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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Phylogenetic Structuring of Lake Fish Communities

Doyle, Bradley 22 November 2013 (has links)
Evolutionary history has been recognized as an important factor in studying ecological communities. Lake fish communities have had limited consideration from a community phylogenetics perspective and present the opportunity to include trophic interactions in the analysis. For the species under study, I used known phylogenies from the literature and genetic information to determine relative branch lengths and phylogenetic relationships by Bayesian inference. Using the resultant phylogenetic tree and fish community data, the phylogenetic community structure was determined for the lakes in the Manitoulin Island and LaCloche regions of Ontario, Canada. Evidence of phylogenetic structuring was found, particularly associated with piscivory, winter hypoxia tolerance, and thermal preferences for deep coldwater lakes. Although the majority of the lakes were weakly structured from a phylogenetic perspective, significant trends were nonetheless apparent; especially when further informed by examining species-specific trends, demonstrating that evolutionary history can play a role in structuring freshwater fish communities.
2

Phylogenetic Structuring of Lake Fish Communities

Doyle, Bradley 22 November 2013 (has links)
Evolutionary history has been recognized as an important factor in studying ecological communities. Lake fish communities have had limited consideration from a community phylogenetics perspective and present the opportunity to include trophic interactions in the analysis. For the species under study, I used known phylogenies from the literature and genetic information to determine relative branch lengths and phylogenetic relationships by Bayesian inference. Using the resultant phylogenetic tree and fish community data, the phylogenetic community structure was determined for the lakes in the Manitoulin Island and LaCloche regions of Ontario, Canada. Evidence of phylogenetic structuring was found, particularly associated with piscivory, winter hypoxia tolerance, and thermal preferences for deep coldwater lakes. Although the majority of the lakes were weakly structured from a phylogenetic perspective, significant trends were nonetheless apparent; especially when further informed by examining species-specific trends, demonstrating that evolutionary history can play a role in structuring freshwater fish communities.
3

Biotic Resistance to Non-indigenous Plants: Are Phylogenetically Novel Invaders More Likely to Escape Enemies?

Hill, Steven Burton 03 March 2010 (has links)
The degree to which biotic interactions influence invasion success may partly depend on the evolutionary relationship between invaders and native species. In particular, since host-use by enemies such as invertebrate herbivores and fungal pathogens tends to be phylogenetically conserved, exotic plants that have close native relatives in the invaded range should be more likely to interact with enemies. In this thesis, I explore this idea using a series of experiments and field surveys at nested taxonomic levels. My results indicate that exotics from multiple plant families experience lower damage if their average phylogenetic distance from locally co-occurring native family members is higher. I then demonstrate that within the Asteraceae, foliar and capitular damage are lower on exotic compared to native species. Both damage types had a relatively large phylogenetic component, but did not decline with phylogenetic distance to native or exotic confamilials. Finally, I show that communities with versus without close relatives are unlikely to differ in resistance to the novel invader, Solidago virgaurea: biotic resistance imposed by competitors, generalist vertebrates, and specialist invertebrates resulted in similar patterns of damage and mortality regardless of the presence of congeneric natives. In some cases, effects of biota were positive: growth of S. virgaurea seedlings in soils collected near congeneric natives was enhanced more than in soils from communities where congenerics were absent. Overall, these results suggest that biotic interactions between exotic and native species can be phylogenetically structured, although trends based on distance measures tend to be weak. In some cases, damage does decline with phylogenetic distance to native species; however this trend is unlikely to be a strong force limiting invasion or structuring plant communities. These results have significant implications for current theories of invasion biology including the "Enemy Release Hypothesis" and "Darwin's Naturalization Hypothesis", as well as for community phylogenetics.
4

Biotic Resistance to Non-indigenous Plants: Are Phylogenetically Novel Invaders More Likely to Escape Enemies?

Hill, Steven Burton 03 March 2010 (has links)
The degree to which biotic interactions influence invasion success may partly depend on the evolutionary relationship between invaders and native species. In particular, since host-use by enemies such as invertebrate herbivores and fungal pathogens tends to be phylogenetically conserved, exotic plants that have close native relatives in the invaded range should be more likely to interact with enemies. In this thesis, I explore this idea using a series of experiments and field surveys at nested taxonomic levels. My results indicate that exotics from multiple plant families experience lower damage if their average phylogenetic distance from locally co-occurring native family members is higher. I then demonstrate that within the Asteraceae, foliar and capitular damage are lower on exotic compared to native species. Both damage types had a relatively large phylogenetic component, but did not decline with phylogenetic distance to native or exotic confamilials. Finally, I show that communities with versus without close relatives are unlikely to differ in resistance to the novel invader, Solidago virgaurea: biotic resistance imposed by competitors, generalist vertebrates, and specialist invertebrates resulted in similar patterns of damage and mortality regardless of the presence of congeneric natives. In some cases, effects of biota were positive: growth of S. virgaurea seedlings in soils collected near congeneric natives was enhanced more than in soils from communities where congenerics were absent. Overall, these results suggest that biotic interactions between exotic and native species can be phylogenetically structured, although trends based on distance measures tend to be weak. In some cases, damage does decline with phylogenetic distance to native species; however this trend is unlikely to be a strong force limiting invasion or structuring plant communities. These results have significant implications for current theories of invasion biology including the "Enemy Release Hypothesis" and "Darwin's Naturalization Hypothesis", as well as for community phylogenetics.
5

Assembly processes in soil animal communities: Integrating phylogeny and trait-based approaches

Chen, Ting-Wen 26 January 2018 (has links)
No description available.
6

Structure et assemblage des communautés végétales de parcours des Grands Causses : approche fonctionnelle, phénologique et phylogénétique / Assembly and structure of Mediterranean rangeland plant communities : a functional, phenological and phylogenetic approach

Bernard-Verdier, Maud 06 July 2012 (has links)
Comprendre l'influence de l'environnement sur la distribution des espèces végétales est une préoccupation à la base même de l'écologie végétale. L'objectif de cette thèse est de comprendre comment les communautés végétales de parcours des Grands Causses s'assemblent en fonction de la disponibilité en ressources édaphiques. Pour cela, la structure de niche des communautés a été caractérisée en termes de gestion des ressources, de stratégie de régénération, de niche temporelle et d'histoire évolutive des espèces le long d'un gradient édaphique. Par une approche basée sur les traits fonctionnels, nous avons mis en évidence (i) des processus de filtres, d'origine abiotique et biotique, qui restreignent localement la gamme de variation des traits et trient les espèces le long du gradient, ainsi que (ii) des patrons de divergence ou de convergence des traits au sein des communautés qui révèlent les conditions locales de coexistence des espèces. En milieux peu contraints et productifs, nous observons une convergence des stratégies d'utilisation des ressources, probablement en réponse à une forte compétition aérienne, qui est associée à une divergence des stratégies de reproduction et de régénération. A l'inverse, vers les milieux plus contraignants, une diversité de stratégies de gestion de la ressource coexiste, entrainant un maximum de diversité fonctionnelle en conditions de contraintes intermédiaires. Nous montrons par ailleurs une forte convergence phylogénétique dans ces parcours, associée à la dominance des espèces graminoïdes, qui s'atténue dans les milieux les plus contraints, où une diversité de lignées évolutives adaptées à la sécheresse coexiste. De plus, nous avons pu mettre en évidence que la dominance dans ces parcours est associée à des caractères fonctionnels généraux – tels qu'une teneur en matière sèche élevées, de grosses graines et une hauteur reproductive élevée – mais que celle-ci est ensuite modulée par les conditions édaphiques à une échelle plus fine via d'autres traits tels que la surface spécifique foliaire. Enfin, nous montrons que la phénologie des communautés joue un rôle essentiel dans l'assemblage de ces communautés le long du gradient, à la fois en réponse aux contraintes abiotiques saisonnières, particulièrement la précocité de la sécheresse édaphique, mais également aux interactions biotiques qui limitent le chevauchement des floraisons dans les milieux productifs. La combinaison des différentes approches fonctionnelle, phénologique et phylogénétique de la structure des communautés nous permet ainsi de proposer une vision intégrative des processus complexes d'assemblage des communautés dans ces parcours. / Understanding how the environment influences plant species distribution is a fundamental question in plant ecology. This work aims at understanding how soil resource availability influences plant community assembly and structure in Mediterranean rangelands of Southern France. To do this, the niche structure of plant communities has been described in terms resource use, regeneration strategy, phenology and evolutionary history along a soil resource gradient. Using a trait-based approach, we show that (1) filtering processes, both abiotic and biotic, may restrain trait ranges within communities and sort species along a gradient of soil resource availability, and (2) patterns of functional convergence and divergence among species within communities may reveal different processes of local species coexistence under different soil conditions. Within productive habitats, we found a strong convergence in resource use strategies, possibly resulting from strong aboveground competition, which was accompanied by a divergence in reproductive and regenerative strategies. By contrast, towards more constrained habitats, and despite a strong abiotic filter, a diversity of resource use strategies coexisted, creating a maximum of functional diversity at intermediate levels of constraints. Moreover, the strong phylogenetic convergence in these rangeland communities, mainly related to the dominance of graminoid species, diminished towards the more constrained soils where a diversity of drought-adapted lineages coexisted. In addition, we were able to relate dominance in these rangelands to a few general characters – namely high leaf dry matter content, large seeds and high reproductive heights – which were modulated at a finer spatial scale by local soil conditions influencing different criteria such as specific leaf area. Finally, we highlight the strong phenological response of communities to soil resource availability and the timing of summer drought. However, results also suggest a role of biotic factors, such as competition, in limiting flowering overlap among coexisting species in productive habitats. Combining functional, phenological and phylogenetic approaches allowed us to provide an integrative understanding of the complex processes driving community assembly in these rangelands.
7

Padrões e processos de organização de comunidades de plantas lenhosas : nicho, evolução e biogeografia histórica

Carlucci, Marcos Bergmann January 2014 (has links)
Abordagens funcionais e filogenéticas têm sido amplamente utilizadas no estudo de ecologia de comunidades e têm propiciado um melhor entendimento de como atributos funcionais e sua evolução influenciam padrões ecológicos observados atualmente na natureza. A incorporação da variabilidade intraespecífica em estudos recentes de ecologia de comunidades vegetais tem demonstrado que, apesar de a variabilidade intraespecífica de um atributo ser normalmente menor do que sua variabilidade interespecífica, estudos que consideram a variabilidade intraespecífica inferem mecanismos de organização de comunidades com mais acurácia. Além disso, abordagens analíticas que incluem a variabilidade intraespecífica em estudos de comunidades possibilitam integrar as escalas de populações e comunidades em ecologia. Abordagens filogenéticas recentes permitem a avaliação da interação entre composição filogenética de bancos regionais de espécies e a estrutura filogenética local de comunidades, o que permite a inferência de processos históricos e ecológicos que estruturam comunidades atuais. O objetivo geral desta tese foi avaliar padrões e inferir processos de organização de comunidades de plantas lenhosas da escala local à regional. Para isso, utilizei abordagens baseadas em atributos funcionais para avaliar o nicho de indivíduos (capítulo 2) e das espécies (capítulo 2 e 3) e abordagens filogenéticas para avaliar como a evolução influencia a similaridade funcional entre as espécies (capítulo 3), a formação de bancos de espécies locais (capítulo 3) e regionais (capítulo 4) e a estruturação de comunidades locais (capítulo 4). No capítulo 2, avaliei qual a importância relativa da substituição (turnover) de espécies e da variabilidade intraespecífica nas respostas médias e de dispersão de área foliar específica no nível de comunidade a um gradiente de abertura de dossel em uma metacomunidade de árvores juvenis. Nesse capítulo, concluí que a variabilidade intraespecífica é fundamental para a organização de comunidades lenhosas em florestas e arbustais, pois a área foliar específica dentro da mesma espécie varia conforme o ambiente e o contexto local de espécies interatoras. Essa plasticidade permite o estabelecimento de espécies em uma porção maior do gradiente de abertura do dossel. No capítulo 3, avaliei se espécies ocorrentes tanto na floresta quanto no campo diferem de espécies restritas à floresta ou ao campo quanto a resposta de seus atributos a espécies coocorrentes e ao gradiente ambiental. Concluí que uma ação combinada entre área foliar específica, espessura foliar e densidade de folhagem ajuda a explicar a organização de comunidades de plantas lenhosas em ecótonos floresta-campo. A plasticidade nesses atributos permite a colonização do campo por espécies que também ocorrem na floresta. No capítulo 4, avaliei se há associação entre a estrutura filogenética local (agrupamento ou repulsão) de comunidades de árvores e a distribuição geográfica de grandes linhagens de angiospermas no Neotrópico e Afrotrópico. A conclusão foi que diferenças regionais de composição filogenética entre o Neotrópico e o Afrotrópico são provavelmente um resultado de taxas diferenciais de especiação e extinção que seguiram a separação de Gondwana e atualmente influenciam a estrutura filogenética local de comunidades de árvores de florestas pluviais nos dois reinos. / Functional and phylogenetic approaches have been widely used in community ecology studies and have provided a better understanding of how functional traits and their evolution influence ecological patterns that are currently observed in nature. The incorporation of intraspecific variability in recent plant community ecology studies have demonstrated that, despite intraspecific variability of a given trait extent be usually lower than its interspecific variability, studies that account for intraspecific variability more accurately infer mechanisms of community assembly. Moreover, analytical approaches that incorporate intraspecific variability in community ecology studies enable integrating population and community scales in ecology. Recent phylogenetic approaches permit evaluating the interaction between the phylogenetic composition of regional species pools and local phylogenetic structure of communities, which enables the inference of historical and ecological processes structuring current communities. The general aim of this dissertation was to evaluate and infer assembly processes of woody plant communities from local to regional scales. For this, I used trait-based approaches to assess the niche of individuals (chapter 2) and species (chapter 2 and 3) and community phylogenetics approaches to evaluate how evolution influences the trait similarity between species (chapter 3), the formation of local and regional species pools (chapter 3 and 4, respectively) and the structuring of local communities (chapter 4). In chapter 2, I evaluated what is the relative importance of species turnover and intraspecific variability to the variation in trait mean and spread responses of specific leaf area at the community level across a canopy openness gradient in a tree juvenile metacommunity. In this chapter, I conclude that intraspecific variability is essential to woody community assembly in forests and shrublands, since specific leaf area within the same species varies according to the environment and local context of interacting species. This plasticity permits species establishment in a wider portion of the canopy openness gradient. In chapter 3, I evaluated whether species both in forest and grassland differ from species restricted to either forest or grassland regarding their trait-based responses to co-occurring species and environmental gradient. I concluded that an interplay between specific leaf area, leaf thickness and foliage density help explaining the assembly of woody plant communities in forest-grassland ecotones. The plasticity in these traits enables the colonization of the grassland by species that also occur in the forest. In chapter 4, I evaluated whether there is association between local phylogenetic structure (clustering or overdispersion) of tree communities and geographical distribution of major angiosperm lineages in the Neotropics and Afrotropics. In this chapter, I concluded that regional differences in phylogenetic composition between the Neotropics and Afrotropics are likely an outcome of differential rates of speciation and extinction following the breakup of Gondwana and currently influence local phylogenetic structure of rainforest tree communities in both realms.
8

Padrões e processos de organização de comunidades de plantas lenhosas : nicho, evolução e biogeografia histórica

Carlucci, Marcos Bergmann January 2014 (has links)
Abordagens funcionais e filogenéticas têm sido amplamente utilizadas no estudo de ecologia de comunidades e têm propiciado um melhor entendimento de como atributos funcionais e sua evolução influenciam padrões ecológicos observados atualmente na natureza. A incorporação da variabilidade intraespecífica em estudos recentes de ecologia de comunidades vegetais tem demonstrado que, apesar de a variabilidade intraespecífica de um atributo ser normalmente menor do que sua variabilidade interespecífica, estudos que consideram a variabilidade intraespecífica inferem mecanismos de organização de comunidades com mais acurácia. Além disso, abordagens analíticas que incluem a variabilidade intraespecífica em estudos de comunidades possibilitam integrar as escalas de populações e comunidades em ecologia. Abordagens filogenéticas recentes permitem a avaliação da interação entre composição filogenética de bancos regionais de espécies e a estrutura filogenética local de comunidades, o que permite a inferência de processos históricos e ecológicos que estruturam comunidades atuais. O objetivo geral desta tese foi avaliar padrões e inferir processos de organização de comunidades de plantas lenhosas da escala local à regional. Para isso, utilizei abordagens baseadas em atributos funcionais para avaliar o nicho de indivíduos (capítulo 2) e das espécies (capítulo 2 e 3) e abordagens filogenéticas para avaliar como a evolução influencia a similaridade funcional entre as espécies (capítulo 3), a formação de bancos de espécies locais (capítulo 3) e regionais (capítulo 4) e a estruturação de comunidades locais (capítulo 4). No capítulo 2, avaliei qual a importância relativa da substituição (turnover) de espécies e da variabilidade intraespecífica nas respostas médias e de dispersão de área foliar específica no nível de comunidade a um gradiente de abertura de dossel em uma metacomunidade de árvores juvenis. Nesse capítulo, concluí que a variabilidade intraespecífica é fundamental para a organização de comunidades lenhosas em florestas e arbustais, pois a área foliar específica dentro da mesma espécie varia conforme o ambiente e o contexto local de espécies interatoras. Essa plasticidade permite o estabelecimento de espécies em uma porção maior do gradiente de abertura do dossel. No capítulo 3, avaliei se espécies ocorrentes tanto na floresta quanto no campo diferem de espécies restritas à floresta ou ao campo quanto a resposta de seus atributos a espécies coocorrentes e ao gradiente ambiental. Concluí que uma ação combinada entre área foliar específica, espessura foliar e densidade de folhagem ajuda a explicar a organização de comunidades de plantas lenhosas em ecótonos floresta-campo. A plasticidade nesses atributos permite a colonização do campo por espécies que também ocorrem na floresta. No capítulo 4, avaliei se há associação entre a estrutura filogenética local (agrupamento ou repulsão) de comunidades de árvores e a distribuição geográfica de grandes linhagens de angiospermas no Neotrópico e Afrotrópico. A conclusão foi que diferenças regionais de composição filogenética entre o Neotrópico e o Afrotrópico são provavelmente um resultado de taxas diferenciais de especiação e extinção que seguiram a separação de Gondwana e atualmente influenciam a estrutura filogenética local de comunidades de árvores de florestas pluviais nos dois reinos. / Functional and phylogenetic approaches have been widely used in community ecology studies and have provided a better understanding of how functional traits and their evolution influence ecological patterns that are currently observed in nature. The incorporation of intraspecific variability in recent plant community ecology studies have demonstrated that, despite intraspecific variability of a given trait extent be usually lower than its interspecific variability, studies that account for intraspecific variability more accurately infer mechanisms of community assembly. Moreover, analytical approaches that incorporate intraspecific variability in community ecology studies enable integrating population and community scales in ecology. Recent phylogenetic approaches permit evaluating the interaction between the phylogenetic composition of regional species pools and local phylogenetic structure of communities, which enables the inference of historical and ecological processes structuring current communities. The general aim of this dissertation was to evaluate and infer assembly processes of woody plant communities from local to regional scales. For this, I used trait-based approaches to assess the niche of individuals (chapter 2) and species (chapter 2 and 3) and community phylogenetics approaches to evaluate how evolution influences the trait similarity between species (chapter 3), the formation of local and regional species pools (chapter 3 and 4, respectively) and the structuring of local communities (chapter 4). In chapter 2, I evaluated what is the relative importance of species turnover and intraspecific variability to the variation in trait mean and spread responses of specific leaf area at the community level across a canopy openness gradient in a tree juvenile metacommunity. In this chapter, I conclude that intraspecific variability is essential to woody community assembly in forests and shrublands, since specific leaf area within the same species varies according to the environment and local context of interacting species. This plasticity permits species establishment in a wider portion of the canopy openness gradient. In chapter 3, I evaluated whether species both in forest and grassland differ from species restricted to either forest or grassland regarding their trait-based responses to co-occurring species and environmental gradient. I concluded that an interplay between specific leaf area, leaf thickness and foliage density help explaining the assembly of woody plant communities in forest-grassland ecotones. The plasticity in these traits enables the colonization of the grassland by species that also occur in the forest. In chapter 4, I evaluated whether there is association between local phylogenetic structure (clustering or overdispersion) of tree communities and geographical distribution of major angiosperm lineages in the Neotropics and Afrotropics. In this chapter, I concluded that regional differences in phylogenetic composition between the Neotropics and Afrotropics are likely an outcome of differential rates of speciation and extinction following the breakup of Gondwana and currently influence local phylogenetic structure of rainforest tree communities in both realms.
9

Padrões e processos de organização de comunidades de plantas lenhosas : nicho, evolução e biogeografia histórica

Carlucci, Marcos Bergmann January 2014 (has links)
Abordagens funcionais e filogenéticas têm sido amplamente utilizadas no estudo de ecologia de comunidades e têm propiciado um melhor entendimento de como atributos funcionais e sua evolução influenciam padrões ecológicos observados atualmente na natureza. A incorporação da variabilidade intraespecífica em estudos recentes de ecologia de comunidades vegetais tem demonstrado que, apesar de a variabilidade intraespecífica de um atributo ser normalmente menor do que sua variabilidade interespecífica, estudos que consideram a variabilidade intraespecífica inferem mecanismos de organização de comunidades com mais acurácia. Além disso, abordagens analíticas que incluem a variabilidade intraespecífica em estudos de comunidades possibilitam integrar as escalas de populações e comunidades em ecologia. Abordagens filogenéticas recentes permitem a avaliação da interação entre composição filogenética de bancos regionais de espécies e a estrutura filogenética local de comunidades, o que permite a inferência de processos históricos e ecológicos que estruturam comunidades atuais. O objetivo geral desta tese foi avaliar padrões e inferir processos de organização de comunidades de plantas lenhosas da escala local à regional. Para isso, utilizei abordagens baseadas em atributos funcionais para avaliar o nicho de indivíduos (capítulo 2) e das espécies (capítulo 2 e 3) e abordagens filogenéticas para avaliar como a evolução influencia a similaridade funcional entre as espécies (capítulo 3), a formação de bancos de espécies locais (capítulo 3) e regionais (capítulo 4) e a estruturação de comunidades locais (capítulo 4). No capítulo 2, avaliei qual a importância relativa da substituição (turnover) de espécies e da variabilidade intraespecífica nas respostas médias e de dispersão de área foliar específica no nível de comunidade a um gradiente de abertura de dossel em uma metacomunidade de árvores juvenis. Nesse capítulo, concluí que a variabilidade intraespecífica é fundamental para a organização de comunidades lenhosas em florestas e arbustais, pois a área foliar específica dentro da mesma espécie varia conforme o ambiente e o contexto local de espécies interatoras. Essa plasticidade permite o estabelecimento de espécies em uma porção maior do gradiente de abertura do dossel. No capítulo 3, avaliei se espécies ocorrentes tanto na floresta quanto no campo diferem de espécies restritas à floresta ou ao campo quanto a resposta de seus atributos a espécies coocorrentes e ao gradiente ambiental. Concluí que uma ação combinada entre área foliar específica, espessura foliar e densidade de folhagem ajuda a explicar a organização de comunidades de plantas lenhosas em ecótonos floresta-campo. A plasticidade nesses atributos permite a colonização do campo por espécies que também ocorrem na floresta. No capítulo 4, avaliei se há associação entre a estrutura filogenética local (agrupamento ou repulsão) de comunidades de árvores e a distribuição geográfica de grandes linhagens de angiospermas no Neotrópico e Afrotrópico. A conclusão foi que diferenças regionais de composição filogenética entre o Neotrópico e o Afrotrópico são provavelmente um resultado de taxas diferenciais de especiação e extinção que seguiram a separação de Gondwana e atualmente influenciam a estrutura filogenética local de comunidades de árvores de florestas pluviais nos dois reinos. / Functional and phylogenetic approaches have been widely used in community ecology studies and have provided a better understanding of how functional traits and their evolution influence ecological patterns that are currently observed in nature. The incorporation of intraspecific variability in recent plant community ecology studies have demonstrated that, despite intraspecific variability of a given trait extent be usually lower than its interspecific variability, studies that account for intraspecific variability more accurately infer mechanisms of community assembly. Moreover, analytical approaches that incorporate intraspecific variability in community ecology studies enable integrating population and community scales in ecology. Recent phylogenetic approaches permit evaluating the interaction between the phylogenetic composition of regional species pools and local phylogenetic structure of communities, which enables the inference of historical and ecological processes structuring current communities. The general aim of this dissertation was to evaluate and infer assembly processes of woody plant communities from local to regional scales. For this, I used trait-based approaches to assess the niche of individuals (chapter 2) and species (chapter 2 and 3) and community phylogenetics approaches to evaluate how evolution influences the trait similarity between species (chapter 3), the formation of local and regional species pools (chapter 3 and 4, respectively) and the structuring of local communities (chapter 4). In chapter 2, I evaluated what is the relative importance of species turnover and intraspecific variability to the variation in trait mean and spread responses of specific leaf area at the community level across a canopy openness gradient in a tree juvenile metacommunity. In this chapter, I conclude that intraspecific variability is essential to woody community assembly in forests and shrublands, since specific leaf area within the same species varies according to the environment and local context of interacting species. This plasticity permits species establishment in a wider portion of the canopy openness gradient. In chapter 3, I evaluated whether species both in forest and grassland differ from species restricted to either forest or grassland regarding their trait-based responses to co-occurring species and environmental gradient. I concluded that an interplay between specific leaf area, leaf thickness and foliage density help explaining the assembly of woody plant communities in forest-grassland ecotones. The plasticity in these traits enables the colonization of the grassland by species that also occur in the forest. In chapter 4, I evaluated whether there is association between local phylogenetic structure (clustering or overdispersion) of tree communities and geographical distribution of major angiosperm lineages in the Neotropics and Afrotropics. In this chapter, I concluded that regional differences in phylogenetic composition between the Neotropics and Afrotropics are likely an outcome of differential rates of speciation and extinction following the breakup of Gondwana and currently influence local phylogenetic structure of rainforest tree communities in both realms.

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