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Schriftenreihe
Regardless of political boundaries, river basins are a functional unit of the Earth’s land surface and provide an abundance of resources for the environment and humans. They supply livelihoods supported by the typical characteristics of large river basins, such as the provision of freshwater, irrigation water, and transport opportunities. At the same time, they are impacted i.e., by human-induced environmental changes, boundary conflicts, and upstream–downstream inequalities. In the framework of water resource management, monitoring of river basins is therefore of high importance, in particular for researchers, stake-holders and decision-makers. However, land surface and surface water properties of many major river basins remain largely unmonitored at basin scale. Several inventories exist, yet consistent spatial databases describing the status of major river basins at global scale are lacking. Here, Earth observation (EO) is a potential source of spatial information providing large-scale data on the status of land surface properties. This review provides a comprehensive overview of existing research articles analyzing major river basins primarily using EO. Furthermore, this review proposes to exploit EO data together with relevant open global-scale geodata to establish a database and to enable consistent spatial analyses and evaluate past and current states of major river basins.
Nationalparks sind das älteste und bekannteste flächenbezogene Naturschutzinstrument weltweit. Für den Erhalt einer nachhaltigen Lebensgrundlage und die Entwicklung der Biodiversität sowie für mehr Naturdynamik in der Landschaft haben sie eine sehr große Bedeutung, auch in unseren Breiten. Dennoch ist die Einstellung zu Nationalparks von Seiten der unmittelbaren Anwohner nicht immer unproblematisch. Entsprechend versucht die vorliegende wissenschaftliche Analyse neue Erkenntnisse bezüglich der Akzeptanz der Nationalparks Bayerischer Wald und Berchtesgaden, den ältesten Deutschlands, aufzuzeigen. Empirische Grundlagen für diese Studie sind eine bayernweite Online-Befragung, qualitative Experteninterviews und aufwändige repräsentative schriftliche Befragungen in den Nationalpark-Landkreisen Regen und Freyung-Grafenau bzw. Berchtesgadener Land im Jahr 2018. Auch die zeitliche Entwicklung der Akzeptanz wird auf Basis der Ergebnisse von Vorgängerstudien, soweit möglich, berücksichtigt. Dabei sind es ökonomische, emotionale, interpersonelle, soziokulturelle und nicht zuletzt für Geographen besonders interessante raumzeitliche Prädiktoren der Akzeptanz beider Nationalparks, die im Fokus der Untersuchungen stehen.
Air temperatures in the Arctic have increased substantially over the last decades, which has extensively altered the properties of the land surface. Capturing the state and dynamics of Land Surface Temperatures (LSTs) at high spatial detail is of high interest as LST is dependent on a variety of surficial properties and characterizes the land–atmosphere exchange of energy. Accordingly, this study analyses the influence of different physical surface properties on the long-term mean of the summer LST in the Arctic Mackenzie Delta Region (MDR) using Landsat 30 m-resolution imagery between 1985 and 2018 by taking advantage of the cloud computing capabilities of the Google Earth Engine. Multispectral indices, including the Normalized Difference Vegetation Index (NDVI), Normalized Difference Water Index (NDWI) and Tasseled Cap greenness (TCG), brightness (TCB), and wetness (TCW) as well as topographic features derived from the TanDEM-X digital elevation model are used in correlation and multiple linear regression analyses to reveal their influence on the LST. Furthermore, surface alteration trends of the LST, NDVI, and NDWI are revealed using the Theil-Sen (T-S) regression method. The results indicate that the mean summer LST appears to be mostly influenced by the topographic exposition as well as the prevalent moisture regime where higher evapotranspiration rates increase the latent heat flux and cause a cooling of the surface, as the variance is best explained by the TCW and northness of the terrain. However, fairly diverse model outcomes for different regions of the MDR (R2 from 0.31 to 0.74 and RMSE from 0.51 °C to 1.73 °C) highlight the heterogeneity of the landscape in terms of influential factors and suggests accounting for a broad spectrum of different factors when modeling mean LSTs. The T-S analysis revealed large-scale wetting and greening trends with a mean decadal increase of the NDVI/NDWI of approximately +0.03 between 1985 and 2018, which was mostly accompanied by a cooling of the land surface given the inverse relationship between mean LSTs and vegetation and moisture conditions. Disturbance through wildfires intensifies the surface alterations locally and lead to significantly cooler LSTs in the long-term compared to the undisturbed surroundings.
This study investigates synthetic aperture radar (SAR) time series of the Sentinel-1 mission acquired over the Atacama Desert, Chile, between March 2015 and December 2018. The contribution analyzes temporal and spatial variations of Sentinel-1 interferometric SAR (InSAR) coherence and exemplarily illustrates factors that are responsible for observed signal differences. The analyses are based on long temporal baselines (365–1090 days) and temporally dense time series constructed with short temporal baselines (12–24 days). Results are compared to multispectral data of Sentinel-2, morphometric features of the digital elevation model (DEM) TanDEM-X WorldDEM™, and to a detailed governmental geographic information system (GIS) dataset of the local hydrography. Sentinel-1 datasets are suited for generating extensive, nearly seamless InSAR coherence mosaics covering the entire Atacama Desert (>450 × 1100 km) at a spatial resolution of 20 × 20 meter per pixel. Temporal baselines over several years lead only to very minor decorrelation, indicating a very high signal stability of C-Band in this region, especially in the hyperarid uplands between the Coastal Cordillera and the Central Depression. Signal decorrelation was associated with certain types of surface cover (e.g., water or aeolian deposits) or with actual surface dynamics (e.g., anthropogenic disturbance (mining) or fluvial activity and overland flow). Strong rainfall events and fluvial activity in the periods 2015 to 2016 and 2017 to 2018 caused spatial patterns with significant signal decorrelation; observed linear coherence anomalies matched the reference channel network and indicated actual episodic and sporadic discharge events. In the period 2015–2016, area-wide loss of coherence appeared as strip-like patterns of more than 80 km length that matched the prevailing wind direction. These anomalies, and others observed in that period and in the period 2017–2018, were interpreted to be caused by overland flow of high magnitude, as their spatial location matched well with documented heavy rainfall events that showed cumulative precipitation amounts of more than 20 mm.
Sea level rise contribution from the Antarctic ice sheet is influenced by changes in glacier and ice shelf front position. Still, little is known about seasonal glacier and ice shelf front fluctuations as the manual delineation of calving fronts from remote sensing imagery is very time-consuming. The major challenge of automatic calving front extraction is the low contrast between floating glacier and ice shelf fronts and the surrounding sea ice. Additionally, in previous decades, remote sensing imagery over the often cloud-covered Antarctic coastline was limited. Nowadays, an abundance of Sentinel-1 imagery over the Antarctic coastline exists and could be used for tracking glacier and ice shelf front movement. To exploit the available Sentinel-1 data, we developed a processing chain allowing automatic extraction of the Antarctic coastline from Seninel-1 imagery and the creation of dense time series to assess calving front change. The core of the proposed workflow is a modified version of the deep learning architecture U-Net. This convolutional neural network (CNN) performs a semantic segmentation on dual-pol Sentinel-1 data and the Antarctic TanDEM-X digital elevation model (DEM). The proposed method is tested for four training and test areas along the Antarctic coastline. The automatically extracted fronts deviate on average 78 m in training and 108 m test areas. Spatial and temporal transferability is demonstrated on an automatically extracted 15-month time series along the Getz Ice Shelf. Between May 2017 and July 2018, the fronts along the Getz Ice Shelf show mostly an advancing tendency with the fastest moving front of DeVicq Glacier with 726 ± 20 m/yr.
Die hier vorgelegte geographisch-historische Abhandlung basiert auf dem Vergleich von zwei im zeitlichen Abstand von ca 60 Jahren (1958/59 = Dissertation und 2016/17 = wiederholendes Geländeprojekt) erfolgten Untersuchungen zum Verlauf und zum morphologischen Ergebnis von Bodenerosion nach akuten Starkregen sowie infolge schleichend-langfristiger Abspülung von Feinboden in verschiedenen Relieftypen des Taubertalgebietes. Alle Vorgänge der Bodenabtragung erfuhren erhebliche Differenzierung durch die unterschiedlichen Verfahren der landwirtschaftlichen Nutzung (z.B. Weinbau, Ackerbau,Viehhaltung). In zeitlichem Vergleich der einzelnen Lokalitäten und Fallstudien (Kartierung, Fotografie, Datenerfassung)konnte einerseits Abschwächung, andererseits Verstärkung der Bodenabspülung festgesetllt werden. Um längerfristig rückblickend die Wirkungsweise der flächen- u. linienhaften Bodenabtragung einzubeziehen, wurden historisch-archivalische Berichte über Folgen von Witterungsereignissen einbezogen und als Auswahl entsprechend der verschiedenen Bodennutzungsarten zusammengestellt. Diese Belege geben Aufschluss über historische Methoden und Techniken zur Verminderung erosionsbedingter Bodenverluste und damit zur Vermeidung existenzmindernder Ernteschäden. Mit diesem Rückblick ergaben sich auch Hinweise auf Phasen historisch-klimatisch veränderter Niederschlagsregime. Im Hinblick auf die durch den Klimawandel zu erwartende Zunahme der Starkregenanteile ergibt sich die Notwendigkeit, den Oberflächenabfluss von Regenmengen und damit deren Erosionskraft durch bodenschonende Nutzungsweisen zu verlangsamen.
In dieser Arbeit wird ein Verfahren zur Modellierung der Bodenerosion auf Ackerflächen in einem Untersuchungsgebiet im UNESCO-Biosphärenreservat Rhön vorgestellt. Als Grundlage dienen flächendeckend verfügbare, hochauflösende Datensätzen zu allen relevanten Faktoren. Ziel ist es die Sensitivität des Modells gegenüber verschiedenen Faktoren sowie die Übertragbarkeit des Verfahrens auf größere Untersuchungsgebiete zu testen. Die Modellierung findet dabei in ArcView 3.2 über die Extension AVErosion von SCHÄUBLE (2005) statt, während die Vorprozessierung in ArcMap von ESRI durchgeführt wird. Zunächst werden grundlegende Begriffe zu den Prozessen, Einflussfaktoren und Messmethoden von Bodenerosion erläutert. Die von Bodenerosion verursachten Schäden und mögliche Schutzmaßnahmen werden aufgrund ihrer Relevanz, unter anderem für die betroffenen Landwirte, geschildert. Nach dem Überblick über die wichtigsten Erosionsmodelle werden die hier verwendete Allgemeine Bodenabtragsgleichung (ABAG) und ihre einzelnen Berechnungsschritte vorgestellt. Das Modellierungstool AVErosion verwendet zusätzlich Elemente der Modified Universal Soil Loss Equation (MUSLE87). Zur Bodenerosionsmodellierung stehen hochauflösende Datensätze aus dem Untersuchungsgebiet zur Verfügung, aus denen in der Vorprozessierung die Raster der Faktoren errechnet werden. Insgesamt werden zehn Szenarien mit verschiedenen C-Faktoren und zwei Szenarien mit variierendem R-Faktor modelliert. Daraufhin wird das Untersuchungsgebiet nach physisch-geographischen Gesichtspunkten beschrieben und die landwirtschaftliche Nutzung in der Region charakterisiert. Die Ergebnisse der Modellierung zeigen, dass neben den Reliefeigenschaften die Bodenbewirtschaftung auf den Ackerflächen den größten Einfluss auf den Bodenabtrag hat. Die Variationen der Niederschlagssumme in den R-Faktor-Szenarien hat hingegen vergleichsweise wenig Auswirkungen auf das Modellierungsergebnis. Zwar konnte durch das Fehlen von aktuellen Bewirtschaftungsdaten keine Modellierung der tatsächlichen Bodenerosion erzielt werden, jedoch zeigen die verschiedenen C-Faktor-Szenarien den potentiellen Bodenabtrag bei unterschiedlicher Bewirtschaftung. Es wird deutlich, dass auf erosionsgefährdeten Flächen durch eine angepasste Form der landwirtschaftlichen Nutzung geringere Abtragswerte in der Modellierung erreicht werden können. Die Methode lässt sich gut auf das Untersuchungsgebiet im Biosphärenreservat Rhön anwenden und zeigt Potential zur Übertragung auf größere Untersuchungsgebiete
We analyze the processing of cereals and its role at Early Neolithic Göbekli Tepe, southeastern Anatolia (10th / 9th millennium BC), a site that has aroused much debate in archaeological discourse. To date, only zooarchaeological evidence has been discussed in regard to the subsistence of its builders. Göbekli Tepe consists of monumental round to oval buildings, erected in an earlier phase, and smaller rectangular buildings, built around them in a partially contemporaneous and later phase. The monumental buildings are best known as they were in the focus of research. They are around 20 m in diameter and have stone pillars that are up to 5.5 m high and often richly decorated. The rectangular buildings are smaller and–in some cases–have up to 2 m high, mostly undecorated, pillars. Especially striking is the number of tools related to food processing, including grinding slabs/bowls, handstones, pestles, and mortars, which have not been studied before. We analyzed more than 7000 artifacts for the present contribution. The high frequency of artifacts is unusual for contemporary sites in the region. Using an integrated approach of formal, experimental, and macro- / microscopical use-wear analyses we show that Neolithic people at Göbekli Tepe have produced standardized and efficient grinding tools, most of which have been used for the processing of cereals. Additional phytolith analysis confirms the massive presence of cereals at the site, filling the gap left by the weakly preserved charred macro-rests. The organization of work and food supply has always been a central question of research into Göbekli Tepe, as the construction and maintenance of the monumental architecture would have necessitated a considerable work force. Contextual analyses of the distribution of the elements of the grinding kit on site highlight a clear link between plant food preparation and the rectangular buildings and indicate clear delimitations of working areas for food production on the terraces the structures lie on, surrounding the circular buildings. There is evidence for extensive plant food processing and archaeozoological data hint at large-scale hunting of gazelle between midsummer and autumn. As no large storage facilities have been identified, we argue for a production of food for immediate use and interpret these seasonal peaks in activity at the site as evidence for the organization of large work feasts.
In recent years, the midlatitudes are characterized by more intense heatwaves in summer and sometimes severe cold spells in winter that might emanate from changes in atmospheric circulation, including synoptic‐scale and planetary wave activity in the midlatitudes. In this study, we investigate the heat and momentum exchange between the mean flow and atmospheric waves in the North Atlantic sector and adjacent continents by means of the physically consistent Eliassen–Palm flux diagnostics applied to reanalysis and forced climate model data. In the long‐term mean, momentum is transferred from the mean flow to atmospheric waves in the northwest Atlantic region, where cyclogenesis prevails. Further downstream over Europe, eddy fluxes return momentum to the mean flow, sustaining the jet stream against friction. A global climate model is able to reproduce this pattern with high accuracy. Atmospheric variability related to atmospheric wave activity is much more expressed at the intraseasonal rather than the interannual time‐scale. Over the last 40 years, reanalyses reveal a northward shift of the jet stream and a weakening of intraseasonal weather variability related to synoptic‐scale and planetary wave activity. This pertains to the winter and summer seasons, especially over central Europe, and correlates with changes in the North Atlantic Oscillation as well as regional temperature and precipitation. A very similar phenomenon is found in a climate model simulation with business‐as‐usual scenario, suggesting an anthropogenic trigger in the weakening of intraseasonal weather variability in the midlatitudes.
The alarming increase in the magnitude and spatiotemporal patterns of changes in composition, structure and function of forest ecosystems during recent years calls for enhanced cross-border mitigation and adaption measures, which strongly entail intensified research to understand the underlying processes in the ecosystems as well as their dynamics. Remote sensing data and methods are nowadays the main complementary sources of synoptic, up-to-date and objective information to support field observations in forest ecology. In particular, analysis of three-dimensional (3D) remote sensing data is regarded as an appropriate complement, since they are hypothesized to resemble the 3D character of most forest attributes. Following their use in various small-scale forest structural analyses over the past two decades, these sources of data are now on their way to be integrated in novel applications in fields like citizen science, environmental impact assessment, forest fire analysis, and biodiversity assessment in remote areas. These and a number of other novel applications provide valuable material for the Forests special issue “3D Remote Sensing Applications in Forest Ecology: Composition, Structure and Function”, which shows the promising future of these technologies and improves our understanding of the potentials and challenges of 3D remote sensing in practical forest ecology worldwide.
Einzelhandel und Stadtverkehr - Neue Entwicklungstendenzen durch Digitalisierung und Stadtgestaltung
(2019)
Handel und Verkehr sind eng miteinander verzahnt, und Standortsysteme im (Einzel-)handel können die Konfiguration von (städtischen) Verkehrssystemen weitreichend beeinflussen – gleiches gilt aber auch in umgekehrter Richtung. Aktuelle Wandlungsprozesse zeichnen sich insbesondere vor dem Hintergrund zunehmender Digitalisierung ab. So differenzieren sich Distributionsformen mit neuen IT-basierten Zustellsystemen aus. Onlineshopping steht dabei im Wettbewerb mit dem stationären Einzelhandel und initiiert zunehmende Transportströme (auch für Warenrückläufe). Wie wirkt sich diese Entwicklung im Einzelhandel auf Einkaufsverhalten und Mobilitätder Kunden aus? Was bedeutet dies wiederum für den Handel? Und inwieweit stimmt der dadurch ausgelöste Wandel mit den Leitbildern von Handel, Stadtplanung und Nachhaltigkeit überein oder verlangt neue Anpassungen? Diesen und weiteren Fragen geht der vorliegende Sammelband „Einzelhandel und Stadtverkehr. Neue Entwicklungstendenzen durch Digitalisierung und Stadtgestaltung“ der Schriftenreihe Geographische Handelsforschung nach. Die sieben Beiträge des Bandes standen im Zentrum der Vorträge und Diskussionen anlässlich der gemeinsamen Jahrestagung der VGDH-Arbeitskreise „Verkehr“ und „Geographische Handelsforschung“ vom 7. bis 9. Juni 2018 an der Leuphana Universität Lüneburg. Aus wissenschaftlicher und dabei praktischer Perspektive diskutierten die Autoren aktuelle Trends und Entwicklungsperspektiven des nicht immer einfachen Managements von Mobilität und Konsum.
Estimating penetration-related X-band InSAR elevation bias: a study over the Greenland ice sheet
(2019)
Accelerating melt on the Greenland ice sheet leads to dramatic changes at a global scale. Especially in the last decades, not only the monitoring, but also the quantification of these changes has gained considerably in importance. In this context, Interferometric Synthetic Aperture Radar (InSAR) systems complement existing data sources by their capability to acquire 3D information at high spatial resolution over large areas independent of weather conditions and illumination. However, penetration of the SAR signals into the snow and ice surface leads to a bias in measured height, which has to be corrected to obtain accurate elevation data. Therefore, this study purposes an easy transferable pixel-based approach for X-band penetration-related elevation bias estimation based on single-pass interferometric coherence and backscatter intensity which was performed at two test sites on the Northern Greenland ice sheet. In particular, the penetration bias was estimated using a multiple linear regression model based on TanDEM-X InSAR data and IceBridge laser-altimeter measurements to correct TanDEM-X Digital Elevation Model (DEM) scenes. Validation efforts yielded good agreement between observations and estimations with a coefficient of determination of R\(^2\) = 68% and an RMSE of 0.68 m. Furthermore, the study demonstrates the benefits of X-band penetration bias estimation within the application context of ice sheet elevation change detection.
Exploring the potential of C-Band SAR in contributing to burn severity mapping in tropical savanna
(2019)
The ability to map burn severity and to understand how it varies as a function of time of year and return frequency is an important tool for landscape management and carbon accounting in tropical savannas. Different indices based on optical satellite imagery are typically used for mapping fire scars and for estimating burn severity. However, cloud cover is a major limitation for analyses using optical data over tropical landscapes. To address this pitfall, we explored the suitability of C-band Synthetic Aperture Radar (SAR) data for detecting vegetation response to fire, using experimental fires in northern Australia. Pre- and post-fire results from Sentinel-1 C-band backscatter intensity data were compared to those of optical satellite imagery and were corroborated against structural changes on the ground that we documented through terrestrial laser scanning (TLS). Sentinel-1 C-band backscatter (VH) proved sensitive to the structural changes imparted by fire and was correlated with the Normalised Burn Ratio (NBR) derived from Sentinel-2 optical data. Our results suggest that C-band SAR holds potential to inform the mapping of burn severity in savannas, but further research is required over larger spatial scales and across a broader spectrum of fire regime conditions before automated products can be developed. Combining both Sentinel-1 SAR and Sentinel-2 multi-spectral data will likely yield the best results for mapping burn severity under a range of weather conditions.
Invasive plant species are major threats to biodiversity. They can be identified and monitored by means of high spatial resolution remote sensing imagery. This study aimed to test the potential of multiple very high-resolution (VHR) optical multispectral and stereo imageries (VHRSI) at spatial resolutions of 1.5 and 5 m to quantify the presence of the invasive lantana (Lantana camara L.) and predict its distribution at large spatial scale using medium-resolution fractional cover analysis. We created initial training data for fractional cover analysis by classifying smaller extent VHR data (SPOT-6 and RapidEye) along with three dimensional (3D) VHRSI derived digital surface model (DSM) datasets. We modelled the statistical relationship between fractional cover and spectral reflectance for a VHR subset of the study area located in the Himalayan region of India, and finally predicted the fractional cover of lantana based on the spectral reflectance of Landsat-8 imagery of a larger spatial extent. We classified SPOT-6 and RapidEye data and used the outputs as training data to create continuous field layers of Landsat-8 imagery. The area outside the overlapping region was predicted by fractional cover analysis due to the larger extent of Landsat-8 imagery compared with VHR datasets. Results showed clear discrimination of understory lantana from upperstory vegetation with 87.38% (for SPOT-6), and 85.27% (for RapidEye) overall accuracy due to the presence of additional VHRSI derived DSM information. Independent validation for lantana fractional cover estimated root-mean-square errors (RMSE) of 11.8% (for RapidEye) and 7.22% (for SPOT-6), and R\(^2\) values of 0.85 and 0.92 for RapidEye (5 m) and SPOT-6 (1.5 m), respectively. Results suggested an increase in predictive accuracy of lantana within forest areas along with increase in the spatial resolution for the same Landsat-8 imagery. The variance explained at 1.5 m spatial resolution to predict lantana was 64.37%, whereas it decreased by up to 37.96% in the case of 5 m spatial resolution data. This study revealed the high potential of combining small extent VHR and VHRSI- derived 3D optical data with larger extent, freely available satellite data for identification and mapping of invasive species in mountainous forests and remote regions.
Peatlands located on slopes (herein called slope bogs) are typical landscape units in the Hunsrueck, a low mountain range in Southwestern Germany. The pathways of the water feeding the slope bogs have not yet been documented and analyzed. The identification of the different mechanisms allowing these peatlands to originate and survive requires a better understanding of the subsurface lithology and hydrogeology. Hence, we applied a multi-method approach to two case study sites in order to characterize the subsurface lithology and to image the variable spatio-temporal hydrological conditions. The combination of Electrical Resistivity Tomography (ERT) and an ERT-Monitoring and Ground Penetrating Radar (GPR), in conjunction with direct methods and data (borehole drilling and meteorological data), allowed us to gain deeper insights into the subsurface characteristics and dynamics of the peatlands and their catchment area. The precipitation influences the hydrology of the peatlands as well as the interflow in the subsurface. Especially, the geoelectrical monitoring data, in combination with the precipitation and temperature data, indicate that there are several forces driving the hydrology and hydrogeology of the peatlands. While the water content of the uppermost layers changes with the weather conditions, the bottom layer seems to be more stable and changes to a lesser extent. At the selected case study sites, small differences in subsurface properties can have a huge impact on the subsurface hydrogeology and the water paths. Based on the collected data, conceptual models have been deduced for the two case study sites.
Der Harz ist eine Mittelgebirgsregion, die in Deutschland und Mitteleuropa auf faszinierende Weise hervorsticht: Kaum eine andere deutsche Landschaft kann mit einer solchen Vielfalt an Gesteinen und Erzen aufwarten. Diese Besonderheit wurzelt tief in der geologischen Entstehung der Region. Ihrer Geschichte will nun der Katalog auf die Spur kommen – anhand von ausgewählten Exponaten einer einzigartigen Sammlung.
Aufgebaut wurde die umfangreiche Sammlung von Peter C. Ruppert. Der Kunstsammler und Würzburger Ehrenbürger sammelte über Jahrzehnte hinweg außergewöhnliche Mineralien und Gesteine aus den historischen Erzlagerstätten des Harzes. Seit Januar 2014 zeigt das Mineralogische Museum der Universität Würzburg die wertvollen Exponate – und widmet der Sammlung diesen Katalog.
Via providing various ecosystem services, the old-growth Hyrcanian forests play a crucial role in the environment and anthropogenic aspects of Iran and beyond. The amount of growing stock volume (GSV) is a forest biophysical parameter with great importance in issues like economy, environmental protection, and adaptation to climate change. Thus, accurate and unbiased estimation of GSV is also crucial to be pursued across the Hyrcanian. Our goal was to investigate the potential of ALOS-2 and Sentinel-1's polarimetric features in combination with Sentinel-2 multi-spectral features for the GSV estimation in a portion of heterogeneously-structured and mountainous Hyrcanian forests. We used five different kernels by the support vector regression (nu-SVR) for the GSV estimation. Because each kernel differently models the parameters, we separately selected features for each kernel by a binary genetic algorithm (GA). We simultaneously optimized R\(^2\) and RMSE in a suggested GA fitness function. We calculated R\(^2\), RMSE to evaluate the models. We additionally calculated the standard deviation of validation metrics to estimate the model's stability. Also for models over-fitting or under-fitting analysis, we used mean difference (MD) index. The results suggested the use of polynomial kernel as the final model. Despite multiple methodical challenges raised from the composition and structure of the study site, we conclude that the combined use of polarimetric features (both dual and full) with spectral bands and indices can improve the GSV estimation over mixed broadleaf forests. This was partially supported by the use of proposed evaluation criterion within the GA, which helped to avoid the curse of dimensionality for the applied SVR and lowest over estimation or under estimation.
Innenstadtintegrierte Einkaufszentren. Chancen und Risiken für eine nachhaltige Stadtentwicklung
(2019)
Innerstädtische Shoppingcenter stehen immer wieder im Kreuzfeuer gegensätzlicher Bewertungen. Dieser Band diskutiert ein breites Spektrum relevanter Gesichtspunkte von Angebot und Nachfrage. Er will die Vielfalt der Beurteilungskriterien aufzeigen, die im Hinblick auf eine nachhaltige Stadtentwicklung für oder gegen Shoppingcenter sprechen, und zu einer intensiveren Beschäftigung mit den spezifischen örtlichen Verhältnissen anregen. Neben den Sortimenten, Verkaufsflächen, Ladenmieten und architektonischen Konzepten werden die Herkunft, Tätigkeiten und Einstellungen der Besucher von Innenstädten und Einkaufszentren berücksichtigt. Einen wichtigen Faktor für die Nachhaltigkeit bilden zudem die Entscheidungsabläufe.
Entgegen den oft pauschalen Annahmen über die Auswirkungen innenstädtischer Einkaufszentren zeigen empirische Erhebungen, dass die Chancen und Risiken entscheidend vom Einzelfall abhängen. Die meisten Center sind weitgehend in die Lebenswirklichkeit der Innenstädte integriert. Die Untersuchungsansätze und Interpretation der Befunde unterliegen den divergierenden Interessen der Beteiligten bzw. Betroffenen: Händler, Immobilieneigentümer, Bürger, Politiker und Verwaltung bzw. Planung auf lokaler, regionaler und überregionaler Ebene. Dies muss bei den planungs- und gesellschaftspolitischen Folgerungen berücksichtigt werden.
Eindeutige Aussagen über Wirkungszusammenhänge sind kaum möglich, da sich Innenstädte mit den gesellschaftlichen und ökonomischen Rahmenbedingungen wandeln, so aktuell durch den expandierenden Online-Handel. Es ist eine Illusion zu glauben, bei Verhinderung einer Centeransiedlung bliebe alles beim Alten (das keineswegs gut sein muss) bzw. eine Centeransiedlung könnten bestehende Probleme von Innenstädten ohne weiteres lösen. Bei angemessenen Konzepten bestehen beträchtliche Synergiepotenziale zwischen Centern und Innenstädten für eine nachhaltige Stadtentwicklung, die allerdings nicht immer in angemessenem Umfang genutzt werden.
Advances in remote inventory and analysis of forest resources during the last decade have reached a level to be now considered as a crucial complement, if not a surrogate, to the long-existing field-based methods. This is mostly reflected in not only the use of multiple-band new active and passive remote sensing data for forest inventory, but also in the methodic and algorithmic developments and/or adoptions that aim at maximizing the predictive or calibration performances, thereby minimizing both random and systematic errors, in particular for multi-scale spatial domains. With this in mind, this editorial note wraps up the recently-published Remote Sensing special issue “Remote Sensing-Based Forest Inventories from Landscape to Global Scale”, which hosted a set of state-of-the-art experiments on remotely sensed inventory of forest resources conducted by a number of prominent researchers worldwide.
Human health is known to be affected by the physical environment. Various environmental influences have been identified to benefit or challenge people's physical condition. Their heterogeneous distribution in space results in unequal burdens depending on the place of living. In addition, since societal groups tend to also show patterns of segregation, this leads to unequal exposures depending on social status. In this context, environmental justice research examines how certain social groups are more affected by such exposures. Yet, analyses of this per se spatial phenomenon are oftentimes criticized for using “essentially aspatial” data or methods which neglect local spatial patterns by aggregating environmental conditions over large areas. Recent technological and methodological developments in satellite remote sensing have proven to provide highly detailed information on environmental conditions. This narrative review therefore discusses known influences of the urban environment on human health and presents spatial data and applications for analyzing these influences. Furthermore, it is discussed how geographic data are used in general and in the interdisciplinary research field of environmental justice in particular. These considerations include the modifiable areal unit problem and ecological fallacy. In this review we argue that modern earth observation data can represent an important data source for research on environmental justice and health. Especially due to their high level of spatial detail and the provided large-area coverage, they allow for spatially continuous description of environmental characteristics. As a future perspective, ongoing earth observation missions, as well as processing architectures, ensure data availability and applicability of ’big earth data’ for future environmental justice analyses.