Functions and evolution of aggression

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Also known as: aggression, aggressiveness

Group versus individual selection

As is stated in the section The nature of animal aggression, in most cases animals fight over food, shelter, and mates or over territories where these can be found. Therefore, in functional terms, it is easy to explain why animals fight: they do so to gain access to valuable resources. A more difficult question to answer is why conflicts are often resolved conventionally, by displays and threats, rather than by out-and-out fighting. For example, why does a stag, instead of using its antlers in an all-out bid for victory, withdraw from a fight after an exchange of roars, thus leaving its rival in possession of a group of fertile females?

For a long time the generally accepted answer was that animals refrain from engaging in overt fighting because the high level of injury that this can cause is disadvantageous for the species as a whole. According to this view, conventional fighting evolved because groups whose members behaved in this self-sacrificing way did better than, and gradually replaced, groups in which individuals fought fiercely in their own interest. This “for the good of the species,” or group selection, explanation has been rejected by most biologists for two main reasons. The first is that in a group consisting of altruists who fought conventionally, an individual who broke the rules by fighting as fiercely as possible would inevitably win fights, gain resources, and leave many offspring—some of whom would inherit the nonaltruist’s disposition toward fighting, thus passing on nonaltruistic traits to more individuals of future generations. In this way natural selection at the level of the individual would be stronger than selective processes at the group level. Except in highly unusual circumstances, therefore, group selection simply does not explain why the majority of aggressive encounters are settled without recourse to overt fighting. The second reason why the theory has been rejected is that conventional fighting can be explained easily once it is recognized that, in addition to bringing benefits to the winner, aggression imposes costs on both opponents.

Cost-benefit analysis

Current understanding of the functions and evolution of behaviour has been greatly influenced by the economic approach that is central to the discipline of behavioral ecology. In this framework, both the costs and the benefits of particular actions are determined, ultimately in terms of their Darwinian fitness, which is an individual’s genetic contribution to the next generation (through production and rearing of offspring) compared with that of other individuals. The cost-benefit analysis is then used to predict how animals should behave during fights in order to maximize their net fitness gains. Thus, the actual behaviour of animals can be compared with the predicted behaviour to see if the positive and negative effects of fighting on fitness have been correctly identified. This is not to suggest that animals make rational calculations about the consequences of their behaviour. Rather, it is assumed that natural selection, acting over thousands of generations, has resulted in the evolution of animals that are able to adjust their behaviour to the circumstances in which fights occur, by mechanisms that may well be unconscious (like the neuroendocrine effects described in the section Neuroendocrine influences).

The positive consequences for fitness, gaining preferential access to food and shelter and acquiring mates, are easy to specify if not always easy to measure. The negative consequences (or costs) of fighting are not so evident, but they include expenditure of energy and loss of time that might be devoted to other activities. For example, male sparrows that continue to fight over territories after they have acquired a mate neglect the care of their young, which do poorly as a consequence. And in a diverse array of species, from crabs to crickets to sage grouse, aggressive displays and intense fighting have been shown to increase rates of aerobic and anaerobic respiration and to deplete energy reserves. Additionally, an important cost of fighting is the risk of injury; the fiercer the fighting, the greater the risk. Putting these adverse effects into the cost-benefit equation has helped to explain many puzzling aspects of animal aggression. These include the fact that subordinate animals accept their low status, that animals sometimes reduce the size of their territory or even abandon it altogether, and that, once a fight does get under way, animals do not always compete to the limit of their capability.

That subordinate animals accept their low status, even though by fighting they may ascend the hierarchy and gain advantages, can be explained in terms of the costs of fighting for the challenger. Subordinate animals are often small or young and are less likely to be able to challenge a dominant animal successfully. Since the fight is likely to be fierce and the risk of injury high, the costs of challenging outweigh the potential benefits of winning. Therefore, the individual fitness of a subordinate animal may be greater if it submits to a rival rather than launching a challenge. If the animals concerned must live in a group in order to survive, as is the case with wolves, then subordinate individuals may be “making the best of a bad job” by accepting long-term subordinate status. On the other hand, dominant individuals pay a high price for their status. Often challenged by rivals that are closer to themselves in size and strength, they must frequently engage in energetic and potentially dangerous fights, which may shorten their tenure as the dominant group member. For example, dominant red deer stags defending large groups of hinds end the breeding season in very poor condition, and they rarely retain their high status for more than a few years. Younger subordinate males, by keeping out of trouble until they become stronger and the dominant animal weaker, may actually increase their chances of ultimately achieving high status, with its accompanying benefits. Subordinate animals may even use tactics other than fighting to gain resources. For example, subordinate red deer stags sneak mating opportunities with fertile females while dominant males are busy fighting each other. In salmon, subordinate juveniles acquire food by foraging at times when their dominant neighbours are satiated. Badges of status, such as the Harris sparrow’s black throat and crown feathers, facilitate the process of establishing and maintaining stable hierarchical relationships because only dominant animals can afford to pay the costs of getting involved in fights. In the case of the sparrows, subordinate males whose stripes have been enlarged experimentally are attacked by larger or stronger birds against whom they cannot adequately defend themselves.

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