Das Praxisprojekt „Mosel-AdapTiV“ verfolgt das Ziel, die Klimaanpassungskompetenz der Mosel-Kommune Traben-Trarbach zu erhöhen. Die Abschlussbroschüre fasst zentrale Ergebnisse und Berichte zusammen.

The argan woodlands of South Morocco represent an open-canopy dryland forest with traditional silvopastoral usage that includes browsing by goats, sheep and camels, oil production as well as agricultural use. In the past, these forests have undergone extensive clearing, but are now protected by the state. However, the remaining argan woodlands are still under pressure from intensive grazing and illegal firewood collection. Although the argan-forest area seems to be overall decreasing due to large forest clearings for intensive agriculture, little quantitative data is available on the dynamics and overall state of the remaining argan forest. To determine how the argan woodlands in the High Atlas and the Anti-Atlas had changed in tree-crown cover from 1972 to 2018 we used historical black and white HEXAGON satellite images as well as recent WorldView satellite images (see Part A of our study). Because tree shadows can oftentimes not be separated from the tree crown on panchromatic satellite images, individual trees were mapped in three size categories to determine if trees were unchanged, had decreased/increased in crown size or had disappeared or newly grown. The current state of the argan trees was evaluated by mapping tree architectures in the field. Tree-cover changes varied highly between the test sites. Trees that remained unchanged between 1972 and 2018 were in the majority, while tree mortality and tree establishment were nearly even. Small unchanged trees made up 48.4% of all remaining trees, of these 51% showed degraded tree architectures. 40% of small (re-) grown trees were so overbrowsed that they only appeared as bushes, while medium (3–7 m crown diameter) and large trees (>7 m) showed less degraded trees regardless if they had changed or not. Approaches like grazing exclusion or cereal cultivation lead to a positive influence on tree architecture and less tree-cover decrease. Although the woodland was found to be mostly unchanged 1972–2018, the analysis of tree architecture reveals that a lot of (mostly small) trees remained stable but in a degraded state. This stability might be the result of the small trees’ high degradation status and shows the heavy pressure on the argan forest.

Background: Hyperhidrosis (excessive sweating, OMIM %114110) is a complex disorder with multifactorial causes. Emotional strains and social stress increase symptoms and lead to a vicious circle. Previously, we showed significantly higher depression scores, and normal cortisol awakening responses in patients with primary focal hyperhidrosis (PFH). Stress reactivity in response to a (virtual) Trier Social Stress Test (TSST-VR) has not been studied so far. Therefore, we measured sweat secretion, salivary cortisol and alpha amylase (sAA) concentrations, and subjective stress ratings in affected and non-affected subjects in response to a TSST-VR. Method: In this pilot study, we conducted TSST-VRs and performed general linear models with repeated measurements for salivary cortisol and sAA levels, heart rate, axillary sweat and subjective stress ratings for two groups (diagnosed PFH (n = 11), healthy controls (n = 16)). Results: PFH patients showed significantly heightened sweat secretion over time compared to controls (p = 0.006), with highest quantities during the TSST-VR. In both groups, sweating (p < 0.001), maximum cortisol levels (p = 0.002), feelings of stress (p < 0.001), and heart rate (p < 0.001) but not sAA (p = 0.068) increased significantly in response to the TSST-VR. However, no differences were detected in subjective ratings, cortisol concentrations and heart rate between PFH patients and controls (pall > 0.131). Conclusion: Patients with diagnosed PFH showed stress-induced higher sweat secretion compared to healthy controls but did not differ in the stress reactivity with regard to endocrine or subjective markers. This pilot study is in need of replication to elucidate the role of the sympathetic nervous system as a potential pathway involved in the stress-induced emotional sweating of PFH patients.

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.

Climate fluctuations and the pyroclastic depositions from volcanic activity both influence ecosystem functioning and biogeochemical cycling in terrestrial and marine environments globally. These controlling factors are crucial for the evolution and fate of the pristine but fragile fjord ecosystem in the Magellanic moorlands (~53°S) of southernmost Patagonia, which is considered a critical hotspot for organic carbon burial and marine bioproductivity. At this active continental margin in the core zone of the southern westerly wind belt (SWW), frequent Plinian eruptions and the extremely variable, hyper-humid climate should have efficiently shaped ecosystem functioning and land-to-fjord mass transfer throughout the Late Holocene. However, a better understanding of the complex process network defining the biogeochemical cycling at this land-to-fjord continuum principally requires a detailed knowledge of substrate weathering and pedogenesis in the context of the extreme climate. Yet, research on soils, the ubiquitous presence of tephra and the associated chemical weathering, secondary mineral (trans)formation and organic matter (OM) turnover processes is rare in this remote region. This complicates an accurate reconstruction of the ecosystem´s potentially sensitive response to past environmental impacts, including the dynamics of Late Holocene land-to-fjord fluxes as a function of volcanic activity and strong hydroclimate variability. Against this background, this PhD thesis aims to disentangle the controlling factors that modulate the terrigenous element mobilization and export mechanisms in the hyper-humid Patagonian Andes and assesses their significance for fjord primary productivity over the past 4.5 kyrs BP. For the first time, distinct biogeochemical characteristics of the regional weathering system serve as major criterion in paleoenvironmental reconstruction in the area. This approach includes broad-scale mineralogical and geochemical analyses of basement lithologies, four soil profiles, volcanic ash deposits, the non-karst stalagmite MA1 and two lacustrine sediment cores. In order to pay special attention to the possibly important temporal variations of pedosphere-atmosphere interaction and ecological consequences initiated by volcanic eruptions, the novel data were evaluated together with previously published reconstructions of paleoclimate and paleoenvironmental conditions. The devastative high-tephra loading of a single eruption from Mt. Burney volcano (MB2 at 4.216 kyrs BP) sustainably transformed this vulnerable fjord ecosystem, while acidic peaty Andosols developed from ~2.5 kyrs BP onwards after the recovery from millennium-scale acidification. The special setting is dominated by most variable redox-pH conditions, profound volcanic ash weathering and intense OM turnover processes, which are closely linked and ultimately regulated by SWW-induced water-level fluctuations. Constant nutrient supply though sea spray deposition represents a further important control on peat accumulation and OM turnover dynamics. These extreme environmental conditions constrain the biogeochemical framework for an extended land-to-fjord export of leachates comprising various organic and inorganic colloids (i.e., Al-humus complexes and Fe-(hydr)oxides). Such tephra- and/or Andosol-sourced flux contains high proportions of terrigenous organic carbon (OCterr) and mobilized essential (micro)nutrients, e.g., bio-available Fe, that are beneficial for fjord bioproductivity. It can be assumed that this supply of bio-available Fe produced by specific Fe-(hydr)oxide (trans)formation processes from tephra components may outlast more than 6 kyrs and surpasses the contribution from basement rock weathering and glacial meltwaters. However, the land-to-fjord exports of OCterr and bio-available Fe occur mostly asynchronous and are determined by the frequency and duration of redox cycles in soils or are initiated by SWW-induced extreme weather events. The verification of (crypto)tephra layers embedded stalagmite MA1 enabled the accurate dating of three smaller Late Holocene eruptions from Mt. Burney (MB3 at 2.291 kyrs BP and MB4 at 0.853 kyrs BP) and Aguilera (A1 at 2.978 kyrs BP) volcanoes. Irrespective of the improvement of the regional tephrochronology, the obtained precise 230Th/U-ages allowed constraints on the ecological consequences caused by these Plinian eruptions. The deposition of these thin tephra layers should have entailed a very beneficial short-term stimulation of fjord bioproductivity with bio-available Fe and other (micro)nutrients, which affected the entire area between 52°S and 53°S 30´, respectively. For such beneficial effects, the thickness of tephra deposited to this highly vulnerable peatland ecosystem should be below a threshold of 1 cm. The Late Holocene element mobilization and land-to-fjord transport was mainly controlled by (i) volcanic activity and tephra thickness, (ii) SWW-induced and southern hemispheric climate variability and (iii) the current state of the ecosystem. The influence of cascading climate and environmental impacts on OCterr and Fe-(hydr)oxide fluxes to can be categorized by four individual, in part overlapping scenarios. These different scenarios take into account the previously specified fundamental biogeochemical mechanisms and define frequently recurring patterns of ecosystem feedbacks governing the land-to-fjord mass transfer in the hyper-humid Patagonian Andes on the centennial-scale. This PhD thesis provides first evidence for a primarily tephra-sourced, continuous and long-lasting (micro)nutrient fertilization for phytoplankton growth in South Patagonian fjords, which is ultimately modulated by variations in SWW-intensity. It highlights the climate sensitivity of such critical land-to-fjord element transport and particularly emphasizes the important but so far underappreciated significance of volcanic ash inputs for biogeochemical cycles at active continental margins.

Forest inventories provide significant monitoring information on forest health, biodiversity, resilience against disturbance, as well as its biomass and timber harvesting potential. For this purpose, modern inventories increasingly exploit the advantages of airborne laser scanning (ALS) and terrestrial laser scanning (TLS). Although tree crown detection and delineation using ALS can be seen as a mature discipline, the identification of individual stems is a rarely addressed task. In particular, the informative value of the stem attributes—especially the inclination characteristics—is hardly known. In addition, a lack of tools for the processing and fusion of forest-related data sources can be identified. The given thesis addresses these research gaps in four peer-reviewed papers, while a focus is set on the suitability of ALS data for the detection and analysis of tree stems. In addition to providing a novel post-processing strategy for geo-referencing forest inventory plots, the thesis could show that ALS-based stem detections are very reliable and their positions are accurate. In particular, the stems have shown to be suited to study prevailing trunk inclination angles and orientations, while a species-specific down-slope inclination of the tree stems and a leeward orientation of conifers could be observed.

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.

This study explores the hydrogeological conditions of a landslide-prone hillslope in the Upper Mosel valley, Luxembourg. The investigation program included the monitoring of piezometer wells, hydrogeological field tests, analysis of drillcore records, and geophysical surveys. Monitoring and field testing in some of the observation wells indicated very pronounced preferential flow. Electrical resistivity tomography (ERT) and self-potential geophysical methods were employed in the study area for exploration of the morphology of preferential flowpaths. Possible signals associated with flowing groundwater in the subsurface were detected; however, they were diffusively spread over a relatively large zone, which did not allow for the determination of an exact morphology of the conduit. Analysis of drillcore records indicated that flowpaths are caused by the dissolution of thin gypsum interlayers in marls. For better understanding of the site’s hydrogeological settings, a 3D hydrogeological model was compiled. By applying different subsurface flow mechanisms, a hydrogeological model with thin, laterally extending flowpaths embedded in a porous media matrix showed the best correspondence with field observations. Simulated groundwater heads in a preferential flow conduit exactly corresponded with the observed heads in the piezometer wells. This study illustrates how hydrogeological monitoring and geophysical surveys in conjunction with the newest hydrogeological models allow for better conceptualization and parametrization of preferential flow.

In 2014/2015 a one-year field campaign at the Tiksi observatory in the Laptev Sea area was carried out using Sound Detection and Ranging/Radio Acoustic Sounding System (SODAR/RASS) measurements to investigate the atmospheric boundary layer (ABL) with a focus on low-level jets (LLJ) during the winter season. In addition to SODAR/RASS-derived vertical profiles of temperature, wind speed and direction, a suite of complementary measurements at the Tiksi observatory was available. Data of a regional atmospheric model were used to put the local data into the synoptic context. Two case studies of LLJ events are presented. The statistics of LLJs for six months show that in about 23% of all profiles LLJs were present with a mean jet speed and height of about 7 m/s and 240 m, respectively. In 3.4% of all profiles LLJs exceeding 10 m/s occurred. The main driving mechanism for LLJs seems to be the baroclinicity, since no inertial oscillations were found. LLJs with heights below 200 m are likely influenced by local topography.

In der vorliegenden Arbeit wurden die Einsatzmöglichkeiten von Carbon Footprints in Großküchen untersucht. Dabei wurden sowohl methodische Aspekte und Herausforderungen ihrer Erhebung untersucht als auch mögliche Kennzeichnungsformate (Label) evaluiert. Zunächst wurde am Beispiel Hochschulgastronomie eine vollständige Carbon Footprint Studie nach DIN 14067 für sechs exemplarische Gerichte (PCF) sowie angelehnt an DIN 14064 für den Mensabetrieb (CCF) durchgeführt. Es zeigte sich, dass die gewichteten durchschnittlichen Emissionen pro Teller, unter Einbezug der verwendeten Rohstoffe und des Energiebedarfs, 1,8 kg CO2eq pro Teller betragen (Mgew=1,78 kg CO2eq; [0,22-3,36]). Zur Vereinfachung des Erhebungsprozesses wurden anknüpfend an diese Ergebnisse Pauschalisierungsansätze zur vereinfachten Emissionsallokation im Gastrosektor evaluiert und in Form eines appgestützten Berechnungstools umgesetzt. Es konnte verifiziert werden, dass der Energiebedarf und die daraus resultierenden Emissionen unabhängig von der Beschaffenheit der Gerichte auf die Anzahl produzierter Gerichte alloziert werden können und die Ausgabewerte dennoch hinreichend belastbar sind (Abweichung <10 %). In dieser Studie konnte gezeigt werden, dass am untersuchten Standort Skaleneffekte hinsichtlich der Anzahl produzierter Gerichte und Strombedarf pro Gericht auftreten. Beide Faktoren korrelieren stark negativ miteinander (r=-.78; p<.05). Zur Verifikation der Ergebnisse wurde eine Datenabfrage unter allen deutschen Studierendenwerken (N=57) hinsichtlich des Energiebedarfs und der Produktionsmengen in Hochschulmensen durchgeführt. Aus den Daten von 42 Standorten konnten für das Jahr 2018 prognostizierte Gesamtemissionen in Höhe von 174.275 Tonnen CO2eq, verursacht durch etwa 98 Millionen verkaufte Gerichte, ermittelt werden. Im Gegensatz zur durchgeführten Standort-Studie konnten die Skaleneffekte, d.h. sinkender Strombedarf pro Teller bei steigender Produktionszahl, bei der deutschlandweiten Datenerhebung statistisch nicht nachgewiesen werden (r=-.29; p=.074). Im Anschluss wurden mögliche Label-Formate für Carbon Footprints evaluiert, indem vier vorbereitete Label unterschiedlicher Beschaffenheit (absolute Zahlen, einordnend, vergleichend und wertend) in sechs Fokusgruppen mit insgesamt 17 Teilnehmer:innen im Alter zwischen 20 und 31 Jahren (M=25,12; SD=3,31) diskutiert wurden. Im Ergebnis zeigte sich, dass bei den Teilnehmer:innen ein breiter Wunsch nach der Ausweisung absoluter Zahlen bestand. Zur besseren Einordnung sollte ein Label zudem einordnende Elemente enthalten. Wertende Label in Form von Ampelsymbolen oder Smileys mit unterschiedlichen Emotionen wurden überwiegend abgelehnt. Ableitend aus den Erkenntnissen konnten zwei synthetisierende Label-Vorschläge entwickelt werden.