TY  - THES
A1  - Riaño-Pachón, Diego Mauricio
T1  - Identification of transcription factor genes in plants
T1  - Identifizierung von Transkriptionsfaktorgenen in Pflanzen
N2  - In order to function properly, organisms have a complex control mechanism, in which a given gene is expressed at a particular time and place. One way to achieve this control is to regulate the initiation of transcription. This step requires the assembly of several components, i.e., a basal/general machinery common to all expressed genes, and a specific/regulatory machinery, which differs among genes and is the responsible for proper gene expression in response to environmental or developmental signals. This specific machinery is composed of transcription factors (TFs), which can be grouped into evolutionarily related gene families that possess characteristic protein domains. In this work we have exploited the presence of protein domains to create rules that serve for the identification and classification of TFs. We have modelled such rules as a bipartite graph, where families and protein domains are represented as nodes. Connections between nodes represent that a protein domain should (required rule) or should not (forbidden rule) be present in a protein to be assigned into a TF family. Following this approach we have identified putative complete sets of TFs in plant species, whose genome is completely sequenced: Cyanidioschyzon merolae (red algae), Chlamydomonas reinhardtii (green alga), Ostreococcus tauri (green alga), Physcomitrella patens (moss), Arabidopsis thaliana (thale cress), Populus trichocarpa (black cottonwood) and Oryza sativa (rice). The identification of the complete sets of TFs in the above-mentioned species, as well as additional information and reference literature are available at http://plntfdb.bio.uni-potsdam.de/. The availability of such sets allowed us performing detailed evolutionary studies at different levels, from a single family to all TF families in different organisms in a comparative genomics context. Notably, we uncovered preferential expansions in different lineages, paving the way to discover the specific biological roles of these proteins under different conditions. For the basic leucine zipper (bZIP) family of TFs we were able to infer that in the most recent common ancestor (MRCA) of all green plants there were at least four bZIP genes functionally involved in oxidative stress and unfolded protein responses that are bZIP-mediated processes in all eukaryotes, but also in light-dependent regulations. The four founder genes amplified and diverged significantly, generating traits that benefited the colonization of new environments. Currently, following the approach described above, up to 57 TF and 11 TR families can be identified, which are among the most numerous transcription regulatory families in plants. Three families of putative TFs predate the split between rhodophyta (red algae) and chlorophyta (green algae), i.e., G2-like, PLATZ, and RWPRK, and may have been of particular importance for the evolution of eukaryotic photosynthetic organisms. Nine additional families, i.e., ABI3/VP1, AP2-EREBP, ARR-B, C2C2-CO-like, C2C2-Dof, PBF-2-like/Whirly, Pseudo ARR-B, SBP, and WRKY, predate the split between green algae and streptophytes. The identification of putative complete list of TFs has also allowed the delineation of lineage-specific regulatory families. The families SBP, bHLH, SNF2, MADS, WRKY, HMG, AP2-EREBP and FHA significantly differ in size between algae and land plants. The SBP family of TFs is significantly larger in C. reinhardtii, compared to land plants, and appears to have been lost in the prasinophyte O. tauri. The families bHLH, SNF2, MADS, WRKY, HMG, AP2-EREBP and FHA preferentially expanded with the colonisation of land, and might have played an important role in this great moment in evolution. Later, after the split of bryophytes and tracheophytes, the families MADS, AP2-EREBP, NAC, AUX/IAA, PHD and HRT have significantly larger numbers in the lineage leading to seed plants. We identified 23 families that are restricted to land plants and that might have played an important role in the colonization of this new habitat. Based on the list of TFs in different species we have started to develop high-throughput experimental platforms (in rice and C. reinhardtii) to monitor gene expression changes of TF genes under different genetic, developmental or environmental conditions. In this work we present the monitoring of Arabidopsis thaliana TFs during the onset of senescence, a process that leads to cell and tissue disintegration in order to redistribute nutrients (e.g. nitrogen) from leaves to reproductive organs. We show that the expression of 185 TF genes changes when leaves develop from half to fully expanded leaves and finally enter partial senescence. 76% of these TFs are down-regulated during senescence, the remaining are up-regulated. The identification of TFs in plants in a comparative genomics setup has proven fruitful for the understanding of evolutionary processes and contributes to the elucidation of complex developmental programs.
N2  - Organismen weisen einen komplexen Steuerungsmechanismus auf, bei dem die Aktivität eines Gens räumlich und zeitlich reguliert wird. Eine Möglichkeit der Kontrolle der Genaktivität ist Regulation der Initiation der Transkription. Eine Voraussetzung für die Transkriptionsinitiation ist die Zusammenlagerung verschiedener Komponenten: eine allgemeine Maschinerie, die für alle exprimierten Gene gleich ist und eine spezifische Maschinerie, die sich von Gen zu Gen unterscheidet und die für die korrekte Genexpression in Abhängigkeit der Entwicklung und von Umweltsignalen verantwortlich ist. Diese spezifische Maschinerie besteht aus Transkriptionsfaktoren (TFs), welche in evolutionär verwandte Genefamilien eingeteilt werden können, die charakteristische Proteindomänen aufweisen. In dieser Arbeit habe ich die Proteindomänen genutzt, um Regeln aufzustellen, die die Identifizierung und Klassifizierung von TFs erlauben. Solche Regeln wurden als Graphen modelliert, in denen die Familien und Proteindomänen als Knoten repräsentiert wurden. Verbindungen zwischen den Knoten bedeuten, dass eine Proteindomäne in einem Protein entweder vorhanden sein sollte oder nicht vorhanden sein darf, damit das Protein einer TF-Familie zugeordnet wird. Mit Hilfe dieses Ansatzes wurden vermutlich vollständige Datensätze von TFs in Pflanzenspezies generiert, deren Genom komplett sequenziert wurde: C. merolae, C. reinhardtii, O. tauri, P. patens, A. thaliana, P. trichocarpa and O. sativa. Diese kompletten TF-Sätze sowie weitergehende Informationen und Literaturhinweise wurden unter der Internetadresse http://plntfdb.bio.uni-potsdam.de/ öffentlich zugänglich gemacht. Die Datensätze erlaubten es, detailliertere evolutionäre Studien mit unterschiedlichen Schwerpunkten durchzuführen. Diese reichten von der Analyse einzelner Familien bis hin zum genomweiten Vergleich aller TF-Familien in verschiedenen Organismen. Als Resultat besonders erwähnenswert ist, dass bevorzugt einige bestimmte TF-Familien in verschiedenen Spezies expandierten. Diese Studien ebnen den Weg, um die spezifische biologische Rolle dieser Proteine unter verschiedenen Bedingungen zu ergründen. Für die wichtige TF-Familie bZIP konnte gezeigt werden, dass der letzte gemeinsame Vorfahr aller Grünpflanzen mindestens vier bZIP Gene hatte, die funktionell in die Antwort auf oxidativen Stress eingebunden waren. Aus den vier Gründergene entstand durch Genverdopplung und –differenzierung eine große Familie, die Eigenschaften hervorbrachte, die die Besiedelung neuer Lebensräume ermöglichten. Mit Hilfe des oben beschriebenen Ansatzes können derzeit aus der Vielzahl der Transkriptionsregulatorfamilien in Pflanzen bis zu 57 TF und 11 TR Familien identifiziert werden. Drei Familien mutmaßlicher TFs markieren die Trennung zwischen Rhodophyta (Rotalgen) und Chlorophyta (Grünalgen): G2-like, PLATZ und RWPRK. Diese könnten eine besondere Rolle bei der Evolution eukaryotischer photosynthetisch aktiver Organismen gespielt haben. Neun zusätzliche Familien (ABI3/VP1, AP2-EREBP, ARR-B, C2C2-CO-like, C2C2-Dof, PBF-2-like/Whirly, Pseudo ARR-B, SBP und WRKY) kennzeichnen die Trennung zwischen Grünalgen und Streptophyten. Die Identifizierung putativer kompletter Listen an TFs erlaubte auch die Identifizierung abtammungsspezifischer regulatorischer Familien. Die Familien SBP, bHLH, SNF2, MADS, WRKY, HMG, AP2-EREBP und FHA unterscheiden sich signifikant in ihrer Größe zwischen Algen und Landpflanzen. Die SBP Familie ist in C. reinhardtii signifikant größer als in Landpflanzen. In der Parasinophyte O. tauri scheint diese Familie verloren gegangen zu sein. Die Familien bHLH, SNF2, MADS, WRKY, HMG, AP2-EREBP und FHA expandierten präferenziell mit der Kolonialisation an Land. Sie könnten eine wichte Rolle während dieses einschneidenden Ereignisses der Evolution gespielt haben. Später, nach der Trennung von Bryophyten und Tracheophyten sind die Familien MADS, AP2-EREBP, NAC, AUX/IAA, PHD und HRT stärker in den Linien, die zu Samenpflanzen führten, gewachsen. 23 TF-Familien wurden identifiziert, die es nur in Landpflanzen gibt. Sie könnten eine besondere Rolle bei der Besiedelung des neuen Lebensraum gespielt haben. Aufbauend auf die Transkriptionsfaktordatensätze, die in dieser Arbeit erstellt wurden, wurde mittlerweile damit begonnen, experimentelle Hochdurchsatz-Plattformen zu entwickeln (für Reis und für C. reinhardtii), um Änderungen in der Genaktivität der TF-Gene unter verschiedenen genetischen, Entwicklungs- oder Umweltbedingungen zu untersuchen. In dieser Arbeit wird die Analyse von TFs aus A. thaliana im Verlauf der Seneszenz vorgestellt. Seneszenz ist ein Prozess, der zur Zell- und Gewebeauflösung führt, um Nährstoffe aus den Blättern für den Transport in reproduktive Organe freizusetzen. Es wird gezeigt, dass sich die Expression von 187 TF Gene verändert, wenn sich die Blätter voll entfalten und schließlich teilweise in den Prozess der Seneszenz eintreten. 76% der TFs waren runterreguliert, die übrigen waren hochreguliert.
KW  - Transkriptionfaktorgenen
KW  - Regulation
KW  - Evolution
KW  - Datenbank
KW  - Pflanzen
KW  - transcription factor genes
KW  - regulation
KW  - evolution
KW  - plants
KW  - database
Y1  - 2008
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-27009
ER  - 
TY  - THES
A1  - Guedes Corrêa, Luiz Gustavo
T1  - Evolutionary and functional analysis of transcription factors controlling leaf development
T1  - Evolutionäre und funktionelle Analyse von Transkriptionsfaktoren, welche die Blattentwicklung steuern
N2  - Leaves are the main photosynthetic organs of vascular plants, and leaf development is dependent on a proper control of gene expression. Transcription factors (TFs) are global regulators of gene expression that play essential roles in almost all biological processes among eukaryotes. This PhD project focused on the characterization of the sink-to-source transition of Arabidopsis leaves and on the analysis of TFs that play a role in early leaf development. The sink-to-source transition occurs when the young emerging leaves (net carbon importers) acquire a positive photosynthetic balance and start exporting photoassimilates. We have established molecular and physiological markers (i.e., CAB1 and CAB2 expression levels, AtSUC2 and AtCHoR expression patterns, chlorophyll and starch levels, and photosynthetic electron transport rates) to identify the starting point of the transition, especially because the sink-to-source is not accompanied by a visual phenotype in contrast to other developmental transitions, such as the mature-to-senescent transition of leaves. The sink-to-source transition can be divided into two different processes: one light dependent, related to photosynthesis and light responses; and one light independent or impaired, related to the changes in the vascular tissue that occur when leaves change from an import to an export mode. Furthermore, starch, but not sucrose, has been identified as one of the potential signalling molecules for this transition. The expression level of 1880 TFs during early leaf development was assessed by qRTPCR, and 153 TFs were found to exhibit differential expression levels of at least 5-fold. GRF, MYB and SRS are TF families, which are overrepresented among the differentially expressed TFs. Additionally, processes like cell identity acquisition, formation of the epidermis and leaf development are overrepresented among the differentially expressed TFs, which helps to validate the results obtained. Two of these TFs were further characterized. bZIP21 is a gene up-regulated during the sink-to-source and mature-to-senescent transitions. Its expression pattern in leaves overlaps with the one observed for AtCHoR, therefore it constitutes a good marker for the sink-to-source transition. Homozygous null mutants of bZIP21 could not be obtained, indicating that the total absence of bZIP21 function may be lethal to the plant. Phylogenetic analyses indicate that bZIP21 is an orthologue of Liguleless2 from maize. In these analyses, we identified that the whole set of bZIPs in plants originated from four founder genes, and that all bZIPs from angiosperms can be classified into 13 groups of homologues and 34 Possible Groups of Orthologues (PoGOs). bHLH64 is a gene highly expressed in early sink leaves, its expression is downregulated during the mature-to-senescent transition. Null mutants of bHLH64 are characterized by delayed bolting when compared to the wild-type; this indicates a possible delay in the sink-to-source transition or the retention of a juvenile identity. A third TF, Dof4, was also characterized. Dof4 is neither differentially expressed during the sink-to-source nor during the senescent-to-mature transition, but a null mutant of Dof4 develops bigger leaves than the wild-type and forms a greater number of siliques. The Dof4 null mutant has proven to be a good background for biomass accumulation analysis. Though not overrepresented during the sink-to-source transition, NAC transcription factors seem to contribute significantly to the mature-to-senescent transition. Twenty two NACs from Arabidopsis and 44 from rice are differentially expressed during late stages of leaf development. Phylogenetic analyses revealed that most of these NACs cluster into three big groups of homologues, indicating functional conservation between eudicots and monocots. To prove functional conservation of orthologues, the expression of ten NAC genes of barley was analysed. Eight of the ten NAC genes were found to be differentially expressed during senescence. The use of evolutionary approaches combined with functional studies is thus expected to support the transfer of current knowledge of gene control gained in model species to crops.
N2  - Das Blatt ist das wichtigste photosynthetische Organ von Gefäßpflanzen und die Blattentwicklung ist von einer exakten Genexpression abhängig. Transkriptionsfaktoren (TFs) sind globale Regulatoren der Genexpression. Diese sind, in fast allen biologischen Vorgängen der Eukaryoten, von grundlegender Bedeutung. Das Promotionsarbeit legte den Schwerpunkt auf den sogenannten Sink-source-Übergang in Blättern der Modellpflanze Arabidopsis thaliana, zu deutsch Ackerschmalwand. Ein besonderer Fokus lag dabei auf der Analyse von TFs, welche eine wichtige Rolle in der frühen Blattentwicklung spielen. Sehr junge Blätter befinden sich im sogenannten Sink-Status, sie müssen Photoassimilate aus älteren, sogenannten Source-Blättern importieren, da sie selbst noch nicht in der Lage sind, hinreichend viel Kohlendioxid über die Photosynthese zu binden. Der Übergang vom Sink- in den Source-Zustand eines Blattes ist ein hoch komplizierter biologischer Prozess, der bisher nur in Ansätzen verstanden ist. Im Rahmen der Doktorarbeit wurden molekulare und physiologische Marker identifiziert, die es erlauben, den für das bloße Auge nicht ohne weiteres sichtbaren Sink-Source-Übergang zu erkennen. Dazu wurde beispielsweise die Aktivität bestimmter Gene, unter anderem der Gene AtSUC2 und AtCHoR, mittels molekularer Techniken verfolgt. Um den Über zwischen den beiden Entwicklungszuständen eingehend zu charakterisieren wurde die Aktivität von etwa 1900 Regulatorgenen mittels eines multiparallelen Verfahrens - der sogenannten quantitativen RT-PCR - untersucht. Bei den Regulatoren handelt es sich um Transkriptionsfaktoren, die die Aktivität anderer Gene der Pflanzen steuern. Von allen untersuchten Genen zeigten 153 ein vom Blattstadium abhängiges Aktivitätsmuster. Dabei waren Mitglieder der GRF, MYB und SRS Familien überrepräsentiert. Für die gefundenen Transkriptionsfaktoren zeigte sich besonders häufig eine Assoziation zu Prozessen wie Spezialisierung von Zellen, Entwicklung der Epidermis sowie der Blattentwicklung. Zwei ausgewählte Regulatorproteine - bZIP21 und bHLH64 - wurden detaillierter charakterisiert. Das bZIP21-Gen zeigte eine starke Aktivität whrend des Sink-Source-Übergangs. Sein Expressionsmuster in Blättern deckt sich mit dem für AtCHoR beobachteten Expressionsmuster, so dass bZIP21 als ein neuer Marker für die Sink-Source- Transition dienen kann. Es konnten keine homozygoten Null-Mutanten des Gens erhalten werden, was die Vermutung nahelegt, dass gänzliche Abwesenheit von bZIP21 letal fr die Pflanze sein kann. Phylogenetische Analysen ergaben, dass bZIP21 ortholog zum Gen Liguleless2 aus Mais ist. In diesen Analysen konnte gezeigt werden, dass alle pflanzlichen bZIP Transkriptionsfaktoren von vier Gründergenen abstammen und alle bZIPs der Angiospermen in 13 homologe Klassen und 34 mögliche orthologe Klassen (Possible Groups of Orthologues, PoGOs) eingeordnet werden können. Das bHLH64 Gen ist im unreifen Blatt stark aktiv und während des Alterungsprozesses herunterreguliert. Null-Mutationen von bHLH64 zeigen eine verzögerte Blütenbildung im Vergleich zum Wildtyp; dies weist auf eine mögliche Verzögerung in des Sink-SourceÜbergangs oder Aufrechterhaltung der jugendlichen Identität hin. Ein dritter Transkriptionsfaktor, Dof4, wurde ebenfalls charakterisiert. Dof4 wird weder während des Sink-Source-Übergangs noch während des Alterungsprozesses unterschiedlich exprimiert. Eine Null-Mutante von Dof4 besaß größere Blätter und eine höhere Anzahl an Schoten in Vergleich zum Wildtyp. Diese Mutanten erwiesen sich als gut geeignet fr die Analyse der Akkumulation pflanzlicher Biomasse. Obwohl während der Sink-Source Transition nicht überrepräsentiert, scheinen NAC Transkriptionsfaktoren eine große Rolle während des Alterungsprozesses zu spielen. Zweiundzwanzig NAC-Gene von Arabidopsis und 44 von Reis sind in der späten Phase der Blattentwicklung verändert exprimiert. Phylogenetische Analysen erlaubten die Einordnung der meisten dieser NACs in vier homologe Gruppen, was auf einen funktionellen Erhalt zwischen einkeimblättrigen und zweikeimblättrigen Pflanzen hinweist. Um den funktionellen Erhalt von Orthologen zu untersuchen, wurde die Expression von zehn NAC-Genen aus Gerste analysiert. Acht dieser Gene zeigten eine von der Blattalterung abhängige Expression. Die Kombination von evolutionären Analysen und funktionellen Studien könnte den Wissenstransfer von Modellpflanzen auf Getreidepflanzen in Zukunft vereinfachen.
KW  - Evolution
KW  - Transkriptionsfaktoren
KW  - Pflanzen
KW  - Entwicklung
KW  - Blatt
KW  - evolution
KW  - transcription factors
KW  - plant
KW  - development
KW  - leaf
Y1  - 2009
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-40038
ER  - 
TY  - THES
A1  - Castro Prieto, Aines del Carmen
T1  - Immunogenetics of free-ranging felids on Namibian farmlands
T1  - Immungenetik freilebender Raubkatzen in landwirtschaftlich genutzten Regionen Namibias
N2  - Genetic variation is crucial for the long-term survival of the species as it provides the potential for adaptive responses to environmental changes such as emerging diseases. The Major Histocompatibility Complex (MHC) is a gene family that plays a central role in the vertebrate’s immune system by triggering the adaptive immune response after exposure to pathogens. MHC genes have become highly suitable molecular markers of adaptive significance. They synthesize two primary cell surface molecules namely MHC class I and class II that recognize short fragments of proteins derived respectively from intracellular (e.g. viruses) and extracellular (e.g. bacteria, protozoa, arthropods) origins and present them to immune cells. High levels of MHC polymorphism frequently observed in natural populations are interpreted as an adaptation to detect and present a wide array of rapidly evolving pathogens. This variation appears to be largely maintained by positive selection driven mainly by pathogenic selective pressures. For my doctoral research I focused on MHC I and II variation in free-ranging cheetahs (Acinonyx jubatus) and leopards (Panthera pardus) on Namibian farmlands. Both felid species are sympatric thus subject to similar pathogenic pressures but differ in their evolutionary and demographic histories. The main aims were to investigate 1) the extent and patterns of MHC variation at the population level in both felids, 2) the association between levels of MHC variation and disease resistance in free-ranging cheetahs, and 3) the role of selection at different time scales in shaping MHC variation in both felids. Cheetahs and leopards represent the largest free-ranging carnivores in Namibia. They concentrate in unprotected areas on privately owned farmlands where domestic and other wild animals also occur and the risk of pathogen transmission is increased. Thus, knowledge on adaptive genetic variation involved in disease resistance may be pertinent to both felid species’ conservation. The cheetah has been used as a classic example in conservation genetics textbooks due to overall low levels of genetic variation. Reduced variation at MHC genes has been associated with high susceptibility to infectious diseases in cheetahs. However, increased disease susceptibility has only been observed in captive cheetahs whereas recent studies in free-ranging Namibian cheetahs revealed a good health status. This raised the question whether the diversity at MHC I and II genes in free-ranging cheetahs is higher than previously reported. In this study, a total of 10 MHC I alleles and four MHC II alleles were observed in 149 individuals throughout Namibia. All alleles but one likely belong to functional MHC genes as their expression was confirmed. The observed alleles belong to four MHC I and three MHC II genes in the species as revealed by phylogenetic analyses. Signatures of historical positive selection acting on specific sites that interact directly with pathogen-derived proteins were detected in both MHC classes. Furthermore, a high genetic differentiation at MHC I was observed between Namibian cheetahs from east-central and north-central regions known to differ substantially in exposure to feline-specific viral pathogens. This suggests that the patterns of MHC I variation in the current population mirrors different pathogenic selective pressure imposed by viruses. Cheetahs showed low levels of MHC diversity compared with other mammalian species including felids, but this does not seem to influence the current immunocompetence of free-ranging cheetahs in Namibia and contradicts the previous conclusion that the cheetah is a paradigm species of disease susceptibility. However, it cannot be ruled out that the low MHC variation might limit a prosperous immunocompetence in the case of an emerging disease scenario because none of the remaining alleles might be able to recognize a novel pathogen. In contrast to cheetahs, leopards occur in most parts of Africa being perhaps the most abundant big cat in the continent. Leopards seem to have escaped from large-scale declines due to epizootics in the past in contrast to some free-ranging large carnivore populations in Africa that have been afflicted by epizootics. Currently, no information about the MHC sequence variation and constitution in African leopards exists. In this study, I characterized genetic variation at MHC I and MHC II genes in free-ranging leopards from Namibia. A total of six MHC I and six MHC II sequences were detected in 25 individuals from the east-central region. The maximum number of sequences observed per individual suggests that they likely correspond to at least three MHC I and three MHC II genes. Hallmarks of MHC evolution were confirmed such as historical positive selection, recombination and trans-species polymorphism. The low MHC variation detected in Namibian leopards is not conclusive and further research is required to assess the extent of MHC variation in different areas of its geographic range. Results from this thesis will contribute to better understanding the evolutionary significance of MHC and conservation implications in free-ranging felids. Translocation of wildlife is an increasingly used management tool for conservation purposes that should be conducted carefully as it may affect the ability of the translocated animals to cope with different pathogenic selective pressures.
N2  - Genetische Variabilität ist entscheidend für das langfristige Überleben von Arten, denn es ermöglicht dem Organismus sich Umweltveränderungen, wie z.B. neu aufkommende Krankheiten, schneller anzupassen. Der Haupthistocompatibilitätskomplex (MHC) ist eine Familie von Genen, der eine zentrale Rolle im Immunsystem von Wirbeltieren zukommt, da sie nach Pathogenkontakt das adaptive Immunsystem aktivieren. Zudem sind MHC Gene geeignete molekulare Marker um Anpassungsfähigkeiten aufzuzeigen. MHC Gene kodieren primär für Zelloberflächenmoleküle, die kurze Peptidfragmente erkennen und den Immunzellen präsentieren, die im Falle der Klasse I Gene intrazellulären (z.B. von Viren) oder im Falle der Klasse II Gene extrazellulären (z.B. von Bakterien, Protozoen, Arthropoden) Ursprungs sein können. In der Regel wird in natürlich vorkommenden Populationen ein hoher Grad an Polymorphismus im MHC beobachtet, was als Anpassung an das Erkennen und Präsentieren einer großen Anzahl sich schnell entwickelnder Pathogene interpretiert wird. Das Bestehen vieler MHC Varianten über große Zeiträume hinweg wird hauptsächlich durch positive Selektion bewirkt, der ein pathogengetriebener Selektionsdruck zugrunde liegt. In meiner Doktorarbeit habe ich mich mit der Variation von MHC I and MHC II in freilebenden Geparden (Acinonyx jubatus) und Leoparden (Panthera pardus) in Farmgebieten innerhalb Namibias beschäftigt. Beide Felidenarten leben sympatrisch und sind so demselben Pathogendruck ausgesetzt, sie unterscheiden sich allerdings in ihrem evolutionären und demographischen Hintergrund. Mein Hauptziel war es 1) das Ausmaß und Muster der MHC Variation auf Populationsebene beider Feliden zu untersuchen; 2) einen möglichen Zusammenhang zwischen dem Grad der MHC Variation und der Krankheitsresistenz in frei lebenden Geparden aufzudecken und 3) zu untersuchen, welche Rolle der Selektion auf die MHC Variabilität beider Arten in der Vergangenheit wie auch gegenwärtig zukommt. Geparden und Leoparden repräsentieren die größten frei lebenden Carnivoren Namibias. Beide Arten kommen hauptsächlich in Farmgebieten vor, die sich in Privatbesitz befinden, und können dort mit anderen Wild- aber auch Haustieren zusammentreffen und potentiell Krankheitserreger austauschen. Die Kenntnis über die adaptive genetische Variation, die für Krankheitsresistenzen mitverantwortlich ist, kann für den Schutz beider Felidenarten von Bedeutung sein. Geparden werden häufig in Lehrbüchern als klassische Beispiele für eine Tierart mit einer generell geringen genetischen Diversität verwendet. Neben neutralen Markern ist bei Geparden auch eine geringe Variabilität der MHC Gene beschrieben worden, die als Ursache einer hohen Anfälligkeit für infektiöse Krankheiten gesehen wird. Bisher wurde allerdings eine erhöhte Krankheitsanfälligkeit nur bei Geparden aus Gefangenschaft beschrieben, wohingegen neuste Studien an frei lebenden Geparden diesen einen guten Gesundheitsstatus attestierten. Dadurch stellt sich die Frage, ob die MHC I und II Diversität in frei lebenden Geparden nicht höher sein könnte als bisher angenommen. In dieser Arbeit konnten insgesamt 10 MHC I und vier MHC II Allele in 149 frei lebenden Geparden aus ganz Namibia nachgewiesen werden. Die Zugehörigkeit zu funktionellen MHC Genen wurde durch Expressionsanalysen bei allen Allelen, außer einem, bestätigt. Durch phylogenetische Analysen konnten die Allele vier MHC I und drei MHC II Genen zu geordnet werden. Das Wirken von positiver Selektion in der Vergangenheit konnte an spezifischen Aminosäuren des Proteins, die in direktem Kontakt zu den pathogenen Antigenen stehen, festgestellt werden. Dies traf für beide MHC Klassen zu. Des Weiteren konnte eine starke genetische Differenzierung des MHC I zwischen Geparden aus einer nord-zentralen und einer ost-zentralen Region festgestellt werden, von denen auch bekannt ist, dass sie unterschiedlichen, felidenspezifischen, viralen Pathogenen ausgesetzt sind. Das lässt vermuten, dass die unterschiedlichen Muster der MHC I Variation in der gegenwärtigen Population den unterschiedlichen pathogengetriebenen Selektionsdruck durch Viren in den beiden Regionen widerspiegelt. Verglichen mit anderen Säugetierarten, insbesondere andere Feliden, zeigen Geparden einen geringen Grad an MHC Diversität, doch das scheint die derzeitige Immunkompetenz frei lebender Geparden in Namibia nicht einzuschränken und widerspricht der bisherigen Meinung dass Geparden ein typisches Beispiel für eine krankheitsanfällige Tierart sind. Es kann allerdings nicht ausgeschlossen werden, dass bei neu auftauchenden Krankheiten die geringe MHC Variation eine erfolgreiche Immunkompetenz verhindert, da möglicherweise keines der gegenwärtigen Allele die Fähigkeit besitzt neue Pathogene zu erkennen. Im Gegensatz zu Geparden kommen Leoparden in allen Teilen Afrikas vor und sind wahrscheinlich die am weitverbreiteste Großkatze des afrikanischen Kontinents. Es scheint, dass Leoparden, im Gegensatz zu anderen afrikanischen Großkatzen, einer ausgedehnten Dezimierung durch Tierseuchen in der Vergangenheit, der einige Populationen afrikanischer Großkatzen ausgesetzt waren, entkommen sind. Bisher fehlten Information über die MHC Variabilität in afrikanischen Leoparden. In dieser Studie konnte ich die genetische Variation der MHC I und MHC II Gene frei lebender namibischer Leoparden charakterisieren. In 25 Tieren aus einer Population der ost-zentralen Region konnten sechs MHC I sowie sechs MHC II Sequenzen nachgewiesen werden. Aus der maximalen Anzahl Allele pro Tier kann auf drei MHC I und auf drei MHC II Gene geschlossen werden. Außerdem konnten die typischen Kennzeichen einer variationserhaltenden MHC Evolution betätigt werden, wie positive Selektion in der Vergangenheit, Rekombination und über Artgrenzen hinaus bestehender Polymorphismus. Der geringe Grad an MHC Variation in namibischen Leoparden ist jedoch noch nicht endgültig und weitere Untersuchungen in unterschiedlichen Regionen aus der gesamten geographischen Verbreitung des Leoparden sind notwendig um die MHC Variation der Leoparden in Gänze einschätzen zu können. Die Ergebnisse dieser Arbeit werden zu einem besseren Verständnis des evolutionären Stellenwerts des MHC und in Folge zu einem besseren Schutz von frei lebenden Feliden beitragen. Die Umsiedelung von Wildtieren ist ein zunehmend angewendetes Hilfsmittel im Natur- und Artenschutz, welches jedoch mit Sorgfalt eingesetzt werden sollte, da die umgesiedelten Tiere möglicherweise einem anderen pathogenen Selektionsdruck ausgesetzt sind, dem sie nichts entgegenzusetzen haben.
KW  - MHC
KW  - genetische Vielfalt
KW  - Evolution
KW  - Acinonyx jubatus
KW  - Panthera Pardus
KW  - MHC
KW  - genetic diversity
KW  - evolution
KW  - Acinonyx jubatus
KW  - Panthera pardus
Y1  - 2011
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-55505
ER  - 
TY  - JOUR
A1  - Nguyen, Hung M.
A1  - Schippers, Jos H. M.
A1  - Goni-Ramos, Oscar
A1  - Christoph, Mathias P.
A1  - Dortay, Hakan
A1  - van der Hoorn, Renier A. L.
A1  - Müller-Röber, Bernd
T1  - An upstream regulator of the 26S proteasome modulates organ size in Arabidopsis thaliana
JF  - The plant journal
N2  - In both animal and plant kingdoms, body size is a fundamental but still poorly understood attribute of biological systems. Here we report that the Arabidopsis NAC transcription factor Regulator of Proteasomal Gene Expression' (RPX) controls leaf size by positively modulating proteasome activity. We further show that the cis-element recognized by RPX is evolutionarily conserved between higher plant species. Upon over-expression of RPX, plants exhibit reduced growth, which may be reversed by a low concentration of the pharmacological proteasome inhibitor MG132. These data suggest that the rate of protein turnover during growth is a critical parameter for determining final organ size.
KW  - Arabidopsis thaliana
KW  - organ size
KW  - evolution
KW  - leaf development
KW  - proteasome
KW  - gene regulatory network
Y1  - 2013
U6  - https://doi.org/10.1111/tpj.12097
SN  - 0960-7412
VL  - 74
IS  - 1
SP  - 25
EP  - 36
PB  - Wiley-Blackwell
CY  - Hoboken
ER  - 
TY  - THES
A1  - Lamanna, Francesco
T1  - Adaptive radiation and speciation in African weakly-electric fish
T1  - Adaptive Radiation und Artbildung von elektrischen Fischen Afrikas
BT  - a phylogenetic and transcriptomic perspective
BT  - eine phylogenetische und transkriptomische Perspektive
N2  - The rise of evolutionary novelties is one of the major drivers of evolutionary diversification. African weakly-electric fishes (Teleostei, Mormyridae) have undergone an outstanding adaptive radiation, putatively owing to their ability to communicate through species-specific Electric Organ Discharges (EODs) produced by a novel, muscle-derived electric organ. Indeed, such EODs might have acted as effective pre-zygotic isolation mechanisms, hence favoring ecological speciation in this group of fishes. Despite the evolutionary importance of this organ, genetic investigations regarding its origin and function have remained limited.
The ultimate aim of this study is to better understand the genetic basis of EOD production by exploring the transcriptomic profiles of the electric organ and of its ancestral counterpart, the skeletal muscle, in the genus Campylomormyrus. After having established a set of reference transcriptomes using “Next-Generation Sequencing” (NGS) technologies, I performed in silico analyses of differential expression, in order to identify sets of genes that might be responsible for the functional differences observed between these two kinds of tissues. The results of such analyses indicate that: i) the loss of contractile activity and the decoupling of the excitation-contraction processes are reflected by the down-regulation of the corresponding genes in the electric organ; ii) the metabolic activity of the electric organ might be specialized towards the production and turnover of membrane structures; iii) several ion channels are highly expressed in the electric organ in order to increase excitability, and iv) several myogenic factors might be down-regulated by transcription repressors in the EO.

A secondary task of this study is to improve the genus level phylogeny of Campylomormyrus by applying new methods of inference based on the multispecies coalescent model, in order to reduce the conflict among gene trees and to reconstruct a phylogenetic tree as closest as possible to the actual species-tree. By using 1 mitochondrial and 4 nuclear markers, I was able to resolve the phylogenetic relationships among most of the currently described Campylomormyrus species. Additionally, I applied several coalescent-based species delimitation methods, in order to test the hypothesis that putatively cryptic species, which are distinguishable only from their EOD, belong to independently evolving lineages. The results of this analysis were additionally validated by investigating patterns of diversification at 16 microsatellite loci. The results suggest the presence of a new, yet undescribed species of Campylomormyrus.
N2  - Das übergreifende Ziel dieser Arbeit ist das bessere Verständnis der Bedeutung der schwachen Elektrizität für die adaptive radiation der Mormyriden Afrikas. Das gewählte Modell-Taxon, die Mormyriden-Gattung Campylomormyrus, zeigt eine große Vielfalt an elektrischen Entladungsformen. Diese Entladungsformen sind artspezifisch. Die genetische Basis dieses Merkmales ist allerdings noch unbekannt. In dieser Arbeit habe ich transkriptomische Untersuchungen vom elektrischen Organ und Skelettmuskel durchgeführt. Die Ergebnisse dieser Analysen zeigen, dass die phenotypischen Unterschiede zwischen dem elektrischen Organ und dem Skelettmusckel in den jeweiligen transkriptomen gespiegelt sind.
Ich habe auch einen phylogenetischen Stammbaum für die Gattung Campylomormyrus hergestellt, durch die Anwendung von „Multispecies Coalescent Models“-basierten Methoden. Außerdem, durch die Anwendung von Mikrosatellitdaten, die als unabhängiger Beweis dienten, konnte ich zeigen, dass die identifizierten phylogenetischen Gruppen reproduktiv isolierte biologische Arten sind. Auf diese Weise konnte ich ein neuen, noch unbeschriebenen Art nachweisen.
KW  - evolution
KW  - transcriptomics
KW  - phylogeny
KW  - Evolution
KW  - Transkriptomik
KW  - Phylogenese
Y1  - 2015
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-80097
ER  - 
TY  - JOUR
A1  - Cui, Xiao
A1  - Lv, Yang
A1  - Chen, Miaolin
A1  - Nikoloski, Zoran
A1  - Twell, David
A1  - Zhang, Dabing
T1  - Young Genes out of the Male: An Insight from Evolutionary Age Analysis of the Pollen Transcriptome
JF  - Molecular plant
N2  - The birth of new genes in genomes is an important evolutionary event. Several studies reveal that new genes in animals tend to be preferentially expressed in male reproductive tissues such as testis (Betran et al., 2002; Begun et al., 2007; Dubruille et al., 2012), and thus an "out of testis' hypothesis for the emergence of new genes has been proposed (Vinckenbosch et al., 2006; Kaessmann, 2010). However, such phenomena have not been examined in plant species. Here, by employing a phylostratigraphic method, we dated the origin of protein-coding genes in rice and Arabidopsis thaliana and observed a number of young genes in both species. These young genes tend to encode short extracellular proteins, which may be involved in rapid evolving processes, such as reproductive barriers, species specification, and antimicrobial processes. Further analysis of transcriptome age indexes across different tissues revealed that male reproductive cells express a phylogenetically younger transcriptome than other plant tissues. Compared with sporophytic tissues, the young transcriptomes of the male gametophyte displayed greater complexity and diversity, which included a higher ratio of anti-sense and inter-genic transcripts, reflecting a pervasive transcription state that facilitated the emergence of new genes. Here, we propose that pollen may act as an "innovation incubator' for the birth of de novo genes. With cases of male-biased expression of young genes reported in animals, the "new genes out of the male' model revealed a common evolutionary force that drives reproductive barriers, species specification, and the upgrading of defensive mechanisms against pathogens.
KW  - pollen
KW  - evolution
KW  - young genes
KW  - transcriptome
Y1  - 2015
U6  - https://doi.org/10.1016/j.molp.2014.12.008
SN  - 1674-2052
SN  - 1752-9867
VL  - 8
IS  - 6
SP  - 935
EP  - 945
PB  - Cell Press
CY  - Cambridge
ER  - 
TY  - GEN
A1  - Zancolli, Giulia
A1  - Baker, Timothy G.
A1  - Barlow, Axel
A1  - Bradley, Rebecca K.
A1  - Calvete, Juan J.
A1  - Carter, Kimberley C.
A1  - de Jager, Kaylah
A1  - Owens, John Benjamin
A1  - Price, Jenny Forrester
A1  - Sanz, Libia
A1  - Scholes-Higham, Amy
A1  - Shier, Liam
A1  - Wood, Liam
A1  - Wüster, Catharine E.
A1  - Wüster, Wolfgang
T1  - Is hybridization a source of adaptive venom variation in rattlesnakes?
BT  - a test, using a crotalus scutulatus × viridis hybrid zone in southwestern New Mexico
T2  - Toxins
N2  - Venomous snakes often display extensive variation in venom composition both between and within species. However, the mechanisms underlying the distribution of different toxins and venom types among populations and taxa remain insufficiently known. Rattlesnakes (Crotalus, Sistrurus) display extreme inter-and intraspecific variation in venom composition, centered particularly on the presence or absence of presynaptically neurotoxic phospholipases A2 such as Mojave toxin (MTX). Interspecific hybridization has been invoked as a mechanism to explain the distribution of these toxins across rattlesnakes, with the implicit assumption that they are adaptively advantageous. Here, we test the potential of adaptive hybridization as a mechanism for venom evolution by assessing the distribution of genes encoding the acidic and basic subunits of Mojave toxin across a hybrid zone between MTX-positive Crotalus scutulatus and MTX-negative C. viridis in southwestern New Mexico, USA. Analyses of morphology, mitochondrial and single copy-nuclear genes document extensive admixture within a narrow hybrid zone. The genes encoding the two MTX subunits are strictly linked, and found in most hybrids and backcrossed individuals, but not in C. viridis away from the hybrid zone. Presence of the genes is invariably associated with presence of the corresponding toxin in the venom. We conclude that introgression of highly lethal neurotoxins through hybridization is not necessarily favored by natural selection in rattlesnakes, and that even extensive hybridization may not lead to introgression of these genes into another species.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 443 
KW  - adaptation
KW  - Crotalus
KW  - evolution
KW  - hybridization
KW  - introgression
KW  - Mojave toxin
KW  - molecular evolution
KW  - venom
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-407595
ER  - 
TY  - JOUR
A1  - Zancolli, Giulia
A1  - Baker, Timothy G.
A1  - Barlow, Axel
A1  - Bradley, Rebecca K.
A1  - Calvete, Juan J.
A1  - Carter, Kimberley C.
A1  - de Jager, Kaylah
A1  - Owens, John Benjamin
A1  - Price, Jenny Forrester
A1  - Sanz, Libia
A1  - Scholes-Higham, Amy
A1  - Shier, Liam
A1  - Wood, Liam
A1  - Wüster, Catharine E.
A1  - Wüster, Wolfgang
T1  - Is Hybridization a Source of Adaptive Venom Variation in Rattlesnakes? A Test, Using a Crotalus scutulatus x viridis Hybrid Zone in Southwestern New Mexico
JF  - Toxins
N2  - Venomous snakes often display extensive variation in venom composition both between and within species. However, the mechanisms underlying the distribution of different toxins and venom types among populations and taxa remain insufficiently known. Rattlesnakes (Crotalus, Sistrurus) display extreme inter-and intraspecific variation in venom composition, centered particularly on the presence or absence of presynaptically neurotoxic phospholipases A2 such as Mojave toxin (MTX). Interspecific hybridization has been invoked as a mechanism to explain the distribution of these toxins across rattlesnakes, with the implicit assumption that they are adaptively advantageous. Here, we test the potential of adaptive hybridization as a mechanism for venom evolution by assessing the distribution of genes encoding the acidic and basic subunits of Mojave toxin across a hybrid zone between MTX-positive Crotalus scutulatus and MTX-negative C. viridis in southwestern New Mexico, USA. Analyses of morphology, mitochondrial and single copy-nuclear genes document extensive admixture within a narrow hybrid zone. The genes encoding the two MTX subunits are strictly linked, and found in most hybrids and backcrossed individuals, but not in C. viridis away from the hybrid zone. Presence of the genes is invariably associated with presence of the corresponding toxin in the venom. We conclude that introgression of highly lethal neurotoxins through hybridization is not necessarily favored by natural selection in rattlesnakes, and that even extensive hybridization may not lead to introgression of these genes into another species.
KW  - adaptation
KW  - Crotalus
KW  - evolution
KW  - hybridization
KW  - introgression
KW  - Mojave toxin
KW  - molecular evolution
KW  - venom
Y1  - 2016
U6  - https://doi.org/10.3390/toxins8060188
SN  - 2072-6651
VL  - 8
PB  - MDPI
CY  - Basel
ER  - 
TY  - GEN
A1  - Beermann, Jan
A1  - Westbury, Michael V.
A1  - Hofreiter, Michael
A1  - Hilgers, Leon
A1  - Deister, Fabian
A1  - Neumann, Hermann
A1  - Raupach, Michael J.
T1  - Cryptic species in a well-known habitat
BT  - applying taxonomics to the amphipod genus Epimeria (Crustacea, Peracarida)
T2  - Postprints der Universität Potsdam : Mathematisch Naturwissenschaftliche Reihe
N2  - Taxonomy plays a central role in biological sciences. It provides a communication system for scientists as it aims to enable correct identification of the studied organisms. As a consequence, species descriptions should seek to include as much available information as possible at species level to follow an integrative concept of 'taxonomics'. Here, we describe the cryptic species Epimeria frankei sp. nov. from the North Sea, and also redescribe its sister species, Epimeria cornigera. The morphological information obtained is substantiated by DNA barcodes and complete nuclear 18S rRNA gene sequences. In addition, we provide, for the first time, full mitochondrial genome data as part of a metazoan species description for a holotype, as well as the neotype. This study represents the first successful implementation of the recently proposed concept of taxonomics, using data from high-throughput technologies for integrative taxonomic studies, allowing the highest level of confidence for both biodiversity and ecological research.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1059 
KW  - multiple sequence alignment
KW  - Oxidase Subunit-I
KW  - mitochondrial genome
KW  - control region
KW  - Ribosomal-RNA
KW  - asellota crustacea
KW  - gammarus crustacea
KW  - deep-sea
KW  - DNA
KW  - evolution
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-460792
SN  - 1866-8372
IS  - 1059
ER  - 
TY  - JOUR
A1  - Westbury, Michael V.
A1  - Hartmann, Stefanie
A1  - Barlow, Axel
A1  - Wiesel, Ingrid
A1  - Leo, Viyanna
A1  - Welch, Rebecca
A1  - Parker, Daniel M.
A1  - Sicks, Florian
A1  - Ludwig, Arne
A1  - Dalen, Love
A1  - Hofreiter, Michael
T1  - Extended and continuous decline in effective population size results in low genomic diversity in the world's rarest hyena species, the brown hyena
JF  - Molecular biology and evolution
N2  - Hyenas (family Hyaenidae), as the sister group to cats (family Felidae), represent a deeply diverging branch within the cat-like carnivores (Feliformia). With an estimated population size of <10,000 individuals worldwide, the brown hyena (Parahyaena brunnea) represents the rarest of the four extant hyena species and has been listed as Near Threatened by the IUCN. Here, we report a high-coverage genome from a captive bred brown hyena and both mitochondrial and low-coverage nuclear genomes of 14 wild-caught brown hyena individuals from across southern Africa. We find that brown hyena harbor extremely low genetic diversity on both the mitochondrial and nuclear level, most likely resulting from a continuous and ongoing decline in effective population size that started similar to 1 Ma and dramatically accelerated towards the end of the Pleistocene. Despite the strikingly low genetic diversity, we find no evidence of inbreeding within the captive bred individual and reveal phylogeographic structure, suggesting the existence of several potential subpopulations within the species.
KW  - evolution
KW  - hyena
KW  - genomics
KW  - population genomics
KW  - diversity
Y1  - 2018
U6  - https://doi.org/10.1093/molbev/msy037
SN  - 0737-4038
SN  - 1537-1719
VL  - 35
IS  - 5
SP  - 1225
EP  - 1237
PB  - Oxford Univ. Press
CY  - Oxford
ER  - 
TY  - THES
A1  - Romero Mujalli, Daniel
T1  - Ecological modeling of adaptive evolutionary responses to rapid climate change
T1  - Ökologische Modellierung anpassungsfähiger evolutionärer Reaktionen auf schnellen Klimawandel
N2  - A contemporary challenge in Ecology and Evolutionary Biology is to anticipate the fate of populations of organisms in the context of a changing world. Climate change and landscape changes due to anthropic activities have been of major concern in the contemporary history. Organisms facing these threats are expected to respond by local adaptation (i.e., genetic changes or phenotypic plasticity) or by shifting their distributional range (migration). However, there are limits to their responses. For example, isolated populations will have more difficulties in developing adaptive innovations by means of genetic changes than interconnected metapopulations. Similarly, the topography of the environment can limit dispersal opportunities for crawling organisms as compared to those that rely on wind. Thus, populations of species with different life history strategy may differ in their ability to cope with changing environmental conditions. However, depending on the taxon, empirical studies investigating organisms’ responses to environmental change may become too complex, long and expensive; plus, complications arising from dealing with endangered species. In consequence, eco-evolutionary modeling offers an opportunity to overcome these limitations and complement empirical studies, understand the action and limitations of underlying mechanisms, and project into possible future scenarios. In this work I take a modeling approach and investigate the effect and relative importance of evolutionary mechanisms (including phenotypic plasticity) on the ability for local adaptation of populations with different life strategy experiencing climate change scenarios. For this, I performed a review on the state of the art of eco-evolutionary Individual-Based Models (IBMs) and identify gaps for future research. Then, I used the results from the review to develop an eco-evolutionary individual-based modeling tool to study the role of genetic and plastic mechanisms in promoting local adaption of populations of organisms with different life strategies experiencing scenarios of climate change and environmental stochasticity. The environment was simulated through a climate variable (e.g., temperature) defining a phenotypic optimum moving at a given rate of change. The rate of change was changed to simulate different scenarios of climate change (no change, slow, medium, rapid climate change). Several scenarios of stochastic noise color resembling different climatic conditions were explored. Results show that populations of sexual species will rely mainly on standing genetic variation and phenotypic plasticity for local adaptation. Population of species with relatively slow growth rate (e.g., large mammals) – especially those of small size – are the most vulnerable, particularly if their plasticity is limited (i.e., specialist species). In addition, whenever organisms from these populations are capable of adaptive plasticity, they can buffer fitness losses in reddish climatic conditions. Likewise, whenever they can adjust their plastic response (e.g., bed-hedging strategy) they will cope with bluish environmental conditions as well. In contrast, life strategies of high fecundity can rely on non-adaptive plasticity for their local adaptation to novel environmental conditions, unless the rate of change is too rapid. A recommended management measure is to guarantee interconnection of isolated populations into metapopulations, such that the supply of useful genetic variation can be increased, and, at the same time, provide them with movement opportunities to follow their preferred niche, when local adaptation becomes problematic. This is particularly important for bluish and reddish climatic conditions, when the rate of change is slow, or for any climatic condition when the level of stress (rate of change) is relatively high.
N2  - Eine aktuelle Herausforderung in der Ökologie und Evolutionsbiologie besteht darin, das Schicksal von Populationen verschiedener Lebewesen im Kontext einer sich verändernden Welt zu antizipieren. Der Klimawandel und die durch anthropologische Aktivitäten verursachten Landschaftsveränderungen sind im Laufe der Geschichte von großer Bedeutung geworden. Von den Organismen, die sich diesen Veränderungen stellen, wird erwartet, dass sie durch lokale Anpassung (d.h. genetische Veränderungen oder phänotypische Plastizität) oder durch Verschiebung ihres Verbreitungsgebietes (Migration) darauf reagieren. Allerdings sind diese Reaktionen begrenzt. So werden beispielsweise isolierte Populationen mehr Schwierigkeiten bei der Entwicklung adaptiver Neuheiten mittels genetischer Variation haben als vernetzte Metapopulationen. Ebenso kann die Topographie der Umgebung die Ausbreitungsmöglichkeiten für zum Beispiel kriechende Organismen im Vergleich zu denen, die auf Wind angewiesen sind, einschränken. So können Populationen von Arten mit unterschiedlichen Lebensstrategien verschiedene Fähigkeiten haben, mit den sich ändernden Umweltbedingungen umzugehen. Empirische Studien, die die Reaktionen von Organismen auf Umweltveränderungen untersuchen, können jedoch, je nach Taxon, zu komplex, langwierig und teuer werden. Ebenso sollten Komplikationen im Umgang mit gefährdeten Arten nicht außer Acht gelassen werden. Die ökoevolutionäre Modellierung bietet jedoch die Möglichkeit, diese Einschränkungen zu überwinden und empirische Studien zu ergänzen, die Wirkung und Grenzen der zugrunde liegenden Mechanismen zu verstehen und mögliche Zukunftsszenarien zu erstellen. In dieser Arbeit untersuche ich mittels einer Modellierungsmethode die Wirkung und relative Bedeutung evolutionärer Mechanismen (einschließlich phänotypischer Plastizität) auf die Fähigkeit zur lokalen Anpassung von Populationen mit unterschiedlichen Lebensstrategien, die Szenarien des Klimawandels durchleben. Dazu habe ich in einem Review den Stand der Technik ökoevolutionärer individuenbasierender Modelle (Individual-Based Models; IBMs) zusammengefasst und Ansätze für eine zukünftige Forschung identifiziert. Die Erkenntnisse des Reviews nutzte ich, um ein ökoevolutionäres, individuelles Modellierungsprogramm zu entwickeln. Dieses analysiert die Rolle genetischer und plastischer Mechanismen zur Förderung der lokalen Anpassung organismischer Populationen mit unterschiedlichen Lebensstrategien, welche Szenarien des Klimawandels und der ökologischen Stochastik erfahren. Die Umweltbedingungen wurden durch eine klimatische Variable (z.B. Temperatur) simuliert, die ein phänotypisches Optimum definiert, das sich mit einer bestimmten Änderungsrate bewegt. Verschiedene Änderungsraten wurden angewandt, um unterschiedliche Szenarien des Klimawandels darzustellen (keine Veränderung, langsamer, mittlerer, schneller Klimawandel). Es wurden mehrere Szenarien stochastischen Farbrauschens untersucht, die verschiedene klimatische Bedingungen widerspiegeln. Die Ergebnisse zeigen, dass Populationen sexueller Arten hauptsächlich auf genetische Variation und phänotypische Plastizität hinsichtlich lokalen Anpassung angewiesen sind. Populationen von Arten mit relativ langsamer Wachstumsrate (z.B. große Säugetiere), und insbesondere die mit kleiner Populationsgröße, sind am anfälligsten, vor allem wenn ihre Plastizität begrenzt ist (d.h. spezialisierte Arten). Wenn Individuen dieser Populationen zu adaptiver Plastizität fähig sind, können sie Fitnessverluste unter „rötlichen“ Klimabedingungen ausgleichen. Zugleich können diese Populationen durch Anpassung der Plastizität auch unter bläulichen Umweltbedingungen zurecht kommen (z.B. Bed-Hedging-Strategie). Im Gegensatz dazu können sich Lebensstrategen mit hoher Reproduktionszahl auf nicht-adaptive Plastizität zur lokalen Anpassung an neue Umweltbedingungen verlassen, es sei denn, die Änderungsrate ist zu schnell. Eine empfohlene Handlungsmaßnahme ist es, die Eingliederung von isolierten Populationen in Metapopulationen zu gewährleisten, so dass die genetische Variation erhöht werden kann. Wenn eine lokale Anpassung problematisch wird, sollte ihnen gleichzeitig Migrationsfreiraum gegeben werden, um ihrer bevorzugten Nische zu folgen. Dies ist besonders wichtig für „bläuliche“ und „rötliche“ Klimabedingungen, bei denen die Änderungsrate langsam ist, oder für jede klimatische Bedingung, wenn die Belastung (Änderungsrate) relativ hoch ist.
KW  - climate change
KW  - local adaptation
KW  - plasticity
KW  - evolution
KW  - individual-based model
KW  - Klimawandel
KW  - lokale Anpassung
KW  - Plastizität
KW  - Evolution
KW  - Individuen-basierende Modelle
Y1  - 2019
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-430627
ER  - 
TY  - JOUR
A1  - Lozada Gobilard, Sissi Donna
A1  - Weigend, M.
A1  - Fischer, E.
A1  - Janssens, S. B.
A1  - Ackermann, M.
A1  - Abrahamczyk, Stefan
T1  - Breeding systems in Balsaminaceae in relation to pollen/ovule ratio, pollination syndromes, life history and climate zone
JF  - Plant biology
N2  - Pollen/ovule (P/O) ratios are often used as proxy for breeding systems. Here, we investigate the relations between breeding systems and P/O ratios, pollination syndromes, life history and climate zone in Balsaminaceae. We conducted controlled breeding system experiments (autonomous and active self-pollination and outcrossing tests) for 65 Balsaminaceae species, analysed pollen grain and ovule numbers and evaluated the results in combination with data on pollination syndrome, life history and climate zone on a phylogenetic basis. Based on fruit set, we assigned three breeding systems: autogamy, self-compatibility and self-incompatibility. Self-pollination led to lower fruit set than outcrossing. We neither found significant P/O differences between breeding systems nor between pollination syndromes. However, the numbers of pollen grains and ovules per flower were significantly lower in autogamous species, but pollen grain and ovule numbers did not differ between most pollination syndromes. Finally, we found no relation between breeding system and climate zone, but a relation between climate zone and life history. In Balsaminaceae reproductive traits can change under resource or pollinator limitation, leading to the evolution of autogamy, but are evolutionary rather constant and not under strong selection pressure by pollinator guild and geographic range changes. Colonisation of temperate regions, however, is correlated with transitions towards annual life history. Pollen/ovule-ratios, commonly accepted as good indicators of breeding system, have a low predictive value in Balsaminaceae. In the absence of experimental data on breeding system, additional floral traits (overall pollen grain and ovule number, traits of floral morphology) may be used as proxies.
KW  - Annual
KW  - autogamy
KW  - cleistogamy
KW  - evolution
KW  - fly pollination
KW  - Impatiens
KW  - outcrossing
KW  - perennial
KW  - self-incompatibility
KW  - temperate
KW  - tropical
Y1  - 2018
U6  - https://doi.org/10.1111/plb.12905
SN  - 1435-8603
SN  - 1438-8677
VL  - 21
IS  - 1
SP  - 157
EP  - 166
PB  - Wiley
CY  - Hoboken
ER  - 
TY  - THES
A1  - Autenrieth, Marijke
T1  - Population genomics of two odontocetes in the North Atlantic and adjacent waters
BT  - Evolutionary history and conservation implications
N2  - Due to continuously intensifying human usage of the marine environment worldwide ranging cetaceans face an increasing number of threats. Besides whaling, overfishing and by-catch, new technical developments increase the water and noise pollution, which can negatively affect marine species. Cetaceans are especially prone to these influences, being at the top of the food chain and therefore accumulating toxins and contaminants. Furthermore, they are extremely noise sensitive due to their highly developed hearing sense and echolocation ability. As a result, several cetacean species were brought to extinction during the last century or are now classified as critically endangered. This work focuses on two odontocetes. It applies and compares different molecular methods for inference of population status and adaptation, with implications for conservation. The worldwide distributed sperm whale (Physeter macrocephalus) shows a matrilineal population structure with predominant male dispersal. A recently stranded group of male sperm whales provided a unique opportunity to investigate male grouping for the first time. Based on the mitochondrial control region, I was able to infer that male bachelor groups comprise multiple matrilines, hence derive from different social groups, and that they represent the genetic variability of the entire North Atlantic. The harbor porpoise (Phocoena phocoena) occurs only in the northern hemisphere. By being small and occurring mostly in coastal habitats it is especially prone to human disturbance. Since some subspecies and subpopulations are critically endangered, it is important to generate and provide genetic markers with high resolution to facilitate population assignment and subsequent protection measurements. Here, I provide the first harbour porpoise whole genome, in high quality and including a draft annotation. Using it for mapping ddRAD seq data, I identify genome wide SNPs and, together with a fragment of the mitochondrial control region, inferred the population structure of its North Atlantic distribution range. The Belt Sea harbors a distinct subpopulation oppose to the North Atlantic, with a transition zone in the Kattegat. Within the North Atlantic I could detect subtle genetic differentiation between western (Canada-Iceland) and eastern (North Sea) regions, with support for a German North Sea breading ground around the Isle of Sylt. Further, I was able to detect six outlier loci which show isolation by distance across the investigated sampling areas. In employing different markers, I could show that single maker systems as well as genome wide data can unravel new information about population affinities of odontocetes. Genome wide data can facilitate investigation of adaptations and evolutionary history of the species and its populations. Moreover, they facilitate population genetic investigations, providing a high resolution, and hence allowing for detection of subtle population structuring especially important for highly mobile cetaceans.
N2  - Mit der immer stärker zunehmenden Nutzung des marinen Lebensraumes durch den Menschen, häufen sich auch die Bedrohungen, wie beispielsweise Lebensraumzerstörungen, denen Cetacea ausgesetzt sind. Die Folgen aus Walfang, Überfischung und Beifang, wie auch die stärkere Verschmutzung der Meere sowie die Zunahme des generellen Lärmpegels, haben negative Effekte auf eine Vielzahl mariner Arten. Cetacea sind besonders anfällig für diese Störungen, da sie einerseits am Ende der Nahrungskette stehen und somit besonders Schadstoffe, wie bspw. PBEs, in ihren Körpern akkumulieren und andererseits durch ihr hoch angepasstes Gehör äußerst sensibel gegenüber Geräuschstörungen sind. Im Laufe des letzten Jahrhunderts wurden einige marine Säugetiere bereits ausgerottet oder fast bis an den Rand des Aussterbens gebracht. Diese Arbeit konzentriert sich auf zwei Zahnwalarten, die in ihrer Biologie und Populationsstruktur sehr verschieden sind. Sie bieten die Möglichkeit, verschiedene Methoden der Naturschutz- und Populationsgenetik anzuwenden und zu vergleichen. Der weltweit verbreitete Pottwal ist matrilineal organisiert mit Weibchen, die in sozialen Gruppen in der Nähe des Äquators leben, und Männchen, die in kleinen Gruppen zu den Polen migrieren. Zum Jahresbeginn 2016 strandete eine Gruppe junger männlicher Pottwale entlang der Nordsee. Dieses Ereignis bot die einzigartige Chance, erstmals die genetische Zusammensetzung einer männlichen Pottwalgruppe zu untersuchen. Basierend auf der mitochondrialen Kontrollregion, konnte ich zeigen, dass sie von mehreren Matrilinien abstammen und in ihrer Gesamtheit die genetische Vielfalt der nordatlantischen Gesamtpopulation repräsentieren. Der Schweinswal ist innerhalb der nördlichen Hemisphäre weit verbreitet. Durch seine kleine Körpergrösse und die Präferenz für küstennahe Habitate ist er besonders anfällig gegenüber negativen anthropogenen Einflüssen. Da sowohl eine seiner Unterarten als auch einige Subpopulationen durch die IUCN als stark bedroht klassifiziert sind, ist es besonders wichtig die genetische Struktur dieser Art und ihrer Populationen zu erfassen und hochauflösende Markersysteme zu generieren, um verlässliche Informationen zum Status lokaler Populationen für weiterführende Naturschutzmaßnahmen bereitzustellen. In dieser Arbeit konnte ich die erste komplette Genomsequenz des Schweinwal in hoher Qualität bereitstellen und sie für die Analyse von ddRAD-Daten als Referenz nutzen. Mittles genomweit verteilter SNPs, sowie einem Abschnitt der mitochondrialen Kontrollregion zeigte sich, dass die Schweinswale in der Beltsee eine eigenständige Population bilden, mit einer Transitionszone zum Nord-Atlantik im Kattegat. Innerhalb des Nord-Atlantiks zeigten sich Unterschiede zwischen West (Kanada-Island) und Ost (Nordsee), sowie eine Abgrenzung deutscher Schweinswale um die Insel Sylt. Außerdem konnte ich sechs SNPs identifizieren, welche die populationsgenetische Auflösung im Nordatlantik und geographischen Distanz wiederspiegeln. Durch den Vergleich verschiedener Markersysteme konnte ich zeigen, dass sowohl einzelne Marker als auch genomweite Marker neue Erkenntnisse zu Populationsstrukturen und Anpassungen von Zahnwalen liefern. Durch die hohe Mobilität und den schwer zugänglichen Lebensraum mariner Säugetiere sind hochauflösende genetische Markersysteme der Schlüssel für ein besseres Verständnis und den Schutz dieser Arten.
KW  - genomics
KW  - population genetics
KW  - conservation
KW  - evolution
KW  - whole genome
KW  - toothed whales
KW  - Genomik
KW  - Populationsgenetik
KW  - Naturschutz
KW  - Evolution
KW  - Zahnwale
Y1  - 2020
ER  - 
TY  - JOUR
A1  - Lenzner, Bernd
A1  - Magallon, Susana
A1  - Dawson, Wayne
A1  - Kreft, Holger
A1  - König, Christian
A1  - Pergl, Jan
A1  - Pysek, Petr
A1  - Weigelt, Patrick
A1  - van Kleunen, Mark
A1  - Winter, Marten
A1  - Dullinger, Stefan
A1  - Essl, Franz
T1  - Role of diversification rates and evolutionary history as a driver of plant naturalization success
JF  - New phytologist : international journal of plant science
N2  - Human introductions of species beyond their natural ranges and their subsequent establishment are defining features of global environmental change. However, naturalized plants are not uniformly distributed across phylogenetic lineages, with some families contributing disproportionately more to the global alien species pool than others. Additionally, lineages differ in diversification rates, and high diversification rates have been associated with characteristics that increase species naturalization success. Here, we investigate the role of diversification rates in explaining the naturalization success of angiosperm plant families. 
We use five global data sets that include native and alien plant species distribution, horticultural use of plants, and a time-calibrated angiosperm phylogeny. Using phylogenetic generalized linear mixed models, we analysed the effect of diversification rate, different geographical range measures, and horticultural use on the naturalization success of plant families. 
We show that a family's naturalization success is positively associated with its evolutionary history, native range size, and economic use. Investigating interactive effects of these predictors shows that native range size and geographic distribution additionally affect naturalization success. High diversification rates and large ranges increase naturalization success, especially of temperate families. 
We suggest this may result from lower ecological specialization in temperate families with large ranges, compared with tropical families with smaller ranges.
KW  - alien species
KW  - evolution
KW  - geographic distribution
KW  - invasion success
KW  - plant naturalization
KW  - range size
Y1  - 2020
U6  - https://doi.org/10.1111/nph.17014
SN  - 0028-646X
SN  - 1469-8137
VL  - 229
IS  - 5
SP  - 2998
EP  - 3008
PB  - Wiley
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Ehrlich, Elias
A1  - Kath, Nadja Jeanette
A1  - Gaedke, Ursula
T1  - The shape of a defense-growth trade-off governs seasonal trait dynamics in natural phytoplankton
JF  - The ISME journal
N2  - Theory predicts that trade-offs, quantifying costs of functional trait adjustments, crucially affect community trait adaptation to altered environmental conditions, but empirical verification is scarce. We evaluated trait dynamics (antipredator defense, maximum growth rate, and phosphate affinity) of a lake phytoplankton community in a seasonally changing environment, using literature trait data and 21 years of species-resolved high-frequency biomass measurements. The trait data indicated a concave defense-growth trade-off, promoting fast-growing species with intermediate defense. With seasonally increasing grazing pressure, the community shifted toward higher defense levels at the cost of lower growth rates along the trade-off curve, while phosphate affinity explained some deviations from it. We discuss how low fitness differences of species, inferred from model simulations, in concert with stabilizing mechanisms, e.g., arising from further trait dimensions, may lead to the observed phytoplankton diversity. In conclusion, quantifying trade-offs is key for predictions of community trait adaptation and biodiversity under environmental change.
KW  - coexistence
KW  - community ecology
KW  - diversity
KW  - evolution
KW  - fitness
KW  - functional traits
KW  - lake
KW  - maintenance
KW  - mechanisms
KW  - plankton
Y1  - 2020
U6  - https://doi.org/10.1038/s41396-020-0619-1
SN  - 1751-7362
SN  - 1751-7370
VL  - 14
IS  - 6
SP  - 1451
EP  - 1462
PB  - Nature Publishing Group
CY  - London
ER  - 
TY  - GEN
A1  - Ehrlich, Elias
A1  - Kath, Nadja Jeanette
A1  - Gaedke, Ursula
T1  - The shape of a defense-growth trade-off governs seasonal trait dynamics in natural phytoplankton
T2  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - Theory predicts that trade-offs, quantifying costs of functional trait adjustments, crucially affect community trait adaptation to altered environmental conditions, but empirical verification is scarce. We evaluated trait dynamics (antipredator defense, maximum growth rate, and phosphate affinity) of a lake phytoplankton community in a seasonally changing environment, using literature trait data and 21 years of species-resolved high-frequency biomass measurements. The trait data indicated a concave defense-growth trade-off, promoting fast-growing species with intermediate defense. With seasonally increasing grazing pressure, the community shifted toward higher defense levels at the cost of lower growth rates along the trade-off curve, while phosphate affinity explained some deviations from it. We discuss how low fitness differences of species, inferred from model simulations, in concert with stabilizing mechanisms, e.g., arising from further trait dimensions, may lead to the observed phytoplankton diversity. In conclusion, quantifying trade-offs is key for predictions of community trait adaptation and biodiversity under environmental change.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1390 
KW  - functional traits
KW  - community ecology
KW  - evolution
KW  - lake
KW  - mechanisms
KW  - diversity
KW  - plankton
KW  - fitness
KW  - maintenance
KW  - coexistence
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-513956
SN  - 1866-8372
IS  - 6
ER  - 
TY  - GEN
A1  - Lenzner, Bernd
A1  - Magallon, Susana
A1  - Dawson, Wayne
A1  - Kreft, Holger
A1  - König, Christian
A1  - Pergl, Jan
A1  - Pysek, Petr
A1  - Weigelt, Patrick
A1  - van Kleunen, Mark
A1  - Winter, Marten
A1  - Dullinger, Stefan
A1  - Essl, Franz
T1  - Role of diversification rates and evolutionary history as a driver of plant naturalization success
T2  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - Human introductions of species beyond their natural ranges and their subsequent establishment are defining features of global environmental change. However, naturalized plants are not uniformly distributed across phylogenetic lineages, with some families contributing disproportionately more to the global alien species pool than others. Additionally, lineages differ in diversification rates, and high diversification rates have been associated with characteristics that increase species naturalization success. Here, we investigate the role of diversification rates in explaining the naturalization success of angiosperm plant families. 
We use five global data sets that include native and alien plant species distribution, horticultural use of plants, and a time-calibrated angiosperm phylogeny. Using phylogenetic generalized linear mixed models, we analysed the effect of diversification rate, different geographical range measures, and horticultural use on the naturalization success of plant families. 
We show that a family's naturalization success is positively associated with its evolutionary history, native range size, and economic use. Investigating interactive effects of these predictors shows that native range size and geographic distribution additionally affect naturalization success. High diversification rates and large ranges increase naturalization success, especially of temperate families. 
We suggest this may result from lower ecological specialization in temperate families with large ranges, compared with tropical families with smaller ranges.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1363 
KW  - alien species
KW  - evolution
KW  - geographic distribution
KW  - invasion success
KW  - plant naturalization
KW  - range size
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-569996
SN  - 1866-8372
IS  - 5
ER  - 
TY  - JOUR
A1  - Baunach, Martin
A1  - Chowdhury, Somak
A1  - Stallforth, Pierre
A1  - Dittmann-Thünemann, Elke
T1  - The landscape of recombination events that create nonribosomal peptide diversity
JF  - Molecular biology and evolution : MBE
N2  - Nonribosomal peptides (NRP) are crucial molecular mediators in microbial ecology and provide indispensable drugs. Nevertheless, the evolution of the flexible biosynthetic machineries that correlates with the stunning structural diversity of NRPs is poorly understood. Here, we show that recombination is a key driver in the evolution of bacterial NRP synthetase (NRPS) genes across distant bacterial phyla, which has guided structural diversification in a plethora of NRP families by extensive mixing andmatching of biosynthesis genes. The systematic dissection of a large number of individual recombination events did not only unveil a striking plurality in the nature and origin of the exchange units but allowed the deduction of overarching principles that enable the efficient exchange of adenylation (A) domain substrates while keeping the functionality of the dynamic multienzyme complexes. In the majority of cases, recombination events have targeted variable portions of the A(core) domains, yet domain interfaces and the flexible A(sub) domain remained untapped. Our results strongly contradict the widespread assumption that adenylation and condensation (C) domains coevolve and significantly challenge the attributed role of C domains as stringent selectivity filter during NRP synthesis. Moreover, they teach valuable lessons on the choice of natural exchange units in the evolution of NRPS diversity, which may guide future engineering approaches.
KW  - evolution
KW  - recombination
KW  - structural diversity
KW  - natural products
KW  - nonribosomal peptide synthetases
KW  - microbial ecology
Y1  - 2021
U6  - https://doi.org/10.1093/molbev/msab015
SN  - 0737-4038
SN  - 1537-1719
VL  - 38
IS  - 5
SP  - 2116
EP  - 2130
PB  - Oxford Univ. Press
CY  - Oxford
ER  - 
TY  - JOUR
A1  - Malchow, Anne-Kathleen
A1  - Bocedi, Greta
A1  - Palmer, Stephen C. F.
A1  - Travis, Justin M. J.
A1  - Zurell, Damaris
T1  - RangeShiftR: an R package for individual-based simulation of spatial eco-evolutionary dynamics and speciesu0027 responses to environmental changes
JF  - Ecography
N2  - Reliably modelling the demographic and distributional responses of a species to environmental changes can be crucial for successful conservation and management planning. Process-based models have the potential to achieve this goal, but so far they remain underused for predictions of species' distributions. Individual-based models offer the additional capability to model inter-individual variation and evolutionary dynamics and thus capture adaptive responses to environmental change. We present RangeShiftR, an R implementation of a flexible individual-based modelling platform which simulates eco-evolutionary dynamics in a spatially explicit way. The package provides flexible and fast simulations by making the software RangeShifter available for the widely used statistical programming platform R. The package features additional auxiliary functions to support model specification and analysis of results. We provide an outline of the package's functionality, describe the underlying model structure with its main components and present a short example. RangeShiftR offers substantial model complexity, especially for the demographic and dispersal processes. It comes with elaborate tutorials and comprehensive documentation to facilitate learning the software and provide help at all levels. As the core code is implemented in C++, the computations are fast. The complete source code is published under a public licence, making adaptations and contributions feasible. The RangeShiftR package facilitates the application of individual-based and mechanistic modelling to eco-evolutionary questions by operating a flexible and powerful simulation model from R. It allows effortless interoperation with existing packages to create streamlined workflows that can include data preparation, integrated model specification and results analysis. Moreover, the implementation in R strengthens the potential for coupling RangeShiftR with other models.
KW  - connectivity
KW  - conservation
KW  - dispersal
KW  - evolution
KW  - population dynamics
KW  - range dynamics
Y1  - 2021
SN  - 1600-0587
VL  - 44
IS  - 10
PB  - John Wiley & Sons, Inc.
CY  - New Jersey
ER  - 
TY  - GEN
A1  - Malchow, Anne-Kathleen
A1  - Bocedi, Greta
A1  - Palmer, Stephen C. F.
A1  - Travis, Justin M. J.
A1  - Zurell, Damaris
T1  - RangeShiftR: an R package for individual-based simulation of spatial eco-evolutionary dynamics and speciesu0027 responses to environmental changes
T2  - Postprints der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - Reliably modelling the demographic and distributional responses of a species to environmental changes can be crucial for successful conservation and management planning. Process-based models have the potential to achieve this goal, but so far they remain underused for predictions of species' distributions. Individual-based models offer the additional capability to model inter-individual variation and evolutionary dynamics and thus capture adaptive responses to environmental change. We present RangeShiftR, an R implementation of a flexible individual-based modelling platform which simulates eco-evolutionary dynamics in a spatially explicit way. The package provides flexible and fast simulations by making the software RangeShifter available for the widely used statistical programming platform R. The package features additional auxiliary functions to support model specification and analysis of results. We provide an outline of the package's functionality, describe the underlying model structure with its main components and present a short example. RangeShiftR offers substantial model complexity, especially for the demographic and dispersal processes. It comes with elaborate tutorials and comprehensive documentation to facilitate learning the software and provide help at all levels. As the core code is implemented in C++, the computations are fast. The complete source code is published under a public licence, making adaptations and contributions feasible. The RangeShiftR package facilitates the application of individual-based and mechanistic modelling to eco-evolutionary questions by operating a flexible and powerful simulation model from R. It allows effortless interoperation with existing packages to create streamlined workflows that can include data preparation, integrated model specification and results analysis. Moreover, the implementation in R strengthens the potential for coupling RangeShiftR with other models.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1178 
KW  - connectivity
KW  - conservation
KW  - dispersal
KW  - evolution
KW  - population dynamics
KW  - range dynamics
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-523979
SN  - 1866-8372
IS  - 10
ER  -