Remote Sensing}, volume = {15}, journal = {Remote Sensing}, number = {4}, issn = {2072-4292}, doi = {10.3390/rs15040940}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-303925}, year = {2023}, abstract = {On a daily basis, political decisions are made, often with their full extent of impact being unclear. Not seldom, the decisions and policy measures implemented result in direct or indirect unintended negative impacts, such as on the natural environment, which can vary in time, space, nature, and severity. To achieve a more sustainable world with equitable societies requires fundamental rethinking of our policymaking. It calls for informed decision making and a monitoring of political impact for which evidence-based knowledge is necessary. The most powerful tool to derive objective and systematic spatial information and, thus, add to transparent decisions is remote sensing (RS). This review analyses how spaceborne RS is used by the scientific community to provide evidence for the policymaking process. We reviewed 194 scientific publications from 2015 to 2020 and analysed them based on general insights (e.g., study area) and RS application-related information (e.g., RS data and products). Further, we classified the studies according to their degree of science-policy integration by determining their engagement with the political field and their potential contribution towards four stages of the policy cycle: problem identification/knowledge building, policy formulation, policy implementation, and policy monitoring and evaluation. Except for four studies, we found that studies had not directly involved or informed the policy field or policymaking process. Most studies contributed to the stage problem identification/knowledge building, followed by ex post policy impact assessment. To strengthen the use of RS for policy-relevant studies, the concept of the policy cycle is used to showcase opportunities of RS application for the policymaking process. Topics gaining importance and future requirements of RS at the science-policy interface are identified. If tackled, RS can be a powerful complement to provide policy-relevant evidence to shed light on the impact of political decisions and thus help promote sustainable development from the core.}, language = {en} } @article{DhillonDahmsKuebertFlocketal.2023, author = {Dhillon, Maninder Singh and Dahms, Thorsten and K{\"u}bert-Flock, Carina and Liepa, Adomas and Rummler, Thomas and Arnault, Joel and Steffan-Dewenter, Ingolf and Ullmann, Tobias}, title = {Impact of STARFM on crop yield predictions: fusing MODIS with Landsat 5, 7, and 8 NDVIs in Bavaria Germany}, series = {Remote Sensing}, volume = {15}, journal = {Remote Sensing}, number = {6}, issn = {2072-4292}, doi = {10.3390/rs15061651}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-311092}, year = {2023}, abstract = {Rapid and accurate yield estimates at both field and regional levels remain the goal of sustainable agriculture and food security. Hereby, the identification of consistent and reliable methodologies providing accurate yield predictions is one of the hot topics in agricultural research. This study investigated the relationship of spatiotemporal fusion modelling using STRAFM on crop yield prediction for winter wheat (WW) and oil-seed rape (OSR) using a semi-empirical light use efficiency (LUE) model for the Free State of Bavaria (70,550 km\(^2\)), Germany, from 2001 to 2019. A synthetic normalised difference vegetation index (NDVI) time series was generated and validated by fusing the high spatial resolution (30 m, 16 days) Landsat 5 Thematic Mapper (TM) (2001 to 2012), Landsat 7 Enhanced Thematic Mapper Plus (ETM+) (2012), and Landsat 8 Operational Land Imager (OLI) (2013 to 2019) with the coarse resolution of MOD13Q1 (250 m, 16 days) from 2001 to 2019. Except for some temporal periods (i.e., 2001, 2002, and 2012), the study obtained an R\(^2\) of more than 0.65 and a RMSE of less than 0.11, which proves that the Landsat 8 OLI fused products are of higher accuracy than the Landsat 5 TM products. Moreover, the accuracies of the NDVI fusion data have been found to correlate with the total number of available Landsat scenes every year (N), with a correlation coefficient (R) of +0.83 (between R\(^2\) of yearly synthetic NDVIs and N) and -0.84 (between RMSEs and N). For crop yield prediction, the synthetic NDVI time series and climate elements (such as minimum temperature, maximum temperature, relative humidity, evaporation, transpiration, and solar radiation) are inputted to the LUE model, resulting in an average R\(^2\) of 0.75 (WW) and 0.73 (OSR), and RMSEs of 4.33 dt/ha and 2.19 dt/ha. The yield prediction results prove the consistency and stability of the LUE model for yield estimation. Using the LUE model, accurate crop yield predictions were obtained for WW (R\(^2\) = 0.88) and OSR (R\(^2\) = 0.74). Lastly, the study observed a high positive correlation of R = 0.81 and R = 0.77 between the yearly R\(^2\) of synthetic accuracy and modelled yield accuracy for WW and OSR, respectively.}, language = {en} } @article{KunzUllmannKneiseletal.2023, author = {Kunz, Julius and Ullmann, T. and Kneisel, C. and Baumhauer, R.}, title = {Three-dimensional subsurface architecture and its influence on the spatiotemporal development of a retrogressive thaw slump in the Richardson Mountains, Northwest Territories, Canada}, series = {Arctic, Antarctic, and Alpine Research}, volume = {55}, journal = {Arctic, Antarctic, and Alpine Research}, number = {1}, issn = {1523-0430}, doi = {10.1080/15230430.2023.2167358}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-350147}, year = {2023}, abstract = {The development of retrogressive thaw slumps (RTS) is known to be strongly influenced by relief-related parameters, permafrost characteristics, and climatic triggers. To deepen the understanding of RTS, this study examines the subsurface characteristics in the vicinity of an active thaw slump, located in the Richardson Mountains (Western Canadian Arctic). The investigations aim to identify relationships between the spatiotemporal slump development and the influence of subsurface structures. Information on these were gained by means of electrical resistivity tomography (ERT) and ground-penetrating radar (GPR). The spatiotemporal development of the slump was revealed by high-resolution satellite imagery and unmanned aerial vehicle-based digital elevation models (DEMs). The analysis indicated an acceleration of slump expansion, especially since 2018. The comparison of the DEMs enabled the detailed balancing of erosion and accumulation within the slump area between August 2018 and August 2019. In addition, manual frost probing and GPR revealed a strong relationship between the active layer thickness, surface morphology, and hydrology. Detected furrows in permafrost table topography seem to affect the active layer hydrology and cause a canalization of runoff toward the slump. The three-dimensional ERT data revealed a partly unfrozen layer underlying a heterogeneous permafrost body. This may influence the local hydrology and affect the development of the RTS. The results highlight the complex relationships between slump development, subsurface structure, and hydrology and indicate a distinct research need for other RTSs.}, language = {en} } @article{MeistervonSuchodoletzZeeden2023, author = {Meister, Julia and von Suchodoletz, Hans and Zeeden, Christian}, title = {Preface: Quaternary research from and inspired by the first virtual DEUQUA conference}, series = {E\&G Quaternary Science Journal}, volume = {72}, journal = {E\&G Quaternary Science Journal}, number = {2}, doi = {10.5194/egqsj-72-185-2023}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-350157}, pages = {185-187}, year = {2023}, abstract = {No abstract available.}, language = {en} } @article{ReinermannAsamGessneretal.2023, author = {Reinermann, Sophie and Asam, Sarah and Gessner, Ursula and Ullmann, Tobias and Kuenzer, Claudia}, title = {Multi-annual grassland mowing dynamics in Germany}, series = {Frontiers in Environmental Science}, volume = {11}, journal = {Frontiers in Environmental Science}, issn = {2296-665X}, doi = {10.3389/fenvs.2023.1040551}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-320700}, year = {2023}, abstract = {Introduction: Grasslands cover one third of the agricultural area in Germany and are mainly used for fodder production. However, grasslands fulfill many other ecosystem functions, like carbon storage, water filtration and the provision of habitats. In Germany, grasslands are mown and/or grazed multiple times during the year. The type and timing of management activities and the use intensity vary strongly, however co-determine grassland functions. Large-scale spatial information on grassland activities and use intensity in Germany is limited and not openly provided. In addition, the cause for patterns of varying mowing intensity are usually not known on a spatial scale as data on the incentives of farmers behind grassland management decisions is not available. Methods: We applied an algorithm based on a thresholding approach utilizing Sentinel-2 time series to detect grassland mowing events to investigate mowing dynamics in Germany in 2018-2021. The detected mowing events were validated with an independent dataset based on the examination of public webcam images. We analyzed spatial and temporal patterns of the mowing dynamics and relationships to climatic, topographic, soil or socio-political conditions. Results: We found that most intensively used grasslands can be found in southern/south-eastern Germany, followed by areas in northern Germany. This pattern stays the same among the investigated years, but we found variations on smaller scales. The mowing event detection shows higher accuracies in 2019 and 2020 (F1 = 0.64 and 0.63) compared to 2018 and 2021 (F1 = 0.52 and 0.50). We found a significant but weak (R2 of 0-0.13) relationship for a spatial correlation of mowing frequency and climate as well as topographic variables for the grassland areas in Germany. Further results indicate a clear value range of topographic and climatic conditions, characteristic for intensive grassland use. Extensive grassland use takes place everywhere in Germany and on the entire spectrum of topographic and climatic conditions in Germany. Natura 2000 grasslands are used less intensive but this pattern is not consistent among all sites. Discussion: Our findings on mowing dynamics and relationships to abiotic and socio-political conditions in Germany reveal important aspects of grassland management, including incentives of farmers.}, language = {en} } @article{SchaeferFaethKneiseletal.2023, author = {Sch{\"a}fer, Christian and F{\"a}th, Julian and Kneisel, Christof and Baumhauer, Roland and Ullmann, Tobias}, title = {Multidimensional hydrological modeling of a forested catchment in a German low mountain range using a modular runoff and water balance model}, series = {Frontiers in Forests and Global Change}, volume = {6}, journal = {Frontiers in Forests and Global Change}, doi = {10.3389/ffgc.2023.1186304}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-357358}, year = {2023}, abstract = {Sufficient plant-available water is one of the most important requirements for vital, stable, and well-growing forest stands. In the face of climate change, there are various approaches to derive recommendations considering tree species selection based on plant-available water provided by measurements or simulations. Owing to the small-parcel management of Central European forests as well as small-spatial variation of soil and stand properties, in situ data collection for individual forest stands of large areas is not feasible, considering time and cost effort. This problem can be addressed using physically based modeling, aiming to numerically simulate the water balance. In this study, we parameterized, calibrated, and verified the hydrological multidimensional WaSiM-ETH model to assess the water balance at a spatial resolution of 30 m in a German forested catchment area (136.4 km2) for the period 2000-2021 using selected in situ data, remote sensing products, and total runoff. Based on the model output, drought-sensitive parameters, such as the difference between potential and effective stand transpiration (Tdiff) and the water balance, were deduced from the model, analyzed, and evaluated. Results show that the modeled evapotranspiration (ET) correlated significantly (R2 = 0.80) with the estimated ET using MODIS data (MOD16A2GFv006). Compared with observed daily, monthly, and annual runoff data, the model shows a good performance (R2: 0.70|0.77|0.73; Kling-Gupta efficiency: 0.59|0.62|0.83; volumetric efficiency: 0.52|0.60|0.83). The comparison with in situ data from a forest monitoring plot, established at the end of 2020, indicated good agreement between observed and simulated interception and soil water content. According to our results, WaSiM-ETH is a potential supplement for forest management, owing to its multidimensionality and the ability to model soil water balance for large areas at comparable high spatial resolution. The outputs offer, compared to non-distributed models (like LWF-Brook90), spatial differentiability, which is important for small-scale parceled forests, regarding stand structure and soil properties. Due to the spatial component offered, additional verification possibilities are feasible allowing a reliable and profound verification of the model and its parameterization.}, language = {en} } @article{BucheltBloetheKuenzeretal.2023, author = {Buchelt, Sebastian and Bl{\"o}the, Jan Henrik and Kuenzer, Claudia and Schmitt, Andreas and Ullmann, Tobias and Philipp, Marius and Kneisel, Christof}, title = {Deciphering small-scale seasonal surface dynamics of rock glaciers in the Central European Alps using DInSAR time series}, series = {Remote Sensing}, volume = {15}, journal = {Remote Sensing}, number = {12}, issn = {2072-4292}, doi = {10.3390/rs15122982}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-362939}, year = {2023}, abstract = {The Essential Climate Variable (ECV) Permafrost is currently undergoing strong changes due to rising ground and air temperatures. Surface movement, forming characteristic landforms such as rock glaciers, is one key indicator for mountain permafrost. Monitoring this movement can indicate ongoing changes in permafrost; therefore, rock glacier velocity (RGV) has recently been added as an ECV product. Despite the increased understanding of rock glacier dynamics in recent years, most observations are either limited in terms of the spatial coverage or temporal resolution. According to recent studies, Sentinel-1 (C-band) Differential SAR Interferometry (DInSAR) has potential for monitoring RGVs at high spatial and temporal resolutions. However, the suitability of DInSAR for the detection of heterogeneous small-scale spatial patterns of rock glacier velocities was never at the center of these studies. We address this shortcoming by generating and analyzing Sentinel-1 DInSAR time series over five years to detect small-scale displacement patterns of five high alpine permafrost environments located in the Central European Alps on a weekly basis at a range of a few millimeters. Our approach is based on a semi-automated procedure using open-source programs (SNAP, pyrate) and provides East-West displacement and elevation change with a ground sampling distance of 5 m. Comparison with annual movement derived from orthophotos and unpiloted aerial vehicle (UAV) data shows that DInSAR covers about one third of the total movement, which represents the proportion of the year suited for DInSAR, and shows good spatial agreement (Pearson R: 0.42-0.74, RMSE: 4.7-11.6 cm/a) except for areas with phase unwrapping errors. Moreover, the DInSAR time series unveils spatio-temporal variations and distinct seasonal movement dynamics related to different drivers and processes as well as internal structures. Combining our approach with in situ observations could help to achieve a more holistic understanding of rock glacier dynamics and to assess the future evolution of permafrost under changing climatic conditions.}, language = {en} } @phdthesis{Weigand2024, author = {Weigand, Matthias Johann}, title = {Fernerkundung und maschinelles Lernen zur Erfassung von urbanem Gr{\"u}n - Eine Analyse am Beispiel der Verteilungsgerechtigkeit in Deutschland}, doi = {10.25972/OPUS-34961}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-349610}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Gr{\"u}nfl{\"a}chen stellen einen der wichtigsten Umwelteinfl{\"u}sse in der Wohnumwelt der Menschen dar. Einerseits wirken sie sich positiv auf die physische und mentale Gesundheit der Menschen aus, andererseits k{\"o}nnen Gr{\"u}nfl{\"a}chen auch negative Wirkungen anderer Faktoren abmildern, wie beispielsweise die im Laufe des Klimawandels zunehmenden Hitzeereignisse. Dennoch sind Gr{\"u}nfl{\"a}chen nicht f{\"u}r die gesamte Bev{\"o}lkerung gleichermaßen zug{\"a}nglich. Bestehende Forschung im Kontext der Umweltgerechtigkeit (UG) konnte bereits aufzeigen, dass unterschiedliche sozio-{\"o}konomische und demographische Gruppen der deutschen Bev{\"o}lkerung unterschiedlichen Zugriff auf Gr{\"u}nfl{\"a}chen haben. An bestehenden Analysen von Umwelteinfl{\"u}ssen im Kontext der UG wird kritisiert, dass die Auswertung geographischer Daten h{\"a}ufig auf zu stark aggregiertem Level geschieht, wodurch lokal spezifische Expositionen nicht mehr genau abgebildet werden. Dies trifft insbesondere f{\"u}r großfl{\"a}chig angelegte Studien zu. So werden wichtige r{\"a}umliche Informationen verloren. Doch moderne Erdbeobachtungs- und Geodaten sind so detailliert wie nie und Methoden des maschinellen Lernens erm{\"o}glichen die effiziente Verarbeitung zur Ableitung h{\"o}herwertiger Informationen. Das {\"u}bergeordnete Ziel dieser Arbeit besteht darin, am Beispiel von Gr{\"u}nfl{\"a}chen in Deutschland methodische Schritte der systematischen Umwandlung umfassender Geodaten in relevante Geoinformationen f{\"u}r die großfl{\"a}chige und hochaufgel{\"o}ste Analyse von Umwelteigenschaften aufzuzeigen und durchzuf{\"u}hren. An der Schnittstelle der Disziplinen Fernerkundung, Geoinformatik, Sozialgeographie und Umweltgerechtigkeitsforschung sollen Potenziale moderner Methoden f{\"u}r die Verbesserung der r{\"a}umlichen und semantischen Aufl{\"o}sung von Geoinformationen erforscht werden. Hierf{\"u}r werden Methoden des maschinellen Lernens eingesetzt, um Landbedeckung und -nutzung auf nationaler Ebene zu erfassen. Diese Entwicklungen sollen dazu beitragen bestehende Datenl{\"u}cken zu schließen und Aufschluss {\"u}ber die Verteilungsgerechtigkeit von Gr{\"u}nfl{\"a}chen zu bieten. Diese Dissertation gliedert sich in drei konzeptionelle Teilschritte. Im ersten Studienteil werden Erdbeobachtungsdaten der Sentinel-2 Satelliten zur deutschlandweiten Klassifikation von Landbedeckungsinformationen verwendet. In Kombination mit punktuellen Referenzdaten der europaweiten Erfassung f{\"u}r Landbedeckungs- und Landnutzungsinformationen des Land Use and Coverage Area Frame Survey (LUCAS) wird ein maschinelles Lernverfahren trainiert. In diesem Kontext werden verschiedene Vorverarbeitungsschritte der LUCAS-Daten und deren Einfluss auf die Klassifikationsgenauigkeit beleuchtet. Das Klassifikationsverfahren ist in der Lage Landbedeckungsinformationen auch in komplexen urbanen Gebieten mit hoher Genauigkeit abzuleiten. Ein Ergebnis des Studienteils ist eine deutschlandweite Landbedeckungsklassifikation mit einer Gesamtgenauigkeit von 93,07 \%, welche im weiteren Verlauf der Arbeit genutzt wird, um gr{\"u}ne Landbedeckung (GLC) r{\"a}umlich zu quantifizieren. Im zweiten konzeptionellen Teil der Arbeit steht die differenzierte Betrachtung von Gr{\"u}nfl{\"a}chen anhand des Beispiels {\"o}ffentlicher Gr{\"u}nfl{\"a}chen (PGS), die h{\"a}ufig Gegenstand der UG-Forschung ist, im Vordergrund. Doch eine h{\"a}ufig verwendete Quelle f{\"u}r r{\"a}umliche Daten zu {\"o}ffentlichen Gr{\"u}nfl{\"a}chen, der European Urban Atlas (EUA), wird bisher nicht fl{\"a}chendeckend f{\"u}r Deutschland erhoben. Dieser Studienteil verfolgt einen datengetriebenen Ansatz, die Verf{\"u}gbarkeit von {\"o}ffentlichem Gr{\"u}n auf der r{\"a}umlichen Ebene von Nachbarschaften f{\"u}r ganz Deutschland zu ermitteln. Hierf{\"u}r dienen bereits vom EUA erfasste Gebiete als Referenz. Mithilfe einer Kombination von Erdbeobachtungsdaten und Informationen aus dem OpenStreetMap-Projekt wird ein Deep Learning -basiertes Fusionsnetzwerk erstellt, welche die verf{\"u}gbare Fl{\"a}che von {\"o}ffentlichem Gr{\"u}n quantifiziert. Das Ergebnis dieses Schrittes ist ein Modell, welches genutzt wird, um die Menge {\"o}ffentlicher Gr{\"u}nfl{\"a}chen in der Nachbarschaft zu sch{\"a}tzen (𝑅 2 = 0.952). Der dritte Studienteil greift die Ergebnisse der ersten beiden Studienteile auf und betrachtet die Verteilung von Gr{\"u}nfl{\"a}chen in Deutschland unter Hinzunahme von georeferenzierten Bev{\"o}lkerungsdaten. Diese exemplarische Analyse unterscheidet dabei Gr{\"u}nfl{\"a}chen nach zwei Typen: GLC und PGS. Zun{\"a}chst wird mithilfe deskriptiver Statistiken die generelle Gr{\"u}nfl{\"a}chenverteilung in der Bev{\"o}lkerung Deutschlands beleuchtet. Daraufhin wird die Verteilungsgerechtigkeit anhand g{\"a}ngiger Gerechtigkeitsmetriken bestimmt. Abschließend werden die Zusammenh{\"a}nge zwischen der demographischen Komposition der Nachbarschaft und der verf{\"u}gbaren Menge von Gr{\"u}nfl{\"a}chen anhand dreier exemplarischer soziodemographischer Gesellschaftsgruppen untersucht. Die Analyse zeigt starke Unterschiede der Verf{\"u}gbarkeit von PGS zwischen st{\"a}dtischen und l{\"a}ndlichen Gebieten. Ein h{\"o}herer Prozentsatz der Stadtbev{\"o}lkerung hat Zugriff das Mindestmaß von PGS gemessen an der Vorgabe der Weltgesundheitsorganisation. Die Ergebnisse zeigen auch einen deutlichen Unterschied bez{\"u}glich der Verteilungsgerechtigkeit zwischen GLC und PGS und verdeutlichen die Relevanz der Unterscheidung von Gr{\"u}nfl{\"a}chentypen f{\"u}r derartige Untersuchungen. Die abschließende Betrachtung verschiedener Bev{\"o}lkerungsgruppen arbeitet Unterschiede auf soziodemographischer Ebene auf. In der Zusammenschau demonstriert diese Arbeit wie moderne Geodaten und Methoden des maschinellen Lernens genutzt werden k{\"o}nnen bisherige Limitierungen r{\"a}umlicher Datens{\"a}tze zu {\"u}berwinden. Am Beispiel von Gr{\"u}nfl{\"a}chen in der Wohnumgebung der Bev{\"o}lkerung Deutschlands wird gezeigt, dass landesweite Analysen zur Umweltgerechtigkeit durch hochaufgel{\"o}ste und lokal feingliedrige geographische Informationen bereichert werden k{\"o}nnen. Diese Arbeit verdeutlicht, wie die Methoden der Erdbeobachtung und Geoinformatik einen wichtigen Beitrag leisten k{\"o}nnen, die Ungleichheit der Wohnumwelt der Menschen zu identifizieren und schlussendlich den nachhaltigen Siedlungsbau in Form von objektiven Informationen zu unterst{\"u}tzen und {\"u}berwachen.}, subject = {Geografie}, language = {de} } @phdthesis{Keupp2024, author = {Keupp, Luzia Esther}, title = {Hochaufgel{\"o}ste Erfassung zuk{\"u}nftiger Klimarisiken f{\"u}r Land- und Forstwirtschaft in Unterfranken}, doi = {10.25972/OPUS-34735}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-347350}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Das Klima und seine Ver{\"a}nderungen wirken sich direkt auf die Land- und Forstwirtschaft aus. Daher ist die Untersuchung der zuk{\"u}nftigen Klimarisiken f{\"u}r diese Sektoren von hoher Relevanz. Dies ist auch und vor allem f{\"u}r den schon heute weitr{\"a}umig trockheitsgepr{\"a}gten und vom Klimawandel besonders betroffenen nordwestbayerischen Regierungsbezirk Unterfranken der Fall, dessen Gebiet zu {\"u}ber 80 \% land- oder forstwirtschaftlich genutzt wird. Zur Untersuchung der Zukunft in hoher r{\"a}umlicher Aufl{\"o}sung werden Projektionen von regionalen Klimamodellen genutzt. Da diese jedoch Defizite in der Repr{\"a}sentation des beobachteten Klimas der Vergangenheit aufweisen, sollte vor der weiteren Verwendung eine Anpassung der Daten erfolgen. Dies geschieht in der vorliegenden Arbeit am Beispiel des regionalen Klimamodells REMO im Bezug auf klimatische Kennwerte f{\"u}r Trockenheit, Starkniederschlag, Hitze sowie (Sp{\"a}t-)Frost, die alle eine hohe land- und forstwirtschaftliche Bedeutung besitzen. Die Datenanpassung erfolgt durch zwei verschiedene Ans{\"a}tze. Zum Einen wird eine Biaskorrektur der aus Globalmodell-angetriebenen REMO-Daten berechneten Indizes durch additive und multiplikative Linearskalierung sowie empirische und parametrische Verteilungsanpassung durchgef{\"u}hrt. Zum Anderen wird ein exploratives Verfahren auf Basis von Model Output Statistics angewandt: Lokale und großr{\"a}umige atmosph{\"a}rische Variablen von REMO mit Reanalyseantrieb, die eine zeitliche Korrespondenz zu den Beobachtungen aufweisen, dienen als Pr{\"a}diktoren f{\"u}r die Aufstellung von Transferfunktionen zur Simulation der Indizes. Diese Transferfunktionen werden sowohl mithilfe Multipler Linearer Regression als auch mit verschiedenen Generalisierten Linearen Modellen konstruiert. Sie werden anschließend genutzt, um Analysen auf Basis von biaskorrigierten Globalmodell-angetriebenen REMO-Pr{\"a}diktoren durchzuf{\"u}hren. Sowohl f{\"u}r die Biaskorrektur als auch die Model Output Statistics wird eine Kreuzvalidierung durchgef{\"u}hrt, um die Ergebnisse unabh{\"a}ngig vom jeweiligen Trainingszeitraum zu untersuchen und die jeweils besten Varianten zu finden. Werden beide Verfahren mit ihren Unterkategorien f{\"u}r den gesamten historischen Modellzeitraum verglichen, so weist f{\"u}r alle Monat-Kennwert-Kombinationen eine der beiden Verteilungskorrekturen die besten Ergebnisse auf. Die Zukunftsprojektionen unter Verwendung der jeweils erfolgreichsten Methode zeigen im regionalen Durchschnitt f{\"u}r das 21. Jahrhundert negative Trends der (Sp{\"a}t-)Frost- und Eis- sowie positive Trends der Hitzetageh{\"a}ufigkeit. Winterliche Starkregenereignisse nehmen hinsichtlich ihrer Anzahl zu, im Sommer verst{\"a}rkt sich die Trockenheit. Die Hinzunahme zwei weiterer regionaler Klimamodelle best{\"a}tigt die allgemeinen Zukunftstrends, jedoch ergeben sich beim Sp{\"a}tfrost Widerspr{\"u}che, wenn dieser hinsichtlich der thermisch abgegrenzten Vegetationsperiode definiert wird. Zus{\"a}tzlich werden die Model Output Statistics auf gleiche Weise mit bodennahen Pr{\"a}diktoren zur Simulation von Ertr{\"a}gen aus Acker- und Weinbau wiederholt. Die G{\"u}te kann aufgrund mangelnder Beobachtungsdatenl{\"a}nge nur anhand der Reanalyse-angetriebenen REMO-Daten abgesch{\"a}tzt werden, ist hierbei jedoch deutlich besser als im Bezug auf die Kennwertsimulation. Die Zukunftsprojektionen von REMO sowie drei weiterer Regionalmodelle zeigen im Mittel {\"u}ber alle Landkreise Unterfrankens steigende Winter- sowie sinkende Sommerfeldfruchtertr{\"a}ge. Hinsichtlich der Frankenweinertr{\"a}ge widersprechen sich die Ergebnisse der drei Klassen Weiß-, Rot- und Gesamtwein insofern, als dass REMO und ein weiteres Modell negative Weiß- und Rotweinertragstrends, jedoch positive Gesamtweinertragstrends simulieren. Die zwei anderen verwendeten Modelle f{\"u}hren durch positive Trendvorzeichen f{\"u}r den Weißwein zu insgesamt koh{\"a}renten Ergebnissen. Die Resultate im Bezug auf die land- und forstwirtschaftlich relevanten klimatischen Kennwerte bedeuten, dass Anpassungsmaßnahmen gegen{\"u}ber Hitze sowie im Speziellen gegen{\"u}ber Trockenheit in Zukunft im ohnehin trockenheitsgepr{\"a}gten Unterfranken an Bedeutung gewinnen werden. Auch die unsicheren Projektionen im Bezug auf die Sp{\"a}tfrostgefahr m{\"u}ssen im Blick behalten werden. Die Trends der Feldfruchtertr{\"a}ge deuten in die gleiche Richtung, da Sommergetreide eine h{\"o}here Trockenheitsanf{\"a}lligkeit besitzen. Die unklaren Ergebnisse der Weinertr{\"a}ge hingegen lassen keine eindeutigen Schl{\"u}sse zu. Der starke anthropogene Einfluss auf die Erntemengen sowie die großen Unterschiede der Rebsorten hinsichtlich der klimatischen Eignung k{\"o}nnten ein Grund hierf{\"u}r sein.}, subject = {Klima}, language = {de} } @phdthesis{MeyerHeintze2024, author = {Meyer-Heintze, Simon}, title = {Holocene pedosedimentary sequences as archives for paleoenvironmental reconstructions}, doi = {10.25972/OPUS-34909}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-349098}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Human-environment interaction has significantly altered the pedosphere since the Neolithic, if not since the early Holocene. In the course of clearance, agriculture, and (wood) pasture soils have been deeply modified or eroded. These types of land use practices but above all forms of sedentariness spread alongside floodplains and trajectories were oriented towards loess covered areas where fertile soils could develop. Besides this, also peripheral / marginal regions were settled due to population pressure or other factors. Evidence for landscape history and development can be found within archeological sites but also overbank deposits and anthropogenic slope deposits document vast transformation processes. The presented investigations took place within the natural region of the Windsheimer Bucht which is locat-ed in the district of Middle Franconia in northern Bavaria, Germany. In this area, Holocene soils predomi-nantly developed within mudstones of the Middle to Upper Triassic. The soil texture is extremely clay-rich which renders the soils problematic with regard to cultivation management. As a peculiarity, the gypsum underlying the mudstones is prone to karstification processes and resulting proceeding geomorphological processes shape the surface of the landscape. In the course of gypsum mining the karst forms are being exposed and archeological findings are being documented. The latter mainly date back to a span from the Neolithic to the Iron Age, but partly are of Younger Paleolithic origin. Especially subsidence sinkholes are capable of storing pedosediments of several meters in thickness. Despite the high clay content and connect-ed pedoturbation processes, the excavated sequences are stratigraphically and pedologically well-differentiated. The archives occur in the context of settlement structures such as pits and postholes; there-fore, they developed at the interface of natural developments and human impact on their surroundings. The main original research questions that were formulated within the general frame of a project funded by the Deutsche Forschungsgemeinschaft (DFG-projects Te295/15-1 and -2 and Fa390/9-1 and -2) focused on the attractors of the peripheral region for early settlers, the pedological conditions before land use, but also the impact of humans on soils and karst dynamics through time. In the course of the in hand study, the pedosedimentary archives have been approached with a multimethodological toolset which consisted of field analyses, soil morphological analyses from micro- to macro-scale, spectrophotometric (color), (laser) granulometric, and (iron-) pedochemical analyses. The numerical chronological frame was spanned by radiocarbon dating of different organic remains and bulk material if soil organic carbon was supposed-ly high. The result is a multi-dimensional data set that consists of analyses on different spatial scales but also on different levels of measurement. Thus, qualitative, semi-quantitative, and quantitative data consti-tute the basis for discussion. While the grain-size analyses underline the general sedimentological differen-tiation of the records and further affirm the high clay content within the pedosedimentary layers, iron-pedochemical analyses indicate an interplay between oxidation of iron and its chemical reduction. This is also manifested within the spectrophotometric record. Especially the versatile pedogenic characteristics that have been identified by field analyses are confirmed within the thin sections and, by considering all different analyses, the polygenic character of the pedosediments is emphasized. After stressing the general pedological specificities among the different investigated sites within the re-search area, for the collected data, the research further branches into the subjects of general notions on pedogenesis in clayey material and the classification of the respective pedosediments according to paleo-pedological concepts but also recent schemes. Concerning the latter, it becomes evident that established principles cannot be applied to the studied pedosediments without major adaptions. This underlines the specific characteristics of the material. The basis for further interpretations is the evaluation of the multi-level data set for the single records with regard to profile development and pedogenic processes. Hereby, the main drivers of pedogenesis could be identified, which are karst dynamics, land use, and subtle changes in parent material due to the admixture of slope deposits that contain allochthonous eolian material. The latter underlines the importance of Pleis-tocene preconditioning for understanding Holocene landscape dynamics. At the same time, a differentia-tion between the mentioned factors and Holocene climate development is difficult. The following compila-tion of record and localities within the given time frame unveils synchronous as well as asynchronous de-velopments; however, a clear connection between phases of Holocene climate and pedogenesis within the pedosediments cannot be established. Instead, it becomes evident that site specific factors or those that act on the scale of the micro-catchment of the investigated records are decisive. The aforementioned main topics of the project are also considered in the in hand study from a soil-geographic perspective: it is possible that before land use, there was an insular or thin cover by loess sedi-ments or at least upper layers (according to the concept of periglacial cover beds) which constituted the parent material for Holocene soil formation. The according soils, which were superior for agricultural purposes compared to those developed on the autochthonous mudstones, were eroded which exposed the clayey Upper to Middle Triassic beds. Erosion was aggravated due to the impermeable mudstones which enhanced overland flow and interflow within the overlying silty (loessic) material. This is further support-ed by the notions on erodibility of the clayey material that are derived from the comparison of conven-tional and laser granulometric analyses: probably, the clayey pedosediments are capable of forming micro-aggregates that can easily be eroded during heavy rainfall events despite the general consent that material with heavy texture should be rather resistant. The study presents a comprehensive view on clay-rich pedosediments and the complex effects of human-environment interaction on pedogenic as well as sedimentary processes through time that have not been investigated in such detail before. In this context, the multi-level soil morphological analyses and their necessity for a genetic interpretation with regard to the influence of natural versus anthropogenic factors need to be emphasized. Based on quantitative laboratory analytical data only, a respective differentiation would not be possible. This underlines the importance of the chosen soil-geographic multi-methodological approach for answering questions with regard to human-environment interaction but also geoarcheology in general.}, subject = {Geoarch{\"a}ologie}, language = {en} } @phdthesis{Krause2024, author = {Krause, Julian}, title = {Auswirkungen des Klimawandels auf charakteristische B{\"o}den in Unterfranken unter Ber{\"u}cksichtigung bodenhydrologischer Monitoringdaten (2018 bis 2022)}, doi = {10.25972/OPUS-36066}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-360668}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Die mit dem Klimawandel einhergehenden Umweltver{\"a}nderungen, wie steigende Temperaturen, Abnahme der Sommer- und Zunahme der Winterniederschl{\"a}ge, h{\"a}ufigere und l{\"a}ngere Trockenperioden, zunehmende Starkniederschl{\"a}ge, St{\"u}rme und Hitzewellen betreffen besonders den Bodenwasserhaushalt in seiner zentralen Regelungsfunktion f{\"u}r den Landschaftswasserhaushalt. Von der Wasserverf{\"u}gbarkeit im Boden h{\"a}ngen zu einem sehr hohen Grad auch die Ertr{\"a}ge der Land- und Forstwirtschaft ab. Eine besonders große Bedeutung kommt dabei der Wasserspeicherkapazit{\"a}t der B{\"o}den zu, da w{\"a}hrend einer Trockenphase die effektiven Niederschl{\"a}ge den Wasserbedarf der Pflanzen nicht decken k{\"o}nnen und das bereits gespeicherte Bodenwasser das {\"U}berleben der Pflanzen sicherstellen kann. F{\"u}r die land- und forstwirtschaftlichen Akteure sind in diesem Kontext quantitative und qualitative Aussagen zu den Auswirkungen des Klimawandels auf den Boden essenziell, um die notwendigen Anpassungsmaßnahmen f{\"u}r ihre Betriebe treffen zu k{\"o}nnen. Zielsetzungen der vorliegenden Arbeit bestehen darin, die Dynamik der Bodenfeuchte in unterfr{\"a}nkischen B{\"o}den besser zu verstehen, die Datenlage zum Verlauf der Bodenfeuchte zu verbessern und die Auswirkungen von prognostizierten klimatischen Parametern absch{\"a}tzen zu k{\"o}nnen. Hierzu wurden an sechs f{\"u}r ihre jeweiligen Naturr{\"a}ume und hinsichtlich ihrer anthropogenen Nutzung charakteristischen Standorten meteorologisch-bodenhydrologische Messstationen installiert. Die Messstationen befinden sich in einem Rigosol auf Buntsandstein in einem Weinberg bei B{\"u}rgstadt sowie auf einer Parabraunerde im L{\"o}ssgebiet bei Herchsheim unter Ackernutzung. Am {\"U}bergang von Muschelkalk in Keuper befinden sich die Stationen in Obbach, wo eine Braunerde unter Ackernutzung vorliegt und im Forst des Universit{\"a}tswalds Sailershausen werden die Untersuchungen in einer Braunerde-Terra fusca durchgef{\"u}hrt. Im Forst befinden sich auch die Stationen in Oberrimbach mit Braunerden aus Sandsteinkeuper und in Willmars mit Braunerden aus Buntsandstein. Der Beobachtungszeitraum dieser Arbeit reicht von Juli 2018 bis November 2022. In diesen Zeitraum fiel die dreij{\"a}hrige D{\"u}rre von 2018 bis 2020, das Jahr 2021 mit einem durchschnittlichen Witterungsverlauf und das D{\"u}rrejahr 2022. Das Langzeitmonitoring wurde von umfangreichen Gel{\"a}nde- und Laboranalysen der grundlegenden bodenkundlichen Parameter der Bodenprofile und der Standorte begleitet. Die bodengeographischen-geomorphologischen Standortanalysen bilden zusammen mit den qualitativen Auswertungen der Bodenfeuchtezeitreihen die Grundlage f{\"u}r Einsch{\"a}tzungen zu den Auswirkungen des Klimawandels auf den Bodenwasserhaushalt. Verl{\"a}ssliche Aussagen zum Bodenwasserhaushalt k{\"o}nnen nur auf Grundlage von zeitlich und r{\"a}umlich hoch aufgel{\"o}sten Daten getroffen werden. Bodenfeuchtezeitreihen zusammen mit den bodenphysikalischen Daten lagen in dieser Datenqualit{\"a}t f{\"u}r Unterfranken bisher nur sehr vereinzelt vor. Die vorliegenden Ergebnisse zeigen, dass die untersuchten B{\"o}den entsprechend den jeweiligen naturr{\"a}umlichen Gegebenheiten sehr unterschiedliche bodenhydrologische Eigenschaften aufweisen. W{\"a}hrend langer Trockenphasen k{\"o}nnen beispielsweise die Parabraunerden am Standort Herchsheim wegen ihrer h{\"o}heren Wasserspeicherkapazit{\"a}t die Pflanzen l{\"a}nger mit Wasser versorgen als die sandigen Braunerden am Standort Oberrimbach. Die Bodenfeuchteregime im Beobachtungszeitraum waren sehr stark vom Witterungsverlauf einzelner Jahre abh{\"a}ngig. Das Bodenfeuchteregime bei einem durchschnittlichen Witterungsverlauf wie in 2021 zeichnet sich durch eine langsame Abnahme der Bodenfeuchte ab Beginn der Vegetationsperiode im Fr{\"u}hjahr aus. Regelm{\"a}ßige Niederschl{\"a}ge im Fr{\"u}hjahr f{\"u}llen den oberfl{\"a}chennahen Bodenwasserspeicher immer wieder auf und sichern den Bodenwasservorrat in der Tiefe bis in den Hochsommer. Im Hochsommer k{\"o}nnen Pflanzen dann w{\"a}hrend der Trockenphasen ihren Wasserbedarf aus den tieferen Horizonten decken. Im Gegensatz dazu nimmt die Bodenfeuchte in D{\"u}rrejahren wie 2018 bis 2020 oder 2022 bereits im Fr{\"u}hjahr bis in die untersten Horizonte stark ab. Die nutzbare Feldkapazit{\"a}t ist zum Teil schon im Juni weitgehend ausgesch{\"o}pft, womit f{\"u}r sp{\"a}tere Trockenphasen kein Bodenwasser mehr zur Verf{\"u}gung steht. Die Herbst- und Winterniederschl{\"a}ge s{\"a}ttigen den Bodenwasservorrat wieder bis zur Feldkapazit{\"a}t auf. Bei tiefreichender Ersch{\"o}pfung des Bodenwassers wurde die Feldkapazit{\"a}t erst im Januar oder Februar erreicht. Im Zuge der land- und forstwirtschaftlichen Nutzung ist eine gute Datenlage zu den bodenkundlichen und stand{\"o}rtlichen Gegebenheiten f{\"u}r klimaadaptierte Anpassungsstrategien essentiell. Wichtige Zielsetzungen bestehen grunds{\"a}tzlich in der Erhaltung der Bodenfunktionen, in der Verbesserung der Infiltrationskapazit{\"a}t und Wasserspeicherkapazit{\"a}t. Hier kommt dem Boden als interaktive Austauschfl{\"a}che zwischen den Sph{\"a}ren und damit dem Bodenschutz eine zentrale Bedeutung zu. Die in Zukunft erwarteten klimatischen Bedingungen stellen an jeden Boden andere Herausforderungen, welchen mit stand{\"o}rtlich abgestimmten Bodenschutzmaßnahmen begegnet werden kann.}, subject = {Bodengeografie}, language = {de} }