TY - JOUR A1 - Tiedemann, Ralph A1 - Paulus, Kirsten B. A1 - Havenstein, Katja A1 - Thorstensen, Sverrir A1 - Petersen, Aevar A1 - Lyngs, Peter A1 - Milinkovitch, Michel C. T1 - Alien eggs in duck nests brood parasitism or a help from Grandma? JF - Molecular ecology N2 - Intraspecific brood parasitism (IBP) is a remarkable phenomenon by which parasitic females can increase their reproductive output by laying eggs in conspecific females' nests in addition to incubating eggs in their own nest. Kin selection could explain the tolerance, or even the selective advantage, of IBP, but different models of IBP based on game theory yield contradicting predictions. Our analyses of seven polymorphic autosomal microsatellites in two eider duck colonies indicate that relatedness between host and parasitizing females is significantly higher than the background relatedness within the colony. This result is unlikely to be a by-product of relatives nesting in close vicinity, as nest distance and genetic identity are not correlated. For eider females that had been ring-marked during the decades prior to our study, our analyses indicate that (i) the average age of parasitized females is higher than the age of nonparasitized females, (ii) the percentage of nests with alien eggs increases with the age of nesting females, (iii) the level of IBP increases with the host females' age, and (iv) the number of own eggs in the nest of parasitized females significantly decreases with age. IBP may allow those older females unable to produce as many eggs as they can incubate to gain indirect fitness without impairing their direct fitness: genetically related females specialize in their energy allocation, with young females producing more eggs than they can incubate and entrusting these to their older relatives. Intraspecific brood parasitism in ducks may constitute cooperation among generations of closely related females. KW - eider duck KW - indirect fitness KW - intraspecific brood parasitism KW - microsatellites KW - relatedness KW - Somateria mollissima Y1 - 2011 U6 - https://doi.org/10.1111/j.1365-294X.2011.05158.x SN - 0962-1083 VL - 20 IS - 15 SP - 3237 EP - 3250 PB - Wiley-Blackwell CY - Hoboken ER - TY - JOUR A1 - Fiorentino, V. A1 - Manganelli, Giuseppe A1 - Giusti, Folco A1 - Tiedemann, Ralph A1 - Ketmaier, Valerino T1 - A question of time the land snail Murella muralis (Gastropoda: Pulmonata) reveals constraints on past ecological speciation JF - Molecular ecology N2 - The lively debate about speciation currently focuses on the relative importance of factors driving population differentiation. While many studies are increasingly producing results on the importance of selection, little is known about the interaction between drift and selection. Moreover, there is still little knowledge on the spatial-temporal scales at which speciation occurs, that is, arrangement of habitat patches, abruptness of habitat transitions, climate and habitat changes interacting with selective forces. To investigate these questions, we quantified variation on a fine geographical scale analysing morphological (shell) and genetic data sets coupled with environmental data in the land snail Murella muralis, endemic to the Mediterranean island of Sicily. Analysis of a fragment of the mitochondrial DNA cytochrome oxidase I gene (COI) and eight nuclear microsatellite loci showed that genetic variation is highly structured at a very fine spatial scale by local palaeogeographical events and historical population dynamics. Molecular clock estimates, calibrated here specifically for Tyrrhenian land snails, provided a framework of palaeogeographical events responsible for the observed geographical variations and migration routes. Finally, we showed for the first time well-documented lines of evidence of selection in the past, which explains divergence of land snail shell shapes. We suggest that time and palaeogeographical history acted as constraints in the progress along the ecological speciation continuum. Our study shows that testing for correlation among palaeogeography, morphology and genetic data on a fine geographical scale provides information fundamental for a detailed understanding of ecological speciation processes. KW - allopatry KW - cytochrome oxidase I gene KW - ecological speciation KW - land snails KW - microsatellites KW - Murella Y1 - 2013 U6 - https://doi.org/10.1111/mec.12107 SN - 0962-1083 SN - 1365-294X VL - 22 IS - 1 SP - 170 EP - 186 PB - Wiley-Blackwell CY - Hoboken ER - TY - JOUR A1 - Pavesi, Laura A1 - Ketmaier, Valerio T1 - Patterns of genetics structuring and levels of differentiation in supralittoral talitrid amphipods - an overview JF - Crustaceana : international journal of crustacean research N2 - Talitrids are the only family within the order Amphipoda to have colonised supralittoral and terrestrial environments. They live in a variety of settings, from sandy to rocky and pebble beaches, to river and lake banks, and to leaf litter and caves. A common feature is the absence of a planktonic larval stage to facilitate passive dispersal over long-distances. However, some species have broad distributions. Genetic studies over the past 25 years have tried to explain this apparent contradiction by assessing patterns of species genetic structuring on different geographical scales. Here, we review the molecular studies available to date and focus on the population genetics of talitrids. Most of these studies considered populations in the Mediterranean area, but also along the Atlantic coast and in Canary Island caves. From this review, the group emerges as a potential model to understand processes of dispersal and divergence in non-highly-vagile supralittoral organisms. At the same time, studies on these issues are still too restricted geographically: a worldwide scale including different regions would provide us with a better perspective on these problems. KW - Supralittoral talitrids KW - dispersal KW - gene flow KW - allozymes KW - mitochondrial DNA KW - microsatellites Y1 - 2013 U6 - https://doi.org/10.1163/15685403-00003212 SN - 0011-216X VL - 86 IS - 7-8 SP - 890 EP - 907 PB - Brill CY - Leiden ER - TY - JOUR A1 - Tiedemann, Ralph A1 - Schneider, Anja R. R. A1 - Havenstein, Katja A1 - Blanck, Torsten A1 - Meier, Elmar A1 - Raffel, Martina A1 - Zwartepoorte, Henk A1 - Plath, Martin T1 - New microsatellite markers allow high-resolution taxon delimitation in critically endangered Asian box turtles, genus Cuora JF - Salamandra : German journal of herpetology N2 - We isolated and characterized 16 new di- and tetranudeotide microsatellite markers for the critically endangered Asian box turtle genus Cuora, focusing on the "Cuora trifasciata" species complex. The new markers were then used to analyse genetic variability and divergence amongst five described species within this complex, namely C. aurocapitata (n = 18), C. cyclornata (n = 31), C. pani (n = 6), C. trifasciata (n = 58), and C. zhoui (n = 7). Our results support the view that all five species represent valid taxa. Within two species (C. trifasciata and C. cyclornata), two distinct morphotypes were corroborated by microsatellite divergence. For three individuals, morphologically identified as being of hybrid origin, the hybrid status was confirmed by our genetic analysis. Our results confirm the controversial species (Cuora aurocapitata, C. cyclornata) and subspecies/morphotypes (C. cyclornata meieri, C. trifasciata cf. trifasciata) to be genetically distinct, which has critical implications for conservation strategies. KW - Testudines KW - Cuora KW - box turtles KW - captive breeding KW - conservation units KW - microsatellites Y1 - 2014 SN - 0036-3375 VL - 50 IS - 3 SP - 139 EP - 146 PB - Deutsche Gesellschaft für Herpetologie und Terrarienkunde CY - Darmstadt ER - TY - GEN A1 - Bull, James K. A1 - Heurich, Marco A1 - Saveljev, Alexander P. A1 - Schmidt, Krzysztof A1 - Fickel, Jörns A1 - Förster, Daniel W. T1 - The effect of reintroductions on the genetic variability in Eurasian lynx populations BT - the cases of Bohemian–Bavarian and Vosges–Palatinian populations T2 - Postprints der Universität Potsdam : Mathematisch Naturwissenschaftliche Reihe N2 - Over the past ~40 years, several attempts were made to reintroduce Eurasian lynx to suitable habitat within their former distribution range in Western Europe. In general, limited numbers of individuals have been released to establish new populations. To evaluate the effects of reintroductions on the genetic status of lynx populations we used 12 microsatellite loci to study lynx populations in the Bohemian–Bavarian and Vosges–Palatinian forests. Compared with autochthonous lynx populations, these two reintroduced populations displayed reduced genetic diversity, particularly the Vosges–Palatinian population. Our genetic data provide further evidence to support the status of ‘endangered’ and ‘critically endangered’ for the Bohemian–Bavarian and Vosges–Palatinian populations, respectively. Regarding conservation management, we highlight the need to limit poaching, and advocate additional translocations to bolster genetic variability. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 884 KW - lynx KW - microsatellites KW - population history KW - reintroduction Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-435117 SN - 1866-8372 IS - 884 SP - 1229 EP - 1234 ER - TY - GEN A1 - Sammler, Svenja A1 - Ketmaier, Valerio A1 - Havenstein, Katja A1 - Krause, Ulrike A1 - Curio, Eberhard A1 - Tiedemann, Ralph T1 - Mitochondrial control region I and microsatellite analyses of endangered Philippine hornbill species (Aves; Bucerotidae) detect gene flow between island populations and genetic diversity loss N2 - Background: The Visayan Tarictic Hornbill (Penelopides panini) and the Walden's Hornbill (Aceros waldeni) are two threatened hornbill species endemic to the western islands of the Visayas that constitute - between Luzon and Mindanao - the central island group of the Philippine archipelago. In order to evaluate their genetic diversity and to support efforts towards their conservation, we analyzed genetic variation in similar to 600 base pairs (bp) of the mitochondrial control region I and at 12-19 nuclear microsatellite loci. The sampling covered extant populations, still occurring only on two islands (P. panini: Panay and Negros, A. waldeni: only Panay), and it was augmented with museum specimens of extinct populations from neighboring islands. For comparison, their less endangered (= more abundant) sister taxa, the Luzon Tarictic Hornbill (P. manillae) from the Luzon and Polillo Islands and the Writhed Hornbill (A. leucocephalus) from Mindanao Island, were also included in the study. We reconstructed the population history of the two Penelopides species and assessed the genetic population structure of the remaining wild populations in all four species. Results: Mitochondrial and nuclear data concordantly show a clear genetic separation according to the island of origin in both Penelopides species, but also unravel sporadic over-water movements between islands. We found evidence that deforestation in the last century influenced these migratory events. Both classes of markers and the comparison to museum specimens reveal a genetic diversity loss in both Visayan hornbill species, P. panini and A. waldeni, as compared to their more abundant relatives. This might have been caused by local extinction of genetically differentiated populations together with the dramatic decline in the abundance of the extant populations. Conclusions: We demonstrated a loss in genetic diversity of P. panini and A. waldeni as compared to their sister taxa P. manillae and A. leucocephalus. Because of the low potential for gene flow and population exchange across islands, saving of the remaining birds of almost extinct local populations - be it in the wild or in captivity - is particularly important to preserve the species' genetic potential. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 378 KW - biogeography KW - bucerotidae KW - conservation genetics KW - genetic diversity loss KW - microsatellites KW - mitochondrial control region I KW - Philippine archipelago KW - phylogeography Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-401108 ER - TY - JOUR A1 - Stillfried, Milena A1 - Fickel, Jörns A1 - Börner, Konstantin A1 - Wittstatt, Ulrich A1 - Heddergott, Mike A1 - Ortmann, Sylvia A1 - Kramer-Schadt, Stephanie A1 - Frantz, Alain C. T1 - Do cities represent sources, sinks or isolated islands for urban wild boar population structure? JF - Journal of applied ecology : an official journal of the British Ecological Society KW - baps KW - Berlin KW - diyabc KW - human-wildlife conflict KW - hunting KW - microsatellites KW - movement barrier KW - source-sink dynamics KW - structure KW - urban ecology Y1 - 2017 U6 - https://doi.org/10.1111/1365-2664.12756 SN - 0021-8901 SN - 1365-2664 VL - 54 IS - 1 SP - 272 EP - 281 PB - Wiley-Blackwell CY - Hoboken ER - TY - JOUR A1 - Eckert, Silvia A1 - Herden, Jasmin A1 - Stift, Marc A1 - Joshi, Jasmin Radha A1 - van Kleunen, Mark T1 - Manipulation of cytosine methylation does not remove latitudinal clines in two invasive goldenrod species in Central Europe JF - Molecular ecology N2 - Invasive species frequently differentiate phenotypically in novel environments within a few generations, often even with limited genetic variation. For the invasive plants Solidago canadensis and S. gigantea, we tested whether such differentiation might have occurred through heritable epigenetic changes in cytosine methylation. In a 2-year common-garden experiment, we grew plants from seeds collected along a latitudinal gradient in their non-native Central European range to test for trait differentiation and whether differentiation disappeared when seeds were treated with the demethylation agent zebularine. Microsatellite markers revealed no population structure along the latitudinal gradient in S. canadensis, but three genetic clusters in S. gigantea. Solidago canadensis showed latitudinal clines in flowering phenology and growth. In S. gigantea, the number of clonal offspring decreased with latitude. Although zebularine had a significant effect on early growth, probably through effects on cytosine methylation, latitudinal clines remained (or even got stronger) in plants raised from seeds treated with zebularine. Thus, our experiment provides no evidence that epigenetic mechanisms by selective cytosine methylation contribute to the observed phenotypic differentiation in invasive goldenrods in Central Europe. KW - common‐garden experiment KW - epigenetic variation KW - microsatellites KW - Solidago canadensis KW - Solidago gigantea KW - zebularine Y1 - 2020 U6 - https://doi.org/10.1111/mec.15722 SN - 0962-1083 SN - 1365-294X VL - 30 IS - 1 SP - 222 EP - 236 PB - Wiley CY - Hoboken ER - TY - GEN A1 - Eckert, Silvia A1 - Herden, Jasmin A1 - Stift, Marc A1 - Joshi, Jasmin Radha A1 - van Kleunen, Mark T1 - Manipulation of cytosine methylation does not remove latitudinal clines in two invasive goldenrod species in Central Europe T2 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe N2 - Invasive species frequently differentiate phenotypically in novel environments within a few generations, often even with limited genetic variation. For the invasive plants Solidago canadensis and S. gigantea, we tested whether such differentiation might have occurred through heritable epigenetic changes in cytosine methylation. In a 2-year common-garden experiment, we grew plants from seeds collected along a latitudinal gradient in their non-native Central European range to test for trait differentiation and whether differentiation disappeared when seeds were treated with the demethylation agent zebularine. Microsatellite markers revealed no population structure along the latitudinal gradient in S. canadensis, but three genetic clusters in S. gigantea. Solidago canadensis showed latitudinal clines in flowering phenology and growth. In S. gigantea, the number of clonal offspring decreased with latitude. Although zebularine had a significant effect on early growth, probably through effects on cytosine methylation, latitudinal clines remained (or even got stronger) in plants raised from seeds treated with zebularine. Thus, our experiment provides no evidence that epigenetic mechanisms by selective cytosine methylation contribute to the observed phenotypic differentiation in invasive goldenrods in Central Europe. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1378 KW - common‐garden experiment KW - epigenetic variation KW - microsatellites KW - Solidago canadensis KW - Solidago gigantea KW - zebularine Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-569528 SN - 1866-8372 IS - 1 ER - TY - THES A1 - Eckert, Silvia T1 - Trait variation in changing environments: Assessing the role of DNA methylation in non-native plant species T1 - Merkmalsvariation in sich verändernden Umgebungen: Bewertung der Rolle der DNA-Methylierung bei nicht einheimischen Pflanzenarten N2 - The increasing introduction of non-native plant species may pose a threat to local biodiversity. However, the basis of successful plant invasion is not conclusively understood, especially since these plant species can adapt to the new range within a short period of time despite impoverished genetic diversity of the starting populations. In this context, DNA methylation is considered promising to explain successful adaptation mechanisms in the new habitat. DNA methylation is a heritable variation in gene expression without changing the underlying genetic information. Thus, DNA methylation is considered a so-called epigenetic mechanism, but has been studied in mainly clonally reproducing plant species or genetic model plants. An understanding of this epigenetic mechanism in the context of non-native, predominantly sexually reproducing plant species might help to expand knowledge in biodiversity research on the interaction between plants and their habitats and, based on this, may enable more precise measures in conservation biology. For my studies, I combined chemical DNA demethylation of field-collected seed material from predominantly sexually reproducing species and rearing offsping under common climatic conditions to examine DNA methylation in an ecological-evolutionary context. The contrast of chemically treated (demethylated) plants, whose variation in DNA methylation was artificially reduced, and untreated control plants of the same species allowed me to study the impact of this mechanism on adaptive trait differentiation and local adaptation. With this experimental background, I conducted three studies examining the effect of DNA methylation in non-native species along a climatic gradient and also between climatically divergent regions. The first study focused on adaptive trait differentiation in two invasive perennial goldenrod species, Solidago canadensis sensu latu and S. gigantea AITON, along a climate gradient of more than 1000 km in length in Central Europe. I found population differences in flowering timing, plant height, and biomass in the temporally longer-established S. canadensis, but only in the number of regrowing shoots for S. gigantea. While S. canadensis did not show any population structure, I was able to identify three genetic groups along this climatic gradient in S. gigantea. Surprisingly, demethylated plants of both species showed no change in the majority of traits studied. In the subsequent second study, I focused on the longer-established goldenrod species S. canadensis and used molecular analyses to infer spatial epigenetic and genetic population differences in the same specimens from the previous study. I found weak genetic but no epigenetic spatial variation between populations. Additionally, I was able to identify one genetic marker and one epigenetic marker putatively susceptible to selection. However, the results of this study reconfirmed that the epigenetic mechanism of DNA methylation appears to be hardly involved in adaptive processes within the new range in S. canadensis. Finally, I conducted a third study in which I reciprocally transplanted short-lived plant species between two climatically divergent regions in Germany to investigate local adaptation at the plant family level. For this purpose, I used four plant families (Amaranthaceae, Asteraceae, Plantaginaceae, Solanaceae) and here I additionally compared between non-native and native plant species. Seeds were transplanted to regions with a distance of more than 600 kilometers and had either a temperate-oceanic or a temperate-continental climate. In this study, some species were found to be maladapted to their own local conditions, both in non-native and native plant species alike. In demethylated individuals of the plant species studied, DNA methylation had inconsistent but species-specific effects on survival and biomass production. The results of this study highlight that DNA methylation did not make a substantial contribution to local adaptation in the non-native as well as native species studied. In summary, my work showed that DNA methylation plays a negligible role in both adaptive trait variation along climatic gradients and local adaptation in non-native plant species that either exhibit a high degree of genetic variation or rely mainly on sexual reproduction with low clonal propagation. I was able to show that the adaptive success of these non-native plant species can hardly be explained by DNA methylation, but could be a possible consequence of multiple introductions, dispersal corridors and meta-population dynamics. Similarly, my results illustrate that the use of plant species that do not predominantly reproduce clonally and are not model plants is essential to characterize the effect size of epigenetic mechanisms in an ecological-evolutionary context. N2 - Die zunehmende Eintragung nicht-heimischer Pflanzenarten kann eine Gefahr für die lokale Artenvielfalt darstellen. Die Grundlagen einer erfolgreichen pflanzlichen Ausbreitung sind jedoch nicht abschließend geklärt, zumal sich diese Arten innerhalb kurzer Zeit an das neue Verbreitungsgebiet anpassen können trotz anfänglich reduzierter genetischer Vielfalt der Startpopulationen. In diesem Kontext gilt DNA-Methylierung als vielversprechend, um erfolgreiche Anpassungsmechanismen im neuen Lebensraum zu erklären. Bei der DNA-Methylierung handelt es sich um eine vererbbare Variation der Genaktivität, ohne dass die zugrundeliegende genetische Erbinformation verändert wird. Damit gehört DNA-Methylierung zu den sogenannten epigenetischen Mechanismen, wurde jedoch vorwiegend bei sich klonal vermehrenden Pflanzenarten oder genetischen Modellpflanzen untersucht. Ein Verständnis dieses epigenetischen Mechanismus im Zusammenhang mit nicht-einheimischen, sich vorwiegend sexuell reproduzierenden Pflanzenarten erweitert das Wissen in der Biodiversitätsforschung zur Interaktion zwischen Pflanzen und ihrem Lebensraum und kann, darauf aufbauend, präzisere Maßnahmen in der Naturschutzbiologie ermöglichen. Für meine Studien kombinierte ich die chemische DNA-Demethylierung von im Freiland gesammeltem Samenmaterial sich vorwiegend sexuell fortpflanzender Arten und die Aufzucht unter gemeinsamen klimatischen Bedingungen, um DNA-Methylierung im ökologisch-evolutionären Kontext zu untersuchen. Der Kontrast von chemisch behandelten (demethylierten) Pflanzen, deren Methylierungsvariation nun künstlich verringert war, und unbehandelten Kontrollpflanzen derselben Art ermöglichte mir die Auswirkung dieses Mechanismus auf adaptive Merkmalsvariationen und lokale Anpassung zu studieren. Vor diesem experimentellen Hintergrund führte ich drei Studien durch, um die Auswirkung von DNA-Methylierung bei nicht-einheimischen Pflanzenarten entlang eines klimatischen Gradienten und zwischen zwei klimatisch unterschiedlichen Regionen zu untersuchen. Die erste Studie konzentrierte sich auf adaptive Merkmalsveränderungen bei Nachkommen von zwei invasiven, mehrjährigen Goldrutenarten, Solidago canadensis sensu latu und S. gigantea AITON, entlang eines Klimagradienten von mehr als 1000 km Länge in Zentraleuropa. Ich fand graduelle Unterschiede im Blühzeitpunkt, in der Pflanzenhöhe und der Biomasse bei der zeitlich länger etablierten S. canadensis, bei S. gigantea jedoch nur in der Anzahl der nachwachsenden Triebe. Während S. canadensis keinerlei Populationsstruktur aufwies, konnte ich bei S. gigantea drei genetische Gruppen entlang dieses Klimagradienten identifizieren. Überraschenderweise zeigten demethylierte Pflanzen beider Arten keine Veränderung in der überwiegenden Anzahl der untersuchten Merkmale. In der darauffolgenden zweiten Studie konzentrierte ich mich auf die länger etablierte Goldrutenart S. canadensis und verwendete molekulare Analysen, um räumliche epigenetische und genetische Populationunterschiede aus den Exemplaren der vorhergehenden Studie abzuleiten. Ich fand schwache genetische aber keine epigenetische räumliche Variation zwischen den Populationen. Zusätzlich konnte ich einen genetischen und einen epigenetischen Marker identifizieren, welcher potentiell unter Selektion stehen könnte. Allerdings bestätigten die Ergebnisse dieser Studie erneut, dass DNA-Methylierung bei S. canadensis kaum in die Anpassung an das neue Verbreitungsgebiet involviert zu sein scheint. Schließlich führte ich eine dritte Studie durch, in welcher ich Samen kurzlebiger Pflanzenarten reziprok zwischen zwei klimatisch unterschiedlichen Regionen in Deutschland transplantierte, um lokale Anpassung auf Ebene der Pflanzenfamilien zu untersuchen. Zu diesem Zweck nutze ich vier Pflanzenfamilien (Amaranthaceae, Asteraceae, Plantaginaceae, Solanaceae), wobei ich hier auch zwischen nicht-heimischen und heimischen Pflanzenarten verglich. Beide Regionen lagen mehr als 600 Kilometer voneinander entfernt und wiesen entweder ein gemäßigt-ozeanisches oder gemäßigt-kontinentales Klima auf. In dieser Studie zeigte sich für einige—sowohl nicht-einheimische als auch einhimische—Arten eine Fehlanpassung an die eigenen lokalen Bedingungen. In demethylierten Individuen der untersuchten Pflanzenarten wirkte sich die DNA-Methylierung widersprüchlich, aber artspezifisch auf das Überleben und die Biomasseproduktion aus. Die Ergebnisse dieser Studie unterstreichen, dass DNA-Methylierung einen vernachlässigbaren Beitrag zur lokalen Anpassung bei den untersuchten nicht-heimischen, aber auch einheimischen Arten leistete. Zusammenfassend konnte ich mit dieser Arbeit festellen, dass DNA-Methylierung bei nicht-einheimischen Pflanzenarten eine untergeordnete Rolle sowohl bei der adaptiven Merkmalsvariation entlang von Klimagradienten als auch der lokalen Anpassung an klimatisch unterschiedliche Regionen spielt, wenn diese Pflanzenarten eine hohe genetische Vielfalt aufweisen und sich hauptsächlich sexuell vermehren. Ich konnte zeigen, dass der Anpassungserfolg dieser nicht-einheimischen Pflanzenarten kaum durch DNA-Methylierung erklärbar ist, sondern vielmehr eine mögliche Folge mehrfacher Eintragungen, von Ausbreitungskorridoren und Meta-Populationsdynamiken sein könnte. Die Ergebnisse dieser Studien verdeutlichen ebenso, dass die Verwendung von Pflanzenarten, die sich nicht überwiegend klonal vermehren und keine genetischen Modellpflanzen sind, unerlässlich ist, um die Effektstärke epigenetischer Mechanismen im ökologisch-evolutionären Kontext zu charakterisieren. KW - common-garden experiment KW - reciprocal transplant experiment KW - epigenetics KW - cytosine methylation KW - zebularine KW - adaptive differentiation KW - local adaptation KW - microsatellites KW - Solidago canadensis KW - Solidago gigantea KW - Amaranthus retroflexus KW - Chenopodium album KW - Erigeron canadensis KW - Erigeron annuus KW - Lactuca serriola KW - Senecio vulgaris KW - Sonchus oleraceus KW - Tripleurospermum inodorum KW - Veronica persica KW - Plantago major KW - Datura stramonium KW - Solanum nigrum KW - latitudinal clines KW - population structure KW - invasive KW - ruderal KW - non-native KW - Central Europe KW - Germany KW - AFLP KW - MSAP KW - spatial autocorrelation KW - genome scan KW - Gemeinschaftsgarten-Experiment KW - reziprokes Transplantationsexperiment KW - Epigenetik KW - Cytosin-Methylierung KW - Zebularin KW - adaptive Differenzierung KW - lokale Anpassung KW - Mikrosatelliten KW - Breitengrad KW - Ökokline KW - Populationsstruktur KW - invasiv KW - ruderal KW - nicht-einheimisch KW - Mitteleuropa KW - Deutschland KW - AFLP KW - MSAP KW - räumliche Autokorrelation KW - Genom-Scan Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-568844 ER -