Abstract
Tropical savannas cover 20–30% of the world's land surface and exhibit high levels of regional endemism, but the evolutionary histories of their biota remain poorly studied. The most extensive and unmodified tropical savannas occur in Northern Australia, and recent studies suggest this region supports high levels of previously undetected genetic diversity. To examine the importance of barriers to gene flow and the environmental history of Northern Australia in influencing patterns of diversity, we investigated the phylogeography of two closely related, large, vagile macropodid marsupials, the antilopine wallaroo (Macropus antilopinus; n = 78), and the common wallaroo (Macropus robustus; n = 21). Both species are widespread across the tropical savannas of Australia except across the Carpentarian Barrier (CB) where there is a break in the distribution of M. antilopinus. We determined sequence variation in the hypervariable Domain I of the mitochondrial DNA control region and genotyped individuals at 12 polymorphic microsatellite loci to assess the historical and contemporary influence of the CB on these species. Surprisingly, we detected only limited differentiation between the disjunct Northern Territory and QueenslandM. antilopinus populations. In contrast, the continuously distributedM. robustus was highly divergent across the CB. Although unexpected, these contrasting responses appear related to minor differences in species biology. Our results suggest that vicariance may not explain well the phylogeographic patterns in Australia's dynamic monsoonal environments. This is because Quaternary environmental changes in this region have been complex, and diverse individual species’ biologies have resulted in less predictable and idiosyncratic responses.
Highlights
Despite considerable progress in our understanding of global phylogeography, significant biases remain (Beheregaray 2008)
Average sequence divergence (ASD) within the Qld M. antilopinus population was 0.8%, compared with 3.4% within the Northern Territory (NT)/WA population; these were separated by 3.0% ASD
The Carpentarian Barrier (CB) is seen as a major vicariance barrier in Northern Australia, our data suggest that it can act as a porous filter and that dispersal can play a significant role in shaping the distribution and genetic structure of Northern Australian species
Summary
Despite considerable progress in our understanding of global phylogeography, significant biases remain (Beheregaray 2008). There has been a strong focus on the Northern Hemisphere and the importance of glacial ice sheets, and elsewhere, on montane fauna and the impact of vicariance events (e.g., the Australian Wet. Tropics; Beheregaray 2008). While these studies have advanced our knowledge considerably, other regions and faunal groups require urgent research attention, in light of the current threats posed to biodiversity by global changes to habitat and climate (Brook et al 2008). A large region that remains poorly studied is Australia’s monsoonal tropical savannas (hereafter referred to as Northern Australia).
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