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Dellert, B.; Ganslosser, U. |
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Experimental alterations of food distribution in two species of captive equids (Equus burchelli and E. hemionus kulan) |
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1997 |
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Ethology Ecology & Evolution (EEE) |
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Ethol Ecol Evol |
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9 |
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1 |
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1-17 |
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n one group each of Plains zebra (six mares, one foal, one subadult) and Asiatic wild asses (seven mares, two foals) at Nuremberg Zoo, food distribution was experimentally changed from clumped (all food in one standard hay rack) to dispersed (one heap per animal). Both groups were characterized by different social structures, which basically remained during the experiment. Plains zebras had an individually structured system of social relationships in a dominance order, wild asses a more egalitarian system without clear-cut rank differences and low frequencies of agonistic interactions. Access to food accordingly was individually (but consistently) different for zebra mares, almost equal for wild ass mares. During the dispersed feeding situation frequencies of agonistic interactions in both species decreased (however non-significantly), individual distances increased but mares also frequently ''visited'' each others' heaps. Feeding time increased for all wild ass mares. Some individuals (in both groups) behaved ''against the trend'' in agonistic behaviour. The results are discussed with regard to food distribution for ungulates in general, and equid social systems. |
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Equine Behaviour @ team @ |
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2292 |
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Author |
Podos, J. |
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Early perspectives on the evolution of behavior: Charles Otis Whitman and Oskar Heinroth |
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1964 |
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Ethology Ecology & Evolution (EEE) |
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Ethol Ecol Evol |
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6 |
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4 |
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467-480 |
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Equine Behaviour @ team @ |
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2293 |
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Dukas, R. |
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Title |
Evolutionary Biology Of Animal Cognition |
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2004 |
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Annual Review of Ecology, Evolution, and Systematics |
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35 |
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1 |
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347-374 |
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This review focuses on five key evolutionary issues pertaining to animal cognition, defined as the neuronal processes concerned with the acquisition, retention, and use of information. Whereas the use of information, or decision making, has been relatively well examined by students of behavior, evolutionary aspects of other cognitive traits that affect behavior, including perception, learning, memory, and attention, are less well understood. First, there is ample evidence for genetically based individual variation in cognitive traits, although much of the information for some traits comes from humans. Second, several studies documented positive association between cognitive abilities and performance measures linked to fitness. Third, information on the evolution of cognitive traits is available primarily for color vision and decision making. Fourth, much of the data on plasticity of cognitive traits appears to reflect nonadaptive phenotypic plasticity, perhaps because few evolutionary analyses of cognitive plasticity have been carried out. Nonetheless, several studies suggest that cognitive traits show adaptive plasticity, and at least one study documented genetically based individual variation in plasticity. Fifth, whereas assertions that cognition has played a central role in animal evolution are not supported by currently available data, theoretical considerations indicate that cognition may either increase or decrease the rate of evolutionary change. |
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Equine Behaviour @ team @ |
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2970 |
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Creel, S. |
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Title |
Social dominance and stress hormones |
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Journal Article |
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2001 |
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Trends in Ecology & Evolution |
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Trends. Ecol. Evol |
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16 |
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9 |
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491-497 |
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Dominance; rank; stress; glucocorticoids; cooperative breeding; sociality; behavioural endocrinology; mammals |
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In most cooperatively breeding birds and mammals, reproductive rates are lower for social subordinates than for dominants, and it is common for reproduction in subordinates to be completely suppressed. Early research conducted in captivity showed that losing fights can increase glucocorticoid (GC) secretion, a general response to stress. Because GCs can suppress reproduction, it has been widely argued that chronic stress might underlie reproductive suppression of social subordinates in cooperative breeders. Contradicting this hypothesis, recent studies of cooperative breeders in the wild show that dominant individuals have elevated GCs more often than do subordinates. The findings that elevated GCs can be a consequence of subordination or a cost of dominance complicate the conventional view of social stress, with broad ramifications for the evolution of dominance and reproductive suppression. |
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Equine Behaviour @ team @ |
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4072 |
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Rankin, D.J.; Lopez-Sepulcre, A.; Foster, K.R.; Kokko, H. |
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Title |
Species-level selection reduces selfishness through competitive exclusion |
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2007 |
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Journal of Evolutionary Biology |
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20 |
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4 |
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1459-1468 |
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Abstract Adaptation does not necessarily lead to traits which are optimal for the population. This is because selection is often the strongest at the individual or gene level. The evolution of selfishness can lead to a .tragedy of the commons., where traits such as aggression or social cheating reduce population size and may lead to extinction. This suggests that species-level selection will result whenever species differ in the incentive to be selfish. We explore this idea in a simple model that combines individual-level selection with ecology in two interacting species. Our model is not influenced by kin or trait-group selection. We find that individual selection in combination with competitive exclusion greatly increases the likelihood that selfish species go extinct. A simple example of this would be a vertebrate species that invests heavily into squabbles over breeding sites, which is then excluded by a species that invests more into direct reproduction. A multispecies simulation shows that these extinctions result in communities containing species that are much less selfish. Our results suggest that species-level selection and community dynamics play an important role in regulating the intensity of conflicts in natural populations. |
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Equine Behaviour @ team @ |
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4225 |
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Fisher, D.O.; Blomberg, S.P.; Owens, I.P.F. |
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Title |
Convergent Maternal Care Strategies In Ungulates And Macropods |
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2002 |
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Evolution |
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56 |
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1 |
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167-176 |
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Mammals show extensive interspecific variation in the form of maternal care. Among ungulates, there is a dichotomy between species in which offspring follow the mother (“following” strategy) versus species in which offspring remain concealed (“hiding” strategy). Here we reveal that the same dichotomy exists among macropods (kangaroos, wallabies and allies). We test three traditional adaptive explanations and one new life history hypothesis, and find very similar patterns among both ungulates and macropods. The three traditional explanations that we tested were that a “following” strategy is associated with (1) open habitat, (2) large mothers, and (3) gregariousness. Our new life-history hypothesis is that a “following strategy” is associated with delayed weaning, and thus with the “slow” end of the slow-fast mammalian life-history continuum, because offspring devote resources to locomotion rather than rapid growth. Our comparative test strongly supports the habitat structure hypothesis and provides some support for this new delayed weaning hypothesis for both ungulates and macropods. We propose that sedentary young in closed habitats benefit energetically by having milk brought to them. In open habitats, predation pressure will select against hiding. Followers will suffer slower growth to independence. Taken together, therefore, our results provide the first quantitative evidence that macropods and ungulates are convergent with respect to interspecific variation in maternal care strategy. In both clades, differences between species in the form of parental care are due to a similar interaction between habitat, social behavior, and life history. Corresponding Editor: B. Crespi |
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Equine Behaviour @ team @ |
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4252 |
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Author |
Giraldeau, Luc-Alain |
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The ecology of information use |
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1997 |
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Behavioural ecology : an evolutionary approach |
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Blackwell Science |
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Cambridge, Mass. |
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Krebs, J.R.; Davies, N.B. |
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0865427313 9780865427310 |
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Equine Behaviour @ team @ 35114973 |
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4277 |
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Author |
Silk, J.; Cheney, D.; Seyfarth, R. |
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Title |
A practical guide to the study of social relationships |
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2013 |
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Evolutionary Anthropology: Issues, News, and Reviews |
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Evol. Anthropol. |
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22 |
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5 |
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213-225 |
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observational methods; behavioral analysis; methods; dyadic relationships; social bonds |
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Behavioral ecologists have devoted considerable effort to identifying the sources of variation in individual reproductive success. Much of this work has focused on the characteristics of individuals, such as their sex and rank. However, many animals live in stable social groups and the fitness of individuals depends at least in part on the outcome of their interactions with other group members. For example, in many primate species, high dominance rank enhances access to resources and reproductive success. The ability to acquire and maintain high rank often depends on the availability and effectiveness of coalitionary support. Allies may be cultivated and coalitions may be reinforced by affiliative interactions such as grooming, food sharing, and tolerance. These findings suggest that if we want to understand the selective pressures that shape the social behavior of primates, it will be profitable to broaden our focus from the characteristics of individuals to the properties of the relationships that they form with others. The goal of this paper is to discuss a set of methods that can be used to quantify the properties of social relationships. |
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1520-6505 |
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Equine Behaviour @ team @ |
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5748 |
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Chance, M.R.A.; Mead, A.P |
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Social behaviour and primate evolution. Symposia of the Society for Experimental Biology, |
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1953 |
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Evolution |
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Evolution |
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7 |
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395-439 |
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Equine Behaviour @ team @ |
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4786 |
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Krueger, K. |
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Social Ecology of Horses |
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2008 |
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Ecology of Social Evolution |
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195-206 |
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Horses (Equidae ) are believed to clearly demonstrate the links between ecology and social organization. Their social cognitive abilities enable them to succeed in many different environments, including those provided for them by humans, or the ones domestic horses encounter when escaping from their human care takers. Living in groups takes different shapes in equids. Their aggregation and group cohesion can be explained by Hamilton“s selfish herd theory. However, when an individual joins and to which group it joins appears to be an active individual decision depending on predation pressure, intra group harassment and resource availability. The latest research concerning the social knowledge horses display in eavesdropping experiments affirms the need for an extension of simple herd concepts in horses for a cognitive component. Horses obviously realize the social composition of their group and determine their own position in it. The horses exceedingly flexible social behavior demands for explanations about the cognitive mechanisms, which allow them to make individual decisions. ”Ecology conditions like those that favour the evolution of open behavioural programs sometimes also favour the evolution of the beginnings of consciousness, by favouring conscious choice. Or in other words, consciousness originates with the choice that are left open by open behavioural programs." Popper (1977) |
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Springer Verlag |
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Heidelberg |
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j. Korb and J. Heinze |
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Equine Behaviour @ team @ |
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4387 |
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