Abstract
We performed phylogeographic and genetic structure analyses of Neothraupis fasciata joined with species distribution modelling to evaluate whether: (1) the distribution of genetic variability shows a pattern expected by the isolation-by-distance model; (2) the influence of the Pleistocene climate changes on species distribution; and (3) climate/climatic stability (hypothesis of climatic stability) as a predictor of population genetic diversity. Based on two molecular datasets (ND2 and FIB-5), the isolation-by-distance hypothesis was not supported. The mitochondrial haplotype network indicated the existence of historically isolated populations at the southern range of the species distribution, and recent population expansion was identified by both neutrality tests and extended Bayesian skyline plot analysis. Thus, the climatic changes during the Pleistocene might have promoted the reconnection of the partially isolated southern populations, which may have persisted in the plateaus during the cycles of savanna contractions. Subsequently, this species (re)colonized northern areas of the species present distribution, following the continuous vegetation on the São Francisco and Central plateaus about 60 kyr, and also reached the Amazonian savannas likely via the central corridor. Thus, our results indicated that the intrinsic relationship between the relief heterogeneity (plateaus and depressions) and the climatic fluctuations, mainly in the Pleistocene, promoted population reconnection and demographic expansion of N. fasciata.
Highlights
Tertiary geological events and the Quaternary climatic changes have been considered the key events related to the biodiversity diversification (e.g. [1,2,3,4,5])
To evaluate whether climatic stability influenced the genetic diversity, we investigated whether the genetic diversity of Cerrado sample locations was higher in the Quaternary stable areas compared to unstable areas
We evaluated the genetic differentiation (FST) and the mitochondrial haplotype sharing between pairs of populations to evaluate whether the proposed biogeographic corridors served as dispersal routes for N. fasciata, considering: 1) Macapa Experimental Farm (MACA) and Parque Nacional Chapada dos Guimarães (PNCG)—as an indicator of historical connection throughout the Andes region and/or Madeira River; 2) MACA and Ponte Alta do Tocantins (PATO), AGCV, or Ecologica de Aguas Emendadas (EEAE) as an indicator of historical connections across central Amazonia; and 3) MACA and URUC or Parque Nacional da Chapada das Mesas (PNCM) as an indicator of historical connection along the Atlantic coast
Summary
Tertiary geological events and the Quaternary climatic changes have been considered the key events related to the biodiversity diversification (e.g. [1,2,3,4,5]). Tertiary geological events and the Quaternary climatic changes have been considered the key events related to the biodiversity diversification 564036/2010-2), and it was supported by CNPq No 14/2014 AVR received scholarship from CNPq (#142456/2015-2) and CAPES (#23038.001614/2016-52) and CAL-R is grateful for scholarship from CNPq (#234515/ 2014-7 and #140702/2013-0) and for postdoctoral fellowship from CAPES. CAL-R is grateful for the grant from the Fundacão de Amparo à Pesquisa do Distrito Federal. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript
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