Abstract
Indochina and Sundaland are biologically diverse, interconnected regions of Southeast Asia with complex geographic histories. Few studies have examined phylogeography of bird species that span the two regions because of inadequate population sampling. To determine how geographic barriers/events and disparate dispersal potential have influenced the population structure, gene flow, and demographics of species that occupy the entire area, we studied five largely codistributed rainforest bird species: Arachnothera longirostra, Irena puella, Brachypodius atriceps, Niltava grandis, and Stachyris nigriceps. We accomplished relatively thorough sampling and data collection by sequencing ultraconserved elements (UCEs) using DNA extracted from modern and older (historical) specimens. We obtained a genome‐wide set of 753–4,501 variable loci and 3,919–18,472 single nucleotide polymorphisms. The formation of major within‐species lineages occurred within a similar span of time (0.5–1.5 mya). Major patterns in population genetic structure are largely consistent with the dispersal potential and habitat requirements of the study species. A population break across the Isthmus of Kra was shared only by the two hill/submontane insectivores (N. grandis and S. nigriceps). Across Sundaland, there is little structure in B. atriceps, which is a eurytopic and partially frugivorous species that often utilizes forest edges. Two other eurytopic species, A. longirostra and I. puella, possess highly divergent populations in peripheral Sunda Islands (Java and/or Palawan) and India. These species probably possess intermediate dispersal abilities that allowed them to colonize new areas, and then remained largely isolated subsequently. We also observed an east–west break in Indochina that was shared by B. atriceps and S. nigriceps, species with very different habitat requirements and dispersal potential. By analyzing high‐throughput DNA data, our study provides an unprecedented comparative perspective on the process of avian population divergence across Southeast Asia, a process that is determined by geography, species characteristics, and the stochastic nature of dispersal and vicariance events.
Highlights
Avian biogeography in continental Southeast Asia, an area including the mainland and continental islands, has a long history of study (Deignan, 1945; Hughes, Round, & Woodruff, 2003; Smythies, 1953, 1960; Wells, 2007)
Because of complexities in real-world population structure and assumptions made by Structure's admixture model that may be violated, we present Structure results based on additional K values and focused on interpreting aspects of its outputs that are corroborated by other analyses and the geographic locations of individuals, while keeping in mind the limitations of Structure analyses (Gao, Bryc, & Bustamante, 2011; Lawson, van Dorp, & Falush, 2018; Porras-Hurtado et al, 2013)
In N. grandis (Figure 2c), the three network clusters are represented in the principal component analysis (PCA), with southeastern Thailand separated from Sumatra/Malay Peninsula individuals along axis 2
Summary
Avian biogeography in continental Southeast Asia, an area including the mainland and continental islands, has a long history of study (Deignan, 1945; Hughes, Round, & Woodruff, 2003; Smythies, 1953, 1960; Wells, 2007). We assayed the genetic diversity of the study species using DNA sequences linked to thousands of ultraconserved elements (UCEs; Faircloth et al, 2012) This approach has proven useful for generating data from historical as well as modern specimens (Lim & Braun, 2016; McCormack, Tsai, & Faircloth, 2016; Ruane & Austin, 2017) and for both phylogenetic (Oliveros, Andersen, et al, 2019; Oliveros, Field, et al, 2019) and population-level studies (Harvey, Aleixo, Ribas, & Brumfield, 2017; Smith, Harvey, Faircloth, Glenn, & Brumfield, 2014). 20° N pallida dilutior 10° N cinereicollis puella andamanica zarhina buettikoferi prillwitzi tweeddalii malayensis crinigera turcosa (d) Niltava grandis (e) Brachypodius atriceps (f) Stachyris nigriceps grandis + griseiventris nigriceps coltarti
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