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RESEARCH ARTICLE
Contents Vol 59(1)

Maternal strategies of the Australian sea lion (Neophoca cinerea) at Dangerous Reef, South Australia

Andrew D. Lowther A B and Simon D. Goldsworthy A
+ Author Affiliations
- Author Affiliations

A South Australia Research and Development Institute, PO Box 120, Henley Beach, SA 5024, Australia.

B Corresponding author. Email: andrew.lowther@sa.gov.au

Australian Journal of Zoology 59(1) 54-62 https://doi.org/10.1071/ZO11025
Submitted: 23 March 2011  Accepted: 3 June 2011   Published: 8 July 2011

Abstract

Maternal strategies of otariid seals reflect the optimisation between resource exploitation and offspring provisioning driven across spatially separated foraging and nursing grounds. Intercolony variation in the expression of maternal strategies may represent temporal and spatial differences in resource availability, intraspecies competition or differences in life-history traits. The current study describes maternal strategies of the Australian sea lion at the largest breeding colony of the species (Dangerous Reef) and a comparative analysis was performed with data collected 16 years earlier at Seal Bay (Kangaroo Island). Significant differences in maternal strategies were characterised by lower milk lipid content (21.0 versus 28.9%), abbreviated periods onshore (0.93 versus 1.63 days) and slower pup growth rates (0.09–0.12 kg day–1) at Dangerous Reef. These data suggest flexibility in the expression of maternal investment between breeding sites and support the hypothesis of localised adaptation

Additional keywords: attendance, maternal experience, milk, otariid, pup ontogeny.


References

Arnold, S. J., and Duvall, D. (1994). Animal mating systems: a synthesis based on selection theory. American Naturalist 143, 317–348.
Animal mating systems: a synthesis based on selection theory.Crossref | GoogleScholarGoogle Scholar |

Arnould, J. P. Y., and Boyd, I. L. (1995). Inter- and intra-annual variation in the milk composition in antarctic fur seals (Arctocephalus gazella). Physiological Zoology 68, 1164–1180.

Arnould, J. P. Y., and Hindell, M. A. (2001). Dive behaviour, foraging locations, and maternal-attendance patterns of Australian fur seals (Arctocephalus pusillus doriferus). Canadian Journal of Zoology 79, 35–48.

Arnould, J. P. Y., and Hindell, M. A. (2002). Milk consumption, body composition and preweaning growth rates of Australian fur seal (Arctocephalus pusillus doriferus) pups. Journal of Zoology 256, 351–359.
Milk consumption, body composition and preweaning growth rates of Australian fur seal (Arctocephalus pusillus doriferus) pups.Crossref | GoogleScholarGoogle Scholar |

Atkinson, S. (1997). Reproductive biology of seals. Reviews of Reproduction 2, 175–194.
Reproductive biology of seals.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK2sXmtlOqtbg%3D&md5=98c3bc453271618d343586df5c7e8b75CAS | 9414481PubMed |

Baker, J. D., and Fowler, C. W. (1992). Pup weight and survival of northern fur seals Callorhinus ursinus. Journal of Zoology 227, 231–238.
Pup weight and survival of northern fur seals Callorhinus ursinus.Crossref | GoogleScholarGoogle Scholar |

Baylis, A. M. M., and Nichols, P. D. (2009). Milk fatty acids predict the foraging locations of the New Zealand fur seal: continental shelf versus oceanic waters. Marine Ecology Progress Series 380, 271–286.
Milk fatty acids predict the foraging locations of the New Zealand fur seal: continental shelf versus oceanic waters.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1MXmtV2itLk%3D&md5=41a1b892c0f53c82b559221f5968bd4dCAS |

Bilgmann, K., Möller, L. M., Harcourt, R. G., Gibbs, S. E., and Beheregaray, L. B. (2007). Genetic differentiation in bottlenose dolphins from South Australia: association with local oceanography and coastal geography. Marine Ecology Progress Series 341, 265–276.
Genetic differentiation in bottlenose dolphins from South Australia: association with local oceanography and coastal geography.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2sXps1Sis70%3D&md5=89a75091c85dda2cd25d657b8f22b0d1CAS |

Boness, D. J., and Bowen, W. D. (1996). The evolution of maternal care in pinnipeds. Bioscience 46, 645–654.
The evolution of maternal care in pinnipeds.Crossref | GoogleScholarGoogle Scholar |

Bowen, T. M., Iverson, S. J., Boness, D. J., and Oftedal, O. T. (2001a). Foraging effort, food intake and lactation performance depend on maternal mass in a small phocid seal. Functional Ecology 15, 325–334.
Foraging effort, food intake and lactation performance depend on maternal mass in a small phocid seal.Crossref | GoogleScholarGoogle Scholar |

Bowen, W. D., Ellis, S. L., Iverson, S. J., and Boness, D. J. (2001b). Maternal effects on offspring growth rate and weaning mass in harbour seals. Canadian Journal of Zoology 79, 1088–1101.
Maternal effects on offspring growth rate and weaning mass in harbour seals.Crossref | GoogleScholarGoogle Scholar |

Boyd, I. L., Nunn, N. J., and Barton, T. (1991). Time budgets and foraging characteristics of lactating Antarctic fur seals. Journal of Animal Ecology 60, 577–592.
Time budgets and foraging characteristics of lactating Antarctic fur seals.Crossref | GoogleScholarGoogle Scholar |

Campbell, R. A., Gales, N. J., Lento, G. M., and Baker, C. S. (2008). Islands in the sea: extreme female natal site fidelity in the Australian sea lion, Neophoca cinerea. Biology Letters 4, 139–142.
Islands in the sea: extreme female natal site fidelity in the Australian sea lion, Neophoca cinerea.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD1c%2FhsVGnug%3D%3D&md5=fce83c74de30a4ae8d33d2060ed2aab7CAS | 18042512PubMed |

Clutton-Brock, T. H. (1991). ‘The Evolution of Parental Care. Monographs in Behavior and Ecology.’ (Princeton University Press: Princeton.)

Costa, D. P. (1991). Reproductive and foraging energetics of high latitude penguins, albatrosses and pinnipeds: implications for life history patterns. American Zoologist 31, 111–130.

Costa, D. P., and Gales, N. J. (2003). Energetics of a benthic diver: seasonal foraging ecology of the Australian sea lion, Neophoca cinerea. Ecological Monographs 73, 27–43.
Energetics of a benthic diver: seasonal foraging ecology of the Australian sea lion, Neophoca cinerea.Crossref | GoogleScholarGoogle Scholar |

Crocker, D. E., Williams, J. D., Costa, D. P., and Le Boeuf, B. J. (2001). Maternal traits and reproductive effort in northern elephant seals. Ecology 82, 3541–3555.
Maternal traits and reproductive effort in northern elephant seals.Crossref | GoogleScholarGoogle Scholar |

Gales, N. J., and Costa, D. P. (1997). The Australian sea lion: a review of an unusual life history. In ‘Marine Mammal Research in the Southern Hemisphere. Vol. 1. Status, Ecology and Medicine’. (Eds M. A. Hindell and C. Kemper.) pp. 78–87. (Surrey Beatty: Sydney.)

Gales, N. J., Costa, D. P., and Kretzmann, M. (1996). Proximate composition of Australian sea lion milk throughout the entire supra-annual lactation period. Australian Journal of Zoology 44, 651–657.
Proximate composition of Australian sea lion milk throughout the entire supra-annual lactation period.Crossref | GoogleScholarGoogle Scholar |

Gentry, R. L., and Holt, J. R. (1986). Attendance behaviour of northern fur seals. In ‘Fur seals: Maternal Strategies on Land and at Sea’. (Eds R. L. Gentry and G. L. Kooyman.) pp. 41–60. (Princeton University Press: Princeton.)

Gentry, R. L., and Kooyman, G. L. (2000). Eared seals (Otariidae). In ‘Encyclopedia of Marine Mammals’. (Eds W. F. Perrin, B. Wursig, and J. G. M. Thewissen.) pp. 348–352. (Academic Press: San Diego.)

Gentry, R. L., Costa, D. P., Croxall, J. P., David, J. H. M., Davis, R. W., Kooyman, G. L., Majluf, P., McCann, T. S., and Trillmich, F. (1986). Synthesis and conclusions. In ‘Fur seals: Maternal Strategies on Land and at Sea’. (Eds R. L. Gentry and G. L. Kooyman.) pp. 220–278. (Princeton University Press: Princeton.)

Georges, J.-Y., Groscolas, R., Guinet, C., and Robin, J.-P. (2001). Milking strategy in subantarctic fur seals Arctocephalus tropicalis breeding on Amsterdam Island: evidence from changes in milk composition. Physiological and Biochemical Zoology 74, 548–559.
Milking strategy in subantarctic fur seals Arctocephalus tropicalis breeding on Amsterdam Island: evidence from changes in milk composition.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD3MznvFCrsg%3D%3D&md5=924acc284c1d55252bc22c1f5de66b46CAS | 11436139PubMed |

Gittleman, J. L., and Thompson, S. D. (1988). Energy allocation in mammalian reproduction. American Zoologist 28, 863–875.

Goldsworthy, S. (1995). Differential expenditure of maternal resources in antarctic fur seals, Arctocephalus gazella, at Heard Island, southern Indian Ocean. Behavioral Ecology 6, 218–228.
Differential expenditure of maternal resources in antarctic fur seals, Arctocephalus gazella, at Heard Island, southern Indian Ocean.Crossref | GoogleScholarGoogle Scholar |

Goldsworthy, S. D. (1999). Maternal attendance behaviour of sympatrically breeding antarctic and subantarctic fur seals, Arctocephalus spp., at Macquarie Island. Polar Biology 21, 316–325.
Maternal attendance behaviour of sympatrically breeding antarctic and subantarctic fur seals, Arctocephalus spp., at Macquarie Island.Crossref | GoogleScholarGoogle Scholar |

Goldsworthy, S. D. (2006). Maternal strategies of the New Zealand fur seal: evidence for interannual variability in provisioning and pup growth strategies. Australian Journal of Zoology 54, 31–44.
Maternal strategies of the New Zealand fur seal: evidence for interannual variability in provisioning and pup growth strategies.Crossref | GoogleScholarGoogle Scholar |

Goldsworthy, S. D., and Crowley, H. M. (1999). The composition of the milk of antarctic (Arctocephalus gazella) and subantarctic (A. tropicalis) fur seals at Macquarie Island. Australian Journal of Zoology 47, 593–603.
The composition of the milk of antarctic (Arctocephalus gazella) and subantarctic (A. tropicalis) fur seals at Macquarie Island.Crossref | GoogleScholarGoogle Scholar |

Goldsworthy, S. D., McKenzie, J., Shaughnessy, P. D., McIntosh, R. R., Page, B., and Campbell, R. A. (2009). An update of the report: understanding the impediments to the growth of Australian sea lion populations. Department of the Environment Water Heritage and The Arts, SARDI Research Report Series No. 356., Adelaide.

Guinet, C., and Georges, J.-Y. (2000). Growth in pups of the subantarctic fur seal (Arctocephalus tropicalis) on Amsterdam Island. Journal of Zoology 251, 289–296.
Growth in pups of the subantarctic fur seal (Arctocephalus tropicalis) on Amsterdam Island.Crossref | GoogleScholarGoogle Scholar |

Guinet, C., Goldsworthy, S. D., and Robinson, S. (1999). Sex differences in mass loss rate and growth efficiency in Antarctic fur seals (Arctocephalus gazella) pups at Macquarie Island. Behavioral Ecology and Sociobiology 46, 157–163.
Sex differences in mass loss rate and growth efficiency in Antarctic fur seals (Arctocephalus gazella) pups at Macquarie Island.Crossref | GoogleScholarGoogle Scholar |

Higgins, L. V. (1990). Reproductive behaviour and maternal investment of Australian sea lions. Ph.D. Thesis, University of California, Santa Cruz, CA.

Higgins, L. V. (1993). The nonannual, nonseasonal breeding cycle of the Australian sea lion Neophoca cinerea. Journal of Mammalogy 74, 270–274.
The nonannual, nonseasonal breeding cycle of the Australian sea lion Neophoca cinerea.Crossref | GoogleScholarGoogle Scholar |

Higgins, L. V., and Gass, L. (1993). Birth to weaning: partuition, duration of lactation, and attendance cycles of Australian sea lions (Neophoca cinerea). Canadian Journal of Zoology 71, 2047–2055.
Birth to weaning: partuition, duration of lactation, and attendance cycles of Australian sea lions (Neophoca cinerea).Crossref | GoogleScholarGoogle Scholar |

Kretzmann, M. B., Costa, D. P., and Higgins, L. V. (1991). Milk composition of Australian sea lions, Neophoca cinerea: variability in lipid content. Canadian Journal of Zoology 69, 2556–2561.
Milk composition of Australian sea lions, Neophoca cinerea: variability in lipid content.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK38XhvFWmsLw%3D&md5=e2b4b4227274cfe8917adb3aa2a29663CAS |

Lunn, N. J., and Arnould, J. P. Y. (1997). Maternal investment in Antarctic fur seals: evidence for equality in the sexes? Behavioral Ecology and Sociobiology 40, 351–362.
Maternal investment in Antarctic fur seals: evidence for equality in the sexes?Crossref | GoogleScholarGoogle Scholar |

Lunn, N., Boyd, I., Barton, T., and Croxall, J. (1993). Factors affecting the growth rate and mass at weaning of Antarctic fur seals at Bird Island, South Georgia. Journal of Mammalogy 74, 908–919.
Factors affecting the growth rate and mass at weaning of Antarctic fur seals at Bird Island, South Georgia.Crossref | GoogleScholarGoogle Scholar |

McIntosh, R. R. (2007). Life history and population demographics of the Australian sea lion (Neophoca cinerea). Ph.D. Thesis, La Trobe University, Melbourne.

McMahon, C. R., Burton, H. R., and Bester, M. N. (2000). Weaning mass and the future survival of juvenile southern elephant seals, Mirounga leonina, at Macquarie Island. Antarctic Science 12, 149–152.
Weaning mass and the future survival of juvenile southern elephant seals, Mirounga leonina, at Macquarie Island.Crossref | GoogleScholarGoogle Scholar |

Millar, J. S. (1977). Adaptive features of mammalian reproduction. Evolution 31, 370–386.
Adaptive features of mammalian reproduction.Crossref | GoogleScholarGoogle Scholar |

Ochoa-Acuña, H., Francis, J. M., and Boness, D. J. (1998). Interannual variation in birth mass and postnatal growth rate of Juan Fernandez fur seals. Canadian Journal of Zoology 76, 978–983.
Interannual variation in birth mass and postnatal growth rate of Juan Fernandez fur seals.Crossref | GoogleScholarGoogle Scholar |

Oftedal, O. T. (1984). Milk composition, milk yield, and energy output at peak lactation: a comparative review. In ‘Physiological Stategies in Lactation’. (Eds M. Peaker, R. G. Vernon and C. H. Knight.) pp. 33–85. (Academic Press: London.)

Quinn, G. P., and Keough, M. J. (2004). ‘Experimental Design and Data Analysis for Biologists.’ (Cambridge University Press: Cambridge.)

R Development Core Team (2006). R: a language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria.

Rachlow, J. L., and Bowyer, R. T. (1994). Variability in maternal behavior by Dall’s sheep: environmental tracking or adaptive strategy? Journal of Mammalogy 75, 328–337.
Variability in maternal behavior by Dall’s sheep: environmental tracking or adaptive strategy?Crossref | GoogleScholarGoogle Scholar |

Shaughnessy, P. D., Goldsworthy, S. D., and Libke, J. A. (1995). Changes in the abundance of New Zealand fur seals, Arctocephalus forsteri, on Kangaroo Island, South Australia. Wildlife Research 22, 201–215.
Changes in the abundance of New Zealand fur seals, Arctocephalus forsteri, on Kangaroo Island, South Australia.Crossref | GoogleScholarGoogle Scholar |

Trillmich, F. (1986). Attendance behavior of Galapagos fur seals. In ‘Fur seals. Maternal Strategies on Land and at Sea’. (Eds R. L. Gentry and G. L. Kooyman.) pp. 168–185. (Princeton University Press: Princeton.)

Trillmich, F., and Lechner, E. (1986). Milk of the Galapagos fur seal and sea lion, with comparison of the milk of eared seals (Otariidae). Journal of Zoology 209, 271–277.
Milk of the Galapagos fur seal and sea lion, with comparison of the milk of eared seals (Otariidae).Crossref | GoogleScholarGoogle Scholar |

Trillmich, F., Kooyman, G. L., and Majluf, P. (1991). Attendance and diving behaviour of South American fur seals during El Nino in 1983. In ‘Pinnipeds and El Nino: Responses to Environmental Stress’. (Ed. F. Trillmich.) pp. 153–167. (Springer-Verlag: Berlin.)

Trites, A. W. (1991). Fetal growth of northern fur seals: life-history strategy and sources of variation. Canadian Journal of Zoology 69, 2608–2617.
Fetal growth of northern fur seals: life-history strategy and sources of variation.Crossref | GoogleScholarGoogle Scholar |