Abstract
The Amazon basin contains few obvious geographic barriers, yet it is the most biodiverse region on Earth. One hypothesis to explain its diversity is that the very large rivers promote allopatric divergence. Consistent with this, maps of heliconiine butterflies made from museum specimens show high subspecies richness close to the Amazon river, suggesting that it may produce or maintain intra‐specific phenotypic variability. However, museum data are subject to strong spatial biases (the ‘Wallacean shortfall' of distribution data), raising the possibility that this pattern is a sampling artefact. To test this, we systematically collected along a ~900 km north–south transect running through central Amazonia. We found a significant association between phenotypic diversity and major rivers, with distance from the Amazon river explaining 61% of the variance in the mean polymorphism of 25 species. This association is partly because many species exhibit different phenotypes on either side of the river. Nonetheless, we also find sites with high polymorphism close to the river, indicating continual cross‐river dispersal. Our results strongly suggest the presence of a suture zone (a region where multiple species have hybrid zones) near the city of Manaus. However, the effect of the river on spatial patterns of intra‐specific phenotypic diversity depends on a species' mimetic phenotype. Rather than being absolute barriers, our results support the idea that rivers can act as partial barriers that trap moving hybrid zones, resulting in a suture zone. As such, the wide Amazonian rivers help generate and maintain colour pattern diversity, but to date there is no evidence that they lead to speciation in our study group.
Highlights
Tropical America is the most biologically diverse terrestrial region on the planet, but the evolutionary and ecological reasons for this remain unclear (Smithetal. 2014, Antonellietal. 2018)
Our results strongly suggest the presence of a suture zone near the city of Manaus
When analysing 100 × 100 km grid cells using morpho-subspecies, we found by far the highest values of D in cells overlapping the Amazon river (Fig. 1C)
Summary
Tropical America is the most biologically diverse terrestrial region on the planet ( omas 1999, Jenkinsetal. 2013), but the evolutionary and ecological reasons for this remain unclear (Smithetal. 2014, Antonellietal. 2018). The Pleistocene refugia hypothesis (and variants of it) propose that climatic variations in the Earth’s geological history fragmented the continuous forest into geographically isolated islands of suitable habitat, promoting allopatric divergence (Haffer 1969, Brown et al 1974, Naka et al 2012, Weir et al 2015, Naka and Brumfield 2018, Pulido-Santacruz et al 2018). To distinguish these possibilities and test the hypothesis that the Amazon river represents a suture zone, we systematically collected heliconiine butterflies along a ~900 km transect across the Amazon River and north towards Brazil’s borders with Guyana and Venezuela
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