Chimpanzees and the mathematics of battle

Proceedings of the Royal Society of London. Series B. Biological Sciences Pub Date : 2002-06-07 DOI:10.1098/rspb.2001.1926

Michael L. Wilson, N. Britton, Nigel R. Franks

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引用次数: 120

Abstract

Recent experiments have demonstrated the importance of numerical assessment in animal contests. Nevertheless, few attempts have been made to model explicitly the relationship between the relative number of combatants on each side and the costs and benefits of entering a contest. One framework that may be especially suitable for making such explicit predictions is Lanchester's theory of combat, which has proved useful for understanding combat strategies in humans and several species of ants. We show, with data from a recent series of playback experiments, that a model derived from Lanchester's ‘square law’ predicts willingness to enter intergroup contests in wild chimpanzees (Pan troglodytes). Furthermore, the model predicts that, in contests with multiple individuals on each side, chimpanzees in this population should be willing to enter a contest only if they outnumber the opposing side by a factor of 1.5. We evaluate these results for intergroup encounters in chimpanzees and also discuss potential applications of Lanchester's square and linear laws for understanding combat strategies in other species.

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黑猩猩和战斗的数学

最近的实验证明了数值评估在动物竞赛中的重要性。然而，很少有人试图明确地建立模型来说明双方的相对战斗人数与参加比赛的成本和收益之间的关系。兰彻斯特的战斗理论可能是一个特别适合做出这种明确预测的框架，该理论已被证明对理解人类和几种蚂蚁的战斗策略很有用。我们用最近一系列回放实验的数据表明，一个源自兰彻斯特“平方定律”的模型预测了野生黑猩猩(类人猿)进入群体间竞争的意愿。此外，该模型还预测，在双方都有多个个体的竞争中，只有在数量超过对方1.5倍的情况下，这个种群中的黑猩猩才会愿意参加竞争。我们对黑猩猩群体间遭遇的结果进行了评估，并讨论了兰彻斯特平方和线性定律在理解其他物种战斗策略方面的潜在应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the Royal Society of London. Series B. Biological Sciences

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