Center for Biodiversity Dynamics in a Changing World (BIOCHANGE), Department of Biology, Aarhus University, Aarhus, Denmark.
Section for Ecoinformatics and Biodiversity, Department of Biology, Aarhus University, Aarhus C, Denmark.
J Anim Ecol. 2022 Dec;91(12):2348-2357. doi: 10.1111/1365-2656.13766. Epub 2022 Jul 24.
Introduced large herbivores have partly filled ecological gaps formed in the late Pleistocene, when many of the Earth's megafauna were driven extinct. However, extant predators are generally considered incapable of exerting top-down influences on introduced megafauna, leading to unusually strong disturbance and herbivory relative to native herbivores. We report on the first documented predation of juvenile feral donkeys Equus africanus asinus by cougars Puma concolor in the Mojave and Sonoran Deserts of North America. We then investigated how cougar predation corresponds with differences in feral donkey behaviour and associated effects on desert wetlands. Focusing on a feral donkey population in the Death Valley National Park, we used camera traps and vegetation surveys to compare donkey activity patterns and impacts between wetlands with and without cougar predation. Donkeys were primarily diurnal at wetlands with cougar predation, thereby avoiding cougars. However, donkeys were active throughout the day and night at sites without predation. Donkeys were ~87% less active (measured as hours of activity a day) at wetlands with predation (p < 0.0001). Sites with predation had reduced donkey disturbance and herbivory, including ~46% fewer access trails, 43% less trampled bare ground and 192% more canopy cover (PERMANOVA, R = 0.22, p = 0.0003). Our study is the first to reveal a trophic cascade involving cougars, feral equids and vegetation. Cougar predation appears to rewire an ancient food web, with diverse implications for modern ecosystems. Our results suggest that protecting apex predators could have important implications for the ecological effects of introduced megafauna.
引入的大型食草动物在更新世晚期填补了部分生态空白,当时地球上的许多巨型动物都灭绝了。然而,现存的捕食者通常被认为无法对引入的巨型动物施加自上而下的影响,导致与本地食草动物相比,出现了异常强烈的干扰和食草作用。我们报告了首例有记录的美洲狮(Puma concolor)捕食幼年野驴(Equus africanus asinus)的事件,发生在北美洲的莫哈韦沙漠和索诺兰沙漠。然后,我们研究了美洲狮的捕食行为如何与野驴行为的差异相对应,并对沙漠湿地产生了相应的影响。我们关注的是死亡谷国家公园中的一个野驴种群,使用相机陷阱和植被调查来比较有和没有美洲狮捕食的湿地中野驴的活动模式和影响。在有美洲狮捕食的湿地中,野驴主要是昼行动物,从而避开了美洲狮。然而,在没有捕食的地方,野驴在白天和夜间都很活跃。有捕食的湿地中,野驴的活动量减少了约 87%(每天活动的小时数)(p<0.0001)。有捕食的地方,野驴的干扰和食草作用减少,包括踩踏裸露地面减少了 43%,树冠覆盖率增加了 192%(PERMANOVA,R=0.22,p=0.0003)。我们的研究首次揭示了涉及美洲狮、野驴和植被的营养级联。美洲狮的捕食似乎重新构建了一个古老的食物网,对现代生态系统具有广泛的影响。我们的研究结果表明,保护顶级捕食者可能对引入的巨型动物的生态影响具有重要意义。
