Book contents
- Frontmatter
- Contents
- List of contributors
- Introduction: The uphill climb of sociobiology: towards a new synthesis
- Profile: Undiminished passion
- Part I Foundations
- Part II Themes
- Part III Implications
- 16 Personality and individual social specialisation
- Profile: Behavioural ecology, why do I love thee? Let me count the reasons
- 17 Molecular and genetic influences on the neural substrate of social cognition in humans
- Profile: Anonymous (and other) social experience and the evolution of cooperation by reciprocity
- 18 Population density, social behaviour and sex allocation
- Profile: Social theory based on natural selection
- 19 Social behaviour and speciation
- Profile: Look to the ants
- 20 Social behaviour in conservation
- Profile: The handicap principle and social behaviour
- 21 Prospects for research in social behaviour: systems biology meets behaviour
- Species index
- Subject index
- References
20 - Social behaviour in conservation
Published online by Cambridge University Press: 05 June 2012
Book contents
- Frontmatter
- Contents
- List of contributors
- Introduction: The uphill climb of sociobiology: towards a new synthesis
- Profile: Undiminished passion
- Part I Foundations
- Part II Themes
- Part III Implications
- 16 Personality and individual social specialisation
- Profile: Behavioural ecology, why do I love thee? Let me count the reasons
- 17 Molecular and genetic influences on the neural substrate of social cognition in humans
- Profile: Anonymous (and other) social experience and the evolution of cooperation by reciprocity
- 18 Population density, social behaviour and sex allocation
- Profile: Social theory based on natural selection
- 19 Social behaviour and speciation
- Profile: Look to the ants
- 20 Social behaviour in conservation
- Profile: The handicap principle and social behaviour
- 21 Prospects for research in social behaviour: systems biology meets behaviour
- Species index
- Subject index
- References
Summary
Overview
This chapter develops links between social behaviour and demography, and illustrates how knowledge of social behaviour may be used to manage populations for conservation. The chapter is necessarily speculative, both because the ‘formal’ field of conservation behaviour is still only a decade old, and because explicit applications of social management are still relatively uncommon. I summarise case studies where social behaviour has been manipulated to manage populations, and suggest possible ways that behaviour could be used to manage populations. After defining effective population size, I list a number of ways that social behaviour may influence it, via genetic variation, survival and reproductive success. Reproductive skew emerges from unequal reproduction, which may be caused by (among other things) social stress, reproductive suppression and infanticide. Social aggregation may reduce natural mortality, and the observations that animals seek conspecifics may be used as a management tool to attract individuals to protected locations. But conspecific attraction and social aggregation may also predispose a population to be vulnerable to human exploitation. Social factors (including reproductive opportunities) may drive dispersal and movements between groups. Humans can influence the structure of social relationships in animals, and these manipulations may influence group stability. Knowledge of these and other mechanisms arms managers with tools to manipulate the habitat or relationships to favourably influence social behaviour and structure, and thereby better manage a population.
- Type
- Chapter
- Information
- Social BehaviourGenes, Ecology and Evolution, pp. 520 - 534Publisher: Cambridge University PressPrint publication year: 2010
References
& (2000) Integrating behaviour into wildlife conservation: the multiple ways that behaviour can reduceNe. Biological Conservation, 95, 303–315.Google Scholar
, ed. (1998) Behavioral Ecology and Conservation Biology. New York, NY: Oxford University Press.Google Scholar
& , eds. (1997) Behavioral Approaches to Conservation in the Wild. Cambridge: Cambridge University Press.Google Scholar
& , eds. (2003) Animal Behavior and Wildlife Conservation. Washington, DC: Island Press.Google Scholar
Several special issues of journals have been devoted to conservation behaviour, including the February 2007 issue of Applied Animal Behaviour Science.
, , , & (2002) Temporary alteration of local social structure in a threatened population of Cuban iguanas (Cyclura nubila). Behavioral Ecology and Sociobiology, 51, 324–335.CrossRefGoogle Scholar
& (2000) Integrating behaviour into wildlife conservation: the multiple ways that behaviour can reduceNe. Biological Conservation, 95, 303–315.Google Scholar
(1998) The effect of group size on mean food intake rate in birds. Biological Reviews, 73, 449–472.CrossRefGoogle Scholar
, , et al. (1991) Losses and reproduction in reintroduced golden lion tamarins Leontopithecus rosalia. Dodo: Journal of the Jersey Wildlife Preservation Trust, 27, 50–61.Google Scholar
& (1998) Randomness, chaos and confusion in the study of antipredator vigilance. Trends in Ecology and Evolution, 13, 284–287.CrossRefGoogle Scholar
(2002) Population viability analysis: past, present, future. In: Population Viability Analysis, ed. & . Chicago, IL: University of Chicago Press, pp. 5–17.Google Scholar
& , eds. (2002) Population Viability Analysis. Chicago, IL: University of Chicago Press.Google Scholar
(2002) The importance of ethics in conservation biology: let's be ethicists not ostriches. Endangered Species Update, 19, 23–26.Google Scholar
. (1998) Female preferences and effective population size. Animal Conservation, 1, 173–177.CrossRefGoogle Scholar
. (2000) The evolution of infanticide in rodents: a comparative analysis. In: Infanticide by Males and its Implications, ed. & Cambridge: Cambridge University Press, pp. 178–197.Google Scholar
. (2007) Darwinian decision making: putting the adaptive into adaptive management. Conservation Biology, 21, 552–553.CrossRefGoogle ScholarPubMed
& . (1998) Life history consequences of social complexity: a comparative study of ground-dwelling sciurids. Behavioral Ecology, 9, 8–19.CrossRefGoogle Scholar
& . (2004) The emergence of conservation behavior. Conservation Biology, 18, 1175–1177.CrossRefGoogle Scholar
. (2003) The key player problem. In: Dynamic Social Network Modeling and Analysis: Workshop Summary and Papers, ed. & . Washington, DC: Committee on Human Factors, National Research Council, pp. 241–252.Google Scholar
(2007) Behavioural biology: an effective and relevant conservation tool. Trends in Ecology and Evolution, 22, 401–407.CrossRefGoogle ScholarPubMed
, , , & (2002) Social trajectories and the evolution of social behavior. Oikos, 96, 206–216.CrossRefGoogle Scholar
(2007) Behavior and conservation: a bridge too far?Trends in Ecology and Evolution, 22, 394–400.CrossRefGoogle ScholarPubMed
. (1991b) Influence of gene flow and breeding tactics on gene diversity within populations. Genetics, 129, 573–583.Google ScholarPubMed
, , & (1993) Effective sizes for subdivided populations. Genetics, 135, 1221–1232.Google ScholarPubMed
, , & (1996) Gene conservation. In: Population Processes in Ecological Space and Time, ed. & . Chicago, IL: University of Chicago Press, pp. 237–252.Google Scholar
, & (1999) Inverse density dependence and the Allee effect. Trends in Ecology and Evolution, 14, 405–410.CrossRefGoogle ScholarPubMed
, & (2008) Exploring Animal Social Networks. Princeton, NJ: Princeton University Press.CrossRefGoogle Scholar
(1970) Social organization and the environment: aspects of contemporary social ethology. Animal Behaviour, 18, 197–209.CrossRefGoogle Scholar
, & (1998) Directions in endangered species research. In: Avian Conservation, ed. & . Washington, DC: Island Press, pp. 111–123.Google Scholar
(1998) Social structure and gene dynamics in mammals. Journal of Mammalogy, 79, 667–670.Google Scholar
(2007) Gene dynamics and social behavior. In: Rodent Societies: An Ecological and Evolutionary Perspective, ed. & . Chicago, IL: University of Chicago Press, pp. 163–172.Google Scholar
& (2003) Social groups, genetic structure, and conservation. In: Animal Behavior and Wildlife Conservation, ed. & Washington, DC: Island Press, pp. 211–228.Google Scholar
, , , & (1997) Do black-tailed prairie dogs minimize inbreeding?Evolution, 51, 970–978.CrossRefGoogle ScholarPubMed
, , , & (1998) Breeding groups and gene dynamics in a socially structured population of prairie dogs. Journal of Mammalogy, 79, 671–680.CrossRefGoogle Scholar
, , , & (2004) The influence of social breeding groups on effective population size in black-tailed prairie dogs. Journal of Mammalogy, 85, 58–66.2.0.CO;2>CrossRefGoogle Scholar
. (1877) The Plains of the Great West and Their Inhabitants. New York, NY: G. P. Putnam's Sons.Google Scholar
(1998) Strategies and counterstrategies to infanticide in mammals. Biological Reviews, 73, 321–346.CrossRefGoogle Scholar
& (2007) Functions of non-parental infanticide in rodents. In: Rodent Societies: an Ecological and Evolutionary Perspective, ed. & . Chicago, IL: University of Chicago Press, pp. 267–279.Google Scholar
(1982) The evolution of helping. II. The role of behavioral conflict. American Naturalist, 119, 40–53.CrossRefGoogle Scholar
& (1977) Ecology, sexual selection, and the evolution of mating systems. Science, 197, 215–222.CrossRefGoogle ScholarPubMed
, , et al. (1997) Ecological constraints drive social evolution in the African mole-rats. Proceedings of the Royal Society B, 264, 1619–1627.CrossRefGoogle ScholarPubMed
, & . (2003) Odor familiarity and female preferences for males in a threatened primate, the pygmy loris, Nycticebus pygmaeus: applications for genetic management of small populations. Naturwissenschaften, 90, 509–512.CrossRefGoogle Scholar
, , & (2006) Policing stabilizes construction of social niches in primates. Nature, 439, 426–429.CrossRefGoogle ScholarPubMed
, & (2002) Introduction to Conservation Genetics. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
& . (1986) Minimum viable populations: processes of species extinction. In: Conservation Biology: the Science of Scarcity and Diversity, ed. , MA: Sinauer Associates, pp. 19–34.Google Scholar
, , & (1998) Animal breeding systems, hunter selectivity, and consumptive use in wildlife conservation. In: Behavioral Ecology and Conservation Biology, ed. . New York, NY: Oxford University Press, pp. 271–305.Google Scholar
, & (1996) Evidence for social enhancement of reproduction in two Eulemur species. Zoo Biology, 15, 1–12.3.0.CO;2-F>CrossRefGoogle Scholar
, , et al. (2007) Effects of culling on spatial associations of Mycobacterium bovis infections in badgers and cattle. Journal of Applied Ecology, 44, 897–908.CrossRefGoogle Scholar
(1999) The role of adaptive management as an operational approach for resource management agencies. Conservation Ecology, 3, 8 [online] www.consecol.org/vol3/iss2/art8/.Google Scholar
(2000) Models of reproductive skew: a review and synthesis. Ethology, 106, 5–26.CrossRefGoogle Scholar
(1989) Reintroduction of captive mammals for conservation: guidelines for reintroducing endangered species into the wild. BioScience, 39, 152–161.CrossRefGoogle Scholar
(1992) Importance of habitat saturation and territory quality for evolution of cooperative breeding in the Seychelles warbler. Nature, 358, 493–495.CrossRefGoogle Scholar
(2000) Spatial and social systems of subterranean rodents. In: Life Underground: the Biology of Subterranean Rodents, ed. , & . Chicago, IL: University of Chicago Press, pp. 257–296.Google Scholar
& (1997) Cooperative breeding in naked mole rats: implications for vertebrate and invertebrate sociality. In: Cooperative Breeding in Mammals, ed. & . Cambridge: Cambridge University Press, pp. 267–301.Google Scholar
(1991) Intraspecific Variation in the Social Systems of Wild Vertebrates. Cambridge: Cambridge University Press.Google Scholar
(2003a) Effects of tour boats on the behavior of bottlenose dolphins: using Markov chains to model anthropogenic impacts. Conservation Biology, 17, 1785–1793.CrossRefGoogle Scholar
(2003b) The emergent properties of a dolphin social network. Biology Letters, 270, S186–188.Google ScholarPubMed
, , et al. (2005) Quantifying the influence of sociality on population structure in bottlenose dolphins. Journal of Animal Ecology, 75, 14–24.Google Scholar
& (2008) Management implications of capybara (Hydrochoerus hydrochaeris) social behavior. Biological Conservation, 141, 1945–1952.CrossRefGoogle Scholar
, , , & (2001) Matriarchs as repositories of social knowledge in African elephants. Science, 292, 491–494.CrossRefGoogle ScholarPubMed
, , & (1994) Reintroduction of the black-footed ferret (Mustela nigripes). In: Creative Conservation: Interactive Management of Wild and Captive Animals, ed. , & . London: Chapman and Hall, pp. 455–464.Google Scholar
(2001) A life-history approach to group living and social contracts between individuals. Annales Zoologici Fennici, 38, 239–254.Google Scholar
(1993) The influence of mating system and overlapping generations on effective population size. Evolution, 47, 1329–1341.CrossRefGoogle ScholarPubMed
& (1984) Infanticide in carnivores. In: Infanticide: Comparative and Evolutionary Perspectives, ed. & . New York: Aldine, pp. 43–64.Google Scholar
& (1997) Mating systems, effective population size, and conservation of natural populations. In: Behavioral Approaches to Conservation in the Wild, ed. and Cambridge: Cambridge University Press, pp. 243–261.Google Scholar
& (1990) Sex ratio and habitat limitation promote delayed dispersal in superb fairy-wrens. Nature, 348, 541–542.CrossRefGoogle Scholar
, , & (2004) Do conservation managers use scientific evidence to support their decision-making?Biological Conservation, 119, 245–252.CrossRefGoogle Scholar
, , et al. (2002) The effects of reducing population density on contact rates between brushtail possums: implications for transmission of bovine tuberculosis. Journal of Applied Ecology, 39, 806–818.CrossRefGoogle Scholar
& (1993) Queen–queen conflict in polygynous societies: mutual tolerance and reproductive skew. In: Queen Number and Sociality in Insects, ed. Oxford: Oxford University Press, pp. 45–85.Google Scholar
, & (1998) Reproductive sharing in animal societies: reproductive incentives or incomplete control by dominant breeders?Behavioral Ecology, 9, 267–278.CrossRefGoogle Scholar
, , , & (2006) Sex allocation theory aids species conservation. Biology Letters, 2, 229–231.CrossRefGoogle ScholarPubMed
& (2005) Fish aggregation results in inversely density-dependent predation on continuous coral reefs. Ecology, 86, 1520–1530.CrossRefGoogle Scholar
& (2004) Using conspecific attraction to conserve endangered birds. Endangered Species Update, 21, 132–138.Google Scholar
, & (2007) Developing the science of reintroduction biology. Conservation Biology, 21, 303–312.CrossRefGoogle ScholarPubMed
(2005) Translocation are more successful when prairie dogs are moved as families. In Conservation of the Black-tailed Prairie Dog, ed. Washington, DC: Island Press, pp. 189–190.Google Scholar
& (2007a) Social influences on predator training for conservation. The Conservation Behaviorist, 5, 6–8.Google Scholar
& (2007b) Effects of social learning on predator training and postrelease survival in juvenile black-tailed prairie dogs, Cynomys ludovicianus. Animal Behaviour, 73, 567–577.CrossRefGoogle Scholar
, , , & (1992) Reintroduction of macropods (Marsupialia: Macropodoidea) in Australia: a review. Biological Conservation, 62, 189–204.CrossRefGoogle Scholar
(1984) Optimal behavior and density-dependent predation. American Naturalist, 123, 314–326.CrossRefGoogle Scholar
(2001) Models of Mycobacterium bovis in wildlife and cattle. Tuberculosis, 81, 51–64.CrossRefGoogle ScholarPubMed
& , eds. (1997) Cooperative Breeding in Mammals. Cambridge: Cambridge University Press.Google Scholar
(1988) Conspecific attraction and aggregation in territorial species. American Naturalist, 131, 329–347.CrossRefGoogle Scholar
& (1994) Effective population sizes with multiple paternity. Genetics, 137, 1147–1155.Google ScholarPubMed
, , & (1996) Population genetics meets behavioral ecology. Trends in Ecology and Evolution, 11, 338–343.CrossRefGoogle ScholarPubMed
, , & (2004) The need for evidence-based conservation. Trends in Ecology and Evolution, 19, 305–308.CrossRefGoogle ScholarPubMed
(2007) Current status and future directions of applied behavioral research for animal welfare and conservation. Applied Animal Behaviour Science, 102, 139–162.CrossRefGoogle Scholar
& . (in press) Applying knowledge of mammalian social organization, mating systems and communication to management. In: Wild Mammals in Captivity, 2nd edn., ed. . Chicago, IL: University of Chicago Press.
, & (2006) A captive population in crisis: testing hypotheses for reproductive failure in captive-born southern white rhinoceros females. Biological Conservation, 129, 168–176.CrossRefGoogle Scholar
(2003) Implications of sexually selected infanticide for the hunting of large carnivores. In: Animal Behavior and Wildlife Conservation, ed. . Washington, DC: Island Press, pp. 171–189.Google Scholar
, , et al. (1997) Infanticide caused by hunting of male bears. Nature, 386, 450–451.CrossRefGoogle Scholar
(2000) Theory and method in studies of vigilance and aggregation. Animal Behaviour, 60, 711–722.CrossRefGoogle ScholarPubMed
& (1973) Natural selection of parental ability to vary the sex ratio of offspring. Science, 179, 90–92.CrossRefGoogle ScholarPubMed
& , eds. (2000) Infanticide by Males and its Implications, Cambridge: Cambridge University Press.CrossRefGoogle Scholar
(1983) A model for the evolution of despotic versus egalitarian socieities. Animal Behaviour, 31, 667–682.CrossRefGoogle Scholar
& (1990) Large-scale management experiments and learning by doing. Ecology, 71, 2060–2068.CrossRefGoogle Scholar
& (2004) Conspecific attraction and the conservation of territorial songbirds. Conservation Biology, 18, 519–525.CrossRefGoogle Scholar
& (1983) Reproductive suppression among female mammals: implications for biomedicine and sexual selection theory. Quarterly Review of Biology, 58, 513–538.CrossRefGoogle ScholarPubMed
, , & (2008) Social network analysis of animal behaviour: a promising tool for the study of sociality. Animal Behaviour, 75, 333–344.CrossRefGoogle Scholar
& (2003) Reproduction and resistance to stress: when and how. Journal of Neuroendocinology, 15, 711–724.CrossRefGoogle Scholar
, , et al. (2006) Effects of culling on badger (Meles meles) spatial organization: implications for the control of bovine tuberculosis. Journal of Applied Ecology, 43, 1–10.CrossRefGoogle Scholar
(1969) Evolution and the Genetics of Populations. Vol. 2, The Theory of Gene Frequencies. Chicago, IL: University of Chicago Press.Google Scholar
(1978) Evolution and the Genetics of Populations. Vol. 4, Variability Within and Among Natural Populations. Chicago, IL: University of Chicago Press.Google Scholar
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