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RESEARCH ARTICLE
Contents Vol 106(3)

Demography of Westland Petrels (Procellaria westlandica), 1995–2003

S. M. Waugh A H , P. F. Doherty Jr B , A. N. D. Freeman C , L. Adams D , G. C. Woods E , J. A. Bartle F and G. K. Hedley G
+ Author Affiliations
- Author Affiliations

A Ministry of Fisheries, PO Box 1020, Wellington, New Zealand.

B Department of Fishery and Wildlife Biology, Colorado State University, Fort Collins, CO 80523-1474, USA.

C School for Field Studies, Centre for Rainforest Studies, PO Box 141, Yungaburra, Qld 4884, Australia.

D Department of Conservation, Wellington Conservancy, PO Box 5086, Wellington, New Zealand.

E Department of Conservation, Punakaiki Field Centre, Punakaiki, Westland, New Zealand.

F Museum of New Zealand Te Papa Tongarewa, PO Box 467, Wellington, New Zealand.

G RD1, South Kaipara Heads, Helensville, New Zealand.

H Corresponding author. Email: susan.waugh@fish.govt.nz

Emu 106(3) 219-226 https://doi.org/10.1071/MU05065
Submitted: 9 December 2005  Accepted: 17 May 2006   Published: 18 August 2006

Abstract

We studied the Westland Petrel (Procellaria westlandica) over 9 years to estimate demographic rates and examine the possible influence of fisheries by-catch and nest predators on the population. Mean annual survival rates of breeders and skipped-breeders averaged 0.965 (s.e. = 0.038) and 0.726 (s.e. = 0.173) respectively. Mean fledging success was 0.62 fledglings per egg laid (s.e. = 0.04, n = 34 nests). The birds studied showed no evidence of elevated mortality at either the adult or nestling stages, which might indicate low fisheries by-catch mortality or few predation threats to population stability or both. With apparent survival rates of breeders being near probability of 1, attempts to manage threats to the population, over and above current levels of management, can do little to elevate these survival rates. However, some management actions such as ameliorating habitat destruction or depredation could benefit non-breeding birds, as well as working to keep survival rates in breeding birds high.


Acknowledgments

We thank the many people who assisted with the field program at the Westland Petrel Study Colony, including Rachel McClellan, Janice Molloy, Kerry-Jayne Wilson, Alastair Freeman, Humberto Cabrera, Makaira Jenkins, Megan Waugh, Martin Abel and Dominique Filippi. Thanks to Rod Cossee of the Banding Office at the Department of Conservation, and Amelia Connell for assistance with the data management. Funding for aspects of the work was provided by the Foundation for Research Science and Technology under contract UOOX0024, and Department of Conservation. For 1995–96 work, Lincoln University funding was granted to Amanda Freeman. Other aspects were privately funded. We are grateful to Bill Kendall and Gary White for advice on the analysis. We thank Graeme Taylor and two anonymous referees for their constructive review of the manuscript.


References

Arnason, A. N. (1972). Parameter estimates from mark-recapture experiments on two populations subject to migration and death. Researches on Population Ecology 13, 97–113.
Baird S. J. (2004a). Incidental capture of seabird species in commercial fisheries in New Zealand, 2000–01. New Zealand Fisheries Assessment Report 2004/58, Ministry of Fisheries, Wellington.

Baird S. J. (2004b). Incidental capture of seabird species in commercial fisheries in New Zealand, 2001–02. New Zealand Fisheries Assessment Report 2004/60, Ministry of Fisheries, Wellington.

Baird S. J. (2005). Incidental capture of seabird species in commercial fisheries in New Zealand, 2002–03. New Zealand Fisheries Assessment Report 2005/21, Ministry of Fisheries, Wellington.

Baker, B. G. , Gales, R. , Hamilton, S. , and Wilkinson, V. (2002). Albatrosses and petrels in Australia: a review of their conservation and management. Emu 102, 71–96.
Crossref | GoogleScholarGoogle Scholar | Burnham K. P., and Anderson D. R. (2002). ‘Model Selection and Mulitmodel Inference: A Practical Information-theoric Approach.’ (Springer: New York.)

Cairns D. K. (1992). Population regulation of seabird colonies. In ‘Current Ornithology. Vol. 9’. (Eds V. Nolan, E. D. Ketterson Jr and C. F. Thompson.) pp. 37–61. (Academic Press: New York.)

Cam, E. , Link, W. A. , Cooch, E. G. , Monnat, J. Y. , and Danchin, E. (2002). Individual covariation in life-history traits: seeing the trees despite the forest. American Naturalist 159, 96–105.
Crossref | GoogleScholarGoogle Scholar | SC-CCAMLR (2004). ‘SC-CCAMLR XXIII. Extracts from the Report of the Working Group on Fish Stock Assessment Relating to IMAF and Scientific Observation.’ (CCAMLR: Hobart.)

Chastel, O. (1995). Influence of reproductive success on breeding frequency in four southern petrels. Ibis 137, 360–363.
Choquet R., Reboulet A. M., Pradel R., Gimenez O., and Lebreton J.-D. (2003). ‘User’s Manual for U-CARE.’ (CEFE/CNRS: Montpellier.) Available at ftp://ftp.cefe.cnrs.fr/biom/Soft-CR/U-CARE/ [Accessed on 15 May 2004].

Clobert, J. , Lebreton, J. D. , Allaine, D. , and Gaillard, J. M. (1994). The estimation of age-specific breeding probabilities from recaptures or resightings in vertebrate populations – longitudinal models. Biometrics 50, 375–387.
Crossref | GoogleScholarGoogle Scholar | PubMed | Croxall J. P., Evans P. G. H., and Schreiber R. W. (1984). ‘Status and Conservation of the World’s Seabirds.’ International Council for Bird Preservation, Technical Publication 2. (ICBP: Cambridge, UK.)

Cuthbert, R. (2002). The role of introduced mammals and inverse density-dependent predation in the conservation of Hutton’s shearwater. Biological Conservation 108, 69–78.
Crossref | GoogleScholarGoogle Scholar | Duffy D. C. (1990). Seabirds and the 1982–1984 El Niño–Southern Oscillation. In ‘Global Ecological Consequences of the 1982–1983 El Niño–Southern Oscillation. Elsevier Oceanography Series 52’. (Ed. P. W. Glynn.) pp. 395–415. (Elsevier: Amsterdam.)

Freeman, A. N. D. (1998). Diet of Westland Petrels Procellaria westlandica: the importance of fisheries waste during chick-rearing. Emu 98, 36–43.
Crossref | GoogleScholarGoogle Scholar | Hamer K. C., Schreiber E. A., and Burger J. (2002). Breeding biology, life histories, and life-history–environmental interactions in seabirds. In ‘Biology of Marine Birds’. (Eds E. A. Schreiber and J. Burger.) pp. 217–261. (CRC Press: Boca Raton, FL.)

Hall, A. J. (1987). The breeding biology of the White-chinned Petrel Procellaria aequinoctialis. Journal of Zoology 212, 605–617.
Hunter C., Fletcher D., and Scofield P. (2001). Preliminary modeling of black petrels (Procellaria parkinsoni) to assess population status. Department of Conservation Internal Series 2, Wellington.

Huin, N. (1994). Diving depths of white-chinned petrels. Condor 96, 1111–1113.
Lyver P. O’B., Hamilton S., McKenzie M., Dickson L., Dooher I., Broad T., and Moller H. (1998). A burrowscope for examining petrel nests in burrows. Conservation Advisory Science Notes 209, Department of Conservation, Wellington.

Lyver, P. O’B. , Moller, H. , and Robertson, C. J. R. (2000). Predation at Sooty Shearwater Puffinus griseus colonies on the New Zealand mainland: is there safety in numbers? Pacific Conservation Biology 5, 347–357.
Taylor G. A. (2000). ‘Action Plan for Seabird Conservation in New Zealand. Part A: Threatened Seabirds.’ Threatened Species Occasional Publication No. 16. (Department of Conservation: Wellington.)

Tuck, G. N. , Polacheck, T. , Croxall, J. P. , and Weimerskirch, H. (2001). Modelling the impact of fishery by-catches on albatross populations. Journal of Applied Ecology 38, 1182–1196.
Crossref | GoogleScholarGoogle Scholar | Warham J. (1996). ‘The Behaviour, Population Biology and Physiology of the Petrels.’ (Academic Press: London.)

Waugh, S. M. , Cabrera, H. , Wood, G. C. , and Davis, L. S. (2003). Burrow occupancy in Westland Petrels (Procellaria westlandica). Notornis 50, 123–127.
Weimerskirch H. (2002). Seabird demography and its relationship with the marine environment. In ‘Biology of Marine Birds’. (Eds E. A. Schreiber and J. Burger.) pp. 115–135. (CRC Press: Boca Raton, FL.)

White, G. C. , and Burnham, K. P. (1999). Program MARK: survival estimation from populations of marked animals. Bird Study 46, 120–138.Suppl.
Williams B. K., Nichols J. D., and Conroy M. J. (2002). ‘Analysis and Management of Vertebrate Populations.’ (Academic Press: San Diego, CA.)

Wooller, R. D. , Bradley, J. S. , and Croxall, J. P. (1992). Long-term population studies on seabirds. Trends in Ecology & Evolution 7, 111–114.
Crossref | GoogleScholarGoogle Scholar |