Shove Samantha L, Bitton Lilith Zecherle, Allen Simon, Howell Gabrielle M K, Nichols Hazel J
Department of Biosciences Swansea University Swansea UK.
Cura Terrae Land and Nature W2 Business Centre Cardiff UK.
Ecol Evol. 2025 Apr 7;15(4):e71201. doi: 10.1002/ece3.71201. eCollection 2025 Apr.
Understanding how landscape connectivity affects gene flow can help to guide the management of animal species of conservation concern. One such species is the West European hedgehog (), which has seen significant declines across its distribution, with the highest rate of declines being reported in rural areas of the UK. The drivers of these declines are not well understood, but anthropogenic changes in the landscape such as modified agricultural practices and increased road traffic have been proposed to play a part. These impacts are likely to fragment populations into smaller sub-populations, leading to genetic differentiation and depletion. Here, we used genetic (microsatellite) and landscape data to investigate the impact of habitat resistance and landscape features (roads and waterways) on the genetic structure of hedgehogs across a 5800 km area of South Wales, UK. We found evidence of weak genetic structuring, with four genetic clusters present across the study area, but many individuals were admixed. We found no evidence that this genetic structure was related to roads, waterways, habitat resistance, or geographic distance, suggesting that hedgehogs may be able to disperse across these potential barriers frequently enough to minimise genetic fragmentation. This study demonstrates the importance of understanding the interactions between a species and the wider landscape to inform conservation management.
了解景观连通性如何影响基因流动有助于指导对受保护动物物种的管理。西欧刺猬就是这样一种物种,其分布范围已大幅减少,英国农村地区的下降速度最高。这些下降的驱动因素尚不完全清楚,但有人提出,景观的人为变化,如改良的农业实践和增加的道路交通,起到了一定作用。这些影响可能会将种群分割成更小的亚种群,导致基因分化和枯竭。在这里,我们使用基因(微卫星)和景观数据,研究了栖息地抗性和景观特征(道路和水道)对英国南威尔士5800平方公里区域内刺猬基因结构的影响。我们发现了基因结构薄弱的证据,研究区域内存在四个基因簇,但许多个体是混合的。我们没有发现这种基因结构与道路、水道、栖息地抗性或地理距离有关的证据,这表明刺猬可能能够足够频繁地跨越这些潜在障碍进行扩散,以尽量减少基因碎片化。这项研究表明了了解物种与更广阔景观之间的相互作用对保护管理的重要性。