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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.
In den letzten Jahren hat die Alternative für Deutschland (AfD) das Thema Wohnen zunehmend in ihren Wahlprogrammen aufgegriffen und für die eigene politische Profilierung genutzt. Der Beitrag zeigt, inwiefern die Thematisierung des Wohnens bei der AfD so formuliert ist, dass es erhebliche Anknüpfungspunkte an rechtes Gedankengut herstellt. Der Beitrag thematisiert die damit verbundenen Herausforderungen für eine kritische Stadtforschung sowie für progressive soziale Bewegungen. Er plädiert dafür, sich der Gefahr der rechten Vereinnahmung des Themas Wohnen bewusst zu sein und sich deutlich von den rechten Übernahmeversuchen abzugrenzen sowie Gegenstrategien zu entwickeln.
The nonhydrostatic regional climate model CCLM was used for a long-term hindcast run (2002–2016) for the Weddell Sea region with resolutions of 15 and 5 km and two different turbulence parametrizations. CCLM was nested in ERA-Interim data and used in forecast mode (suite of consecutive 30 h long simulations with 6 h spin-up). We prescribed the sea ice concentration from satellite data and used a thermodynamic sea ice model. The performance of the model was evaluated in terms of temperature and wind using data from Antarctic stations, automatic weather stations (AWSs), an operational forecast model and reanalyses data, and lidar wind profiles. For the reference run we found a warm bias for the near-surface temperature over the Antarctic Plateau. This bias was removed in the second run by adjusting the turbulence parametrization, which results in a more realistic representation of the surface inversion over the plateau but resulted in a negative bias for some coastal regions. A comparison with measurements over the sea ice of the Weddell Sea by three AWS buoys for 1 year showed small biases for temperature around ±1 K and for wind speed of 1 m s−1. Comparisons of radio soundings showed a model bias around 0 and a RMSE of 1–2 K for temperature and 3–4 m s−1 for wind speed. The comparison of CCLM simulations at resolutions down to 1 km with wind data from Doppler lidar measurements during December 2015 and January 2016 yielded almost no bias in wind speed and a RMSE of ca. 2 m s−1. Overall CCLM shows a good representation of temperature and wind for the Weddell Sea region. Based on these encouraging results, CCLM at high resolution will be used for the investigation of the regional climate in the Antarctic and atmosphere–ice–ocean interactions processes in a forthcoming study.
Grundlage der Arbeit stellten zwei Arbeitshypothesen dar, die es zu überprüfen galt. Die beiden Arbeitshypothesen wurden aufgrund einer Beobachtung eines Phänomens im Freiland formuliert, da bei scheinbar unterschiedlich starkem Reblausbesatzes im Boden kein direkter Zusammenhang zu einer schädigenden Wirkung dieses Stressphänomens (Reblausbefall) hergestellt werden konnte. Im Gegenteil traten die schädigenden Wirkungen des Reblausbefalls in Form von Rückgangserscheinungen eher in Rebflächen auf, die einer mangelhaften Bewirtschaftung oder Bestandsführung unterlagen. Zur Klärung dieses Phänomens wurden daher die beiden (A., B.) folgenden Hypothesen aufgestellt, die es zu überprüfen galt:
A.: Die in mit Unterlagsrebsorten der Kreuzung V. berlandieri x V. riparia zu beobachtenden Rückgangserscheinungen in Rebanlagen mit Reblausvorkommen werden nicht allein durch die Saugtätigkeit der Reblaus an den Rebwurzeln verursacht; eine direkte Korrelation zwischen Reblausdichte und Ausmaß der Rückgangserscheinungen an infizierten Reben besteht nicht. B.: Das Ausmaß möglicher Rückgangserscheinungen ist abhängig von der Bewirtschaftung des Rebbestands, wobei der Bodenbewirtschaftung eine maßgebliche Rolle zukommt.
Um diese Hypothesen zu überprüfen wurde ableitend von den Zielen der Arbeit ein Reblausbonitursystem zur Erfassung der Reblausabudanz im Freiland im Boden erarbeitet. Die besonderen Schwierigkeiten bei der Erfassung des Reblausbefalls im Boden aufgrund des stark variierenden Wurzelsystems der Rebe und dem ebenfalls stark schwankenden Reblausbefalls an der Wurzel der Rebe wurde mit dem Reblausbonitursystem (Grabungen) Rechnung getragen, sodass ein valides System zur Beurteilung des Reblausbefalls auch im jahreszeitlichen Verlauf erstellt worden konnte. Damit wurde ein Reblausbonitursystem geschaffen, das auch in praktischer Anwendung durchführbar ist und somit mit seiner höheren möglichen Replikationsrate bei der Probenentnahme dem stark variierenden Charakter des Reblausbefalls im Boden Rechnung trägt.
Um Rückgangserscheinungen in einem Weinberg nachhaltig analysieren zu können, wurde ein Wuchsbonitursystem evaluiert. Dieses System beurteilt alle Reben einer Rebfläche innerhalb eines einfachen für den Menschen kognitiv sehr gut verarbeitenden Bewertungssystem zum Wuchs der Reben. Damit ist eine Erfassung einer sehr großen Datenmenge zur Beurteilung des Wuchses auf einem Rebfeld möglich. Die Korrelation des mit dem System ermittelten Wuchses zu vielen Leistungsparametern der Rebe und den Gegebenheiten auf den Versuchsflächen zeigt die hohe Validität des Wuchsbonitursystems auf. Auch konnten Wuchsunterschiede in sehr differierenden Versuchsfeldern mit dieser Methode deutlich belegt werden. Damit wurde deutlich, dass mit dieser Wuchsboniturmethode die Rückgangserscheinungen in einer Rebfläche erkannt und analysiert werden konnten. Somit konnten mit den beiden Instrumenten der Wuchs- und Reblausbonitur die beiden Arbeitshypothesen dahingehend belegt werden, dass unter Verwendung der Unterlagensorten der Kreuzungskombination V. berlandieri x V. riparia kein Zusammenhang zwischen der Reblausdichte im Boden und Rückgangserscheinungen der Rebe vorliegen. Darüber hinaus konnte belegt werden, dass in Erweiterung dieser Erkenntnis das Ausmaß der Rückganserscheinungen bei Reben maßgeblich von der Art der Bewirtschaftung abhängt und somit deutlich abzutrennen ist vom Einfluss des Reblausbefalls. Vor allem konnte durch die vorliegende Arbeit unter Einbeziehung des Wuchsbonitursystems eine Methode erarbeitet werden, die in Zukunft bei der Beurteilung von Fernerkundungsdaten ein nützliches Instrument darstellt, um die wirklichen Gegebenheiten hinsichtlich des Wuchses der Reben auf Weinbergsflächen mit den berechneten Werten zu Wuchsindizes zu korrelieren.
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.
Understanding the mechanisms that shape access to the fisheries ecosystem service in Tsokomey, Accra
(2019)
Questions of access to ecosystem services remain largely unaddressed. Yet, in the coming decades, addressing access to services and securing them for livelihoods and well-being of people will likely gain importance, especially to guide according policies at the local scale. Through a qualitative approach, this paper addresses the mechanisms that shape access to the fisheries eco- system service in Accra, Ghana. The analysis uses a framework that focuses on access to land, tools and technology, knowledge and information, capital and credit, as well as labor. This research reveals how access is organized across the different categories of this framework and how people’s well-being is shaped. Moreover, it helps to further our understanding of what regulates the access to ecosystem services and how to address future shocks and capacity in terms of production of ecosystem services.
In a first step, this paper analyses the emergence of the UN Sustainable Development Goals (SDGs) as new global development framework with regard to key actors, social learning cycles, innovation platforms, fundamental policy changes and transition dynamics towards sustainability. In a second step, it traces the convolution of social, political and environmental dimensions, social power relations and governance paradigms embedded in the drafting process and final framework of the water related SDG 6. This research concludes that the SDGs induced important paradigm and policy changes in addition to rearranging existing power relations.
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.
Global food security poses large challenges to a fast changing human society and has been a key topic for scientists, agriculturist, and policy makers in the 21st century. The United Nation predicts a total world population of 9.15 billion in 2050 and defines the provision of food security as the second major point in the UN Sustainable Development Goals. As the capacities of both, land and water resources, are finite and locally heavily overused, reducing agriculture’s environmental impact while meeting an increasing demand for food of a constantly growing population is one of the greatest challenges of our century. Therefore, a multifaceted solution is required, including approaches using geospatial data to optimize agricultural food production.
The availability of precise and up-to-date information on vegetation parameters is mandatory to fulfill the requirements of agricultural applications. Direct field measurements of such vegetation parameters are expensive and time-consuming. On the contrary, remote sensing offers a variety of techniques for a cost-effective and non-destructive retrieval of vegetation parameters. Although not widely used, hyperspectral thermal infrared (TIR) remote sensing has demonstrated being a valuable addition to existing remote sensing techniques for the retrieval of vegetation parameters.
This thesis examined the potential of TIR imaging spectroscopy as an important contribution to the growing need of food security. The main scientific question dealt with the extraction of vegetation parameters from imaging TIR spectroscopy. To this end, two studies impressively demonstrated the ability of extracting vegetation related parameters from leaf emissivity spectra: (i) the discrimination of eight plant species based on their emissivity spectra and (ii) the detection of drought stress in potato plants using temperature measures and emissivity spectra.
The datasets used in these studies were collected using the Telops Hyper-Cam LW, a novel imaging spectrometer. Since this FTIR spectrometer presents some particularities, special attention was paid on the development of dedicated experimental data acquisition setups and on data processing chains. The latter include data preprocessing and the development of algorithms for extracting precise surface temperatures, reproducible emissivity spectra and, in the end, vegetation parameters.
The spectrometer’s versatility allows the collection of airborne imaging spectroscopy datasets. Since the general availability of airborne TIR spectrometers is limited, the preprocessing and
data extraction methods are underexplored compared to reflective remote sensing. This counts especially for atmospheric correction (AC) and temperature and emissivity separation (TES) algorithms. Therefore, we implemented a powerful simulation environment for the development of preprocessing algorithms for airborne hyperspectral TIR image data. This simulation tool is designed in a modular way and includes the image data acquisition and processing chain from surface temperature and emissivity to the final at-sensor radiance data. It includes a series of available algorithms for TES, AC as well as combined AC and TES approaches. Using this simulator, one of the most promising algorithms for the preprocessing of airborne TIR data – ARTEMISS – was significantly optimized. The retrieval error of the atmospheric water vapor during the atmospheric characterization was reduced. As a result, this improvement in atmospheric characterization accuracy enhanced the subsequent retrieval of surface temperatures and surface emissivities intensely.
Although, the potential of hyperspectral TIR applications in ecology, agriculture, and biodiversity has been impressively demonstrated, a serious contribution to a global provision of food security requires the retrieval of vegetation related parameters with global coverage, high spatial resolution and at high revisit frequencies.
Emerging from the findings in this thesis, the spectral configuration of a spaceborne TIR spectrometer concept was developed. The sensors spectral configuration aims at the retrieval of precise land surface temperatures and land surface emissivity spectra. Complemented with additional characteristics, i.e. short revisit times and a high spatial resolution, this sensor potentially allows the retrieval of valuable vegetation parameters needed for agricultural optimizations. The technical feasibility of such a sensor concept underlines the potential contribution to the multifaceted solution required for achieving the challenging goal of guaranteeing global food security in a world of increasing population.
In conclusion, thermal remote sensing and more precisely hyperspectral thermal remote sensing has been presented as a valuable technique for a variety of applications contributing to the final goal of a global food security.
Reptiles belong to a taxonomic group characterized by increasing worldwide population declines. However, it has not been until comparatively recent years that public interest in these taxa has increased, and conservation measures are starting to show results. While many factors contribute to these declines, environmental pollution, especially in form of pesticides, has seen a strong increase in the last few decades, and is nowadays considered a main driver for reptile diversity loss. In light of the above, and given that reptiles are extremely underrepresented in ecotoxicological studies regarding the effects of plant protection products, this thesis aims at studying the impacts of pesticide exposure in reptiles, by using the Common wall lizard (Podarcis muralis) as model species. In a first approach, I evaluated the risk of pesticide exposure for reptile species within the European Union, as a means to detect species with above average exposure probabilities and to detect especially sensitive reptile orders. While helpful to detect species at risk, a risk evaluation is only the first step towards addressing this problem. It is thus indispensable to identify effects of pesticide exposure in wildlife. For this, the use of enzymatic biomarkers has become a popular method to study sub-individual responses, and gain information regarding the mode of action of chemicals. However, current methodologies are very invasive. Thus, in a second step, I explored the use of buccal swabs as a minimally invasive method to detect changes in enzymatic biomarker activity in reptiles, as an indicator for pesticide uptake and effects at the sub-individual level. Finally, the last part of this thesis focuses on field data regarding pesticide exposure and its effects on reptile wildlife. Here, a method to determine pesticide residues in food items of the Common wall lizard was established, as a means to generate data for future dietary risk assessments. Subsequently, a field study was conducted with the aim to describe actual effects of pesticide exposure on reptile populations at different levels.