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Incidental Capture of seabirds by Japanese southern bluefin tuna longline vessels in New Zealand waters, 1988-1992

Published online by Cambridge University Press:  11 May 2010

T. E. Murray
Affiliation:
MAF Fisheries Greta Point, P.O. Box 297, Wellington, New Zealand.
J. A. Bartle
Affiliation:
Museum of New Zealand Te Papa Tongarewa, P.O. Box 467, Wellington, New Zealand.
S. R. Kalish
Affiliation:
MAF Fisheries Greta Point, P.O. Box 297, Wellington, New Zealand.
P. R. Taylor
Affiliation:
MAF Fisheries Greta Point, P.O. Box 297, Wellington, New Zealand.
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Fishery observers recorded incidental capture of seabirds during 785 days on Japanese bluefin tuna longline vessels around New Zealand between April and August each year, 1988-1992. High numbers of albatrosses Diomedea spp. and petrels Procellaria spp. were caught on longline hooks during setting and drowned. Twelve seabird taxa were recorded, six of them breeding only in New Zealand. Most were breeding adults, except for Grey-headed and Black-browed Albatrosses. No bias in sex ratio was evident except for Grey Petrels, of which nearly all were female. Winter-breeding species were most often caught. Birds were not caught randomly, but in a highly aggregated fashion suggestive of complex behavioural interactions with the fishery. Most albatrosses were caught by day in the south whereas most petrels were caught by night north-east of New Zealand. Highest capture rates occurred at dawn and dusk off north-east New Zealand in June-August. Very large catches at specific sites contributed disproportionately to the overall catch rate. The estimated minimum number of total seabirds caught in New Zealand waters declined from 3,652 in 1988 to 360 in 1992, probably as a result of mitigation measures introduced progressively by the industry and by government regulation. Use of tori lines to prevent birds seizing baits had an effect, as did setting in total darkness in the south. Considerably more work needs to be done on the development of improved mitigation measures. Greater observer coverage is required to measure accurately the mortality of individual seabird species on tuna longlines throughout the Southern Ocean and to determine the effectiveness of mitigation measures.

Type
Research Article
Copyright
Copyright © Birdlife International 1993

References

Ainley, D. G. and Boekelheide, R. J. (1983) An ecological comparison of oceanic seabird communities of the South Pacific Ocean. Studies in Avian Biology 8: 223.Google Scholar
Ainley, D. G., O'Connor, E. F. and Boekelheide, R. J. (1984) The marine ecology of birds in the Ross Sea, Antarctica. Orn. Monogr. 32: 197.Google Scholar
Anon (1985) New Zealand nautical almanac 1986. Wellington: Government Printing Office.Google Scholar
Bartle, J. A. (1974) Seabirds of eastern Cook Strait, New Zealand, in autumn. Notornis 21: 135166.Google Scholar
Bartle, J. A. (1990) Sexual segregation of foraging zones in procellariiform birds: implications of accidental capture on commercial fishery longlines of Grey Petrels (Procellaria cinerea). Notornis 37: 146150.Google Scholar
Bartle, J. A. (1991) Incidental capture of seabirds in the New Zealand subantarctic squid trawl fishery, 1990. Bird Conserv. Internatn. 1: 351359.CrossRefGoogle Scholar
Bergin, A. and Howard, M. (1992) Japanese tuna fisheries: future trends. Marine Policy 05 1992: 147166.CrossRefGoogle Scholar
Brothers, N. (1989) Approaches to reducing albatross mortality and the associated bait loss in the Japanese longline fishery. Tasmanian National Parks & Wildlife Service, unpublished report.Google Scholar
Brothers, N. (1991) Albatross mortality and associated bait loss in the Japanese longline fishery in the Southern Ocean. Biol. Conserv. 55: 255268.CrossRefGoogle Scholar
CCOSNZ (Checklist Committee, Ornithological Society of New Zealand) (1990) Checklist of the birds of New Zealand. Auckland: Random Century.Google Scholar
CCAMLR (Commission for the Conservation of Antarctic Marine Living Resources) (1990) Report of the Ninth Meeting of the Commission. Hobart: CCAMLR.Google Scholar
Croxall, J. P. and Prince, P. A. (1990) Recoveries of Wandering Albatrosses Diomedea exulans ringed at South Georgia 1958-1986. Ringing and Migration 11: 4351.CrossRefGoogle Scholar
Croxall, J. P., Rothery, P., Pickering, S. P. C. and Prince, P. A. (1990) Reproductive performance, recruitment and survival of Wandering Albatrosses Diomedea exulans at Bird Island, South Georgia. J. Anim. Ecol. 59: 775796.CrossRefGoogle Scholar
Efron, B. and Tibshirani, R. (1986) Bootstrap methods for standard errors, confidence intervals, and other measures of statistical accuracy. Statistical Sci. 1: 5477.Google Scholar
Harper, P. C. (1987) Feeding behaviour and other notes on 20 species of procellariiforms at sea. Notornis 34: 169192.Google Scholar
Harrison, N. M., Whitehouse, M. J., Heinemann, D., Prince, P. A., Hunt, G. L. and Veit, R. R. (1991) Observations of multispecies seabird flocks around South Georgia. Auk 108: 801810.Google Scholar
Hilborn, R. and Mangel, M. (in press). The ecological detective: confronting models with data.Google Scholar
Imber, M. J. (1973) The food of Grey-faced Petrels (Pterodroma macroptera gouldi (Hutton)), with special reference to the diurnal vertical migration of their prey. J. Anim. Ecol. 43: 645662.CrossRefGoogle Scholar
Imber, M. J. (1976) Comparison of the prey of the black Procellaria petrels of New Zealand. N.Z. j. Mar. Freshwater Res. 10: 119130.CrossRefGoogle Scholar
Jenkins, J. (1971) An impressive assemblage of albatrosses. Notornis 18: 115.Google Scholar
Jouventin, P. and Weimerskirch, H. (1990) Satellite tracking of Wandering Albatrosses. Nature (London) 343: 746748.Google Scholar
Kinsky, F. C, comp. (1962) 12th Annual Report of the Banding Committee, Ornithological Society of New Zealand (Inc.) for the Year ending 31st March 1962. Wellington: Dominion Museum.Google Scholar
Lipinski, M. R. and Jackson, S. (1989) Surface-feeding on cephalopods by procellariiform seabirds in the Southern Benguela region, South Africa. J. Zool. 218: 549563.CrossRefGoogle Scholar
Marchant, S. and Higgins, P. J., eds. (1990) Handbook of Australian, New Zealand and Antarctic birds, 1, Part A. Melbourne: Oxford University Press.Google Scholar
Medway, D. G. (1993) The identity of the Chocolate Albatross Diomedea spadicea of Gmelin, 1789 and of the Wandering Albatross Diomedea exulans of Linnaeus, 1758. Notornis 40: 145162.Google Scholar
Michael, K. P., Jones, J. B. and Bailey, K. N. (1987) Report of observer trips on Japanese southern bluefin tuna longliners off East Cape, June-July 1987. N.Z. Fish. Res. Centre Int. Rept. no. 80.Google Scholar
Michael, K. P., Bailey, K. N., Taylor, P. R. and Sharpies, P. B. (1989) Report of observer trips on Japanese southern bluefin tuna longliners off East Cape, June-July 1988. N.Z. Fish. Res. Centre Int. Rept. no. 111.Google Scholar
Moore, P. J. and Moffat, R. D. (1990) Mollymawks on Campbell Island. N.Z. Dept. of Conserv. Sci. Res. Int. Rept. no. 59.Google Scholar
Murray, M. D. (1992) Where have all the Wanderers gone? Corella 16: 33.Google Scholar
Murray, T. and Edwards, M. (1988) Southern bluefin stock at risk. Catch (N.Z.) 12 1988: 34.Google Scholar
Murray, T. E., Taylor, P. R., Greaves, J., Bartle, J. A. and Molloy, J. (1992) Seabird bycatch in Southern Fishery longline vessels in New Zealand waters. N.Z. Fisheries Assessment Review Document 92/22.Google Scholar
Pitman, R. L. and Ballance, L. T. (1992) Parkinson's Petrel distribution and foraging ecology in the eastern Pacific: aspects of an exclusive feeding relationship with dolphins. Condor 94: 825835.CrossRefGoogle Scholar
Prince, P. A., Rothery, P., Croxall, J. P. and Wood, A. G. (in press) Population dynamics of Black-browed and Grey-headed Albatrosses Diomedea melanophris and D. chrysostoma at Bird Island, South Georgia. Ibis 136(1).Google Scholar
Robertson, C. J. (1975) Report on the distribution, status and breeding biology of the Royal Albatross, Wandering Albatross and White-capped Mollymawk on the Auckland Islands. Pp.143151 in Yaldwyn, J. C., ed. Preliminary results of the Auckland Islands Expedition 1972-1973. Wellington: Department of Lands and Survey.Google Scholar
Sagar, P. M., Molloy, J., Tennyson, A. J. D., and Butler, D. (in press) Numbers of Buller's Mollymawks breeding at the Snares Islands. Notornis 41.Google Scholar
TenBruggencate, J. (1991) Fishermen accused of animal cruelty. Sunday Star Bull, and Advertiser (Honolulu), 27 01 1991.Google Scholar
Tomkins, R. J. (1985) Reproduction and mortality of Wandering Albatrosses on Macquarie Island. Emu 85: 4042.CrossRefGoogle Scholar
Vooren, C. M. (1972) Seasonal abundance and behaviour of sea birds in the Bay of Plenty, New Zealand. Notornis 19: 250260.Google Scholar
Vooren, C. M. (1977) Sea bird observations off the West Coast of the South Island, New Zealand, October-November 1975. Notornis 24: 137139.Google Scholar
Walker, K., Dilks, P., Elliott, G. and Stahl, J.-C. (1991) Wandering Albatrosses on Adams Island February 1991. N.Z. Dept. of Conserv. Sri. Res. Int. Rept. no. 109.Google Scholar
Weimerskirch, H., Bartle, J. A., Jouventin, P. and Stahl, J.-C. (1988) Foraging ranges and partitioning of feeding zones in three species of southern albatrosses. Condor 90: 214219.CrossRefGoogle Scholar
Weimerskirch, H. and Jouventin, P. (1987) Population dynamics of the Wandering Albatross, Diomedea exulans, of the Crozet Islands: causes and consequences of the population decline. Oikos 49: 315322.CrossRefGoogle Scholar
Weimerskirch, H., Jouventin, P. and Stahl, J.-C. (1986) Comparative ecology of the six albatross species breeding on the Crozet Islands. Ibis 128: 195213.CrossRefGoogle Scholar
Weimerskirch, H. and Wilson, R. P. (1992) When do Wandering Albatrosses Diomedea exulans forage? Mar. Ecol. Progr. Ser. 86: 297300.CrossRefGoogle Scholar
Wooller, R. D., Bradley, J. S., Skira, I. J. and Serventy, D. L. (1989) Short-tailed Shearwater. Pp. 405417 in Newton, I., ed. Lifetime reproduction in birds. London: Academic Press.Google Scholar