Phylogenetic Structuring of Lake Fish Communities

Doyle, Bradley

22 November 2013

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.

community phylogenetics

aquatic ecology

freshwater fish

habitat filtering

0329

Phylogenetic Structuring of Lake Fish Communities

Doyle, Bradley

22 November 2013

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.

community phylogenetics

aquatic ecology

freshwater fish

habitat filtering

0329

Diversity Patterns of Amphibians in Lowland Amazonian Forests in Southeastern Peru

von May, Rudolf

17 April 2009

Biological diversity is threatened worldwide and it is a priority to generate more information that can be used both for understanding ecological processes and determining conservation strategies. For my dissertation, I focused on amphibian diversity patterns in lowland rainforests of southwestern Amazonia to evaluate the importance of habitat heterogeneity in the region. My main purpose was to test the hypothesis that amphibian communities in different forest types differ in species richness, composition, and abundance. I used standardized visual encounter surveys to quantify the species composition and abundance of amphibians at four sites, each containing four forest types (floodplain, terra firme, bamboo, and palm swamp). I used leaf-litter plots to evaluate the effect of soil and leaf-litter characteristics on species richness and abundance of leaf-litter frogs. I intensively sampled at one site and then sampled three other sites (distance among sites varied 3.5-105 km) to evaluate whether the patterns observed at one site were similar elsewhere. I also updated the information on threatened and potentially threatened amphibians in Peru and my study region. I found that no species appears to have experienced population declines in southeastern Peru, suggesting that the region still contains the original species pool. My results support the hypothesis that amphibian communities differ across forest types and that patterns observed at the local scale (one site) are similar at the regional scale (four sites). My data also indicate that there is no correlation between species composition and geographic distance among sites. Instead, an important proportion of the gamma diversity is represented by habitat-related beta diversity. My leaf-litter plot data showed that part of the variation in the leaf-litter community structure is explained by soil and litter characteristics. I found that soil total phosphorus and, to a lesser extent, humidity, leaf-litter mass, and pH is linked to species presence/absence and abundance. My study provides the first standardized, quantitative comparison of amphibian community structure across four major forest types in southwestern Amazonia and highlights the fact that forest types are complementary and necessary for maintaining high species richness in the region.

animal ecology

beta diversity

habitat filtering

species sorting

tropical forest

western Amazonia

Synthesizing Phylogeography and Community Ecology to Understand Patterns of Community Diversity

Williams, Trevor J.

29 July 2021

Community ecology is the study of the patterns and processes governing species abundance, distribution, and diversity within and between communities. Likewise, phylogeography is the study of the historic processes controlling genetic diversity across space. Both fields investigate diversity, albeit at different temporal, spatial and taxonomic scales and therefore have varying assumptions. Community ecology typically focuses on contemporary mechanisms whereas phylogeography studies historic ones. However, new research has discovered that both genetic and community diversity can be influenced by contemporary and historic processes in tandem. As such, a growing number of researchers have called for greater integration of phylogeography and ecology to better understand the mechanisms structuring diversity. In this dissertation I attempt to add to this integration by investigating ways that phylogeography and population genetics can enhance studies on community ecology. First, I review traditional studies on freshwater fish community assembly using null model analyses of species co-occurrence, which shows that fish are largely structured by deterministic processes, though the importance of different mechanisms varies across climates, habitats, and spatial scales. Next, I show how phylogeographic data can greatly enhance inferences of community assembly in freshwater fish communities in Costa Rica and Utah respectively. My Costa Rican analyses indicate that historic eustatic sea-level change can be better at predicting community structure within a biogeographic province than contemporary processes. In comparison, my Utah analyses show that historic dispersal between isolated basins in conjunction with contemporary habitat filtering, dispersal limitation, and extinction dynamics both influence community assembly through time. Finally, I adapt a forward-time population genetics stochastic simulation model to work in a metacommunity context and integrate it with Approximate Bayesian Computation to infer the processes that govern observed community composition patterns. Overall, I show that community ecology can be greatly enhanced by including information and methods from different but related fields and encourage future ecologists to further this research to gain a greater understanding of biological diversity.

Approximate Bayesian Computation

community ecology

dispersal

diversity

habitat filtering

history

metacommunity ecology

phylogeography

population genetics

process-pattern

synthesis

Life Sciences

Phylogenetic Community Structure Of Aquatic Beetle Assemblages In A Multi-wetland Experiment

Kelly, Sandor Lawrence

01 January 2012

Phylogenetic Community Structure (PCS) metrics are becoming more common in community ecology. PCS metrics estimate the phylogenetic relatedness among members of an ecological community or assemblage. If ecological traits are conserved, then phylogenetic clustering (i.e., taxa are more closely related than expected by chance) indicates habitat filtering as the key process in community assembly. On the other hand, a pattern of phylogenetic overdispersion (i.e., taxa are more distantly related than expected by chance) suggests competition is dominant. Most studies to date have used PCS of unmanipulated ecosystems, but the value of PCS metrics will be best revealed in experiments. This project used PCS for aquatic beetle (Coleoptera) assemblages in experimentally manipulated seasonal wetlands on a cattle ranch in south-central Florida, and compared PCS metrics to standard ecological metrics. Wetlands were experimentally treated with all combinations of pasture management, fencing to exclude cattle, and controlled burning during 2006-2009. Beetle assemblages in fenced wetlands were significantly more overdispersed compared to non-fenced wetlands, suggesting that this treatment decreases habitat filtering, causing competition to become the dominant process in community formation. There was also a significant pasture x fence x burn interaction effect, with assemblages in wetlands differing in PCS depending on what combination of the three treatments were applied. Phylogenetic Diversity (PD – a measure of branch length of a community or assemblage on a phylogenetic tree) was highly correlated with genera richness (number of genera), and these metrics along with the expected number of genera (D – an ecological diversity index) found significant differences among burn treatments and a pasture x iii burn interaction. The results of this study indicate that PCS metrics complement classical ecological methods and should be widely applied.

Phylogenetic community structure

community ecology

habitat filtering

competition

diversity

phylogenetic diversiy

aquatic beetles

aquatic beetle assemblages

Biology

Estrutura filogenética de comunidades de plantas lenhosas em ecótonos vegetacionais

Debastiani, Vanderlei Julio

January 2012

A busca de padrões consistentes na natureza tem sido a principal meta dos ecólogos. Essa dissertação teve como objetivo usar abordagens filogenéticas na tentativa de compreender melhor o processo ecológico da expansão florestal sobre áreas abertas. O uso da informação filogenética em análises ecológicas considera as espécies não independentes umas das outras, pois estas compartilham grande parte da história evolutiva. Essa hierarquia de organização das espécies é muito importante para determinar as regras que governam os processos de montagem das comunidades locais. Nesta dissertação foram avaliados padrões filogenéticos de estruturação da vegetação lenhosa florestal ocorrente em ecótonos de áreas abertas com vegetação florestal distribuídos em diferentes regiões do extremo sul do Brasil. Estes ecótonos são formados por diversas formações florestais, as quais tendem a expandir sobre as áreas abertas. Dados sobre composição de espécies provieram de estudos já realizados e de amostragens em alguns sítios. Duas métricas filogenéticas complementares foram usadas para avaliar a estrutura filogenética em cada categoria de habitat nos ecótonos: índice de parentesco líquido (NRI) e coordenadas principais da estrutura filogenética (PCPS). As análises dos valores de NRI não mostraram um padrão nítido de estruturação filogenética das comunidades. Já a análise dos PCPS mostrou padrões consistentes nas três escalas espaciais abordadas e independente da composição de espécies. Clados basais associaram-se às áreas florestais, enquanto clados de diversificação recente associaram-se às áreas abertas. Estes resultados indicam que áreas abertas atuam como um filtro filogenético de habitat para as espécies lenhosas florestais em todos os locais analisados, independentemente da escala e da composição de espécies de cada local. Os resultados sugerem que os clados de Rosanae e Asteranae estão na linha de frente do processo de expansão florestal sobre as áreas abertas, e o clado de Magnolianae restrito às áreas florestais. A busca por padrões gerais de organização das comunidades ecológicas a partir de sua estrutura filogenética parece consistir numa ferramenta útil para a exploração e entendimento sobre o funcionamento de sistemas ecológicos. Estas abordagens poderiam beneficiar estratégias de gerenciamento e conservação destes sistemas, por simplificarem sistemas ecológicos complexos e por mostrarem padrões gerais independentes da escala espacial analisada. / The search for consistent patterns in nature has been a major goal of ecologists. This study aimed to employ phylogenetic analyses to improve the understanding of an ecological process, the expansion of forest expansion over open areas. The use of evolutionary information considers species as not independent units in relation to each other, as they share their evolutionary history. Such hierarchical organization of species is very important to determine the rules governing assembly processes in local communities. Phylogenetic approaches were used to evaluate phylogenetic patterns in forest woody vegetation occurring in ecotones comprising open areas and forest vegetation, and distributed across different regions in the southernmost Brazilian region. Those ecotones are composed by different forest vegetation types, which tend to expand over open areas. Data on species composition were compiled from previous studies, and vegetation sampling was carried out in sites without available information on species composition in ecotones. Two complementary phylogenetic metrics were used to evaluate the phylogenetic structure in each habitat type occurring in ecotones: net relatedness index (NRI) and principal coordinates of phylogenetic structure (PCPS). Analyses of NRI values did not show any clear pattern of phylogenetic structuring of the communities. Nonetheless, PCPS analysis showed consistent patterns across the threes spatial scales evaluated, which were independent of the species composition of the sites. Basal clades were associated with forest areas, while late-divergence clades were associated with open areas. These findings indicate that open areas act as a phylogenetic habitat filtering to forest woody species throughout the region, independently of the spatial scale and of the species composition in each site. The results suggest that the clades Rosanae and Asteranae represent the vanguard in theforest expansion process over open areas, while the distribution of the basal clade Magnolianae is restricted to forest sites. The search for general organization patterns in ecological communities based on their phylogenetic structure seems to be a useful tool for exploring and understanding the functioning of ecological systems. Such approach might benefit ecosystem managing and conservation strategies, as it simplifies complex ecological systems, and shows general patterns independently of the scale analyzed.

Angiospermas

Asteranae

Filogenética

Ecótonos

Magnolianae

Rosanae

Angiosperms

Asteranae

Ecological communities

Biological conservation

Ecotones

Edge effects

Spatial scale

Phylogenetic structure

Forest expansion

Phylogenetic habitat filtering

Magnolianae

Rosanae

Estrutura filogenética de comunidades de plantas lenhosas em ecótonos vegetacionais

Debastiani, Vanderlei Julio

January 2012

A busca de padrões consistentes na natureza tem sido a principal meta dos ecólogos. Essa dissertação teve como objetivo usar abordagens filogenéticas na tentativa de compreender melhor o processo ecológico da expansão florestal sobre áreas abertas. O uso da informação filogenética em análises ecológicas considera as espécies não independentes umas das outras, pois estas compartilham grande parte da história evolutiva. Essa hierarquia de organização das espécies é muito importante para determinar as regras que governam os processos de montagem das comunidades locais. Nesta dissertação foram avaliados padrões filogenéticos de estruturação da vegetação lenhosa florestal ocorrente em ecótonos de áreas abertas com vegetação florestal distribuídos em diferentes regiões do extremo sul do Brasil. Estes ecótonos são formados por diversas formações florestais, as quais tendem a expandir sobre as áreas abertas. Dados sobre composição de espécies provieram de estudos já realizados e de amostragens em alguns sítios. Duas métricas filogenéticas complementares foram usadas para avaliar a estrutura filogenética em cada categoria de habitat nos ecótonos: índice de parentesco líquido (NRI) e coordenadas principais da estrutura filogenética (PCPS). As análises dos valores de NRI não mostraram um padrão nítido de estruturação filogenética das comunidades. Já a análise dos PCPS mostrou padrões consistentes nas três escalas espaciais abordadas e independente da composição de espécies. Clados basais associaram-se às áreas florestais, enquanto clados de diversificação recente associaram-se às áreas abertas. Estes resultados indicam que áreas abertas atuam como um filtro filogenético de habitat para as espécies lenhosas florestais em todos os locais analisados, independentemente da escala e da composição de espécies de cada local. Os resultados sugerem que os clados de Rosanae e Asteranae estão na linha de frente do processo de expansão florestal sobre as áreas abertas, e o clado de Magnolianae restrito às áreas florestais. A busca por padrões gerais de organização das comunidades ecológicas a partir de sua estrutura filogenética parece consistir numa ferramenta útil para a exploração e entendimento sobre o funcionamento de sistemas ecológicos. Estas abordagens poderiam beneficiar estratégias de gerenciamento e conservação destes sistemas, por simplificarem sistemas ecológicos complexos e por mostrarem padrões gerais independentes da escala espacial analisada. / The search for consistent patterns in nature has been a major goal of ecologists. This study aimed to employ phylogenetic analyses to improve the understanding of an ecological process, the expansion of forest expansion over open areas. The use of evolutionary information considers species as not independent units in relation to each other, as they share their evolutionary history. Such hierarchical organization of species is very important to determine the rules governing assembly processes in local communities. Phylogenetic approaches were used to evaluate phylogenetic patterns in forest woody vegetation occurring in ecotones comprising open areas and forest vegetation, and distributed across different regions in the southernmost Brazilian region. Those ecotones are composed by different forest vegetation types, which tend to expand over open areas. Data on species composition were compiled from previous studies, and vegetation sampling was carried out in sites without available information on species composition in ecotones. Two complementary phylogenetic metrics were used to evaluate the phylogenetic structure in each habitat type occurring in ecotones: net relatedness index (NRI) and principal coordinates of phylogenetic structure (PCPS). Analyses of NRI values did not show any clear pattern of phylogenetic structuring of the communities. Nonetheless, PCPS analysis showed consistent patterns across the threes spatial scales evaluated, which were independent of the species composition of the sites. Basal clades were associated with forest areas, while late-divergence clades were associated with open areas. These findings indicate that open areas act as a phylogenetic habitat filtering to forest woody species throughout the region, independently of the spatial scale and of the species composition in each site. The results suggest that the clades Rosanae and Asteranae represent the vanguard in theforest expansion process over open areas, while the distribution of the basal clade Magnolianae is restricted to forest sites. The search for general organization patterns in ecological communities based on their phylogenetic structure seems to be a useful tool for exploring and understanding the functioning of ecological systems. Such approach might benefit ecosystem managing and conservation strategies, as it simplifies complex ecological systems, and shows general patterns independently of the scale analyzed.

Angiospermas

Asteranae

Filogenética

Ecótonos

Magnolianae

Rosanae

Angiosperms

Asteranae

Ecological communities

Biological conservation

Ecotones

Edge effects

Spatial scale

Phylogenetic structure

Forest expansion

Phylogenetic habitat filtering

Magnolianae

Rosanae

Estrutura filogenética de comunidades de plantas lenhosas em ecótonos vegetacionais

Debastiani, Vanderlei Julio

January 2012

A busca de padrões consistentes na natureza tem sido a principal meta dos ecólogos. Essa dissertação teve como objetivo usar abordagens filogenéticas na tentativa de compreender melhor o processo ecológico da expansão florestal sobre áreas abertas. O uso da informação filogenética em análises ecológicas considera as espécies não independentes umas das outras, pois estas compartilham grande parte da história evolutiva. Essa hierarquia de organização das espécies é muito importante para determinar as regras que governam os processos de montagem das comunidades locais. Nesta dissertação foram avaliados padrões filogenéticos de estruturação da vegetação lenhosa florestal ocorrente em ecótonos de áreas abertas com vegetação florestal distribuídos em diferentes regiões do extremo sul do Brasil. Estes ecótonos são formados por diversas formações florestais, as quais tendem a expandir sobre as áreas abertas. Dados sobre composição de espécies provieram de estudos já realizados e de amostragens em alguns sítios. Duas métricas filogenéticas complementares foram usadas para avaliar a estrutura filogenética em cada categoria de habitat nos ecótonos: índice de parentesco líquido (NRI) e coordenadas principais da estrutura filogenética (PCPS). As análises dos valores de NRI não mostraram um padrão nítido de estruturação filogenética das comunidades. Já a análise dos PCPS mostrou padrões consistentes nas três escalas espaciais abordadas e independente da composição de espécies. Clados basais associaram-se às áreas florestais, enquanto clados de diversificação recente associaram-se às áreas abertas. Estes resultados indicam que áreas abertas atuam como um filtro filogenético de habitat para as espécies lenhosas florestais em todos os locais analisados, independentemente da escala e da composição de espécies de cada local. Os resultados sugerem que os clados de Rosanae e Asteranae estão na linha de frente do processo de expansão florestal sobre as áreas abertas, e o clado de Magnolianae restrito às áreas florestais. A busca por padrões gerais de organização das comunidades ecológicas a partir de sua estrutura filogenética parece consistir numa ferramenta útil para a exploração e entendimento sobre o funcionamento de sistemas ecológicos. Estas abordagens poderiam beneficiar estratégias de gerenciamento e conservação destes sistemas, por simplificarem sistemas ecológicos complexos e por mostrarem padrões gerais independentes da escala espacial analisada. / The search for consistent patterns in nature has been a major goal of ecologists. This study aimed to employ phylogenetic analyses to improve the understanding of an ecological process, the expansion of forest expansion over open areas. The use of evolutionary information considers species as not independent units in relation to each other, as they share their evolutionary history. Such hierarchical organization of species is very important to determine the rules governing assembly processes in local communities. Phylogenetic approaches were used to evaluate phylogenetic patterns in forest woody vegetation occurring in ecotones comprising open areas and forest vegetation, and distributed across different regions in the southernmost Brazilian region. Those ecotones are composed by different forest vegetation types, which tend to expand over open areas. Data on species composition were compiled from previous studies, and vegetation sampling was carried out in sites without available information on species composition in ecotones. Two complementary phylogenetic metrics were used to evaluate the phylogenetic structure in each habitat type occurring in ecotones: net relatedness index (NRI) and principal coordinates of phylogenetic structure (PCPS). Analyses of NRI values did not show any clear pattern of phylogenetic structuring of the communities. Nonetheless, PCPS analysis showed consistent patterns across the threes spatial scales evaluated, which were independent of the species composition of the sites. Basal clades were associated with forest areas, while late-divergence clades were associated with open areas. These findings indicate that open areas act as a phylogenetic habitat filtering to forest woody species throughout the region, independently of the spatial scale and of the species composition in each site. The results suggest that the clades Rosanae and Asteranae represent the vanguard in theforest expansion process over open areas, while the distribution of the basal clade Magnolianae is restricted to forest sites. The search for general organization patterns in ecological communities based on their phylogenetic structure seems to be a useful tool for exploring and understanding the functioning of ecological systems. Such approach might benefit ecosystem managing and conservation strategies, as it simplifies complex ecological systems, and shows general patterns independently of the scale analyzed.

Angiospermas

Asteranae

Filogenética

Ecótonos

Magnolianae

Rosanae

Angiosperms

Asteranae

Ecological communities

Biological conservation

Ecotones

Edge effects

Spatial scale

Phylogenetic structure

Forest expansion

Phylogenetic habitat filtering

Magnolianae

Rosanae

Efeitos funcionais e filogenéticos nas relações entre forófitos e epífetos vasculares

Vieira, Pedro Rates

January 2012

Os padrões de associação entre epífitos e forófitos não podem ser considerados espécie-específicos, mas as árvores que os epífitos colonizam também não são um conjunto aleatório das espécies forofíticas de um determinado local. Ao invés disso, parece haver uma preferência de certos epífitos por diferentes forófitos. No entanto, se conhece pouco sobre os fatores que determinam essa preferência. Nosso objetivo nesse trabalho é avaliar como os atributos funcionais e a filogenia dos epífitos vasculares influenciam na associação dos epífitos com os forófitos em uma Floresta Ombrófila Mista no sul do Brasil. Para isso nós (1) investigamos padrões de associação positiva e negativa entre grupos funcionais de epífitos e grupos de forófitos e como a diversidade e os atributos funcionais dos epífitos variavam em função do tamanho do forófito e (2) inferimos sobre a existência de sinal filogenético no uso de árvores hospedeiras pelos epífitos, procuramos por estrutura filogenética nas comunidades epifíticas e investigamos diferenças de composição filogenética de epífitos vasculares em diferentes clados de forófitos. Foram amostrados 70 forófitos compreendendo 15 espécies pertencentes a diversos clados e com arquiteturas e características variadas. A amostragem compreendeu 31 espécies epifíticas com os principais clados sendo Polypodiaceae, Bromeliaceae e Orchidaceae. A associação de grupos de epífitos vasculares com diferentes grupos de forófitos sugere que as características dos forófitos proporcionam ambientes contrastantes e que diferentes valores de atributos são necessários para colonizar esses ambientes. Mais especificamente espécies epifíticas com menor área específica foliar (SLA) parecem predominar em árvores maiores e maior SLA em árvores menores. Encontramos sinal filogenético na utilização dos forófitos, sugerindo que a conservação das interações com os forófitos deve ter sido importante ao longo da evolução dos epífitos. A tendência a agrupamento filogenético nas comunidades epifíticas sugere a influência de filtros ambientais representados pelas diferentes características dos forófitos estruturando as assembleias de epífitos. Clados mais basais de forófitos apresentaram composição filogenética distinta devido, sobretudo, a presença de diferentes clados de monilófitos epifíticos nessas árvores. Angiospermas epifíticas ocorreram principalmente em forófitos pertencente as eurosídeas. A preferência de epífitos por forófitos parece ser influenciada pelo surgimento de novidades morfológicas e ecofisiológicas em alguns clados, enquanto outros mantiveram o seu nicho ancestral. A composição florística das florestas quando da origem dos clados epifíticos também parece influenciar a associação entre epífitos e forófitos. Ao utilizar informações sobre os atributos e filogenia das espécies de epífitos vasculares nós podemos melhor compreender os mecanismos ecológicos e históricos que influenciam os padrões de associação entre epífitos e forófitos. / It has been shown that patterns of association between epiphytes and phorophytes can not be considered species-specific, although the trees that epiphytes colonize are not a random subset of phorophyte species in a particular location. Instead, there seems to be a preference of some epiphytes for different phorophytic species. However, little is known about the factors determining this choice. Our objective in this study is to assess how functional attributes and phylogeny of vascular epiphytes influence the association of epiphytes with the phorophytes in an Araucaria Forest in Southern Brazil. For that we (1) investigated the positive and negative association patterns between functional groups of epiphytes and groups of phorophytes and how functional diversity and functional traits of epiphytes varied with host tree size and (2) inferred about the existence of phylogenetic signal on the host trees use by epiphytes, looked for phylogenetic structure in the epiphytic communities and investigated differences in the phylogenetic composition of vascular epiphytes in different phorophyte clades. We used a sample of 70 phorophytes comprising 15 species and belonging to different clades and with different architectures and traits. The sample comprised 31 epiphytic species, the major clades being Polypodiaceae, Bromeliaceae and Orchidaceae. The combination of vascular epiphyte groups with different groups of 15 phorophytes suggests that phorophyte traits provide contrasting environments and that different trait values are needed to colonize these environments. More specifically, epiphytic species with lower specific leaf area (SLA) seem to predominate on larger trees and with higher SLA values on smaller trees. We found phylogenetic signal on the host tree use, suggesting that conservatism of the interactions with phorophytes must have been important throughout the evolution of epiphytes. The tendency to phylogenetic clustering in the epiphytic communities suggests the influence of environmental filters represented by phorophyte traits structuring epiphyte assemblages. More basal clades of phorophytes showed different phylogenetic composition mainly due to the presence of different epiphytic monilophyte clades on these trees. Epiphytic angiosperms occurred mainly on those trees belonging to eurosids. The preference of epiphytes for phorophytes seems to be influenced by morphological and ecophysiological novelties in some lineages, while other clades kept their ancestral niche. The floristic composition of forests at the origins of epiphytic lineages also appears to influence the association between epiphytes and phorophytes. By using information about the traits and phylogeny of species of vascular epiphytes we can better understand the ecological and historical mechanisms that influence the patterns of association between epiphytes and phorophytes.

Filogenia

Epífitas

Genética vegetal

Aracuri Ecological Station

Species association

Phylogenetic structure

Phylogenetic signal

Phylogenetic habitat filtering

Phylogenetic community ecology

Host trees

Functional types

Epiphytic communities

Ecological networks

Araucaria forests

Efeitos funcionais e filogenéticos nas relações entre forófitos e epífetos vasculares

Vieira, Pedro Rates

January 2012

Os padrões de associação entre epífitos e forófitos não podem ser considerados espécie-específicos, mas as árvores que os epífitos colonizam também não são um conjunto aleatório das espécies forofíticas de um determinado local. Ao invés disso, parece haver uma preferência de certos epífitos por diferentes forófitos. No entanto, se conhece pouco sobre os fatores que determinam essa preferência. Nosso objetivo nesse trabalho é avaliar como os atributos funcionais e a filogenia dos epífitos vasculares influenciam na associação dos epífitos com os forófitos em uma Floresta Ombrófila Mista no sul do Brasil. Para isso nós (1) investigamos padrões de associação positiva e negativa entre grupos funcionais de epífitos e grupos de forófitos e como a diversidade e os atributos funcionais dos epífitos variavam em função do tamanho do forófito e (2) inferimos sobre a existência de sinal filogenético no uso de árvores hospedeiras pelos epífitos, procuramos por estrutura filogenética nas comunidades epifíticas e investigamos diferenças de composição filogenética de epífitos vasculares em diferentes clados de forófitos. Foram amostrados 70 forófitos compreendendo 15 espécies pertencentes a diversos clados e com arquiteturas e características variadas. A amostragem compreendeu 31 espécies epifíticas com os principais clados sendo Polypodiaceae, Bromeliaceae e Orchidaceae. A associação de grupos de epífitos vasculares com diferentes grupos de forófitos sugere que as características dos forófitos proporcionam ambientes contrastantes e que diferentes valores de atributos são necessários para colonizar esses ambientes. Mais especificamente espécies epifíticas com menor área específica foliar (SLA) parecem predominar em árvores maiores e maior SLA em árvores menores. Encontramos sinal filogenético na utilização dos forófitos, sugerindo que a conservação das interações com os forófitos deve ter sido importante ao longo da evolução dos epífitos. A tendência a agrupamento filogenético nas comunidades epifíticas sugere a influência de filtros ambientais representados pelas diferentes características dos forófitos estruturando as assembleias de epífitos. Clados mais basais de forófitos apresentaram composição filogenética distinta devido, sobretudo, a presença de diferentes clados de monilófitos epifíticos nessas árvores. Angiospermas epifíticas ocorreram principalmente em forófitos pertencente as eurosídeas. A preferência de epífitos por forófitos parece ser influenciada pelo surgimento de novidades morfológicas e ecofisiológicas em alguns clados, enquanto outros mantiveram o seu nicho ancestral. A composição florística das florestas quando da origem dos clados epifíticos também parece influenciar a associação entre epífitos e forófitos. Ao utilizar informações sobre os atributos e filogenia das espécies de epífitos vasculares nós podemos melhor compreender os mecanismos ecológicos e históricos que influenciam os padrões de associação entre epífitos e forófitos. / It has been shown that patterns of association between epiphytes and phorophytes can not be considered species-specific, although the trees that epiphytes colonize are not a random subset of phorophyte species in a particular location. Instead, there seems to be a preference of some epiphytes for different phorophytic species. However, little is known about the factors determining this choice. Our objective in this study is to assess how functional attributes and phylogeny of vascular epiphytes influence the association of epiphytes with the phorophytes in an Araucaria Forest in Southern Brazil. For that we (1) investigated the positive and negative association patterns between functional groups of epiphytes and groups of phorophytes and how functional diversity and functional traits of epiphytes varied with host tree size and (2) inferred about the existence of phylogenetic signal on the host trees use by epiphytes, looked for phylogenetic structure in the epiphytic communities and investigated differences in the phylogenetic composition of vascular epiphytes in different phorophyte clades. We used a sample of 70 phorophytes comprising 15 species and belonging to different clades and with different architectures and traits. The sample comprised 31 epiphytic species, the major clades being Polypodiaceae, Bromeliaceae and Orchidaceae. The combination of vascular epiphyte groups with different groups of 15 phorophytes suggests that phorophyte traits provide contrasting environments and that different trait values are needed to colonize these environments. More specifically, epiphytic species with lower specific leaf area (SLA) seem to predominate on larger trees and with higher SLA values on smaller trees. We found phylogenetic signal on the host tree use, suggesting that conservatism of the interactions with phorophytes must have been important throughout the evolution of epiphytes. The tendency to phylogenetic clustering in the epiphytic communities suggests the influence of environmental filters represented by phorophyte traits structuring epiphyte assemblages. More basal clades of phorophytes showed different phylogenetic composition mainly due to the presence of different epiphytic monilophyte clades on these trees. Epiphytic angiosperms occurred mainly on those trees belonging to eurosids. The preference of epiphytes for phorophytes seems to be influenced by morphological and ecophysiological novelties in some lineages, while other clades kept their ancestral niche. The floristic composition of forests at the origins of epiphytic lineages also appears to influence the association between epiphytes and phorophytes. By using information about the traits and phylogeny of species of vascular epiphytes we can better understand the ecological and historical mechanisms that influence the patterns of association between epiphytes and phorophytes.

Filogenia

Epífitas

Genética vegetal

Aracuri Ecological Station

Species association

Phylogenetic structure

Phylogenetic signal

Phylogenetic habitat filtering

Phylogenetic community ecology

Host trees

Functional types

Epiphytic communities

Ecological networks

Araucaria forests