Like host, like parasite: intraspecific divergence in a polystomatid flatworm parasite across South Africa echoes that of its frog host

Schoeman, Anneke Lincoln; Kmentová, Nikol; Vanhove, Maarten; Du Preez, Louis Heyns

doi:10.1101/2022.03.15.483565

Author:

Schoeman, Anneke Lincoln

Kmentová, Nikol ; Vanhove, Maarten ; Du Preez, Louis Heyns

Abstract:

ABSTRACT

The African Clawed Frog Xenopus laevis , a global invader, exhibits marked phylogeographic divergence among native populations in southern Africa, which enhances its invasive potential. The polystomatid flatworm Protopolystoma xenopodis , as the frog’s most frequently co-introduced metazoan parasite, may be the ideal biological tag for the frog’s movement, if corresponding divergence can be demonstrated. In an integrative approach, we utilised morphometrics and molecular markers to assess divergence in P. xenopodis in its native range. We measured twelve key morphological characters from 23 flatworms and compared these statistically between flatworms collected to the north and south of the Great Escarpment Mountain Range in South Africa. Phylogenetic analyses were based on three concatenated markers, namely 28S and 12S rDNA and COX1 , from six flatworms. The combination of five morphological characters, which involve egg size, gut morphology and size of the attachment hooks, differentiated northern and southern populations of P. xenopodis in South Africa. The multilocus phylogenetic analyses supported these findings, showing a well-supported cluster of northern P. xenopodis . These findings suggest that taxonomic studies of polystomatid flatworms should make use of geographically representative data sets that consider both morphological and molecular evidence. Moreover, the findings demonstrate that the frog host and flatworm parasite exhibit corresponding phylogeographic structuring in the native range. Consequently, the phylogeography of P. xenopodis , both in the native and invasive range of its host, may act as a key piece of evidence to reconstruct past invasion pathways of X. laevis .