Padrões de distribuição geográfica de linhagens intra-específicas e processos demográficos históricos em aves da floresta atlântica / Patterns of geographical distribution of intraspecific lineages and historical demography of Atlantic forest birds

AUTOR(ES)
DATA DE PUBLICAÇÃO

2009

RESUMO

This dissertation explores the evolution of Atlantic Forest (AF) organisms. Specifically, we used endemic forest birds as models and a phylogenetic phylogeographic perspective. Studied bird species are all passerines: Xiphorhynchus fuscus (Dendrocolaptidae), Dendrocolaptes platyrostris (Dendrocolaptidae) and Schiffornis virescens (Tytyridae). We used mitochondrial and nuclear DNA (mtDNA and ncDNA, resepectivelly) sequences. The dissertation was divided in six chapters. The first one explained objectives of the dissertation and presented hypotheses and problems that were addressed in the following chapters two to five. The sixth chapter presents a general discussion. We used in the second chapter mtDNA to evaluate the phylogeographic pattern of X. fuscus in southern AF. The main results indicated that a geotectonic model for the evolution of local populations was not supported and that the observed genetic pattern was compatible with the theory of refuges. In the third chapter we studied again X. fuscus, but using samples from all the species´ distribution and sequences of two independent markers (mtDNA and the the intron 5 of the beta-fibrinogen gene). Some of the main objectives of the chapter were to test a published model about the distribution of AF in the last 20,000 years and to use genetic data to address the taxonomic status of the four subspecies of X. fuscus, particularly of the endangered X. fuscus atlanticus. Results supported partially the model of forest distribution in the past and to consider X. fuscus atlanticus as a good species. In the fourth chapter we analyzed plumage and genetic (mtDNA) variation in the woodcreeper D. platyrostris. Results suggested a lack of recent genetic continuity between the Atlantic Forest central domain and the open vegetation biomes Cerrado and Caatinga. Besides, we found that plumage color variation in D. platyrostris was not related to population history, as evaluated by neutral markers. In the fifth chapter we studied the phylogeographic pattern (mtDNA) of S. virescens. Results indicated that S. virescens lack a significant phylogeographic pattern, contrarily to what was observed in several other AF organisms. Possible explanations for this pattern may be a population bottleneck followed by a demographic expansion and current high gene flow rates. Our results, in combination with results of others, permitted to describe a common phylogeographic pattern for several AF organisms. Also, we suggested a model of the AF where forest distribution is very dynamic. Specifically, the northern and southern AF regions were proposed to be the regions with the most unstable area and continuity of forests. Perhaps, this forest dynamism contributed to the evolution of the observed common phylogeographic pattern. Furthermore, our results, in combination with other similar studies, suggested for the studied birds that geotectonic activity at southeastern AF did not affect population evolution, and that some AF rivers (i.e., Doce river) act as secondary barriers instead of primary barriers.

ASSUNTO(S)

aves atlantic forest dna mitocondrial aves floresta atlântica filogeografia evolução genética mitochondrial dna cerrado

ACESSO AO ARTIGO

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