Reticulate and hybrid speciation is promoted by environmental
instability in an Indo-Pacific species complex of whistlers (Aves:
Pachycephala)
- Martin Irestedt,
- Ingo Müller,
- Filip Thörn,
- Leo Joseph,
- Johan Nylander,
- Benjamin Guinet,
- Tom Van der Valk,
- Knud Jønsson
Ingo Müller
Swedish Museum of Natural History Department of Bioinformatics and Genetics
Author ProfileJohan Nylander
Swedish Museum of Natural History Department of Bioinformatics and Genetics
Author ProfileAbstract
Genomic studies have shown that introgressive hybridization is a common
phenomenon across the tree of life, particularly among young radiations.
As incipient speciation tends to be induced by vicariance events, it is
assumed that introgressive hybridization is more frequent in young
species radiations in which allopatrically distributed species have a
high probability of comming into secondary contact. In this study we
draw on whole genomic data to investigate spatio-temporal introgression
patterns in a songbird radiation that has colonized a highly dynamic
island region in the Indo-Pacific. Some taxa within this radiation have
colonized remote oceanic islands whereas others occur on landmasses and
islands in the Sahul region that were at times connected during
Pleistocene periods of low sea level. Our results show that
introgressive hybridization has been pervasive within this young
radiation, despite prominent plumage differences between taxa.
Geographical proximity has been an important factor for hybridization
and we further find that species occupying islands in the
environmentally unstable Sahul region exhibit particularly high
signatures of introgressive hybridization. Yet, one species appears to
have been shielded against hybridization, perhaps due to specific
ecological specializations. Finally, we identify a hybrid species on an
island where two oceanic radiations meet. Collectively, our results
support a growing body of literature that suggests that reticulate
speciation is much more common than previously thought. This has
implications for our understanding of how species form and how species
are maintained through time.29 Oct 2024Submitted to Molecular Ecology 02 Nov 2024Submission Checks Completed
02 Nov 2024Assigned to Editor
02 Nov 2024Review(s) Completed, Editorial Evaluation Pending
14 Nov 2024Reviewer(s) Assigned