Data from: Evidence of extreme habitat stability in a Southeast Asian biodiversity hotspot based on the evolutionary analysis of neotenic net-winged beetles
Bocak, Ladislav, Palacký University, Olomouc
Malohlava, Vladimir, Palacký University, Olomouc
Published Aug 26, 2010 on Dryad.
Cite this dataset
Bocak, Ladislav; Malohlava, Vladimir (2010). Data from: Evidence of extreme habitat stability in a Southeast Asian biodiversity hotspot based on the evolutionary analysis of neotenic net-winged beetles [Dataset]. Dryad. https://doi.org/10.5061/dryad.1904
The diversification of neotenic beetle lineages has not been studied, despite the potential for defining biodiversity hotspots and elucidating the history of regional faunas. Additionally, neotenics may provide insight into the process of speciation in small populations with extremely low dispersal ability and a limited range. Here, we used two rDNA and three mtDNA markers to investigate the phylogeny of Scarelus, a neotenic lineage endemic to Southeast Asian rainforests. Most genetic differentiation was associated with Palaeogene geographic divisions, which remain distinct despite temporary connections. Dispersal events were rare, with only two inferred for Scarelus: from Borneo to the Philippines 28.3 million years ago (mya) and from Sumatra to Java 13.9 mya. The reproductive isolation depended on allopatric range fragmentation, and Scarelus diversified readily when conditions were favorable; in this case, at different times in the eastern (19.3–39.1 mya) and western (3.5–13.9 mya) parts of Sundaland. The observed strong phenotypic similarity was preserved under speciation through complete allopatry. Neotenic Lycidae have survived for a long time in very stable habitats, and extremely low dispersal activity has not limited their existence; however, the long-term diversification rate of neotenics is low and diversification is nonexistent under stable conditions. The modern ranges of neotenic lineages are indicative of ancient rainforest refugia, and may be used in biodiversity conservation management. Most neotenics are at risk of extinction due to small ranges and a low dispersal potential.
The nexus matrices containing all sequences used for the phylogenetic analysis