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Throughout mankind’s history, the need to secure and protect the home settlement was an essential one. This holds especially true for the city of Ainos (modern Enez) in Turkish Thrace. Due to its continuous settlement history since the 7th/6th century BC, several different types of city walls were built—sometimes even on top of each other—several of which have been preserved over time. To decipher the construction style, the course and the age of a buried city wall segment in the southern part of the former city, a geoscientific multi-proxy approach including magnetic gradiometer (MG) and electrical resistivity tomography (ERT) measurements in combination with granulometrical, sedimentological and microfaunistical investigations on sediment cores was applied. We were able to (1) present reasonable arguments for its Hellenistic age; (2) reveal the course of this wall segment and extrapolate it further north into a less studied area; and (3) demonstrate that in this near-coastal area, the former swampy terrain had been consolidated for constructing the wall. Our multi-proxy approach serves as a valuable example for investigating buried structures in archaeological contexts, avoiding a less-economical, time-consuming, or even forbidden excavation.
Worldwide, academics and practitioners are developing ‘planning-oriented’ approaches to reduce the negative impacts of car traffic for more sustainable urban and transport development. One such example is the design of car-reduced neighborhoods, although these are controversial issues in the hegemonic ‘system’ of automobility. Despite the reduction of emissions and frequent recognition as ‘best practice examples’, ‘planning-critical’ research questions the underlying objectives and narratives of such sustainable developments. Our study contributes to this research perspective by improving the understanding of narratives that emerge along with car-reduced housing developments. For this purpose, we analyze two car-reduced neighborhoods in the City of Darmstadt (Germany) by conducting interviews with different actors involved in the planning and implementation processes. Our investigation reveals that the development of car-reduced neighborhoods (i) is consciously embedded in the context of sustainability, (ii) is characterized by power relations, (iii) follows normative indicators, and (iv) does not always correspond to lived realities. Altogether, the traced narratives of car-reduced neighborhoods are embedded in the overarching debate on sustainability, while at the same time revealing the dependence of society on the automobile. Thus, the hegemonic ‘system’ of automobility—although it is beginning to crack—continues to exist.
To quantify water flows between groundwater (GW) and surface water (SW) as well as the impact of Abstract. To quantify water flows between groundwater (GW) and surface water (SW) as well as the impact of capillary rise on evapotranspiration by global hydrological models (GHMs), it is necessary to replace the bucket-like linear GW reservoir model typical for hydrological models with a fully integrated gradient-based GW flow model. Linear reservoir models can only simulate GW discharge to SW bodies, provide no information on the location of the GW table and assume that there is no GW flow among grid cells. A gradient-based GW model simulates not only GW storage but also hydraulic head, which together with information on SW table elevation enables the quantification of water flows from GW to SW and vice versa. In addition, hydraulic heads are the basis for calculating lateral GW flow among grid cells and capillary rise.
G³M is a new global gradient-based GW model with a spatial resolution of 5' that will replace the current linear GW reservoir in the 0.5° WaterGAP Global Hydrology Model (WGHM). The newly developed model framework enables inmemory coupling to WGHM while keeping overall runtime relatively low, allowing sensitivity analyses and data assimilation. This paper presents the G³M concept and specific model design decisions together with results under steady-state naturalized conditions, i.e. neglecting GW abstractions. Cell-specific conductances of river beds, which govern GW-SW interaction, were determined based on the 30'' steady-state water table computed by Fan et al. (2013). Together with an appropriate choice for the effective elevation of the SW table within each grid cell, this enables a reasonable simulation of drainage from GW to SW such that, in contrast to the GW model of de Graaf et al. (2015, 2017), no additional drainage based on externally provided values for GW storage above the floodplain is required in G³M. Comparison of simulated hydraulic heads to observations around the world shows better agreement than de Graaf et al. (2015). In addition, G³M output is compared to the output of two established macro-scale models for the Central Valley, California, and the continental United States, respectively. As expected, depth to GW table is highest in mountainous and lowest in flat regions. A first analysis of losing and gaining rivers and lakes/wetlands indicates that GW discharge to rivers is by far the dominant flow, draining diffuse GW recharge, such that lateral flows only become a large fraction of total diffuse and focused recharge in case of losing rivers and some areas with very low GW recharge. G³M does not represent losing rivers in some dry regions. This study presents the first steps towards replacing the linear GW reservoir model in a GHM while improving on recent efforts, demonstrating the feasibility of the approach and the robustness of the newly developed framework.
In global hydrological models, groundwater (GW) is typically represented by a bucket-like linear groundwater reservoir. Reservoir models, however, (1) can only simulate GW discharge to surface water (SW) bodies but not recharge from SW to GW, (2) provide no information on the location of the GW table, and (3) assume that there is no GW flow among grid cells. This may lead, for example, to an underestimation of groundwater resources in semiarid areas where GW is often replenished by SW or to an underestimation of evapotranspiration where the GW table is close to the land surface. To overcome these limitations, it is necessary to replace the reservoir model in global hydrological models with a hydraulic head gradient-based GW flow model.
We present G3M, a new global gradient-based GW model with a spatial resolution of 5′ (arcminutes), which is to be integrated into the 0.5∘ WaterGAP Global Hydrology Model (WGHM). The newly developed model framework enables in-memory coupling to WGHM while keeping overall runtime relatively low, which allows sensitivity analyses, calibration, and data assimilation. This paper presents the G3M concept and model design decisions that are specific to the large grid size required for a global-scale model. Model results under steady-state naturalized conditions, i.e., neglecting GW abstractions, are shown. Simulated hydraulic heads show better agreement to observations around the world compared to the model output of de Graaf et al. (2015). Locations of simulated SW recharge to GW are found, as is expected, in dry and mountainous regions but areal extent of SW recharge may be underestimated. Globally, GW discharge to rivers is by far the dominant flow component such that lateral GW flows only become a large fraction of total diffuse and focused recharge in the case of losing rivers, some mountainous areas, and some areas with very low GW recharge. A strong sensitivity of simulated hydraulic heads to the spatial resolution of the model and the related choice of the water table elevation of surface water bodies was found. We suggest to investigate how global-scale groundwater modeling at 5′ spatial resolution can benefit from more highly resolved land surface elevation data.
Im Beitrag entwickeln wir einen kritischen Blick auf die Geographie der Wahlergebnisse der Alternative für Deutschland (AfD) bei den Bundestagswahlen 2017. Wir hinterfragen Erklärungsmuster, die in einem starren Stadt-Land-Gegensatz verhaftet bleiben und die komplexe Prozesshaftigkeit der Urbanisierung ignorieren. Dagegen gehen wir mit Henri Lefebvre und Theodor W. Adorno vom Urbanen und Ruralen als sozialen Verhältnissen aus, die sich im übergeordneten Prozess der Urbanisierung in dialektischer Weise scheiden sowie räumlich im Spannungsverhältnis von Zentrum und Peripherie materialisieren. Beispielhaft illustrieren wir diesen Prozess in der Diskussion von drei unterschiedlichen Orten, an denen die AfD bei den Bundestagswahlen besonders erfolgreich war: dem Landkreis Vorpommern-Greifswald als Fall einer umfassenden Peripherisierung, dem Quartier Pforzheim-Haidach als peripheres Zentrum und dem Stadtteil Mannheim-Schönau als zentrale Peripherie. Der Beitrag versucht damit eine räumliche Perspektive auf aktuelle Erfolge des Rechtspopulismus zu entwickeln wie auch Stadt-Land-Verhältnisse konzeptionell neu zu erfassen.
Case numbers of endemic Ca-deficiency rickets (CDR) have been reported to be alarmingly rising among children of subsistence farms in developing countries within the last 30 years. Fluoride toxicities in the environment are known to not be related to the disease. To investigate if, instead, CDR is caused by a nutrient deficiency in the environment, subsistence farms in an endemic CDR area near Kaduna, northern Nigeria, were investigated for bedrock, slope forms, soil types, and soil characteristics. The natural environment was investigated according to the World Reference Base, soil texture was analysed by pipette and sieving, and plant-available macronutrients were determined using barium-chloride or Ca-acetate-lactate extraction. The analyses showed that granite and slope deposits were the dominant parent materials. The typical slope forms and soil types were Lixisols and Acrisols on pediments, Fluvisols in river valleys, and Plinthosols and Acrisols on plains. Compared with West African background values, all of the soils had normal soil textures but were low in macronutrients. Comparisons to critical limits, however, showed that only the P concentrations were critically low, which are typical for savanna soils. A link between nutrient deficiency in soils and CDR in the Kaduna area was therefore considered unlikely.
Welche Natur, für wen und wie zu schützen? : Namibias Wildpferde im Fokus von Naturschutzkonflikten
(2019)
Sind Wildpferde in einem Nationalpark Namibias schützenswert? Die Regierung sieht keinen Anlass, das Überleben der Tiere zu sichern. Nichtregierungsorganisationen (NGO) und lokale Gruppen wollen die Wildpferde dagegen bewahren – als Teil des lokalen Ökosystems und des kulturellen Erbes. Das Beispiel zeigt die Vielschichtigkeit von Konflikten um Natur- und Artenschutz.
Die Schlagzeilen verdeutlichen: Wölfe lösen beim Menschen gleichermaßen Angst und Faszination aus. Das Raubtier wird bei Nutztierhaltern, Jägern, Naturschützern und Politikern kontrovers diskutiert. Die Wolfspopulation wächst in Deutschland zurzeit um etwa 30 Prozent pro Jahr und die Anzahl der vom Wolf gerissenen Tiere nimmt zu. Das »Rotkäppchen-Syndrom« ist tief in unseren Wertevorstellungen verankert. Doch was ist dran am Mythos "böser Wolf"?
Nach einer Pressemitteilung des Statistischen Bundesamtes (2018) hatten von allen in Deutschland erfassten Lohn- und Einkommensteuerpflichtigen 19.000 Einkünfte von mindestens einer Million Euro. Dass Arbeit aber nicht die vorrangige Methode ist, um reich zu werden und zu bleiben, kann man daran erkennen, dass die Zahl der High-Net-Worth-Individuals (HNWI) mit mehr als einer Million Euro Vermögen jene der Einkommensmillionär_innen im Jahr 2017 um 1.345.600 in Deutschland überstieg. Auch die Entwicklung der HNWI ist in Deutschland günstiger als die der Einkommensmillionär_innen. Dem Statistischen Bundesamt zufolge nahm die Zahl der Einkommensmillionär_innen von 2013 bis 2018 "lediglich" um 1.600 zu (Statistisches Bundesamt 2018). Dem World Wealth Report 2018 von Capgemini zufolge konnten sich aber alleine von 2016 bis 2017 85.000 Personen mehr in Deutschland als HNWI bezeichnen (Capgemini 2018). Ganz offensichtlich ist Arbeit weniger erfolgversprechend, wenn man sich auf den Weg machen will, Millionär_in zu werden. Dies gilt nicht nur in Deutschland, sondern ist ein weit verbreitetes Phänomen. Es hat ganz einfach damit zu tun, dass Vermögen geringer besteuert wird als das Einkommen.
Die Verwaltung der unternehmerischen Stadt : (k)ein Thema in der geographischen Stadtforschung?!
(2018)
In der geographischen Stadtforschung finden sich allgemeine Verweise darauf, dass zum Kanon neoliberaler Reskalierung und urbaner Transformation auch die Einführung von New Public Management in den Städten westlicher Industriestaaten zählt. Daran anschließend argumentiere ich, dass das, was ich als die Verwaltung der unternehmerischen Stadt zusammenfasse, nicht lediglich das Ergebnis abstrakter Neoliberalisierungsprozesse oder technokratischer Modernisierung eines mechanischen Exekutivapparats darstellt. In dem Beitrag zeige ich auf, dass die betriebswirtschaftlich reformierte Verwaltung Effekt und wichtiges Terrain der Ausarbeitung, Artikulation und Durchsetzung einer unternehmerischen Stadtpolitik ist.
Climatic seasonality drives ecosystem processes (e.g. productivity) and influences plant species distribution. However, it is poorly understood how different aspects of seasonality (especially regarding temperature and precipitation) affect growth continuity of trees in climates with low seasonality because seasonality is often only crudely measured. On islands, exceptionally wide elevational species distribution ranges allow the use of tree rings to identify how growth continuity and climate–growth relationships change with elevation. Here, we present a novel dendroecological method to measure stem growth continuity based on annual density fluctuations (ADFs) in tree rings of Pinus canariensis to indicate low climatic seasonality. The species ranges from 300 to >2000 m a.s.l. on the trade wind-influenced island of La Palma (Canary Islands), where we measured three decades of tree-ring data of 100 individuals distributed over 10 sites along the entire elevational range. The successfully implemented ADF approach revealed a major shift of stem growth continuity across the elevational gradient. In a remarkably clear pattern, stem growth continuity (percentage of ADFs) showed a hump-shaped relationship with elevation reaching a maximum at around 1000 m a.s.l. Low- to mid-elevation tree growth was positively correlated with the Palmer Drought Severity Index (PDSI; indicating aridity) and sea surface temperature (indicating trade wind-influenced moderation of water supply), while high-elevation tree growth was positively correlated with winter temperature (indicating a cold-induced dormancy period). We conclude that ADFs are a useful method to measure stem growth continuity in low-seasonality climates. Growth of P. canariensis on the Canary Islands is more frequently interrupted by winter cold at high elevations and by summer drought at low elevations than in the trade wind-influenced mid elevations, where growth sometimes continues throughout the year. Climate change-associated alterations in trade wind cloud formation might cause non-analogue growth limitations for many unique island species.
"Die Goethe-Universität ist eine weltoffene Werkstatt der Zukunft mitten in Europa. 1914 von BürgerInnen für BürgerInnen gegründet, hat sie seit 2008 als autonome Stiftungsuniversität an diese Tradition wieder angeknüpft. Ihrer wechselvollen Geschichte kritisch verpflichtet, ist sie geleitet von den Ideen der Europäischen Aufklärung, der Demokratie und der Rechtsstaatlichkeit und wendet sich gegen Rassismus, Nationalismus und Antisemitismus. Die Goethe-Universität ist ein Ort argumentativer Auseinandersetzung; Forschung und Lehre stehen in gesellschaftlicher Verantwortung."
Dieses Leitbild strahlt an einem Freitagabend im Januar 2018 zwei Stunden lang über einem voll besetzten, unruhigen Hörsaal. Der groß an die Wand projizierte Text richtet sich an das Publikum einer Veranstaltung der "Frankfurter Bürgeruniversität" mit dem Titel "Diskurskultur im Zwielicht – Wie viel Meinungsfreiheit verträgt die Uni?" Die Atmosphäre ist für eine öffentliche Abendveranstaltung ungewöhnlich angespannt: Menschen mit unterschiedlichen politischen Einstellungen sitzen dicht beieinander, ein paar Burschenschaftler mit Schärpe nehmen die Mitte des Saales ein, es gibt Gerüchte, die AfD habe zu der Veranstaltung mobilisiert. ...
The social construction of technological stasis : the stagnating data structure in OpenStreetMap
(2018)
The article aims for examining the ‘technological stasis’ of the data structure in OpenStreetMap – the successful global collaborative geodata project devoted to ‘create and distribute free geographic data for the world’. Digital structures are strongly influenced by continuing stagnation. This technological stasis – the lack of change in technology – influences data in various ways, as demonstrated by the intensive discussion of the issue by computer scientists and software engineers. However, existing research describing stagnating software is often technic centred and fuzzy, while critical research is barely considering issues of technological stasis in the digital context at all. Therefore, this paper aims for enriching this body of knowledge in order to shed light on aging data structures. I reframe technological stasis with a social-constructivist perspective – using the approach of Social Construction of Technology – especially with the concept of technological frames. Based on the case example of OpenStreetMap, my findings suggest that the data structure – and its stasis – is the outcome of competing understandings and perspectives, shaped by power asymmetries. Although the data structure did not significantly change for more than 10 years, I demonstrate that this is not because of a lack of motivation, nor technological difficulties of carrying out such changes. The technological stasis is rather rooted in the dominant position of few project members who are able to change the software design; it is their perception of the project that defines how data should be stored and what features are dispensable.
Background: The European beech is arguably the most important climax broad-leaved tree species in Central Europe, widely planted for its valuable wood. Here, we report the 542 Mb draft genome sequence of an up to 300-year-old individual (Bhaga) from an undisturbed stand in the Kellerwald-Edersee National Park in central Germany.
Findings: Using a hybrid assembly approach, Illumina reads with short- and long-insert libraries, coupled with long Pacific Biosciences reads, we obtained an assembled genome size of 542 Mb, in line with flow cytometric genome size estimation. The largest scaffold was of 1.15 Mb, the N50 length was 145 kb, and the L50 count was 983. The assembly contained 0.12% of Ns. A Benchmarking with Universal Single-Copy Orthologs (BUSCO) analysis retrieved 94% complete BUSCO genes, well in the range of other high-quality draft genomes of trees. A total of 62,012 protein-coding genes were predicted, assisted by transcriptome sequencing. In addition, we are reporting an efficient method for extracting high-molecular-weight DNA from dormant buds, by which contamination by environmental bacteria and fungi was kept at a minimum.
Conclusions: The assembled genome will be a valuable resource and reference for future population genomics studies on the evolution and past climate change adaptation of beech and will be helpful for identifying genes, e.g., involved in drought tolerance, in order to select and breed individuals to adapt forestry to climate change in Europe. A continuously updated genome browser and download page can be accessed from beechgenome.net, which will include future genome versions of the reference individual Bhaga, as new sequencing approaches develop.
Innerhalb der Gentrifizierungsforschung analysiert die Rent‑Gap‑Theorie, wie kleinräumige Differenzen zwischen gegenwärtigen Verwertungsbedingungen einerseits sowie Erwartungen auf zukünftig steigende Mieten andererseits Verdrängungsprozesse antreiben. Dementgegen hat Eric Clark (2014) jüngst eingefordert, dass die Stadtforschung den Blick verstärkt darauf richten müsse, wie Verdrängung verhindert werden kann. Diesen Appell aufgreifend, zeigen wir bezogen auf den deutschen Kontext, inwiefern mietrechtliche Regularien, stadtplanerische Entscheidungen und die jeweilige Eigentümerstruktur wesentlich darüber entscheiden, ob sich ein immobilienwirtschaftlicher Verwertungsdruck auch tatsächlich in Verdrängungsprozesse übersetzt. Illustriert wird dies am Wandel der Eigentümerstruktur im Frankfurter Gallus seit den 1970er Jahren. Deutlich wird dabei, dass Gentrifizierung kein Naturgesetz darstellt, sondern ein zutiefst politischer Prozess ist, der sich effektiv verhindern lässt.
Der Beitrag analysiert Ungleichheitseffekte des 2007 eingeführten Elterngelds. Wir zeigen, dass die familienpolitische Einführung der Ressource Elterngeld die Einkommensungleichheiten der Produktions- bzw. Erwerbssphäre auf die Reproduktions- bzw. Familiensphäre übertragen hat. Das Elterngeld trägt damit aber zumindest bislang nicht (wie angedacht) zur Aufhebung der asymmetrischen Aufteilung von (entlohnter) Erwerbsarbeit und (nicht-entlohnter) Sorgearbeit zwischen Elternteilen bei. Stattdessen verdeutlicht unsere räumlich orientierte Untersuchung des Elterngeldbezugs ungleiche Muster in den Bewältigungsmöglichkeiten kinderbezogener Sorgearbeiten. Die an der ungleichen Geographie des Elterngelds deutlich werdende Ausdifferenzierung von Bearbeitungschancen von Elternschaft interpretieren wir als Ausdruck von sozialen Spaltungstendenzen auf dem Gebiet der Reproduktion, die von der familienpolitischen Einführung des Elterngelds forciert worden sind.
Mit spitzer Feder beschreibt Lucius Burckhardt in seinem Aufsatz "Wer plant die Planung?" die konfligierenden Rationalitäten der am Planungsprozess beteiligten Akteure. Dabei zeigt er auf, wie "das Kräfteparallelogramm zwischen der regierenden Beamtenschaft, der Bauspekulation, der Bürgerschaft und den durch die beschlossenen Maßnahmen betroffenen Leute" (S. 107) die "Übelstände der Stadt" häufig verschlimmbessert. Es fehle ein "strategisches Vorgehen", das "dem Systemcharakter der Stadt angemessen" (S. 113) wäre.
The assessment of water balance components using global hydrological models is subject to climate forcing uncertainty as well as to an increasing intensity of human water use within the 20th century. The uncertainty of five state-of-the-art climate forcings and the resulting range of cell runoff that is simulated by the global hydrological model WaterGAP is presented. On the global land surface, about 62 % of precipitation evapotranspires, whereas 38 % discharges into oceans and inland sinks. During 1971–2000, evapotranspiration due to human water use amounted to almost 1 % of precipitation, while this anthropogenic water flow increased by a factor of approximately 5 between 1901 and 2010. Deviation of estimated global discharge from the ensemble mean due to climate forcing uncertainty is approximately 4 %. Precipitation uncertainty is the most important reason for the uncertainty of discharge and evapotranspiration, followed by shortwave downward radiation. At continental levels, deviations of water balance components due to uncertain climate forcing are higher, with the highest discharge deviations occurring for river discharge in Africa (−6 to 11 % from the ensemble mean). Uncertain climate forcings also affect the estimation of irrigation water use and thus the estimated human impact of river discharge. The uncertainty range of global irrigation water consumption amounts to approximately 50 % of the global sum of water consumption in the other water use sector.
Over recent decades, the global population has been rapidly increasing and human activities have altered terrestrial water fluxes to an unprecedented extent. The phenomenal growth of the human footprint has significantly modified hydrological processes in various ways (e.g. irrigation, artificial dams, and water diversion) and at various scales (from a watershed to the globe). During the early 1990s, awareness of the potential for increased water scarcity led to the first detailed global water resource assessments. Shortly thereafter, in order to analyse the human perturbation on terrestrial water resources, the first generation of large-scale hydrological models (LHMs) was produced. However, at this early stage few models considered the interaction between terrestrial water fluxes and human activities, including water use and reservoir regulation, and even fewer models distinguished water use from surface water and groundwater resources. Since the early 2000s, a growing number of LHMs have incorporated human impacts on the hydrological cycle, yet the representation of human activities in hydrological models remains challenging. In this paper we provide a synthesis of progress in the development and application of human impact modelling in LHMs. We highlight a number of key challenges and discuss possible improvements in order to better represent the human–water interface in hydrological models.
Ecological networks are more sensitive to plant than to animal extinction under climate change
(2016)
Impacts of climate change on individual species are increasingly well documented, but we lack understanding of how these effects propagate through ecological communities. Here we combine species distribution models with ecological network analyses to test potential impacts of climate change on >700 plant and animal species in pollination and seed-dispersal networks from central Europe. We discover that animal species that interact with a low diversity of plant species have narrow climatic niches and are most vulnerable to climate change. In contrast, biotic specialization of plants is not related to climatic niche breadth and vulnerability. A simulation model incorporating different scenarios of species coextinction and capacities for partner switches shows that projected plant extinctions under climate change are more likely to trigger animal coextinctions than vice versa. This result demonstrates that impacts of climate change on biodiversity can be amplified via extinction cascades from plants to animals in ecological networks.