Janmaat Karline R L, Polansky Leo, Ban Simone Dagui, Boesch Christophe
Department of Primatology, Max Planck Institute for Evolutionary Anthropology, 04103 Leipzig, Germany;
Department of Primatology, Max Planck Institute for Evolutionary Anthropology, 04103 Leipzig, Germany; Department of Anthropology, University of California, Davis, CA 95616; and.
Proc Natl Acad Sci U S A. 2014 Nov 18;111(46):16343-8. doi: 10.1073/pnas.1407524111. Epub 2014 Oct 27.
Not all tropical fruits are equally desired by rainforest foragers and some fruit trees get depleted more quickly and carry fruit for shorter periods than others. We investigated whether a ripe-fruit specialist, the chimpanzee (Pan troglodytes verus), arrived earlier at breakfast sites with very ephemeral and highly sought-after fruit, like figs, than sites with less ephemeral fruit that can be more predictably obtained throughout the entire day. We recorded when and where five adult female chimpanzees spent the night and acquired food for a total of 275 full days during three fruit-scarce periods in a West African tropical rainforest. We found that chimpanzees left their sleeping nests earlier (often before sunrise when the forest is still dark) when breakfasting on very ephemeral fruits, especially when they were farther away. Moreover, the females positioned their sleeping nests more in the direction of the next day's breakfast sites with ephemeral fruit compared with breakfast sites with other fruit. By analyzing departure times and nest positioning as a function of fruit type and location, while controlling for more parsimonious explanations, such as temperature, we found evidence that wild chimpanzees flexibly plan their breakfast time, type, and location after weighing multiple disparate pieces of information. Our study reveals a cognitive mechanism by which large-brained primates can buffer the effects of seasonal declines in food availability and increased interspecific competition to facilitate first access to nutritious food. We discuss the implications for theories on hominoid brain-size evolution.
并非所有热带水果都同样受雨林觅食者青睐,一些果树比其他果树更快被吃光,结果期也更短。我们调查了一种成熟果实专家——黑猩猩(Pan troglodytes verus),是否会比前往那些果实不那么短暂、一整天都能更可预测地获取果实的地点更早到达有非常短暂且备受追捧的果实(如无花果)的早餐地点。我们记录了五只成年雌性黑猩猩在西非热带雨林三个水果稀缺期的共275个整日里的过夜时间和觅食地点。我们发现,当以非常短暂的果实为早餐时,黑猩猩会更早离开它们的睡眠巢穴(通常在日出前森林仍很昏暗的时候),尤其是当这些果实距离较远时。此外,与以其他果实为早餐的地点相比,雌性黑猩猩会将它们的睡眠巢穴更多地定位在第二天有短暂果实的早餐地点的方向。通过分析离开时间和巢穴定位作为果实类型和位置的函数,并控制更简单的解释因素(如温度),我们发现有证据表明野生黑猩猩在权衡多个不同信息后会灵活规划它们的早餐时间、类型和地点。我们的研究揭示了一种认知机制——大脑袋灵长类动物可以通过这种机制缓冲食物供应季节性下降和种间竞争加剧的影响,以便优先获取营养食物。我们讨论了这对类人猿脑容量进化理论的意义。