变暖气候下营养相互作用的改变:对捕食者饮食广度和适应性的影响

Elvire Bestion, A. Soriano‐Redondo, J. Cucherousset, S. Jacob, Joël White, Lucie Zinger, Lisa Fourtune, L. Di Gesu, Aimeric Teyssier, J. Cote
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引用次数: 14

摘要

物种相互作用是预测气候变化对生物多样性损害的核心。营养相互作用可能通过捕食者食物偏好或猎物群落的气候依赖变化而改变。然而,气候变化对捕食者饮食的影响仍然知之甚少。我们实验研究了2°C变暖的气候条件对一种多面手蜥蜴捕食者的营养生态位的影响。我们使用了一个半自然的生态系统,容纳了各种无脊椎动物物种,并在其中控制了气候条件。在温暖的气候条件下,蜥蜴以更大的掠食性和植食性无脊椎动物的比例进食,个体饮食宽度更小。这些变化主要来自气候对蜥蜴饮食的直接影响,而不是猎物群落的变化。饮食变化与健康相关特征(身体状况、肠道微生物群)和生存率的负面变化有关。我们证明,气候变化通过顶级捕食者的饮食变化改变了营养相互作用,这可能会破坏生态进化动力学。
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Altered trophic interactions in warming climates: consequences for predator diet breadth and fitness
Species interactions are central in predicting the impairment of biodiversity with climate change. Trophic interactions may be altered through climate-dependent changes in either predator food preferences or prey communities. Yet, climate change impacts on predator diet remain surprisingly poorly understood. We experimentally studied the consequences of 2°C warmer climatic conditions on the trophic niche of a generalist lizard predator. We used a system of semi-natural mesocosms housing a variety of invertebrate species and in which climatic conditions were manipulated. Lizards in warmer climatic conditions ate at a greater predatory to phytophagous invertebrate ratio and had smaller individual dietary breadths. These shifts mainly arose from direct impacts of climate on lizard diets rather than from changes in prey communities. Dietary changes were associated with negative changes in fitness-related traits (body condition, gut microbiota) and survival. We demonstrate that climate change alters trophic interactions through top-predator dietary shifts, which might disrupt eco-evolutionary dynamics.
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