Friday, October 25, 2024

[Herpetology • 2024] A multi-gene Phylogeny of the Asian Kukri Snakes (Oligodon Fitzinger, 1826): Sharpening the Blade of the second largest Serpent Radiation (Squamata: Colubridae)


  Phylogeny of the Asian kukri snakes Oligodon Fitzinger, 1826 
 
in Lee, Yushchenko, Suwannapoom, Pawangkhanant, Grismer, Nguyen, Deepak, Narayanan, Das, Neang, Lalremsanga, Yang, Jablonski, Erkaya, Vogel, Bauer et Poyarkov, 2024.

Highlights
• We present the most comprehensive phylogeny of Oligodon assembled to date.
• Molecular phylogeny comprises nearly two-thirds of all currently recognized Oligodon species, with data from three mitochondrial and three nuclear genes.
• We propose an updated intrageneric classification of Oligodon, recognizing eight phylogenetically defined species groups.
• Oligodon likely originated in mainland Southeast Asia during the late Oligocene, with most species-level diversification starting in the Miocene.

Abstract
With 90 recognized species, kukri snakes in the genus Oligodon Fitzinger constitute the second largest snake radiation in the world. Oligodon species are collectively distributed across the Asian continent and possess several ecological and morphological attributes that are unique amongst other snakes. Despite their high levels of species richness, evolutionary relationships within Oligodon are poorly understood due to a limited number of samples and genetic markers available in earlier phylogenies. In this study, we assembled the largest molecular dataset of Oligodon to date, which we use to assess the systematics and biogeography of the entire genus. Based on a combination of maximum likelihood and Bayesian phylogenies using fragments of three mitochondrial genes (12 s, 16 s, CytB) and three nuclear genes (Rag1, C-mos, BDNF), we identify eight deeply divergent clades within Oligodon, of which only two correspond with species groupings that were recognized by previous morphological classifications. Four species delimitation methods employed on the mitochondrial portion of the dataset resulted in dramatically divergent estimations of molecular operational taxonomic units (mOTUs). When combined, all four methods support the existence of unrecognized species-level lineages, but also indicate that several other Oligodon species are poorly differentiated genetically and require additional integrative taxonomic research to properly resolve. Based on divergence dating, we demonstrate that Oligodon began to diversify during the early Neogene and hypothesize that the most recent common ancestor of the genus originated in mainland Southeast Asia. We conclude by recognizing eight phylogenetically defined species groups and identify sampling gaps that require further investigation once new data becomes available. This study contributes to a greater understanding of snake evolution on the Asian continent and acts as a baseline for future studies of this speciose genus.





Justin L. Lee, Platon V. Yushchenko, Chatmongkon Suwannapoom, Parinya Pawangkhanant, L. Lee Grismer, Tan Van Nguyen, V. Deepak, Surya Narayanan, Sandeep Das, Thy Neang, H.T. Lalremsanga, Jian-Huan Yang, Daniel Jablonski, Mustafa Erkaya, Gernot Vogel, Aaron M. Bauer and Nikolay A. Poyarkov. 2025. A multi-gene Phylogeny of the Asian Kukri Snakes (Oligodon Fitzinger, 1826): Sharpening the Blade of the second largest Serpent Radiation (Reptilia: Squamata: Colubridae). Molecular Phylogenetics and Evolution. In Press, 108215. DOI: doi.org/10.1016/j.ympev.2024.108215