Department of Zoology, University of Oxford, Oxford OX1 3PS, UK.
Proc Biol Sci. 2012 Jun 7;279(1736):2212-8. doi: 10.1098/rspb.2011.2410. Epub 2012 Jan 11.
Evolutionary theory predicts that animals should forage to maximize their fitness, which in predators is traditionally assumed equivalent to maximizing energy intake rather than balancing the intake of specific nutrients. We restricted female predatory ground beetles (Anchomenus dorsalis) to one of a range of diets varying in lipid and protein content, and showed that total egg production peaked at a target intake of both nutrients. Other beetles given a choice to feed from two diets differing only in protein and lipid composition selectively ingested nutrient combinations at this target intake. When restricted to nutritionally imbalanced diets, beetles balanced the over- and under-ingestion of lipid and protein around a nutrient composition that maximized egg production under those constrained circumstances. Selective foraging for specific nutrients in this predator thus maximizes its reproductive performance. Our findings have implications for predator foraging behaviour and in the structuring of ecological communities.
进化理论预测动物应该觅食以最大限度地提高其适应性,在捕食者中,传统上认为这等同于最大限度地摄入能量,而不是平衡特定营养素的摄入。我们限制雌性掠食性地面甲虫(Anchomenus dorsalis)食用一系列不同脂肪和蛋白质含量的饮食,并表明总产卵量在两种营养素的目标摄入量上达到峰值。其他从两种仅在蛋白质和脂质组成上有所不同的饮食中选择进食的甲虫选择性地以目标摄入量摄入营养组合。当限制在营养不平衡的饮食中时,甲虫在最大限度地提高产卵量的营养组成下,平衡了脂质和蛋白质的过度和不足摄入。因此,这种捕食者对特定营养素的选择性觅食最大限度地提高了其繁殖性能。我们的发现对捕食者的觅食行为和生态群落的结构具有重要意义。