Ecological constraints and trait conservatism drive functional and phylogenetic structure of amphibians larvae assemblages in the Atlantic Forest

Abstract Investigate how ecological and/or evolutionary factors could affect the structure of ecological communities is a central demand in ecology. In order to better understand that we assessed phylogenetic and functional structure of 33 tadpole communities in the Atlantic Forest coastal plains of Southeastern Brazil. We tested the assumption that phylogenetic conservatism drive tadpole traits. We identified 32 communities with positive values of phylogenetic structure, with 18 of those being significantly clustered. Twelve of 33 communities showed aggregated functional structure. Trait diversity was skewed towards the root, indicating phylogenetic trait conservatism and evolutionary factors as important drivers of tadpoles community structure. Six out of 11 environmental variables were selected in the best explanatory model of phylogenetic structure. Water conductivity, external and internal diversity of vegetation structure, canopy cover, and dissolved oxygen were negatively related with phylogenetic clustering, whereas presence of potential fish predators was positively related. Four of those environmental variables and area were also included in the best explanatory model of functional structure. All variables represent factors related to performance, survivorship, and distribution of anuran communities. From the 12 functionally structured communities, 10 were also phylogenetically structured. Thus, environmental factors may be acting as filters, interacting with phylogenetically conserved species traits, and driving linage occurrence in tadpole communities. Our study provides evidence that phylogenetic and functional structure in vertebrates are a result of interacting ecological and evolutionary agents, resulting in structured anuran assemblages.

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Phylogenetic overdispersion of plant species in southern Brazilian savannas

Brazilian Journal of Biology ◽

10.1590/s1519-69842009000400011 ◽

2009 ◽

Vol 69 (3) ◽

pp. 843-849 ◽

Cited By ~ 6

Author(s):

IA. Silva ◽

MA. Batalha

Keyword(s):

Phylogenetic Relationships ◽

Plant Traits ◽

Environmental Filtering ◽

Southeastern Brazil ◽

Ecological Communities ◽

Ecological Interactions ◽

Ecological Processes ◽

Phylogenetic Structure ◽

History Of ◽

Phylogenetic Overdispersion

Ecological communities are the result of not only present ecological processes, such as competition among species and environmental filtering, but also past and continuing evolutionary processes. Based on these assumptions, we may infer mechanisms of contemporary coexistence from the phylogenetic relationships of the species in a community. We studied the phylogenetic structure of plant communities in four cerrado sites, in southeastern Brazil. We calculated two raw phylogenetic distances among the species sampled. We estimated the phylogenetic structure by comparing the observed phylogenetic distances to the distribution of phylogenetic distances in null communities. We obtained null communities by randomizing the phylogenetic relationships of the regional pool of species. We found a phylogenetic overdispersion of the cerrado species. Phylogenetic overdispersion has several explanations, depending on the phylogenetic history of traits and contemporary ecological interactions. However, based on coexistence models between grasses and trees, density-dependent ecological forces, and the evolutionary history of the cerrado flora, we argue that the phylogenetic overdispersion of cerrado species is predominantly due to competitive interactions, herbivores and pathogen attacks, and ecological speciation. Future studies will need to include information on the phylogenetic history of plant traits.

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Canopy cover and structural complexity affect the phylogenetic composition of a pond-dwelling Neotropical anuran metacommunity

10.1101/252478 ◽

2018 ◽

Author(s):

Diogo B. Provete

Keyword(s):

Structural Complexity ◽

Canopy Cover ◽

Model Organisms ◽

Southeastern Brazil ◽

Lineage Sorting ◽

Phylogenetic Structure ◽

Larval Amphibians ◽

Principal Coordinates ◽

Floating Vegetation ◽

Phylogenetic Composition

AbstractPhylogenetic information has been increasingly included into (meta)community assembly studies. However, recent studies have challenged the framework commonly used to infer processes from phylogenetic structure. Amphibians are good model organisms to study processes promoting structure in metacommunities, since they are subjected to different environmental and spatial processes throughout their biphasic life cycle. Pond canopy cover is one of these environmental factors that strongly influence the distribution of species and traits of several freshwater taxa, including larval amphibians (e.g., behavior, color, fin height, and length of intestine). Here, I tested the influence of pond canopy cover, floating vegetation, and pond morphology on the phylogenetic structure of an anuran metacommunity in the Atlantic Forest of Southeastern Brazil. I sampled tadpoles in 13 ponds and marshes from June 2008 and July 2009 in the Serra da Bocaina National Park, São Paulo. After building a metacommunity phylogeny, I used an eigenvector-based technique to describe the metacommunity phylogenetic composition (Principal Coordinates of Phylogenetic Structure, PCPS). I then run a db-RDA to evalute whether a subset of these eigenvectors can be explained by environmental variables. I found that pond canopy cover and floating vegetation were the main variables influencing lineage sorting in this metacommunity. Canopy cover separated hylid lineages from other families that were associated with open areas. Floating vegetation separated two hylid tribes (Cophomantini and Dendropsophini). Our results mainly suggest that the effect of canopy cover and floating vegetation on the structure of anuran metacommunity may affect not only species, but also entire lineages.

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Metacommunity phylogenteic structure along environmental gradients

10.31237/osf.io/gzf52 ◽

2017 ◽

Author(s):

Diogo Provete

Keyword(s):

Phylogenetic Trees ◽

Environmental Gradients ◽

Spatial Scales ◽

Canopy Cover ◽

Freshwater Ecosystems ◽

Southeastern Brazil ◽

Quadratic Term ◽

Lineage Sorting ◽

Phylogenetic Information ◽

Phylogenetic Structure

Phylogenetic information has increasingly been included in studies of local communities and also at broad spatial scales. Despite recent criticisms in the last four years, phylogenetic relationships may still provide insights into theorganization and assembly of ecological communities. The objectives of this study were 1) to review the history of the use of phylogenetic information, as well as criticisms and perspectives of its use in community ecology; 2) understand how the size and shape of phylogenetic trees and the phylogenetic structure of metacomunidaes affect the amount of variation accounted for by a eigenvectorbasedmethod used to describe the phylogenetic composition of metacomunidaes (PCPS); 3) to test the effect of diversity of evolutionary history (MNTD and MPD) and species richness as predictors of three variables of freshwater ecosystemfunctioning (productivity, respiration, and decomposition); and finally 4) to test how environmental gradients, especially pond canopy cover, influence the phylogenetic structure of an anuran metacommunity from southeastern Brazil. Ifound that the structure of metacommunities had greater impact on eigenvalues of PCPS than tree shape metrics, such as symmetry and stemminess. In addition, decomposition and respiration were best predicted by MNTD as a linear function, while productivity was affected by the quadratic term of MNTD. Finally, pond canopy cover and floating vegetation strongly affected the phylogenetic structureof the anruan metacommunity, influencing lineage sorting. These findings 1) can help users interpret the results of PCPS; 2) provide better understand of the effectof species loss in multitrophic, freshwater ecosystems; and 3) improve our knowledge about the effect of canopy cover on the lineage composition in anuran metacomunities.

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Ant Occupation of Twigs in the Leaf Litter of the Atlantic Forest: Influence of the Environment and External Twig Structure

Tropical Conservation Science ◽

10.1177/1940082919852943 ◽

2019 ◽

Vol 12 ◽

pp. 194008291985294 ◽

Cited By ~ 3

Author(s):

Tae Tanaami Fernandes ◽

Wesley Dáttilo ◽

Rogério R. Silva ◽

Pedro Luna ◽

Carla M. Oliveira ◽

...

Keyword(s):

Species Richness ◽

Leaf Litter ◽

Atlantic Forest ◽

Canopy Cover ◽

Relative Number ◽

Southeastern Brazil ◽

Environmental Filters ◽

Ant Colonies ◽

Forest Sites ◽

Ant Diversity

Twig cavities are microhabitats that may be used by different ant species for nesting and colony expansion. However, ants do not colonize all twigs available in the leaf litter, pointing to the existence of environmental or twig-related filters. In this study, we analyzed which environmental and twig attributes affected twig occupation by ants. We surveyed seven plots in six Atlantic forest sites in southeastern Brazil. To characterize the environmental filters, we quantified canopy cover and leaf litter moisture and depth. At the twig level, we measured twig length and diameter and the area and circumference of all holes in each twig. Ant colonies occupied 13.42% of the 4,805 twigs surveyed, and we recorded a total of 52 twig-nesting ant species. Brachymyrmex admotus was the most frequent species. Ant species richness increased with canopy cover and leaf litter moisture and with the relative number of occupied twigs. In addition, we found that ant species richness increased with length and diameter of the twigs, and that twigs with smaller holes were more frequently occupied by ants, regardless of the availability of larger diameter holes. Our work demonstrates that both environmental characteristics and twig morphology can structure occupation of twigs by ants. In addition, we demonstrated that certain species show a preference for certain twig types. We highlight the importance of twigs for maintaining ant diversity and for colony expansion of arboreal species and species inhabiting the leaf litter.

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