Filtern
Erscheinungsjahr
Dokumenttyp
Schlagworte
- Satellitenfernerkundung (5)
- Argania spinosa (3)
- Bodenwasser (3)
- Klimaänderung (3)
- Marokko (3)
- Modellierung (3)
- Wasserversorgung (3)
- Abfluss (2)
- Bewaldung (2)
- Bodenfruchtbarkeit (2)
- Degradation (2)
- Feuchtgebiet (2)
- Ghana (2)
- Governance (2)
- Lidar (2)
- Stadt (2)
- Tourismus (2)
- Weinbau (2)
- gypsum plaster (2)
- AFD (1)
- Abwasser (1)
- Accra (1)
- AfD (1)
- Afrika (1)
- Alpen (1)
- Anemometrie (1)
- Anpassung (1)
- Antarktis (1)
- Antiparasitäres Mittel (1)
- Arbeitsmarkt (1)
- Areal (1)
- Argan (1)
- Arsen (1)
- Atmosphärische Grenzschicht (1)
- Auenboden (1)
- Ausbildung (1)
- Ausdauernde Pflanzen (1)
- Autökologie (1)
- Baumart (1)
- Behavioral model (1)
- Berglandwirtschaft (1)
- Beschäftigung (1)
- Beschäftigung und wirtschaftliche Entwicklung (1)
- Boden (1)
- Bodendegradation (1)
- Bodenerosion (1)
- Bodengüte (1)
- Bodenmikrobiologie (1)
- Bodenschutz (1)
- Border Studies (1)
- Brandverhalten (1)
- CO2-Bilanz (1)
- Carbon Footprint (1)
- DNA isolation (1)
- Demographie (1)
- Dendrochronologie (1)
- Dendroklimatologie (1)
- Detektion (1)
- Einbauwerte (1)
- Einzugsgebiet (1)
- Eisen (1)
- Emissionsbilanz (1)
- Energie (1)
- Energiepflanzen (1)
- Entwicklungsländer (1)
- Enzymes (1)
- Erfahrungen (1)
- Ergussgestein (1)
- Erlebnis (1)
- Erlebnisse (1)
- Ernte (1)
- Etikett (1)
- Europäische Union / Wasserrahmenrichtlinie (1)
- Eutrophierung (1)
- Evapotranspiration (1)
- Exposure time (1)
- Faser (1)
- Fischerei (1)
- Fjord (1)
- Flussaue (1)
- Forest evapotranspiration (1)
- Forest hydrology (1)
- Gebirge (1)
- Geoelektrik (1)
- Geschichte 2500 v. Chr.-2000 (1)
- Gips (1)
- Gipsplatte (1)
- Grasslands (1)
- Großküchen (1)
- Großregion (1)
- Grundwasserbildung (1)
- Grünland (1)
- Göttingen (1)
- HEXAGON (1)
- Hang (1)
- Hochschule Trier (1)
- Hochschulgastronomie (1)
- Hochwasser (1)
- Humus (1)
- Hydrogeologie (1)
- Hydrological Modeling (1)
- Hydrologie (1)
- Hyperhidrose (1)
- Höhlensalamander (1)
- Iron (1)
- Kiefer (1)
- Klima (1)
- Klimaanpassung (1)
- Kohlendioxidsenke (1)
- LAP (1)
- Lam Dong (1)
- Laptev Sea (1)
- Laptewsee (1)
- Lippe (1)
- Lippetal (1)
- Mais (1)
- Marokko Süd (1)
- Mensa (1)
- Meteorologische Messung (1)
- Mietpreis (1)
- Migration (1)
- Mitochondria (1)
- Mittelmoseltal (1)
- Modell (1)
- Nachhaltigkeit (1)
- Nanopartikel (1)
- Nationalpark (1)
- Nationalpark Vorpommersche Boddenlandschaft (1)
- Naturnahe Gestaltung (1)
- Naturtourismus (1)
- Neptungras (1)
- Neue Rechte (1)
- Niederschlag (1)
- Nährstoffverlust (1)
- Nährstoffversorgung (1)
- Obermosel-Gebiet (1)
- Optimierung (1)
- Paleogenetics (1)
- Patagonia (1)
- Patagonien, Süd (1)
- Pedotransfer Functions (1)
- Pesticide, Agrochemical, Wall lizard, Podarcis muralis, Biomarker, Buccal Swab, Reptile, Squamata (1)
- Pflanzenbau (1)
- Pfälzerwald (1)
- Phosphatgips (1)
- Phylogenetic analysis (1)
- Phylogenie (1)
- Phylogeografie (1)
- Physikalisch-chemische Eigenschaft (1)
- Polargebiete (1)
- Posidonia oceanica fibers (1)
- Preisentwicklung (1)
- Privatisierung (1)
- Präferenzieller Fluss (1)
- Pyroklastit (1)
- Raumentwicklung (1)
- Reblaus (1)
- Referenzwert (1)
- Regionalentwicklung (1)
- Risikoanalyse (1)
- SODAR/RASS (1)
- Saar-Lor-Lux (1)
- Salamander (1)
- Salamanders (1)
- Samenkeimung (1)
- Schafweide (1)
- Schwermetallbelastung (1)
- Schwermetalle (1)
- Schwitzen (1)
- Seed germination (1)
- Sheep (1)
- Silber (1)
- Silver nanoparticles (1)
- Sodar (1)
- Soil microbial community (1)
- Soil parameterization (1)
- Soil texture (1)
- Sozialökologie (1)
- Stadtforschung (1)
- Stadtplanung (1)
- Stamm Botanik (1)
- Strahlstrom (1)
- Stress (1)
- Subsaharisches Afrika (1)
- Systematik (1)
- Tagschmetterlinge (1)
- Temperatur (1)
- Tomografie (1)
- Toxicity (1)
- Toxizität (1)
- Traben-Trarbach Region (1)
- Umweltfaktor (1)
- Umweltgerechtigkeit (1)
- Verbreitungsökologie (1)
- Verbundwerkstoff (1)
- Verkehr (1)
- Verwitterung (1)
- Virtuelle Umgebung (1)
- Wald (1)
- Waldboden (1)
- Wasserbilanz (1)
- Wasserhaushalt (1)
- Wassermangel (1)
- Wasserrahmenrichtlinie (1)
- Water Framework Directive (1)
- Water balance simulation (1)
- Widerstand (1)
- Wirtschaftsentwicklung (1)
- Wohnen (1)
- Wohnungsmarkt (1)
- Wohnungsmiete (1)
- Wohnungspolitik (1)
- Wuchsleistung (1)
- airborne LiDAR (1)
- argan tree (1)
- atmospheric boundary layer (1)
- basal area increment (1)
- behavioural ecology (1)
- change mapping (1)
- chemical weathering (1)
- climate change (1)
- composite materials (1)
- correction factor (1)
- deep learning (1)
- ecological modelling (1)
- fire performance (1)
- forest (1)
- forest degradation (1)
- grenzüberschreitende Zusammenarbeit (1)
- harvest dates (1)
- herpetology (1)
- housing (1)
- housing policy (1)
- hydrogeological modeling (1)
- land cover classification (1)
- local wastewater planning (1)
- low-level jets (1)
- machine-learning (1)
- new right (1)
- nutrient demands (1)
- nutrient exports (1)
- open-canopy woodland (1)
- paleotropis (1)
- phosphogypsum (1)
- physico-mechanical properties (1)
- plant architecture (1)
- pointer year (1)
- preferential flow (1)
- premature harvest (1)
- remote sensing (1)
- resistivity tomography (1)
- self-potential mapping (1)
- stable carbon isotope (1)
- stem detection (1)
- tree density (1)
- tree inclination (1)
- tree-ring analysis (1)
- urban and rural boundaries (1)
- urban studies (1)
- utilization pathways (1)
- volcanic (1)
- woody cover (1)
- Ökobilanz (1)
- Ökosystemdienstleistung (1)
- Ökosystemdienstleistungen (1)
- Ökotourismus (1)
Institut
- Fachbereich 6 (51) (entfernen)
Das Policy Paper ‚Handlungsbedarfe für die Raumentwicklung der Großregion aus Sicht der Forschung‘ fasst wesentliche Erkenntnisse von Forscher*innen des UniGR-Center for Border Studies in fünf für die Großregion relevanten Bereichen (Demographie und Migration, Verkehr, Beschäftigung und wirtschaftliche Entwicklung, Energielandschaften, Grenzüberschreitende Governance) zusammen und formuliert Handlungsoptionen für die Planungspraxis und politische Entscheidungsträger*innen. Darüber hinaus thematisiert es den Wissensaus-tausch zwischen Forschung und Politik.
The impacts of intense urbanization and associated urban land-use change along coastlines is vast and unprecedented. Several coasts of the world have been be subjected to human-induced coastal changes and it is imperative to monitor, assess and quantify them. This paper provides the state-of-the-art discourses on the changing dynamics of urban land-use driven by the forces of urbanization. Drawing on extant literature mainly from Web of Science and Google scholar, the status quo of the spatio-temporal dynamics of urbanization and urban change processes were explored with specific focus on global, Africa, Ghana and an actual case of Accra coast. Findings show whilst urbanization continues to increase exponentially, urban land also continue to change markedly. Current trends and patterns shows that changing urban dynamics exhibit are distinctly different from that of the past. Particularly, the rate, magnitude, geographic location, urban forms and functions are changing. In the specific case of Accra coast, there is general trend of urbanization moving outwards, i.e. from the core city centre towards the peripheral areas. Additionally, spatial urban pattern is dominated by urban sprawl, characterized by the cyclical process of diffusion and coalescence. The processes of urbanization are further exacerbated within coastal areas with a new and unique spatial urban form, “tourism urbanization” emerging. This new urban form is largely driven by rapid expansion of tourist infrastructure, developing at the instance of government policy to develop coastal tourism. In addition, the coastal conurbation of Accra-Tema is a powerful hub for industrial and commercial activities, which is drawing huge “humanline” to- wards the coastline. The literature illustrates that contemporary approaches and conceptualizations for urbanization and urban land-use change analysis be extended particularly from the mere focus on statistical classifications of cities in different size categories. With the urban fringe spreading outwardly, it should be kept in mind that new forms of urban settlements are emerging along with varying sizes. Considering the multiple scales, magnitude and rates involved as well as the geospatial patterns of urban change processes, experimental case studies that include coastal cities, Peri-urban fringes and interconnections with rural areas across a range of urbanization processes is essential and very urgent.
This paper provides an overview of five major shifts in urban water supply governance in relation to changing paradigms in the water sector as a whole and in water-related research: i) the municipal hydraulic paradigm in the Global North; ii) its travel to cities in the Global South; iii) the shift from government to governance; iv) the (private) utility model and v) its contestation. The articulation of each shift in the Ghanaian context is described from the creation of the first water supply system during colonial time to the recent contestation against private corporate sector participation. Current challenges are outlined together with new pathways for researching urban water governance. The paper is based on a literature review conducted in 2015 and serves as a background study for further research within the WaterPower project.
As in many other cities of the Global South, in Accra and its Greater Metropolitan Area (GAMA) water provision for drinking, domestic and productive uses is coproduced by multiple provisioning and delivery modalities. This paper contributes to the overall understanding of sociospatial conditions of urban water (in)security in GAMA. By looking at the geography of infrastructure and inequalities in water access, it seeks to identify patterns of uneven access to water. The first part provides an overview of urban water supply in GAMA, focusing on water infrastructure and the perspective of water providers. In the second part, households’ access strategies are discussed by combining both quantitative and qualitative perspectives. The paper brings together literature research and empirical material collected during fieldwork in the Ghanaian capital city.
Stakeholder Mapping
(2016)
This report presents the results of a stakeholder mapping exercise carried out in the WaterPower project. The mapping was conducted for the following main research areas of the project: water supply, land use planning and management, wetland management and climate change adaptation/disaster risk reduction. The report gives an overview of the stakeholders that play a role in these respective areas and identifies those who have concomitant responsibilities in different sectors. It represents the first step towards further involvement of stakeholders in the WaterPower project.
This working paper outlines analytical pathways that could contribute to deepening the understanding of water inequalities in cities of the Global South. It brings together the status quo of research on water inequalities in Accra, the capital of Ghana, and studies on Environmental Justice. In doing so, it argues for the need to analytically distinguish between the terms ‘(in)equality’ and ‘(in)justice’. Studying everyday water practices and per- spectives on water (in)justice of different stakeholders would be a suitable entry point for an in-depth ethnographic study that analytically separates water inequalities and water injustices but considers their interlinkages. The working paper is based on a literature review conducted in 2015 in the scope of the WaterPower project.
Mit vorliegendem Dokument sollen Überlegungen zur Rolle der Ausbildung auf dem grenzüberschreitenden
Arbeitsmarkt angestellt werden. Hierfür werden gleichzeitig die durch die verschiedenen Hefte der Großregion, als auch die bei der am 1. Dezember 2020 organisierten Online-Podiumsdiskussion zum Thema „Mismatches, Kompetenzen, Ausbildung… Welche Passverhältnisse für den grenzüberschreitenden Arbeitsmarkt?“ angeregten Diskussionen herangezogen. Konkreter ausgedrückt beabsichtigt dieser Beitrag, eine Antwort auf folgende Frage zu geben: wie können die Ausbildung und deren unterschiedliche Praxismaßnahmen in den beruflichen Bereichen, aber auch in schulischen und universitären Bereichen dazu beitragen, die Ungleichgewichte abzumildern, die auf dem Arbeitsmarkt der Großregion zu beobachten sind? Insofern liefert das Dokument einige Denkanstöße für die grenzüberschreitende Zusammenarbeit im Ausbildungsbereich.
In the first overview lecture, we take a look at conceptualizations of water – from the hydrological cycle to socio-political perspectives on water. During the 20th century, water management developed from traditional uses and local industrial schemes to the “hydraulic paradigm” and finally, to the concept of modern water governance at the turn of the millennium. We will raise the question of whether there has truly been a paradigm shift from the natural, science based hydraulic paradigm to water governance and how dual- isms of culture/society and nature are still being reproduced. With this in mind, we will also take an introductory look at the much talked about global water crisis.
This working paper examines the concept of metabolism and its potential as a critical analytical lens to study the contemporary city from a political perspective. The paper illustrates how the metabolism concept has been used historically, both as a metaphor to describe the technological, social, political and economic dimensions of human-environment relations, and as a concrete analytical tool to quantify and better understand how flows of matter and energy shape the territorial and spatial configurations of cityscapes. Drawing on the example of the urban water metabolism of the Greater Accra Metropolitan Area (GAMA), it is argued that contemporary approaches to metabolic analysis should be extended in two ways to increase the integrative potential of the urban water metabolism concept. On the one hand, the paper demonstrates that a political ecology approach is particularly well-suited to illuminate the contested production of urban environments and move beyond a narrow technical, managerial and state- centric focus in research on urban metabolic relations. On the other hand, the paper advocates for an approach to metabolic analysis that views the urban environment not simply as a relatively static exteriority that is produced by dynamic flows of matter, energy and information, but rather as a dynamic, nested and co-evolutionary network of complex biosocial and material relations, which in itself shapes how various metabolisms interact across scales. The paper then concludes by briefly discussing how a combination of metabolic analysis and political ecology research can inform urban water governance. In sum, the paper emphasizes the need for metabolic analysis to remain open to a plurality of different knowledge forms and perspectives, and to remain attentive to the inherently political nature of material and technological phenomena in order to allow for mutually beneficial exchanges between various scholarly communities.
Finding behavioral parameterization for a 1-D water balance model by multi-criteria evaluation
(2019)
Evapotranspiration is often estimated by numerical simulation. However, to produce accurate simulations, these models usually require on-site measurements for parameterization or calibration. We have to make sure that the model realistically reproduces both, the temporal patterns of soil moisture and evapotranspiration. In this study, we combine three sources of information: (i) measurements of sap velocities; (ii) soil moisture; and (iii) expert knowledge on local runoff generation and water balance to define constraints for a “behavioral” forest stand water balance model. Aiming for a behavioral model, we adjusted soil moisture at saturation, bulk resistance parameters and the parameters of the water retention curve (WRC). We found that the shape of the WRC influences substantially the behavior of the simulation model. Here, only one model realization could be referred to as “behavioral”. All other realizations failed for a least one of our evaluation criteria: Not only transpiration and soil moisture are simulated consistently with our observations, but also total water balance and runoff generation processes. The introduction of a multi-criteria evaluation scheme for the detection of unrealistic outputs made it possible to identify a well performing parameter set. Our findings indicate that measurement of different fluxes and state variables instead of just one and expert knowledge concerning runoff generation facilitate the parameterization of a hydrological model.
Insekten stellen die artenreichste Klasse des Tierreichs dar, wobei viele der Arten bedroht sind. Das liegt neben dem Klimawandel vor allem an der sich in den letzten Jahrzehnten stark verändernden landwirtschaftlichen Nutzung von Flächen, was zu Lebensraumzerstörung und Habitatfragmentierung führt. Die intensivere Bewirtschaftung von Gunstflächen einerseits, sowie die Flächenaufgabe unrentabler Flächen andererseits, hat schwerwiegende Folgen für Insekten, die an extensiv genutzte Kulturflächen angepasst sind, was besonders durch den abnehmenden Anteil an Spezialisten deutlich wird. Eine Region, die aufgrund des kleinräumigen Nebeneinanders von naturnahen Bereichen und anthropogen geschaffenen Kulturflächen (entlang eines großen Höhengradienten) eine wichtige Rolle für die Biodiversität besitzt, speziell als Lebensraum für Spezialisten aller Artengruppen, sind die Alpen. Auch hier stellt der landwirtschaftliche Nutzungswandel ein großes Problem dar, weshalb es einen nachhaltigen Schutz der extensiv genutzten Kulturlebensräume bedarf. Um zu klären, wie eine nachhaltige Berglandwirtschaft zukünftig erhalten bleiben kann, wurden im ersten Kapitel der Promotion die Regelungsrahmen der internationalen, europäischen, nationalen und regionalen Gesetze näher betrachtet. Es zeigt sich, dass der multifunktionale Ansatz der Alpenkonvention und des zugehörigen Protokolls „Berglandwirtschaft“ nur eine geringe normative Konkretisierung aufweisen und daher nicht im ausreichenden Maße in der Gemeinsamen Agrarpolitik der EU sowie im nationalen Recht umgesetzt werden; dadurch können diese einer negativen Entwicklung in der Berglandwirtschaft nicht ausreichend entgegenwirken. Neben diesen Rechtsgrundlagen fehlt es jedoch auch an naturwissenschaftlichen Grundlagen, um die Auswirkungen des landwirtschaftlichen Nutzungswandels auf alpine und arktische Tierarten zu beurteilen. Untersuchungen mit Charakterarten für diese Kulturräume sind somit erforderlich, wobei Tagfalter aufgrund ihrer Sensibilität gegenüber Umweltveränderungen geeignete Indikatoren sind. Deshalb wurden im zweiten Kapitel der Promotion die beiden Schwestertaxa Boloria pales und B. napaea untersucht, die für arktische und / oder alpine Grünlandflächen typisch sind. Die bisher unbekannte Phylogeographie beider Arten wurde daher mit zwei mitochondrialen und zwei Kerngenen über das gesamte europäische Verbreitungsgebiet untersucht. In diesem Zusammenhang die zwischen- und innerartlichen Auftrennungen analysiert und datiert sowie die ihnen unterliegenden Ausbreitungsmuster entschlüsselt. Um spezielle Anpassungsformen an die arktischen und alpinen Lebensräume der Arten zu entschlüsseln und die Folgen der landwirtschaftlichen Nutzungsänderung richtig einordnen zu können, wurden mehrere Populationen beider Arten freilandökologisch untersucht. Während B. pales über den gesamten alpinen Sommer schlüpfen kann und proterandrische Strukturen zeigt, ist B. napaea durch das Fehlen der Proterandie und ein verkürztes Schlupfzeitfenster eher an die kürzeren, arktischen Sommer angepasst. Obwohl beide Arten die gleichen Nektarquellen nutzen, gibt es aufgrund verschiedener Bedürfnisse Unterschiede in den Nektarpräferenzen zwischen den Geschlechtern; auch innerartliche Unterschiede im Dispersionsverhalten wurden gefunden. Populationen beider Arten können eine kurze Beweidung überleben, wobei der Zeitpunkt der Beweidung von Bedeutung ist; eine Nutzung gegen Ende der Schlupfphase hat einen größeren Einfluss auf die Population. Daneben wurde ein deutlicher Unterschied zwischen Flächen mit langfristiger und fehlender Beweidung gefunden. Neben einer geringen Populationsdichte, gibt es auf ganzjährig beweideten Flächen einen größeren Druck, den Lebensraum zu verlassen und die zurückgelegten Flugdistanzen sind hier auch deutlich größer.
Formulations of macrocyclic lactone anthelmintics such as moxidectin are regularly administered to sheep to combat parasites. A disadvantage of these pharmaceuticals are their side effects on non-target organisms when entering the environment. Little is known about anthelmintic effects on plant reproduction and whether the effects depend on environmental factors. For ecological and methodological reasons, we aimed at testing whether temperature affects the efficacy of a common moxidectin-based formulation on seed germination. We carried out a germination experiment including three typical species of temperate European grasslands (Centaurea jacea, Galium mollugo, Plantago lanceolata). We applied three temperature regimes (15/5, 20/10, 30/20°C), and a four-level dilution series (1:100–1:800) of formulated moxidectin (i.e., Cydectin oral drench). These solutions represent seed-anthelmintic contacts in the digestive tract of sheep shortly after deworming. In addition, a control was carried out with purified water only. We regularly counted emerging seedlings and calculated final germination percentage, mean germination time and synchrony of germination. Formulated moxidectin significantly reduced percentage, speed and synchrony of germination. A 1:100 dilution of the formulation reduced germination percentage by a quarter and increased mean germination time by six days compared to the control. Temperature moderated effects of the anthelmintic drug on germination in all response variables and all species, but in different patterns and magnitudes (significant anthelmintic x temperature x species interactions). In all response variables, the two more extreme temperature regimes (15/5, 30/20°C) led to the strongest effects of formulated moxidectin. With respect to germination percentage, G. mollugo was more sensitive to formulated moxidectin at the warmest temperature regime, whereas P. lanceolata showed the highest sensitivity at the coldest regime. This study shows that it is important to consider temperature dependencies of the effects of pharmaceuticals on seed germination when conducting standardised germination experiments.
Background: Increasing exposure to engineered inorganic nanoparticles takes actually place in both terrestric and aquatic ecosystems worldwide. Although we already know harmful effects of AgNP on the soil bacterial community, information about the impact of the factors functionalization, concentration, exposure time, and soil texture on the AgNP effect expression are still rare. Hence, in this study, three soils of different grain size were exposed for up to 90 days to bare and functionalized AgNP in concentrations ranging from 0.01 to 1.00 mg/kg soil dry weight. Effects on soil microbial community were quantified by various biological parameters, including 16S rRNA gene, photometric, and fluorescence analyses.
Results: Multivariate data analysis revealed significant effects of AgNP exposure for all factors and factor combinations investigated. Analysis of individual factors (silver species, concentration, exposure time, soil texture) in the unifactorial ANOVA explained the largest part of the variance compared to the error variance. In depth analysis of factor combinations revealed even better explanation of variance. For the biological parameters assessed in this study, the matching of soil texture and silver species, and the matching of soil texture and exposure time were the two most relevant factor combinations. The factor AgNP concentration contributed to a lower extent to the effect expression compared to silver species, exposure time and physico–chemical composition of soil.
Conclusions: The factors functionalization, concentration, exposure time, and soil texture significantly impacted the effect expression of AgNP on the soil microbial community. Especially long-term exposure scenarios are strongly needed for the reliable environmental impact assessment of AgNP exposure in various soil types.
Both water scarcity and flood risk are increasingly turning into safety concerns for many urban dwellers and, consequently, become increasingly politicised. This development involves a reconfiguration of the academic land- scape around urban risk, vulnerability and adaptation to climate change research. This paper is a literature assessment of concepts on disaster risk, vulnerability and adaptation and their applicability to the context of studying water in an African city. An overview on water-related risk in African cities is presented and concepts and respective disciplinary backgrounds reviewed. Recent debates that have emerged from the application of risk, vulnerability and adaptation concepts in research and policy practice are presented. Finally the applicability of these concepts as well as the relevance and implications of recent debates for studying water in African cities is discussed. ‘Riskscape’ is proposed as a conceptual frame for close and integrated analysis of water related risk in an African city.
GIS – what can and what can’t it say about social relations in adaptation to urban flood risk?
(2017)
Urban flooding cannot be avoided entirely and in all areas, particularly in coastal cities. Therefore adaptation to the growing risk is necessary. Geographical Information Systems (GIS) based knowledge on risk informs location-based approach to adaptation to climate risk. It allows managing city- wide coordination of adaptation measures, reducing adverse impacts of local strategies on neighbouring areas to the minimum. Quantitative assessments dominate GIS applications in flood risk management, for instance to demonstrate the distribution of people and assets in a flood prone area. Qualitative, participatory approaches to GIS are on the rise but have not been applied in the context of flooding yet. The overarching research question of this working paper is: what can GIS, and what can it not say about relationships / social relations in adaptation to urban flood risk? The use of GIS in risk mapping has exposed environmental injustices. Applications of GIS further allow model- ling future flood risk in function of demographic and land use changes, and combining it with decision support systems (DSS). While such GIS applications provide invaluable information for urban planners steering adaptation they however fall short on revealing the social relations that shape individual and household adaptation decisions. The relevance of networked social relations in adaptation to flood risk has been demonstrated in case studies, and extensively in the literature on organizational learning and adaptation to change. The purpose of this literature review is to identify the type of social relations that shape adaptive capacities towards urban flood risk which can- not be identified in a conventional GIS application.
Trotz des Rückgangs der Einwohner*innenzahl, kommunaler wohnungspolitischer Maßnahmen und der Pandemie steigen die Göttinger Mieten weiterhin. Besonders Menschen mit geringen Einkommen haben nach wie vor große Probleme, eine bezahlbare Wohnung in Göttingen zu finden. In diesem Wohnraumatlas zeigen wir die Entwicklung der Angebotsmieten auf. Zudem verdeutlichen wir, dass der Mietwohnungsmarkt in Teilmärkte segmentiert ist, für deren Identifizierung wir Ansätze liefern. Damit wollen wir stadtpolitisch Aktiven und anderen Interessierten Materialien an die Hand geben, um die Wohnungspolitik der Stadt einordnen zu können.
Because EU water quality policy can result in infrastructure creation or adaptation at the local level across member states, compliance cases are worth examining critically from a sustainable spatial planning perspective. In this study, the 2000 EU Water Framework Directive’s (WFD) reach to local implementation efforts in average towns and cities is shown through the case study of nonconforming household wastewater infrastructure in the German state of Rhineland Palatinate. Seeing wastewater as a socio-technical infrastructure, we ask how the WFD implementation can be understood in the context of local infrastructure development, sustainability, and spatial planning concepts. In particular, this study examines what compliance meant for the centralization or decentralization of local wastewater infrastructure systems—and the sustainability implications for cities
from those choices.
Agricultural monitoring is necessary. Since the beginning of the Holocene, human agricultural
practices have been shaping the face of the earth, and today around one third of the ice-free land
mass consists of cropland and pastures. While agriculture is necessary for our survival, the
intensity has caused many negative externalities, such as enormous freshwater consumption, the
loss of forests and biodiversity, greenhouse gas emissions as well as soil erosion and degradation.
Some of these externalities can potentially be ameliorated by careful allocation of crops and
cropping practices, while at the same time the state of these crops has to be monitored in order
to assess food security. Modern day satellite-based earth observation can be an adequate tool to
quantify abundance of crop types, i.e., produce spatially explicit crop type maps. The resources to
do so, in terms of input data, reference data and classification algorithms have been constantly
improving over the past 60 years, and we live now in a time where fully operational satellites
produce freely available imagery with often less than monthly revisit times at high spatial
resolution. At the same time, classification models have been constantly evolving from
distribution based statistical algorithms, over machine learning to the now ubiquitous deep
learning.
In this environment, we used an explorative approach to advance the state of the art of crop
classification. We conducted regional case studies, focused on the study region of the Eifelkreis
Bitburg-Prüm, aiming to develop validated crop classification toolchains. Because of their unique
role in the regional agricultural system and because of their specific phenologic characteristics
we focused solely on maize fields.
In the first case study, we generated reference data for the years 2009 and 2016 in the study
region by drawing polygons based on high resolution aerial imagery, and used these in
conjunction with RapidEye imagery to produce high resolution maize maps with a random forest
classifier and a gaussian blur filter. We were able to highlight the importance of careful residual
analysis, especially in terms of autocorrelation. As an end result, we were able to prove that, in
spite of the severe limitations introduced by the restricted acquisition windows due to cloud
coverage, high quality maps could be produced for two years, and the regional development of
maize cultivation could be quantified.
In the second case study, we used these spatially explicit datasets to link the expansion of biogas
producing units with the extended maize cultivation in the area. In a next step, we overlayed the
maize maps with soil and slope rasters in order to assess spatially explicit risks of soil compaction
and erosion. Thus, we were able to highlight the potential role of remote sensing-based crop type
classification in environmental protection, by producing maps of potential soil hazards, which can
be used by local stakeholders to reallocate certain crop types to locations with less associated
risk.
In our third case study, we used Sentinel-1 data as input imagery, and official statistical records
as maize reference data, and were able to produce consistent modeling input data for four
consecutive years. Using these datasets, we could train and validate different models in spatially
iv
and temporally independent random subsets, with the goal of assessing model transferability. We
were able to show that state-of-the-art deep learning models such as UNET performed
significantly superior to conventional models like random forests, if the model was validated in a
different year or a different regional subset. We highlighted and discussed the implications on
modeling robustness, and the potential usefulness of deep learning models in building fully
operational global crop classification models.
We were able to conclude that the first major barrier for global classification models is the
reference data. Since most research in this area is still conducted with local field surveys, and only
few countries have access to official agricultural records, more global cooperation is necessary to
build harmonized and regionally stratified datasets. The second major barrier is the classification
algorithm. While a lot of progress has been made in this area, the current trend of many appearing
new types of deep learning models shows great promise, but has not yet consolidated. There is
still a lot of research necessary, to determine which models perform the best and most robust,
and are at the same time transparent and usable by non-experts such that they can be applied
and used effortlessly by local and global stakeholders.
Addition of Phosphogypsum to Fire-Resistant Plaster Panels:
A Physic–Mechanical Investigation
(2023)
Gypsum (GPS) has great potential for structural fire protection and is increasingly used in construction due to its high-water retention and purity. However, many researchers aim to improve its physical and mechanical properties by adding other organic or inorganic materials such as fibers, recycled GPS, and waste residues. This study used a novel method to add non-natural GPS from factory waste (phosphogypsum (PG)) as a secondary material for GPS. This paper proposes to mix these two materials to properly study the effect of PG on the physico-mechanical properties and fire performance of two Tunisian GPSs (GPS1 and GPS2). PG initially replaced GPS at 10, 20, 30, 40, and 50% weight percentage (mixing plan A). The PGs were then washed with distilled water several times. Two more mixing plans were run when the pH of the PG was equal to 2.4 (mixing plan B), and the pH was equal to 5 (mixing plan C). Finally, a comparative study was conducted on the compressive strength, flexural strength, density, water retention, and mass loss levels after 90 days of drying, before/after incineration of samples at 15, 30, 45, and 60 min. The results show that the mixture of GPS1 and 30% PG (mixing plan B) obtained the highest compressive strength (41.31%) and flexural strength (35.03%) compared to the reference sample. The addition of 10% PG to GPS1 (mixing plan A) improved fire resistance (33.33%) and the mass loss (17.10%) of the samples exposed to flame for 60 min compared to GPS2. Therefore, PG can be considered an excellent insulating material, which can increase physico-mechanical properties and fire resistance time of plaster under certain conditions.