Book contents
- Cooperative Breeding in Vertebrates
- Cooperative Breeding in Vertebrates
- Copyright page
- Contents
- Contributors
- Introduction
- 1 Siberian jays: Delayed dispersal in the absence of cooperative breeding
- 2 Western bluebirds: Lessons from a marginal cooperative breeder
- 3 Long-tailed tits: Ecological causes and fitness consequences of redirected helping
- 4 Red-cockaded woodpeckers: Alternative pathways to breeding success
- 5 Florida scrub-jays: Oversized territories and group defense in a fire-maintained habitat
- 6 Carrion crows: Family living and helping in a flexible social system
- 7 Southern pied babblers: The dynamics of conflict and cooperation in a group-living society
- 8 Superb fairy-wrens: Making the worst of a good job
- 9 Chestnut-crowned babblers: Dealing with climatic adversity and uncertainty in the Australian arid zone
- 10 Bell miners: Kin-selected helping decisions
- 11 Superb starlings: Cooperation and conflict in an unpredictable environment
- 12 Seychelles warblers: Complexities of the helping paradox
- 13 Acorn woodpeckers: Helping at the nest, polygynandry, and dependence on a variable acorn crop
- 14 Taiwan yuhinas: Unrelated joint-nesters cooperate in unfavorable environments
- 15 Guira cuckoos: Cooperation, infanticide, and female reproductive investment in a joint-nesting species
- 16 Cichlid fishes: A model for the integrative study of social behavior
- 17 Meerkats: Cooperative breeding in the Kalahari
- 18 Banded mongooses: Demography, life history, and social behavior
- 19 Damaraland and naked mole-rats: Convergence of social evolution
- 20 Synthesis: Cooperative breeding in the twenty-first century
- Index
- References
12 - Seychelles warblers: Complexities of the helping paradox
Published online by Cambridge University Press: 18 December 2015
Book contents
- Cooperative Breeding in Vertebrates
- Cooperative Breeding in Vertebrates
- Copyright page
- Contents
- Contributors
- Introduction
- 1 Siberian jays: Delayed dispersal in the absence of cooperative breeding
- 2 Western bluebirds: Lessons from a marginal cooperative breeder
- 3 Long-tailed tits: Ecological causes and fitness consequences of redirected helping
- 4 Red-cockaded woodpeckers: Alternative pathways to breeding success
- 5 Florida scrub-jays: Oversized territories and group defense in a fire-maintained habitat
- 6 Carrion crows: Family living and helping in a flexible social system
- 7 Southern pied babblers: The dynamics of conflict and cooperation in a group-living society
- 8 Superb fairy-wrens: Making the worst of a good job
- 9 Chestnut-crowned babblers: Dealing with climatic adversity and uncertainty in the Australian arid zone
- 10 Bell miners: Kin-selected helping decisions
- 11 Superb starlings: Cooperation and conflict in an unpredictable environment
- 12 Seychelles warblers: Complexities of the helping paradox
- 13 Acorn woodpeckers: Helping at the nest, polygynandry, and dependence on a variable acorn crop
- 14 Taiwan yuhinas: Unrelated joint-nesters cooperate in unfavorable environments
- 15 Guira cuckoos: Cooperation, infanticide, and female reproductive investment in a joint-nesting species
- 16 Cichlid fishes: A model for the integrative study of social behavior
- 17 Meerkats: Cooperative breeding in the Kalahari
- 18 Banded mongooses: Demography, life history, and social behavior
- 19 Damaraland and naked mole-rats: Convergence of social evolution
- 20 Synthesis: Cooperative breeding in the twenty-first century
- Index
- References
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- Cooperative Breeding in VertebratesStudies of Ecology, Evolution, and Behavior, pp. 197 - 216Publisher: Cambridge University PressPrint publication year: 2016
References
Arnold, K. E. and Owens, I. P. F. (1998). Cooperative breeding in birds: a comparative test of the life history hypothesis. Proc. R. Soc. London B, 265, 739–745.CrossRefGoogle Scholar
Balshine-Earn, S., Neat, F. C., Reid, H., and Taborsky, M. (1998). Paying to stay or paying to breed? Field evidence for direct benefits of helping behavior in a cooperatively breeding fish. Behav. Ecol., 9, 432–458.CrossRefGoogle Scholar
Barrett, E. L. B., Burke, T., Hammers, M., Komdeur, J., and Richardson, D. S. (2013). Telomere length and dynamics predict mortality in a wild longitudinal study. Mol. Ecol., 47, 41–53.Google Scholar
Bathe, G. M. and Bathe, H. V. (1982). Territory size and habitat requirements of the Seychelles Brush warbler Acrocephalus (Bebrornis) sechellensis. Cambridge: International Council for Bird Preservation, Internal Report.Google Scholar
Bennett, P. M. and Owens, I. P. F. (2002). Evolutionary Ecology of Birds–Life Histories, Mating Systems, and Extinction. Oxford: Oxford University Press.CrossRefGoogle Scholar
Berg, E. C., Eadie, J. M., Langen, T. A., and Russell, A. F. (2009). Reverse sex-biased philopatry in a cooperative bird: genetic consequences and a social cause. Mol. Ecol., 18, 3486–3499.CrossRefGoogle Scholar
Brouwer, L., Richardson, D. S., Eikenaar, C., and Komdeur, J. (2006). The role of group size and environmental factors on survival in a cooperatively breeding tropical passerine. J. Anim. Ecol., 75, 1321–1329.CrossRefGoogle Scholar
Brouwer, L., Tinbergen, J. M., Both, C., Bristol, R., Richardson, D. S., et al. (2009). Experimental evidence for density-dependent reproduction in a cooperatively breeding passerine. Ecology, 90, 729–741.CrossRefGoogle Scholar
Brouwer, L., Richardson, D. S., and Komdeur, J. (2012). Helpers at the nest improve late-life offspring performance: evidence from a long-term study and a cross-foster experiment. PLoS One, 7, e33167.CrossRefGoogle Scholar
Brown, J. L. (1978). Avian communal breeding systems. Annu. Rev. Ecol. Syst., 9, 123–155.CrossRefGoogle Scholar
Brown, J. L. (1987). Helping and Communal Breeding in Birds: Ecology and Evolution. Princeton, NJ: Princeton University Press.CrossRefGoogle Scholar
Clutton-Brock, T. H. (2002). Breeding together: kin selection and mutualism in cooperative vertebrates. Science, 296, 69–72.CrossRefGoogle ScholarPubMed
Clutton-Brock, T. (2009) Cooperation between non-kin in animal societies. Nature, 462, 51–57.CrossRefGoogle ScholarPubMed
Cockburn, A. (1998). Evolution of helping behavior in cooperatively breeding birds. Annu. Rev. Ecol. Syst., 29, 141–177.CrossRefGoogle Scholar
Collar, N. J. and Stuart, S. N. (1985). Threatened Birds of Africa and Related Islands. Cambridge: ICBP/IUCN Red Data Book Part 1. International Council for Bird Preservation.Google Scholar
Cornwallis, C. K., West, S. A., and Griffin, A. S. (2009). Routes to indirect fitness in cooperatively breeding vertebrates: kin discrimination and limited dispersal. J. Evol. Biol., 22, 2445–2457.CrossRefGoogle ScholarPubMed
Covas, R. and Griesser, M. (2007). Life history and the evolution of family living in birds. Proc. R. Soc. London B, 274, 1349–1357.Google ScholarPubMed
Croft, D. P., Krause, J. and James, R. (2004). Social networks in the guppy (Poecilia reticulata). Biol. Lett., 271, 516–519.Google ScholarPubMed
Crook, J. (1960). The Present Status of Certain Rare Land-birds of the Seychelles Islands. Unnumbered Seychelles Government Bulletin, Department of the Environment, Victoria.Google Scholar
Dickinson, J. L. and Hatchwell, B. J. (2004). The fitness consequences of helping. In: Ecology and Evolution of Cooperative Breeding in Birds, ed. Koenig, W. D. and Dickinson, J. L.. Cambridge: Cambridge University Press, pp. 48–66.CrossRefGoogle Scholar
Dickinson, J. L., Koenig, W. D., and Pitelka, F. A. (1996). Fitness consequences of helping behavior in the western bluebird. Behav. Ecol., 7, 168–177.CrossRefGoogle Scholar
Eikenaar, C., Richardson, D. S., Brouwer, L., and Komdeur, J. (2007). Parent presence, delayed dispersal, and territory acquisition in the Seychelles warbler. Behav. Ecol., 18, 874–879.CrossRefGoogle Scholar
Eikenaar, C., Komdeur, J., and Richardson, D. S. (2008). Natal dispersal patterns are not associated with inbreeding avoidance in the Seychelles warbler. J. Evol. Biol., 21, 1106–1116.CrossRefGoogle Scholar
Eikenaar, C., Richardson, D. S., Brouwer, L., Bristol, R., and Komdeur, J. (2009). Experimental evaluation of sex differences in territory acquisition in a cooperatively breeding bird. Behav. Ecol., 20, 207–214.CrossRefGoogle Scholar
Eikenaar, C., Brouwer, L., Komdeur, J., and Richardson, D. S. (2010). Sex biased natal dispersal is not a fixed trait in a stable population of Seychelles warblers. Behaviour, 147, 1577–1590.CrossRefGoogle Scholar
Ekman, J, Dickinson, J. L., Hatchwell, B. J., and Griesser, M. (2004). Delayed dispersal. In: Ecology and Evolution of Cooperative Breeding in Birds, ed. Koenig, W. D. and Dickinson, J. L.. Cambridge: Cambridge University Press, pp. 35–47.CrossRefGoogle Scholar
Emlen, S. T. (1982). The evolution of helping. I. An ecological constraints model. Am. Nat., 119, 29–39.CrossRefGoogle Scholar
Emlen, S. T. (1991). The evolution of cooperative breeding in birds and mammals. In: Behavioural Ecology: an Evolutionary Approach, 3rd edn, ed. Krebs, J. R. and Davies, N. B.. Oxford: Blackwell, pp. 301–337.Google Scholar
Gaston, A. J. (1978). The evolution of group territorial behavior and cooperative breeding. Am. Nat., 112, 1091–1100.CrossRefGoogle Scholar
Griffin, A. S. and West, S. A. (2002). Kin selection: fact and fiction. Trends. Ecol. Evol., 17, 15–21.CrossRefGoogle Scholar
Hadfield, J. D., Richardson, D. S., and Burke, T. (2006). Towards unbiased parentage assignment: combining genetic, behavioural and spatial data in a Bayesian framework. Mol. Ecol., 15, 3715–3730.CrossRefGoogle Scholar
Hammers, M., Richardson, D. S., Burke, T., and Komdeur, J. (2012). Age-dependent terminal declines in reproductive output in a wild bird. PLoS One, 7, e40413.CrossRefGoogle Scholar
Hamilton, W. D. (1964). The genetical evolution of social behaviour I and II. J. Theor. Biol., 7, 1–52.Google Scholar
Hatchwell, B. J. and Komdeur, J. (2000). Ecological constraints, life history traits and the evolution of cooperative breeding. Anim. Behav., 59, 1079–1086.CrossRefGoogle ScholarPubMed
Hatchwell, B. J., Russell, A. F., Fowlie, M. K., and Ross, D. J. (1999). Reproductive success and nest-site selection in a cooperative breeder: effect of experience and a direct benefit of helping. Auk, 116, 355–363.CrossRefGoogle Scholar
Heinsohn, R. G. and Legge, S. (1999). The cost of helping. Trends Ecol. Evol., 14, 53–57.CrossRefGoogle ScholarPubMed
IUCN (2013). IUCN Red List of Threatened Species. Version 2013.2. www.iucnredlist.org.Google Scholar
Koenig, W. D. and Dickinson, J. L., eds. (2004). Ecology and Evolution of Cooperative Breeding in Birds. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Koenig, W. D., Pitelka, F. A., Carmen, W. J., Mumme, R. L., and Stanback, M. T. (1992). The evolution of delayed dispersal in cooperative breeders. Q. Rev. Biol., 67, 111–150.CrossRefGoogle ScholarPubMed
Kokko, H., Johnstone, R. A., and Clutton-Brock, T. H. (2001). The evolution of cooperative breeding through group augmentation. Proc. R. Soc. London B, 268, 187–196.CrossRefGoogle ScholarPubMed
Komdeur, J. (1992). Importance of habitat saturation and territory quality for evolution of cooperative breeding in the Seychelles warbler. Nature, 358, 493–495.CrossRefGoogle Scholar
Komdeur, J. (1994a). Conserving the Seychelles warbler Acrocephalus sechellensis by translocation from Cousin Island to the islands of Aride and Cousine. Biol. Conserv., 76, 143–152.CrossRefGoogle Scholar
Komdeur, J. (1994b). Experimental evidence for helping and hindering by previous offspring in the cooperative-breeding Seychelles warbler Acrocephalus sechellensis. Behav. Ecol. Sociobiol., 34, 175–186.CrossRefGoogle Scholar
Komdeur, J. (1996a). Seasonal timing of reproduction in a tropical bird, the Seychelles warbler: a field experiment using translocation. J. Biol. Rhythms, 11, 333–346.CrossRefGoogle Scholar
Komdeur, J. (1996b). Facultative sex ratio bias in the offspring of Seychelles warblers. Proc. R. Soc. London B, 263, 661–666.Google Scholar
Komdeur, J. (1996c). Influence of helping and breeding experience on reproductive performance in the Seychelles warbler: a translocation experiment. Behav. Ecol., 7, 326–333.CrossRefGoogle Scholar
Komdeur, J. (1998). Long-term fitness benefits of egg sex modification by the Seychelles warbler. Ecol. Lett., 1, 56–62.CrossRefGoogle Scholar
Komdeur, J. (2003). Daughters on request: about helpers and egg sexes in the Seychelles warbler. Proc. R. Soc. London B, 270, 3–11.Google ScholarPubMed
Komdeur, J. and Edelaar, P. (2001). Male Seychelles warblers use territory budding to maximize lifetime fitness in a saturated environment. Behav. Ecol., 12, 706–715.CrossRefGoogle Scholar
Komdeur, J. and Pels, M. D. (2005). Rescue of the Seychelles warbler on Cousin Island, Seychelles: the role of habitat restoration. Biol. Conserv., 124, 305–313.CrossRefGoogle Scholar
Komdeur, J., Huffstadt, A., Prast, W., Castle, G., Mileto, R., et al. (1995). Transfer experiments of Seychelles warblers to new islands: changes in dispersal and helping behaviour. Anim. Behav., 49, 695–708.CrossRefGoogle Scholar
Komdeur, J., Daan, S., Tinbergen, J., and Mateman, C. (1997). Extreme adaptive modification in sex ratio of the Seychelles warbler’s eggs. Nature, 385, 522–525.CrossRefGoogle Scholar
Komdeur, J., Piersma, T., Kraaijeveld, K., Kraaijeveld-Smit, F., and Richardson, D. S. (2004a). Why Seychelles warblers fail to recolonize nearby islands: unwilling or unable to fly there? Ibis, 146, 298–302.CrossRefGoogle Scholar
Komdeur, J., Burke, T., and Richardson, D. S. (2004b). Experimental evidence that kin discrimination in the Seychelles warbler is based on association and not on genetic relatedness. Proc. R. Soc. London B, 271, 963–969.CrossRefGoogle Scholar
Komdeur, J., Eikenaar, C., Brouwer, L., and Richardson, D. S. (2008). The evolution and ecology of cooperative breeding in vertebrates. In: Encyclopedia of Life Sciences. Chichester: John Wiley and Sons, Ltd, pp. 1–8.Google Scholar
Lawson Handley, L. J. and Perrin, N. (2007). Advances in our understanding of mammalian sex-biased dispersal. Mol. Ecol., 16, 1559–1578.CrossRefGoogle ScholarPubMed
Leadbeater, E., Carruthers, J. M., Green, J. P., Rosser, N. S., and Field, J. (2011). Nest inheritance is the missing source of direct fitness in a primitively eusocial insect. Science, 333, 874–876.CrossRefGoogle Scholar
Lessells, C. M. (1991). The evolution of life histories. In: Behavioural Ecology: An Evolutionary Approach, 3rd edn, ed. Krebs, J. R. and Davies, N. B.. Oxford: Blackwell, pp. 32–68.Google Scholar
Loustau-Lalanne, P. (1968). The Seychelles, Cousin Island Nature Reserve. Cambridge: International Council for Bird Preservation, Internal report.Google Scholar
Orchard, D. (2004). Aride Seychelles warbler Census. In: Annual Report 2003. Aride Island Nature Reserve, Seychelles, ed. M. Betts. Royal Society of Wildlife Trusts, unpublished report.Google Scholar
Oustalet, M. E. (1878). Etude sur la faune omithologique des isles Seychelles. Bull. Soc. Philomath. Paris, 7, 161–206.Google Scholar
Packer, C., Tatar, M., and Collins, A. (1998). Reproductive cessation in female mammals. Nature, 392, 807–811.CrossRefGoogle ScholarPubMed
Pavelka, M. S. M., Fedigan, L. M., and Zohar, S. (2002). Availability and adaptive value of reproductive and postreproductive Japanese macaque mothers and grandmothers. Anim. Behav., 64, 407–414.CrossRefGoogle Scholar
Richardson, D. S., Jury, F. L., Blaakmeer, K., Komdeur, J., and Burke, T. (2001). Parentage assignment and extra-group paternity in a cooperative breeder: the Seychelles warbler (Acrocephalus sechellensis). Mol. Ecol., 10, 2263–2273.CrossRefGoogle Scholar
Richardson, D. S, Burke, T., and Komdeur, J. (2002). Direct benefits explain the evolution of female biased cooperative breeding in the Seychelles warblers. Evolution, 56, 2313–2321.Google ScholarPubMed
Richardson, D. S., Komdeur, J., and Burke, T. (2003a). Altruism and infidelity among warblers. Nature, 422, 580.CrossRefGoogle ScholarPubMed
Richardson, D. S., Burke, T., and Komdeur, J. (2003b). Sex-specific associative learning cues and inclusive fitness benefits in the Seychelles warbler. J. Evol. Biol., 16, 854–861.CrossRefGoogle ScholarPubMed
Richardson, D. S., Komdeur, J., and Burke, T. (2004). Inbreeding in the Seychelles warbler: environment-dependent maternal effects. Evolution, 58, 2037–2048.Google ScholarPubMed
Richardson, D. S., Bristol, R., and Shah, N. J. (2006). Translocation of the Seychelles warbler Acrocephalus sechellensis to establish a new population on Denis Island, Seychelles. Conserv. Evidence, 3, 54–57.Google Scholar
Richardson, D. S., Burke, T., and Komdeur, J. (2007). Grandparent helpers: the adaptive significance of older, postdominant helpers in the Seychelles warbler. Evolution, 31, 2790–2800.CrossRefGoogle Scholar
Russell, A. F., Sharpe, L. L., Brotherton, P. N. M., and Clutton-Brock, T. H. (2003). Cost minimization by helpers in cooperative vertebrates. Proc. Natl. Acad. Sci. (USA), 100, 3333–3338.CrossRefGoogle ScholarPubMed
Safford, R. and Hawkins, F. (2013). The Seychelles warbler. In: The Birds of Africa: Volume VIII: The Malagasy Region: Madagascar, Seychelles, Comoros, Mascarenes. London: Christopher Helm, pp. 758–760.Google Scholar
Spurgin, L., Wright, D. J., van der Velde, M., Collar, N. J., Komdeur, J., et al. (2014). Museum DNA reveals the demographic history of the endangered Seychelles warbler. Evol. Applic., 7, 1134–1143.CrossRefGoogle ScholarPubMed
Stacey, P. B. and Koenig, W. D., eds. (1990). Cooperative Breeding in Birds: Long-term Studies of Ecology and Behavior. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Stacey, P. B. and Ligon, J. D. (1987). Territory quality and dispersal options in the acorn woodpecker, and a challenge to the habitat-saturation model of cooperative breeding. Am. Nat., 130, 654–676.CrossRefGoogle Scholar
Stacey, P. B. and Ligon, J. D. (1991). The benefits-of-philopatry hypothesis for the evolution of cooperative breeding: variation in territory quality and group-size effects. Am. Nat, 137, 831–846.CrossRefGoogle Scholar
Teunissen, N. (2013). A newly translocated population of the Seychelles warbler: is there evidence for interspecific competition with Seychelles white-eyes? M.Sc. thesis, Groningen University, The Netherlands.Google Scholar
van de Crommenacker, J. and Richardson, D. S. (2007) Monitoring and Studying the Seychelles warbler: fieldwork on Cousine Island. Report from the University of East Anglia, U.K./ University of Groningen, Netherlands.Google Scholar
van de Crommenacker, J., Komdeur, J., and Richardson, D. S. (2011). Assessing the cost of helping: the roles of body condition and oxidative balance in the Seychelles warbler (Acrocephalus sechellensis). PLoS One, 6, e26423.CrossRefGoogle ScholarPubMed
van de Crommenacker, J., Richardson, D. S., Koltz, A. M., Hutchings, K., and Komdeur, J. (2012). Parasitic infection and oxidative stress are associated and vary with breeding activity in the Seychelles warbler. Proc. R. Soc. London B, 279, 1466–1476.Google ScholarPubMed
West, S. A., Griffin, A. S., and Gardner, A. (2007). Evolutionary explanations for cooperation. Curr. Biol., 17, 661–672.CrossRefGoogle ScholarPubMed
Wright, D. J., Shah, N. J., and Richardson, D. S. (2014). Translocation of the Seychelles warbler Acrocephalus sechellensis to establish a new population on Frégate Island. Conserv. Evidence, 11, 20–24.Google Scholar
Zack, S. (1990). Coupling delayed breeding with short-distance dispersal in cooperatively breeding birds. Ethology, 86, 265–286.CrossRefGoogle Scholar
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