TY - JOUR A1 - Derežanin, Lorena A1 - Blažytė, Asta A1 - Dobrynin, Pavel A1 - Duchêne, David A. A1 - Grau, José Horacio A1 - Jeon, Sungwon A1 - Kliver, Sergei A1 - Koepfli, Klaus-Peter A1 - Meneghini, Dorina A1 - Preick, Michaela A1 - Tomarovsky, Andrey A1 - Totikov, Azamat A1 - Fickel, Jörns A1 - Förster, Daniel W. T1 - Multiple types of genomic variation contribute to adaptive traits in the mustelid subfamily Guloninae JF - Molecular ecology N2 - Species of the mustelid subfamily Guloninae inhabit diverse habitats on multiple continents, and occupy a variety of ecological niches. They differ in feeding ecologies, reproductive strategies and morphological adaptations. To identify candidate loci associated with adaptations to their respective environments, we generated a de novo assembly of the tayra (Eira barbara), the earliest diverging species in the subfamily, and compared this with the genomes available for the wolverine (Gulo gulo) and the sable (Martes zibellina). Our comparative genomic analyses included searching for signs of positive selection, examining changes in gene family sizes and searching for species-specific structural variants. Among candidate loci associated with phenotypic traits, we observed many related to diet, body condition and reproduction. For example, for the tayra, which has an atypical gulonine reproductive strategy of aseasonal breeding, we observed species-specific changes in many pregnancy-related genes. For the wolverine, a circumpolar hypercarnivore that must cope with seasonal food scarcity, we observed many changes in genes associated with diet and body condition. All types of genomic variation examined (single nucleotide polymorphisms, gene family expansions, structural variants) contributed substantially to the identification of candidate loci. This argues strongly for consideration of variation other than single nucleotide polymorphisms in comparative genomics studies aiming to identify loci of adaptive significance. KW - adaptation KW - gene family evolution KW - genomics KW - mustelids KW - positive KW - selection KW - structural variation Y1 - 2022 U6 - https://doi.org/10.1111/mec.16443 SN - 0962-1083 SN - 1365-294X N1 - Corrigendum: Molecular ecology, Volume 32, Issue 3, Pages 752, February 2023 VL - 31 IS - 10 SP - 2898 EP - 2919 PB - Wiley CY - Hoboken ER - TY - JOUR A1 - Heffner, Christopher C. A1 - Fuhrmeister, Pamela A1 - Luthra, Sahil A1 - Mechtenberg, Hannah A1 - Saltzman, David A1 - Myers, Emily B. T1 - Reliability and validity for perceptual flexibility in speech JF - Brain and language : a journal of clinical, experimental and theoretical research N2 - The study of perceptual flexibility in speech depends on a variety of tasks that feature a large degree of variability between participants. Of critical interest is whether measures are consistent within an individual or across stimulus contexts. This is particularly key for individual difference designs that are deployed to examine the neural basis or clinical consequences of perceptual flexibility. In the present set of experiments, we assess the split-half reliability and construct validity of five measures of perceptual flexibility: three of learning in a native language context (e.g., understanding someone with a foreign accent) and two of learning in a non-native context (e.g., learning to categorize non-native speech sounds). We find that most of these tasks show an appreciable level of split-half reliability, although construct validity was sometimes weak. This provides good evidence for reliability for these tasks, while highlighting possible upper limits on expected effect sizes involving each measure. KW - Reliability KW - Construct validity KW - Individual differences KW - Speech KW - perception KW - Phonetic identification KW - Phonetic learning KW - Phonetic KW - adaptation Y1 - 2022 U6 - https://doi.org/10.1016/j.bandl.2021.105070 SN - 0093-934X SN - 1090-2155 VL - 226 PB - Elsevier CY - Amsterdam [u.a.] ER - TY - JOUR A1 - Kreibich, Heidi A1 - Hudson, Paul A1 - Merz, Bruno T1 - Knowing what to do substantially improves the effectiveness of flood early warning JF - Bulletin of the American Meteorological Society N2 - Flood warning systems are longstanding success stories with respect to protecting human life, but monetary losses continue to grow. Knowledge on the effectiveness of flood early warning in reducing monetary losses is scarce, especially at the individual level. To gain more knowledge in this area, we analyze a dataset that is unique with respect to detailed information on warning reception and monetary losses at the property level and with respect to amount of data available. The dataset contains 4,468 loss cases from six flood events in Germany. These floods occurred between 2002 and 2013. The data from each event were collected by computer-aided telephone interviews in four surveys following a repeated cross-sectional design. We quantitatively reveal that flood early warning is only effective in reducing monetary losses when people know what to do when they receive the warning. We also show that particularly long-term preparedness is associated with people knowing what to do when they receive a warning. Thus, risk communication, training, and (financial) support for private preparedness are effective in mitigating flood losses in two ways: precautionary measures and more effective emergency responses. KW - adaptation KW - damage assessment KW - emergency preparedness KW - emergency KW - response KW - flood events Y1 - 2021 U6 - https://doi.org/10.1175/BAMS-D-20-0262.1 SN - 0003-0007 SN - 1520-0477 VL - 102 IS - 7 SP - E1450 EP - E1463 PB - American Meteorological Soc. CY - Boston ER - TY - JOUR A1 - John, Sheeba A1 - Olas, Justyna Jadwiga A1 - Müller-Röber, Bernd T1 - Regulation of alternative splicing in response to temperature variation in plants JF - Journal of experimental botany N2 - Plants have evolved numerous molecular strategies to cope with perturbations in environmental temperature, and to adjust growth and physiology to limit the negative effects of extreme temperature. One of the strategies involves alternative splicing of primary transcripts to encode alternative protein products or transcript variants destined for degradation by nonsense-mediated decay. Here, we review how changes in environmental temperature-cold, heat, and moderate alterations in temperature-affect alternative splicing in plants, including crops. We present examples of the mode of action of various temperature-induced splice variants and discuss how these alternative splicing events enable favourable plant responses to altered temperatures. Finally, we point out unanswered questions that should be addressed to fully utilize the endogenous mechanisms in plants to adjust their growth to environmental temperature. We also indicate how this knowledge might be used to enhance crop productivity in the future. KW - alternative splicing KW - ambient temperature KW - cold KW - heat KW - plants KW - stress KW - adaptation Y1 - 2021 U6 - https://doi.org/10.1093/jxb/erab232 SN - 0022-0957 SN - 1460-2431 VL - 72 IS - 18 SP - 6150 EP - 6163 PB - Oxford Univ. Press CY - Oxford ER - TY - JOUR A1 - Kruse, Stefan A1 - Kolmogorov, Aleksey I. A1 - Pestryakova, Luidmila Agafyevna A1 - Herzschuh, Ulrike T1 - Long-lived larch clones may conserve adaptations that could restrict treeline migration in northern Siberia JF - Ecology and evolution N2 - The occurrence of refugia beyond the arctic treeline and genetic adaptation therein play a crucial role of largely unknown effect size. While refugia have potential for rapidly colonizing the tundra under global warming, the taxa may be maladapted to the new environmental conditions. Understanding the genetic composition and age of refugia is thus crucial for predicting any migration response. Here, we genotype 194 larch individuals from an similar to 1.8 km(2)area in northcentral Siberia on the southern Taimyr Peninsula by applying an assay of 16 nuclear microsatellite markers. For estimating the age of clonal individuals, we counted tree rings at sections along branches to establish a lateral growth rate that was then combined with geographic distance. Findings reveal that the predominant reproduction type is clonal (58.76%) by short distance spreading of ramets. One outlier of clones 1 km apart could have been dispersed by reindeer. In clonal groups and within individuals, we find that somatic mutations accumulate with geographic distance. Clonal groups of two or more individuals are observed. Clonal age estimates regularly suggest individuals as old as 2,200 years, which coincides with a major environmental change that forced a treeline retreat in the region. We conclude that individuals with clonal growth mode were naturally selected as it lowers the likely risk of extinction under a harsh environment. We discuss this legacy from the past that might now be a maladaptation and hinder expansion under currently strongly increasing temperatures. KW - adaptation KW - clonal growth KW - growth rate KW - Larix KW - leading edge KW - treeline KW - migration Y1 - 2020 U6 - https://doi.org/10.1002/ece3.6660 SN - 2045-7758 VL - 10 IS - 18 SP - 10017 EP - 10030 PB - Wiley CY - Hoboken ER - TY - THES A1 - Derežanin, Lorena T1 - Contribution of structural variation to adaptive evolution of mammalian genomes T1 - Beteiligung der strukturellen Variation zur adaptiven Evolution von Säugetiergenomen N2 - Following the extinction of dinosaurs, the great adaptive radiation of mammals occurred, giving rise to an astonishing ecological and phenotypic diversity of mammalian species. Even closely related species often inhabit vastly different habitats, where they encounter diverse environmental challenges and are exposed to different evolutionary pressures. As a response, mammals evolved various adaptive phenotypes over time, such as morphological, physiological and behavioural ones. Mammalian genomes vary in their content and structure and this variation represents the molecular mechanism for the long-term evolution of phenotypic variation. However, understanding this molecular basis of adaptive phenotypic variation is usually not straightforward. The recent development of sequencing technologies and bioinformatics tools has enabled a better insight into mammalian genomes. Through these advances, it was acknowledged that mammalian genomes differ more, both within and between species, as a consequence of structural variation compared to single-nucleotide differences. Structural variant types investigated in this thesis - such as deletion, duplication, inversion and insertion, represent a change in the structure of the genome, impacting the size, copy number, orientation and content of DNA sequences. Unlike short variants, structural variants can span multiple genes. They can alter gene dosage, and cause notable gene expression differences and subsequently phenotypic differences. Thus, they can lead to a more dramatic effect on the fitness (reproductive success) of individuals, local adaptation of populations and speciation. In this thesis, I investigated and evaluated the potential functional effect of structural variations on the genomes of mustelid species. To detect the genomic regions associated with phenotypic variation I assembled the first reference genome of the tayra (Eira barbara) relying on linked-read sequencing technology to achieve a high level of genome completeness important for reliable structural variant discovery. I then set up a bioinformatics pipeline to conduct a comparative genomic analysis and explore variation between mustelid species living in different environments. I found numerous genes associated with species-specific phenotypes related to diet, body condition and reproduction among others, to be impacted by structural variants. Furthermore, I investigated the effects of artificial selection on structural variants in mice selected for high fertility, increased body mass and high endurance. Through selective breeding of each mouse line, the desired phenotypes have spread within these populations, while maintaining structural variants specific to each line. In comparison to the control line, the litter size has doubled in the fertility lines, individuals in the high body mass lines have become considerably larger, and mice selected for treadmill performance covered substantially more distance. Structural variants were found in higher numbers in these trait-selected lines than in the control line when compared to the mouse reference genome. Moreover, we have found twice as many structural variants spanning protein-coding genes (specific to each line) in trait-selected lines. Several of these variants affect genes associated with selected phenotypic traits. These results imply that structural variation does indeed contribute to the evolution of the selected phenotypes and is heritable. Finally, I suggest a set of critical metrics of genomic data that should be considered for a stringent structural variation analysis as comparative genomic studies strongly rely on the contiguity and completeness of genome assemblies. Because most of the available data used to represent reference genomes of mammalian species is generated using short-read sequencing technologies, we may have incomplete knowledge of genomic features. Therefore, a cautious structural variation analysis is required to minimize the effect of technical constraints. The impact of structural variants on the adaptive evolution of mammalian genomes is slowly gaining more focus but it is still incorporated in only a small number of population studies. In my thesis, I advocate the inclusion of structural variants in studies of genomic diversity for a more comprehensive insight into genomic variation within and between species, and its effect on adaptive evolution. N2 - Nach dem Aussterben der Dinosaurier kam es zu einer großen adaptiven Radiation der Säugetiere, die eine erstaunliche ökologische und phänotypische Vielfalt von Säugetierarten hervorbrachte. Selbst eng verwandte Arten bewohnen oft sehr unterschiedliche Lebensräume, in denen sie verschiedenen Umwelteinflüssen und evolutionärem Druck ausgesetzt sind. Als Reaktion darauf haben Säugetiere im Laufe der Zeit verschiedene adaptive Phänotypen entwickelt, z. B. morphologische, physiologische und verhaltensbezogene. Die Genome von Säugetieren variieren in ihrem Inhalt und ihrer Struktur, und diese Variation stellt den molekularen Mechanismus für die langfristige Evolution der phänotypischen Variation dar. Das Verständnis dieser molekularen Grundlage der adaptiven phänotypischen Variation ist jedoch meist nicht trivial. Die jüngste Entwicklung von Sequenzierungstechnologien und Bioinformatik-Tools hat einen besseren Einblick in die Genome von Säugetieren ermöglicht. Durch diese Fortschritte wurde erkannt, dass sich die Genome von Säugetieren sowohl innerhalb als auch zwischen den Arten stärker durch strukturelle Variationen als durch Unterschiede zwischen einzelnen Nukleotiden unterscheiden. Variantenarten, die in dieser Arbeit untersucht werden - wie Deletion, Duplikation, Inversion und Insertion - stellen eine Veränderung der Genomstruktur dar, die sich auf die Größe, die Kopienzahl, die richtung und den Inhalt der DNA-Sequenzen auswirken. Im Gegensatz zu kurzen Varianten können strukturelle Varianten mehrere Gene umfassen. Sie können die Genkopien verändern und bemerkenswerte Unterschiede in der Genexpression und in der Folge phänotypische Unterschiede hervorrufen. Dadurch können sie dramatischere Auswirkungen auf die Fitness (den Fortpflanzungserfolg) von Individuen, die lokale Anpassung von Populationen und die Artbildung haben. In dieser Arbeit untersuchte und bewertete ich die potenziellen funktionellen Auswirkungen von strukturellen Variationen auf die Genome von Mustelidenarten. Weil für die zuverlässige Entdeckung struktureller Varianten ein hohes Maß an Genomvollständigkeit wichtig ist, habe ich das erste Referenzgenom der Tayra (Eira barbara) mit Hilfe der Linked-Read-Sequenzierungstechnologie zusammengestellt, um die mit der phänotypischen Variation verbundenen Genomregionen zu ermitteln. Anschließend habe ich eine Bioinformatik-Pipeline aufgesetzt, um eine vergleichende Genomanalyse durchzuführen und die Variationen zwischen den in unterschiedlichen Umgebungen lebenden Mustelidenarten zu untersuchen. Ich fand heraus, dass zahlreiche Gene, die mit artspezifischen Phänotypen in Verbindung stehen, durch strukturelle Variationen beeinflusst werden. Diese Phänotypen stehen u.a. in Zusammenhang mit Ernährung, Körperzustand und Fortpflanzung. Darüber hinaus untersuchte ich die Auswirkungen der künstlichen Selektion auf strukturelle Variationen bei Mäusen, die auf hohe Fruchtbarkeit, erhöhte Körpermasse und hohe Ausdauer selektiert wurden. Durch selektive Züchtung jeder Mauslinie haben sich die gewünschten Phänotypen innerhalb dieser Populationen durchgesetzt, wobei die für jede Linie spezifischen strukturellen Variationen erhalten blieben. Im Vergleich zur Kontrolllinie hat sich die Wurfgröße in den Linien selektiert auf Fruchtbarkeit verdoppelt, die Individuen in den Linien mit hoher Körpermasse sind erheblich größer geworden, und die auf Laufbandleistung selektierten Mäuse haben wesentlich mehr Strecke zurückgelegt. Im Vergleich zum Referenzgenom der Maus wurden in diesen nach Merkmalen selektierten Linien mehr strukturelle Variationen gefunden als in der Kontrolllinie. Darüber hinaus fanden wir doppelt so viele strukturelle Variationen, die proteinkodierende Gene überspannen (spezifisch für jede Linie), in nach Merkmalen selektierten Linien. Mehrere dieser Varianten betreffen Gene, die mit ausgewählten phänotypischen Merkmalen in Verbindung stehen. Diese Ergebnisse deuten darauf hin, dass strukturelle Variationen tatsächlich zur Evolution der ausgewählten Phänotypen beiträgt und vererbbar ist. Abschließend schlage ich eine Sammlung von maßgeblichen Metriken für Genomdaten vor, die für eine strenge Analyse der strukturellen Variation berücksichtigt werden sollten, da vergleichende Genomstudien in hohem Maße von der Kontiguität und Vollständigkeit der Genomassemblies abhängen. Weil die meisten der verfügbaren Daten, die verwendet wurden, um Referenzgenome von Säugetierarten zu repräsentieren mit Short-Read-Sequenzierungstechnologien erzeugt wurden, verfügen wir möglicherweise nur über unvollständige Kenntnisse der genomischen Merkmale. Daher ist eine vorsichtige Analyse der strukturellen Variationen erforderlich, um die Auswirkungen technischer Beschränkungen zu minimieren. Der Einfluss struktureller Variationen auf die adaptive Evolution von Säugetiergenomen rückt langsam immer mehr in den Mittelpunkt, wird aber immer noch nur in wenigen Populationsstudien berücksichtigt. In meiner Dissertation befürworte ich die Einbeziehung struktureller Variationen in Studien zur genomischen Diversität, um einen umfassenderen Einblick in die genomische Variation innerhalb und zwischen den Arten und ihre Auswirkungen auf die adaptive Evolution zu erhalten. KW - doctoral thesis KW - evolutionary biology KW - adaptation KW - genomics KW - Adaptation KW - Dissertation KW - Evolutionsbiologie KW - Genomik Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-591443 ER - TY - JOUR A1 - Wagener, Thorsten A1 - Reinecke, Robert A1 - Pianosi, Francesca T1 - On the evaluation of climate change impact models JF - Wiley interdisciplinary reviews : Climate change N2 - In-depth understanding of the potential implications of climate change is required to guide decision- and policy-makers when developing adaptation strategies and designing infrastructure suitable for future conditions. Impact models that translate potential future climate conditions into variables of interest are needed to create the causal connection between a changing climate and its impact for different sectors. Recent surveys suggest that the primary strategy for validating such models (and hence for justifying their use) heavily relies on assessing the accuracy of model simulations by comparing them against historical observations. We argue that such a comparison is necessary and valuable, but not sufficient to achieve a comprehensive evaluation of climate change impact models. We believe that a complementary, largely observation-independent, step of model evaluation is needed to ensure more transparency of model behavior and greater robustness of scenario-based analyses. This step should address the following four questions: (1) Do modeled dominant process controls match our system perception? (2) Is my model's sensitivity to changing forcing as expected? (3) Do modeled decision levers show adequate influence? (4) Can we attribute uncertainty sources throughout the projection horizon? We believe that global sensitivity analysis, with its ability to investigate a model's response to joint variations of multiple inputs in a structured way, offers a coherent approach to address all four questions comprehensively. Such additional model evaluation would strengthen stakeholder confidence in model projections and, therefore, into the adaptation strategies derived with the help of impact models. This article is categorized under: Climate Models and Modeling > Knowledge Generation with Models Assessing Impacts of Climate Change > Evaluating Future Impacts of Climate Change KW - adaptation KW - sensitivity analysis KW - uncertainty KW - validation Y1 - 2022 U6 - https://doi.org/10.1002/wcc.772 SN - 1757-7780 SN - 1757-7799 VL - 13 IS - 3 PB - Wiley CY - Hoboken ER - TY - JOUR A1 - Henschke, Jakob A1 - Zecher, Mahli Megan A1 - Mayer, Frank A1 - Engel, Tilman T1 - Contralateral repeated bout effect following preconditioning exercises BT - a systematic review JF - Sport sciences for health N2 - Background Recent studies indicate the existence of a repeated bout effect on the contralateral untrained limb following eccentric and isometric contractions. Aims This review aims to summarize the evidence for magnitude, duration and differences of this effect following isometric and eccentric preconditioning exercises. Methods Medline, Cochrane, and Web of science were searched from January 1971 until September 2020. Randomized controlled trials, case-control studies and cross-sectional studies were identified by combining keywords and synonyms (e.g., "contralateral", "exercise", "preconditioning", "protective effect"). At least two of the following outcome parameters were mandatory for study inclusion: strength, muscle soreness, muscle swelling, limb circumference, inflammatory blood markers or protective index (relative change of aforementioned measures). Results After identifying 1979 articles, 13 studies were included. Most investigations examined elbow flexors and utilized eccentric isokinetic protocols to induce the contralateral repeated bout effect. The magnitude of protection was observed in four studies, smaller values of the contralateral when compared to the ipsilateral repeated bout effect were noted in three studies. The potential mechanism is thought to be of neural central nature since no differences in peripheral muscle activity were observed. Time course was examined in three investigations. One study showed a smaller protective effect following isometric preconditioning when compared to eccentric preconditioning exercises. Conclusions The contralateral repeated bout effect demonstrates a smaller magnitude and lasts shorter than the ipsilateral repeated bout effect. Future research should incorporate long-term controlled trials including larger populations to identify central mechanisms. This knowledge should be used in clinical practice to prepare immobilized limbs prospectively for an incremental load. KW - musculoskeletal physiological phenomena KW - muscle damage KW - adaptation KW - Crossover KW - muscle soreness KW - isometric contraction Y1 - 2021 U6 - https://doi.org/10.1007/s11332-021-00804-0 SN - 1824-7490 SN - 1825-1234 VL - 18 IS - 1 SP - 1 EP - 10 PB - Soringer Italia CY - Milan ER - TY - THES A1 - Kiemel, Katrin T1 - Zooplankton adaptations and community dynamics in space and time N2 - In times of ongoing biodiversity loss, understanding how communities are structured and what mechanisms and local adaptations underlie the patterns we observe in nature is crucial for predicting how future ecological and anthropogenic changes might affect local and regional biodiversity. Aquatic zooplankton are a group of primary consumers that represent a critical link in the food chain, providing nutrients for the entire food web. Thus, understanding the adaptability and structure of zooplankton communities is essential. In this work, the genetic basis for the different temperature adaptations of two seasonally shifted (i.e., temperature-dependent) occurring freshwater rotifers of a formerly cryptic species complex (Brachionus calyciflorus) was investigated to understand the overall genetic diversity and evolutionary scenario for putative adaptations to different temperature regimes. Furthermore, this work aimed to clarify to what extent the different temperature adaptations may represent a niche partitioning process thus enabling co-existence. The findings were then embedded in a metacommunity context to understand how zooplankton communities assemble in a kettle hole metacommunity located in the northeastern German "Uckermark" and which underlying processes contribute to the biodiversity patterns we observe. Using a combined approach of newly generated mitochondrial resources (genomes/cds) and the analysis of a candidate gene (Heat Shock Protein 40kDa) for temperature adaptation, I showed that the global representatives of B. calyciflorus s.s.. are genetically more similar than B. fernandoi (average pairwise nucleotide diversity: 0.079 intraspecific vs. 0.257 interspecific) indicating that both species carry different standing genetic variation. In addition to differential expression in the thermotolerant B. calyciflorus s.s. and thermosensitive B. fernandoi, the HSP 40kDa also showed structural variation with eleven fixed and six positively selected sites, some of which are located in functional areas of the protein. The estimated divergence time of ~ 25-29 Myr combined with the fixed sites and a prevalence of ancestral amino acids in B. calyciflorus s.s. indicate that B. calyciflorus s.s. remained in the ancestral niche, while B. fernandoi partitioned into a new niche. The comparison of mitochondrial and nuclear markers (HPS 40kDa, ITS1, COI) revealed a hybridisation event between the two species. However, as hybridisation between the two species is rare, it can be concluded that the temporally isolated niches (i.e., seasonal-shifted occurrence) they inhabit based on their different temperature preferences most likely represent a pre-zygotic isolation mechanism that allows sympatric occurrence while maintaining species boundaries. To determine the processes underlying zooplankton community assembly, a zooplankton metacommunity comprising 24 kettle holes was sampled over a two-year period. Active (i.e., water samples) and dormant communities (i.e., dormant eggs hatched from sediment) were identified using a two-fragment DNA metabarcoding approach (COI and 18S). Species richness and diversity as well as community composition were analysed considering spatial, temporal and environmental parameters. The analysis revealed that environmental filtering based on parameters such as pH, size and location of the habitat patch (i.e., kettle hole) and surrounding field crops largely determined zooplankton community composition (explained variance: Bray-Curtis dissimilarities: 10.5%; Jaccard dissimilarities: 12.9%), indicating that adaptation to a particular habitat is a key feature of zooplankton species in this system. While the spatial configuration of the kettle holes played a minor role (explained variance: Bray-Curtis dissimilarities: 2.8% and Jaccard dissimilarities: 5.5%), the individual kettle hole sites had a significant influence on the community composition. This suggests monopolisation/priority effects (i.e., dormant communities) of certain species in individual kettle holes. As environmental filtering is the dominating process structuring zooplankton communities, this system could be significantly influenced by future land-use change, pollution and climate change. N2 - In Zeiten des fortschreitenden Verlusts biologischer Vielfalt ist es von entscheidender Bedeutung zu verstehen, wie natürliche Gemeinschaften strukturiert sind und welche Mechanismen und lokalen Anpassungen den beobachteten Biodiversitätsmustern zugrunde liegen, um eine wissenschaftliche Grundlage für die Vorhersage künftiger Veränderungen der lokalen und regionalen biologische Vielfalt zu schaffen. Aquatisches Zooplankton ist eine artenreiche Gruppe Primärkonsumenten, die ein entscheidendes Glied in der Nahrungskette darstellen, indem sie Nährstoffe für das gesamte Nahrungsnetz bereitstellen. Daher ist es von entscheidender Bedeutung, die Anpassungsfähigkeit und Struktur von Zooplanktongemeinschaften zu verstehen. In dieser Arbeit wurden die genetischen Grundlagen für die unterschiedliche Temperaturanpassung zweier saisonal-versetzt (d.h. temperaturabhängig) vorkommender limnischen Rädertierarten eines ehemals kryptischen Artenkomplexes (Brachionus calyciflorus) untersucht, um die genetische Variation und das evolutionäre Divergenz-Szenario sowie Grundlagen für die mutmaßliche Anpassungen an unterschiedliche Temperaturregime zu verstehen. Weiterhin sollte untersucht werden, ob die Temperaturanpassungen als Prozess der Nischenaufteilung verstanden werden können die die Koexistenz der Arten ermöglicht. Diese Ergebnisse wurden dann in einen Metagemeinschaftskontext eingebettet, um zu verstehen, wie sich Zooplanktongemeinschaften in einer Soll-Metagemeinschaft, welche sich in der nordostdeutschen Region "Uckermark" befindet, zusammensetzen und welche zugrundeliegenden Prozesse zu den beobachteten Biodiversitätsmustern führen. Eine Kombination aus neu generierten mitochondrialen Ressourcen (Genome/codierende Sequenzen) und der Analyse eines Kandidatengens (HSP 40kDa Gen) für die Temperaturanpassung ergab zum einen, dass die globalen Vertreter von B. calyciflorus s.s. einander genetisch ähnlicher sind als B. fernandoi (Nukleotiddiversität: 0,079 intraspezifisch vs. 0,257 interspezifisch) und beide Arten somit eine unterschiedliche genetische Variation besitzen. Zum anderen wird das HSP 40kDa wird nicht nur in dem wärmetoleranten B. calyciflorus s.s. und wärmeempfindlichen B. fernandoi unterschiedlich exprimiert, sondern weist auch strukturelle Variationen mit elf fixierten und sechs positiv selektierten Positionen auf, von denen einige in funktionellen Regionen des HSP 40kDa liegen. Die geschätzte Divergenzzeit von ca. 25-29 Millionen Jahren sowie die fixierten Positionen und die Dominanz anzestraler Aminosäuren in B. calyciflorus s.s. legen nahe, dass B. calyciflorus s.s. in der anzestralen Nische verblieb, während B. fernandoi eine neue Nische besetzte. Der Vergleich von mitochondrialen und nukleären Markern (HSP 40kDa, ITS1, COI) ergab ein Hybridisierungsereignis zwischen beiden Arten. Da Hybridisierung jedoch selten ist, können die zeitlich isolierten Nischen (d.h. saisonal-versetztes Auftreten), die sie aufgrund ihrer unterschiedlichen Temperaturpräferenzen bewohnen, als prä-zygotischer Isolationsmechanismus verstanden werden, der ein sympatrisches Vorkommen der Arten unter Aufrechterhaltung der Artgrenzen ermöglicht. Um die Prozesse zu bestimmen, die der Strukturierung von Zooplanktongemeinschaften zugrunde liegen, wurde über einen Zeitraum von zwei Jahren eine Zooplankton-Metagemeinschaft, bestehend aus 24 Söllen beprobt. Aktive (d.h. Wasserproben) und ruhende Gemeinschaften (d.h. aus dem Sediment geschlüpfte Gemeinschaften) wurden mit einem Zwei-Fragment-DNA-Metabarcoding-Ansatz (COI und 18S) bestimmt. Die Artenzahl und Abundanz sowie die Zusammensetzung der Gemeinschaften wurden unter Berücksichtigung räumlicher, zeitlicher und umweltbezogener Parameter analysiert. Die Analyse ergab, dass Umweltfilterung basierend auf Parametern wie pH-Wert, Größe, Lage und Typ des Habitats (d.h. des Solls) und der umgebenden Feldfrüchte die Zusammensetzung der Zooplanktongemeinschaft weitgehend bestimmt (erklärte Varianz: Bray-Curtis-Dissimilaritäten: 10,5%; Jaccard-Dissimilaritäten: 12,9%), was darauf hindeutet, dass die Anpassung an einen bestimmten Lebensraum ein wichtiges Merkmal der Zooplanktonarten in diesem System ist. Während die räumliche Struktur der Sölle eine geringe Rolle spielte (erklärte Varianz: Bray-Curtis-Dissimilaritäten: 2,8% und Jaccard-Dissimilaritäten: 5,5%), hatten die einzelnen Standorte einen erheblichen Einfluss auf die Zusammensetzung der Gemeinschaft. Dies deutet auf Monopolisierung/Prioritätseffekte (d.h. ruhende Gemeinschaften) bestimmter Arten in einzelnen Söllen hin. Da Umweltfilterung der dominierende Prozess für die Strukturierung der Zooplanktongemeinschaften ist, könnte dieses System durch künftige Landnutzungsänderungen, Verschmutzung und Klimawandel erheblich beeinflusst werden. KW - Zooplankton KW - Metacommunity KW - B. calyciflorus species complex KW - adaptation KW - hybridization KW - Metagemeinschaft KW - Anpassung KW - Hybridisierung Y1 - 2023 ER - TY - JOUR A1 - Tesselaar, Max A1 - Botzen, W. J. Wouter A1 - Haer, Toon A1 - Hudson, Paul A1 - Tiggeloven, Timothy A1 - Aerts, Jeroen C. J. H. T1 - Regional inequalities in flood insurance affordability and uptake under climate change JF - Sustainability N2 - Flood insurance coverage can enhance financial resilience of households to changing flood risk caused by climate change. However, income inequalities imply that not all households can afford flood insurance. The uptake of flood insurance in voluntary markets may decline when flood risk increases as a result of climate change. This increase in flood risk may cause substantially higher risk-based insurance premiums, reduce the willingness to purchase flood insurance, and worsen problems with the unaffordability of coverage for low-income households. A socio-economic tipping-point can occur when the functioning of a formal flood insurance system is hampered by diminishing demand for coverage. In this study, we examine whether such a tipping-point can occur in Europe for current flood insurance systems under different trends in future flood risk caused by climate and socio-economic change. This analysis gives insights into regional inequalities concerning the ability to continue to use flood insurance as an instrument to adapt to changing flood risk. For this study, we adapt the "Dynamic Integrated Flood and Insurance" (DIFI) model by integrating new flood risk simulations in the model that enable examining impacts from various scenarios of climate and socio-economic change on flood insurance premiums and consumer demand. Our results show rising unaffordability and declining demand for flood insurance across scenarios towards 2080. Under a high climate change scenario, simulations show the occurrence of a socio-economic tipping-point in several regions, where insurance uptake almost disappears. A tipping-point and related inequalities in the ability to use flood insurance as an adaptation instrument can be mitigated by introducing reforms of flood insurance arrangements. KW - climate change KW - flood risk management KW - insurance KW - socio-economic KW - tipping-point KW - adaptation KW - partial equilibrium modeling Y1 - 2020 U6 - https://doi.org/10.3390/su12208734 SN - 2071-1050 VL - 12 IS - 20 PB - MDPI CY - Basel ER -