4.5 Article

Multiscale landscape genetic analysis identifies major waterways as a barrier to dispersal of feral pigs in north Queensland, Australia

Journal

ECOLOGY AND EVOLUTION
Volume 13, Issue 10, Pages -

Publisher

WILEY
DOI: 10.1002/ece3.10575

Keywords

invasive species; isolation by resistance; landscape genetics; microsatellite DNA markers; pest management; Sus scrofa

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This study conducted a landscape genetic analysis of feral pig populations in the Herbert region of Australia to determine management units and provide recommendations for population control strategies. It found weak genetic structure among the sampling sites, with major waterways acting as a minor barrier to gene flow. Highways were found to facilitate gene flow, potentially acting as movement corridors or indicating translocation of feral pigs. Incorporating a second spatial scale enhanced the analysis. Three management units were identified based on natural barriers to gene flow.
Feral pigs (Sus scrofa) are a destructive and widespread invasive pest in Australia. An understanding of feral pig movement is required to develop management strategies to control feral pigs in Australia. Because landscape structure can have a strong influence on animal movement, it is important to determine how landscape features facilitate or impede the movement of feral pigs. Consequently, we conducted a landscape genetic analysis of feral pig populations in the Herbert region of far north Queensland, Australia, to determine management units and provide recommendations to better inform feral pig population control strategies. Using microsatellite data obtained from 256 feral pig samples from 44 sites, we examined feral pig population structure at multiple spatial scales for univariate and multivariate landscape resistance surfaces to determine the optimal spatial scale and to identify which of the nine landscape features tested impede or facilitate feral pig gene flow. Only weak genetic structure was found among the 44 sampling sites, but major waterways were identified as a minor barrier to gene flow, and an isolation by distance model was supported. We also found that highways facilitated gene flow across the study area, and this suggests that they may act as movement corridors or indicate translocation of feral pigs. Additionally, incorporating a second spatial scale enhanced the ability of our landscape genetics analysis to detect the influence of landscape structure on gene flow. We identified three management units based on natural barriers to gene flow and future targeted control should be undertaken in these management units to deliver sustained reduction of feral pig populations in the Herbert region. This study demonstrates how a landscape genetic approach can be used to gain insight into the ecology of an invasive pest species and be used to develop population control strategies which utilise natural barriers to movement.

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