African water snakes of the genus Lycodonomorphus (Family Lamprophiidae) are widespread, abundant and presumably an important component of many aquatic and semiaquatic food webs. These snakes are poorly understood taxonomically, particularly from a phylogenetic perspective. With only four of the nine species currently sequenced, this study attempts to improve our understanding of the evolutionary relationships within the genus through the phylogenetic placement of one of the most elusive species, Lycodonomorphus obscuriventris. Collected in the Ramsar declared Makuleke Wetlands in northern Kruger National Park (South Africa), the sample used in this study not only yielded the first DNA sequences for the taxon but also represented the most northerly South African record, bridging the gap between the southern and northern populations. The snake was sequenced for three partial mitochondrial genes (16S, Cyt-b, ND4) and one partial nuclear gene (c-mos) and phylogenetically placed, relative to the rest of the genus, using maximum likelihood (ML) and Bayesian inference (BI). Sequence divergences between sister taxa were also estimated using pairwise distance analysis. The concatenated phylogenetic reconstruction yielded similar topological structuring when compared to phylogenies from past articles, with both the ML and BI algorithms recovering strong support for L. obscuriventris as sister to a clade comprising of L. whytii + L. laevissimus + L. rufulus. The phylogenetic placement, albeit based on a single sample, challenges the original placement (morphological) of L. obscuriventris as sub-specific within L. whytii, suggesting that multiple species concepts should be considered when delineating species within this group. Conservation implications: Prior to the discovery of the new record, the global distribution of L. obscuriventris was characterized by two disjunct populations. The new record bridges the distribution gap between these two populations, rendering the distribution continuous. This bodes well for the species as there is likely no barrier to gene flow, thereby buffering the species from localized threats given the more expansive distribution. Furthermore, given that the specimen was sampled from the Kruger National Park, the species is likely to be well-protected as much of its distribution within South Africa seems to fall within protected areas.
Citation. Keates C, Conradie W, Dalu T, Dondofema F, Riddel ES, Wasserman RJ. Phylogenetic placement of the enigmatic Floodplain water snake, Lycodonomorphus obscuriventris FitzSimons, 1964. Koedoe. 2022 Jun 28;64(1):9.
Keywords: Lamprophiidae; molecular systematics; water snake; range expansion; wetlands; African herpetology; Kruger National Park; Southern Africa.
FIGURE 1 from Keats et al. (a) Current global distribution of Lycodonomorphus obscuriventris with black triangles denoting historical localities and the red triangle denoting the new
sample used in this study from the Makuleke Contractual National Park. (b) Full body photograph of PEM R27786. (c) Head shot of PEM R27786.
