Phylogeography of the dry vegetation endemic species Nephila sexpunctata (Araneae: Araneidae) suggests recent expansion of the Neotropical Dry Diagonal

Phylogeography of the dry vegetation endemic species Nephila sexpunctata (Araneae: Araneidae) suggests recent expansion of the Neotropical Dry Diagonal

Aim The Neotropical Dry Diagonal (DD) is a corridor of distinct dry environments in central South America. The main hypotheses suggest that these environments may have expanded during the glacial cycles together with a retraction of rainforests, and then shrank when the climate became wetter and war...

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Bibliographic Details
Published in:Journal of biogeography Vol. 44; no. 9; pp. 2007 - 2020
Main Authors: de Macedo Bartoleti, Luiz Filipe, Peres, Elen Arroyo, Sobral-Souza, Thadeu, von Hertwig Mascarenhas Fontes, Fernanda, da Silva, Márcio José, Solferini, Vera Nisaka
Format: Journal Article
Language:English
Published: Oxford John Wiley & Sons Ltd 01-09-2017
Wiley Subscription Services, Inc
Subjects:
Cerrado
Chaco
Climate
Demography
Deoxyribonucleic acid
Divergence
DNA
dry diagonal
ecological niche modelling
Endemic species
Evolutionary genetics
Genetic diversity
Genetic structure
Hypotheses
Last Glacial Maximum
Markers
Mitochondria
Model testing
Neotropics
Nephila
Nephila sexpunctata
Nucleotide sequence
phylogeography
Pleistocene
Pleistocene refugia model
Quaternary
Rainforests
Refugia
South American arid diagonal
Spatial distribution
Vegetation
Cerrado Biome
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Summary:Aim The Neotropical Dry Diagonal (DD) is a corridor of distinct dry environments in central South America. The main hypotheses suggest that these environments may have expanded during the glacial cycles together with a retraction of rainforests, and then shrank when the climate became wetter and warmer. However, few studies have explicitly tested the hypotheses on DD evolution. We conducted a phylogeographical study on Nephila sexpunctata, a spider endemic to Neotropical dry habitats, to enrich the understanding of DD evolutionary history. Location South-western portion of the DD (Cerrado and Chaco). Methods We sequenced two mitochondrial regions and one nuclear DNA region of 65 individuals from 10 locations across the species' range. We conducted analyses of genetic structure, variability, demography and inferred divergence times. We used an ecological niche modelling framework to generate hypotheses on the species' distribution along the last glacial cycle and a model-based approach to test the demographical scenarios that might explain the genetic patterns. Results Both markers presented low genetic diversity. Mitochondrial markers had high genetic structure, with specific geographical lineages within each biome, while the nuclear marker presented low genetic structure. Phylogeographical and demographical events encompass the last glacial cycle, with a strong post-Last Glacial Maximum (LGM) population and spatial expansion. Model testing corroborated the recent demographical expansion of N. sexpunctata. Main Conclusions Our data suggest that Quaternary climate cycles, when moist forests periodically expanded towards the dry vegetation, influenced the diversification of DD organisms by promoting demographical events. These events might explain the genetic structure observed in N. sexpunctata; differently from what was expected by the Pleistocene refugia model, some DD species may have experienced post-LGM expansion. Climate and geological events have both affected DD-endemic organisms' diversification.
ISSN:0305-0270
1365-2699
DOI:10.1111/jbi.12998