TY  - JOUR
A1  - Uereyen, Soner
A1  - Bachofer, Felix
A1  - Kuenzer, Claudia
T1  - A framework for multivariate analysis of land surface dynamics and driving variables — a case study for Indo-Gangetic river basins
JF  - Remote Sensing
N2  - The analysis of the Earth system and interactions among its spheres is increasingly important to improve the understanding of global environmental change. In this regard, Earth observation (EO) is a valuable tool for monitoring of long term changes over the land surface and its features. Although investigations commonly study environmental change by means of a single EO-based land surface variable, a joint exploitation of multivariate land surface variables covering several spheres is still rarely performed. In this regard, we present a novel methodological framework for both, the automated processing of multisource time series to generate a unified multivariate feature space, as well as the application of statistical time series analysis techniques to quantify land surface change and driving variables. In particular, we unify multivariate time series over the last two decades including vegetation greenness, surface water area, snow cover area, and climatic, as well as hydrological variables. Furthermore, the statistical time series analyses include quantification of trends, changes in seasonality, and evaluation of drivers using the recently proposed causal discovery algorithm Peter and Clark Momentary Conditional Independence (PCMCI). We demonstrate the functionality of our methodological framework using Indo-Gangetic river basins in South Asia as a case study. The time series analyses reveal increasing trends in vegetation greenness being largely dependent on water availability, decreasing trends in snow cover area being mostly negatively coupled to temperature, and trends of surface water area to be spatially heterogeneous and linked to various driving variables. Overall, the obtained results highlight the value and suitability of this methodological framework with respect to global climate change research, enabling multivariate time series preparation, derivation of detailed information on significant trends and seasonality, as well as detection of causal links with minimal user intervention. This study is the first to use multivariate time series including several EO-based variables to analyze land surface dynamics over the last two decades using the causal discovery algorithm PCMCI.
KW  - time series analysis
KW  - trends
KW  - seasonality
KW  - partial correlation
KW  - causal networks
KW  - NDVI
KW  - snow cover area
KW  - surface water area
KW  - Indus-Ganges-Brahmaputra-Meghna
KW  - Himalaya Karakoram
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-255295
SN  - 2072-4292
VL  - 14
IS  - 1
ER  - 
TY  - JOUR
A1  - Stein, Katharina
A1  - Coulibaly, Drissa
A1  - Balima, Larba Hubert
A1  - Goetze, Dethardt
A1  - Linsenmair, Karl Eduard
A1  - Porembski, Stefan
A1  - Stenchly, Kathrin
A1  - Theodorou, Panagiotis
T1  - Plant-pollinator networks in savannas of Burkina Faso, West Africa
JF  - Diversity
N2  - West African savannas are severely threatened with intensified land use and increasing degradation. Bees are important for terrestrial biodiversity as they provide native plant species with pollination services. However, little information is available regarding their mutualistic interactions with woody plant species. In the first network study from sub-Saharan West Africa, we investigated the effects of land-use intensity and climatic seasonality on plant–bee communities and their interaction networks. In total, we recorded 5686 interactions between 53 flowering woody plant species and 100 bee species. Bee-species richness and the number of interactions were higher in the low compared to medium and high land-use intensity sites. Bee- and plant-species richness and the number of interactions were higher in the dry compared to the rainy season. Plant–bee visitation networks were not strongly affected by land-use intensity; however, climatic seasonality had a strong effect on network architecture. Null-model corrected connectance and nestedness were higher in the dry compared to the rainy season. In addition, network specialization and null-model corrected modularity were lower in the dry compared to the rainy season. Our results suggest that in our study region, seasonal effects on mutualistic network architecture are more pronounced compared to land-use change effects. Nonetheless, the decrease in bee-species richness and the number of plant–bee interactions with an increase in land-use intensity highlights the importance of savanna conservation for maintaining bee diversity and the concomitant provision of ecosystem services.
KW  - bees
KW  - community composition
KW  - connectance
KW  - land-use intensity
KW  - modularity
KW  - mutualism
KW  - number of interactions
KW  - seasonality
KW  - woody plant richness
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-220157
SN  - 1424-2818
VL  - 13
IS  - 1
ER  - 
TY  - JOUR
A1  - Müller, Frank
A1  - Hummers, Eva
A1  - Hillermann, Nele
A1  - Dopfer, Christian
A1  - Jablonka, Alexandra
A1  - Friede, Tim
A1  - Simmenroth, Anne
A1  - Wetzke, Martin
T1  - Factors influencing the frequency of airway infections in underage refugees: a retrospective, cross sectional study
JF  - International Journal of Environmental Research and Public Health
N2  - Background: Infections are a leading cause of refugee morbidity. Recent data on the rate of airway infections and factors influencing their spread in refugee reception centers is scarce. Methods: A retrospective, cross-sectional study of de-identified medical records with a focus on respiratory infections in underage refugees was conducted at two large German refugee reception centers. Results: In total, medical data from n = 10,431 refugees over an observational period of n = 819 days was analyzed. Among pediatric patients (n = 4289), 55.3% presented at least once to the on-site medical ward with an acute respiratory infection or signs thereof. In 38.4% of pediatric consultations, acute airway infections or signs thereof were present. Airway infections spiked during colder months and were significantly more prevalent amongst preschool and resettled children. Their frequency displayed a positive correlation with the number of refugees housed at the reception centers. Conclusions: We show that respiratory infections are a leading cause for morbidity in young refugees and that their rate is influenced age, season, status, and residential density. This illustrates the need to protect refugee children from contracting airway infections which may also reduce the spread of coronavirus disease 2019 (COVID-19) during the current pandemic.
KW  - refugees
KW  - migrants
KW  - respiratory infection
KW  - children
KW  - adolescents
KW  - seasonality
KW  - crowded housing
KW  - COVID-19
KW  - containment
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-213134
SN  - 1660-4601
VL  - 17
IS  - 18
ER  - 
TY  - THES
A1  - Larisch, Christina
T1  - Laser Mikrodissektion als Tool für gewebespezifische Expressionsanalysen in Pflanzen: Methodik und Anwendung
T1  - Laser Microdissection as a tool for tissue specific expression analyses in plants: method and application
N2  - Die Laser Mikrodissektion konnte in der vorliegenden Arbeit als geeignetes Tool für Expressionsanalysen pflanzlicher Gewebe weiterentwickelt werden. Nach einer umfangreichen Optimierung der Technik und Anpassung an die jeweiligen Gegebenheiten der zu analysierenden pflanzlichen Gewebe konnten unterschiedliche physiologische Fragestellungen an verschiedenen Pflanzen bearbeitet werden. Methodische Fortschritte Bei den Arbeiten an infiltrierten Arabidopsis-Pflanzen zeigten sich die methodischen Verbesserungen besonders deutlich: i. Die Zeit der Probengenerierung konnte um 60 80 % reduziert werden, wobei gleichzeitig die Qualität und Quantität der isolierten RNA erheblich verbessert wurden. ii. Dadurch konnte auf die in Deeken et al. (2008) beschriebene Voramplifikation, die stets zum Verlust niedrig exprimierter Gene führt, verzichtet und eine deutlich größere Zahl an im Phloem exprimierten Genen identifiziert werden. iii. Dass dabei 95 % der bei Deeken et al. beschriebenen Phloem-Gene wiedergefunden wurden, zeigt die hohe Reproduzierbarkeit der LMPC-Technik, die durch die Optimierung erreicht werden konnte. Pathogenantwort im Arabidopsis-Phloem iv. Die Laser Mikrodissektion konnte entsprechend i iii eingesetzt werden, um Phloem-Proben von Arabidopsis-Blütenstielen nach Pathogenbefall zu sammeln. v. Bei der Suche nach entsprechenden Phloem-mobilen Signalen, die in systemischen Geweben zur Auslösung der SAR führen, zeigte sich, dass im Phloem der Arabidopsis-Blütenstiele v. a. der Jasmonsäureweg angeschaltet wird. SAR-Marker fanden sich kaum induziert. vi. Im Vergleich der Mikroarray- und qPCR-Ergebnisse wird deutlich, dass mittels LMPC die Vorgänge im Phloem deutlich besser aufgelöst werden können, da die Untersuchungen an kompletten Blütenstielen deutliche Abweichungen gegenüber den Phloem-Arrays aufwiesen. Die Analysen der Mikroarrays sowie die zugehörigen Zeitreihenexperimente sind noch nicht abgeschlossen. Pappel-Holzstrahlen als Schaltstelle der saisonalen Umsteuerung vii. Die Laser Mikrodissektion kann alternativ auch in einem inversen Ansatz angewendet werden. viii. Über auf diese Weise angereicherte Holzstrahlen der Pappel war es möglich, tiefgreifende Einblicke in die Saisonalität der Pappel zu erlangen. ix. Zusammen mit Metabolit- und qPCR-Analysen lieferten diese Ergebnisse einen zeitlichen Ablaufplan der zugrundeliegenden physiologischen Prozesse, insbesondere bei der Umsteuerung von der Dormanz zur Wiederaufnahme des aktiven Wachstums im Frühjahr.
N2  - In this dissertation, the Laser Microdissection could be further improved for usage as an adequate tool for expression analyses of plant tissues. Following a large optimization of the technique itself and an adaptation to the conditions of the plant tissues to be analyzed, different physiological questions could be processed using distinct plant species. Methodic improvements Especially while working with infiltrated Arabidopsis plants the methodic improvements were visible: i. The time for sample-generation could be decreased by 60-80 %, at the same time quality and quantity of the isolated RNA could be significantly enhanced. ii. By this the in Deeken et al. (2008) described pre-amplification step, which always leads to loss of low expressed genes, could be omitted, and a considerable higher number of phloem-expressed genes could be identified. iii. Finding 95 % of the in Deeken et al. specified genes in the new list demonstrates the high reproducibility of the LMPC-technique which could be achieved by the optimization. Pathogen response in the Arabidopsis phloem iv. The Laser Microdissection could be used accordingly to i-iii to collect phloem-samples of Arabidopsis inflorescence stalks after a pathogen infection. v. By searching for corresponding phloem-mobile signals that lead to an induction of SAR in systemic tissues it appeared that predominantly the jasmonic acid pathway activated in the phloem of Arabidopsis inflorescence stalks. SAR-marker genes were hardly induced. vi. Comparison of the microarray- and qPCR-data revealed that LMPC shows the processes in the phloem more specific, because analyses of complete inflorescence stalks showed explicit differences to the phloem-microarrays. Analyses of the microarrays as well as the corresponding time course experiments are not yet completed. Poplar wood rays as switch point of seasonal remodeling vii. Alternatively, the Laser Microdissection can be used in an inverted approach. viii. By this approach enriched poplar wood rays allowed deep insight into seasonality of poplar. ix. Together with metabolite- and qPCR-analyses these results provided a timetable of underlying physiological processes, especially during the remodeling from dormancy to resumption of active growth in spring.
KW  - Pappel
KW  - Ackerschmalwand
KW  - Laser
KW  - Mikrodissektion
KW  - Pflanzengewebe
KW  - Genexpression
KW  - Laser Mikrodissektion
KW  - Saisonalität
KW  - Holzstrahlen
KW  - systemische Resistenz
KW  - Laser Microdissection
KW  - seasonality
KW  - wood rays
KW  - systemic resistance
Y1  - 2011
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-70182
ER  - 
TY  - JOUR
A1  - Bonte, Dries
A1  - Travis, Justin M. J.
A1  - De Clercq, Nele
A1  - Zwertvaegher, Ingrid
A1  - Lens, Luc
T1  - Thermal conditions during juvenile development affect adult dispersal in a spider
N2  - Abstract: Understanding the causes and consequences of dispersal is a prerequisite for the effective management of natural populations. Rather than treating dispersal as a fixed trait, it should be considered a plastic process that responds to both genetic and environmental conditions. Here, we consider how the ambient temperature experienced by juvenile Erigone atra, a spider inhabiting crop habitat, influences adult dispersal. This species exhibits 2 distinct forms of dispersal, ballooning (long distance) and rappelling (short distance). Using a half-sib design we raised individuals under 4 different temperature regimes and quantified the spiders' propensity to balloon and to rappel. Additionally, as an indicator of investment in settlement, we determined the size of the webs build by the spiders following dispersal. The optimal temperature regimes for reproduction and overall dispersal investment were 20 °C and 25 °C. Propensity to perform short-distance movements was lowest at 15 °C, whereas for long-distance dispersal it was lowest at 30 °C. Plasticity in dispersal was in the direction predicted on the basis of the risks associated with seasonal changes in habitat availability; long-distance ballooning occurred more frequently under cooler, spring-like conditions and short-distance rappelling under warmer, summer-like conditions. Based on these findings, we conclude that thermal conditions during development provide juvenile spiders with information about the environmental conditions they are likely to encounter as adults and that this information influences the spider's dispersal strategy. Climate change may result in suboptimal adult dispersal behavior, with potentially deleterious population level consequences.
KW  - Erigone atra
KW  - emigration
KW  - dispersal distance
KW  - immigration
KW  - behavior
KW  - plasticity
KW  - silk
KW  - body condition
KW  - seasonality
Y1  - 2008
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-48691
ER  -