TY - JOUR

T1 - Spatial genetic patterns in African wild dogs reveal signs of effective dispersal across southern Africa

AU - Tensen, L.

AU - Jansen van Vuuren, B.

AU - Groom, R.

AU - Bertola, L. D.

AU - de Iongh, H.

AU - Rasmussen, G.

AU - Du Plessis, C.

AU - Davies-Mostert, H.

AU - van der Merwe, D.

AU - Fabiano, E.

AU - Lages, F.

AU - Rocha, F.

AU - Monterroso, P.

AU - Godinho, R.

N1 - Publisher Copyright: Copyright © 2022 Tensen, Jansen van Vuuren, Groom, Bertola, de Iongh, Rasmussen, Du Plessis, Davies-Mostert, van der Merwe, Fabiano, Lages, Rocha, Monterroso and Godinho.

PY - 2022

Y1 - 2022

N2 - Across much of Africa, decades of civil war, land reforms, and persecution by humans have decimated wildlife populations. African wild dogs (Lycaon pictus) have declined dramatically during the past decades, but have shown recent natural recolonisation of some areas. In Angola, they were rediscovered after almost five decades when no surveys were being conducted, and they have recolonised areas in southern Zimbabwe and northern South Africa. Wild dogs were also reintroduced to Mozambique, where only few individuals remained. Against this backdrop, understanding genetic structure and effective dispersal between fragmented populations is essential to ensure the best conservation approaches for the long-term survival of the species. Our study investigated population genetic diversity, differentiation and gene flow of wild dogs across southern Africa, to include areas where they have recently been rediscovered, reestablished or reintroduced. Our results point to four weakly differentiated genetic clusters, representing the lowveld of Zimbabwe/Limpopo, Kruger NP, Angola/KAZA-TFCA, and the managed metapopulation, counterbalanced by moderate levels of effective dispersal on a southern African scale. Our results suggest that if the human footprint and impact can be significantly minimized, natural dispersal of wild dogs could lead to the demographic recovery of the species in southern Africa.

AB - Across much of Africa, decades of civil war, land reforms, and persecution by humans have decimated wildlife populations. African wild dogs (Lycaon pictus) have declined dramatically during the past decades, but have shown recent natural recolonisation of some areas. In Angola, they were rediscovered after almost five decades when no surveys were being conducted, and they have recolonised areas in southern Zimbabwe and northern South Africa. Wild dogs were also reintroduced to Mozambique, where only few individuals remained. Against this backdrop, understanding genetic structure and effective dispersal between fragmented populations is essential to ensure the best conservation approaches for the long-term survival of the species. Our study investigated population genetic diversity, differentiation and gene flow of wild dogs across southern Africa, to include areas where they have recently been rediscovered, reestablished or reintroduced. Our results point to four weakly differentiated genetic clusters, representing the lowveld of Zimbabwe/Limpopo, Kruger NP, Angola/KAZA-TFCA, and the managed metapopulation, counterbalanced by moderate levels of effective dispersal on a southern African scale. Our results suggest that if the human footprint and impact can be significantly minimized, natural dispersal of wild dogs could lead to the demographic recovery of the species in southern Africa.

KW - African wild dog

KW - biodiversity conservation

KW - effective dispersal

KW - Lycaon pictus

KW - population genetic structure

KW - transfrontier conservation areas

U2 - 10.3389/fevo.2022.992389

DO - 10.3389/fevo.2022.992389

M3 - Journal article

AN - SCOPUS:85145203031

VL - 10

JO - Frontiers in Ecology and Evolution

JF - Frontiers in Ecology and Evolution

SN - 2296-701X

M1 - 992389

ER -