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Conservation and genetics of New Zealand parakeets

Published online by Cambridge University Press:  11 May 2010

S. J. Triggs  and
C. H. Daugherty
S. J. Triggs
Affiliation:
Science and Research Division, Department of Conservation, P.O. Box 10–420, Wellington, Zealand. Current address (but for reprints or correspondence, refer to Daugherty): Strategic Assessment Group, Ministry of Justice, P.O. Box 180, Wellington, New Zealand
C. H. Daugherty
Affiliation:
School of Biological Sciences, Victoria University, P.O. Box 600, Wellington, New Zealand
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Recent genetic analysis of New Zealand Cyanoramphus parakeets has direct implications for conservation management. A subspecies of Yellow-crowned Parakeet, Forbes's Parakeet C. auriceps forbesi, is genetically distinct from mainland Yellow-crowned Parakeets C. a. auriceps and should be elevated to species status. Even amongst mainland populations of Yellow-crowned Parakeets there was extensive genetic diversity. Interspecific hybridization is a major concern of Cyanoramphus conservation. The near-extinction of Forbes's Parakeets by genetic swamping through hybridization with Chatham Islands Red-crowned Parakeets C. novaezelandiae chathamensis has been averted by active management, involving culling of hybrid and Red-crowned Parakeets and habitat enhancement. Despite two decades of hybridization between these species a distinct Forbes genetic type still exists, probably due to a tendency for hybrids to backcross with Red-crowned Parakeets. Hybridization between Cyanoramphus species may also be a problem in other highly modified habitats, such as parts of the Auckland Islands. More information is needed to determine the extent of this problem. Captive populations include a significant proportion of interspecific hybrids and therefore should not be used as founder stock for releases into the wild, as has been done in the past. The Orange-fronted Parakeet should be reinstated as a separate species, Cyanoramphus malherbi, rather than a colour morph of Yellow-crowned Parakeet, at least until conclusive evidence is available to resolve the question of its taxonomic status. The conservation of this very rare species (and indeed all species of Cyanoramphus)- has been severely handicapped by lack of scientific information on which to base management decisions.

Type
Research Article
Information
Bird Conservation International , Volume 6 , Issue 1 , March 1996 , pp. 89 - 101
Copyright
Copyright © Birdlife International 1996

References

Avise, J. C. and Nelson, W. S. (1989) Molecular genetic relationships of the extinct Dusky Seaside Sparrow. Science 243: 646648.CrossRefGoogle Scholar
Barrowclough, G. F. (1983) Biochemical studies of microevolutionary processes. Pp. 223261 in Brush, A. H. and Clark, G. A., eds. Perspectives in ornithology. Cambridge, U.K.: Cambridge University Press.CrossRefGoogle Scholar
Barrowclough, G. F., Johnson, N. K. and Zink, R. M. (1985) On the nature of genic variation in birds. Pp. 135154 in Johnson, R. F., ed. Current ornithology, 2. New York: Plenum Press.CrossRefGoogle Scholar
Bull, P. C., Gaze, P. D. and Robertson, C. J. R. (1985) Atlas of bird distribution in New Zealand. Wellington: Ornithological Society of New Zealand.Google Scholar
Butler, D. J. (1986) Hybrid parakeet on mainland. Notornis 33: 5859.Google Scholar
Cade, T. J. (1983) Hybridisation and gene exchange among birds in relation to conservation. Pp. 288309 in Schonewald-Cox, C. M.Chambers, S. M., MacBryde, B. and Thomas, L., eds. Genetics and conservation: a reference manual for managing wild animal and plant populations. Menlo Park, California: Benjamin/Cummings Publishing Co. Inc.Google Scholar
Daugherty, C. H., Cree, A., Hay, J. M. and Thompson, M. B. (1990) Neglected taxonomy and continuing extinctions of tuatara(Sphenodon). Nature 347: 177179.CrossRefGoogle Scholar
Falla, R. A., Sibson, R. B. and Turbott, E. G. (1978) The new guide to the birds of New Zealand. Auckland: Collins.Google Scholar
Fleming, C. A. (1939) Birds of the Chatham Islands. Part II. Emu 38: 492509.CrossRefGoogle Scholar
Fleming, C. A. (1980) Orange-fronted Parakeet: a record of flocking. Notornis 27: 388390.Google Scholar
Greene, T. (1988) Behavioural ecology of Red-crowned Parakeets and Yellow-crowned Parakeets on Little Barrier Island. M.Sc. thesis, University of Auckland, New Zealand.Google Scholar
Harrison, M. (1970) The Orange-fronted Parakeet (Cyanoramphus malherbi). Notornis 17: 115–25.Google Scholar
Holyoak, D. T. (1974) Cyanoramphus malherbi, is it a colour morph of C. auriceps Bull. Brit. Orn. Club 94: 49.Google Scholar
Houde, P. and Braun, M. J. (1988) Museum collections as a source of DNA for studies of avian phylogeny. Auk 105: 773776.Google Scholar
Nei, M. (1978) Estimation of average heterozygosity and genetic distance from a small number of individuals. Genetics 89: 583590.CrossRefGoogle Scholar
Nixon, A. J. (1981) The external morphology and taxonomic status of the Orange-fronted Parakeet. Notornis 28: 292300.Google Scholar
Nixon, A. J. (1982) Aspects of the ecology and morphology of Cyanoramphus parakeets and hybrids from Mangere Island, Chatham Islands. M.Sc. thesis, Victoria University of Wellington, New Zealand.Google Scholar
Oliver, W. R. B. (1930) New Zealand birds. Wellington: Fine Arts (NZ) Ltd.Google Scholar
Oliver, W. R. B. (1955) New Zealand birds. 2nd edition. Wellington: A. H. and A. W. Reed.Google Scholar
Read, A. and McClelland, P. (1984) Orange-fronted Parakeets in Hawdon Valley, Arthur's Pass National Park. Notornis 31: 266267.Google Scholar
Rothschild, W. (1893) Proc. Zool. Soc. London: 529.Google Scholar
Sagar, P. M. (1988) Some characteristics of Red-crowned Parakeets on the Poor Knights Islands. Notornis 35: 18.Google Scholar
Schonewald-Cox, C. M., Chambers, S. M., MacBryde, B. and Thomas, L., eds. (1983) Genetics and conservation: a reference manual for managing wild animal and plant populations. Menlo Park, California: Benjamin/Cummings Publishing Co. Inc.Google Scholar
Shields, W. M. (1982) Philopatry, inbreeding, and the evolution of sex. Albany: State University Press of New York.Google Scholar
Soule, M. E., ed. (1987) Viable populations for conservation. Cambridge, U.K.: Cambridge University Press.CrossRefGoogle Scholar
Swofford, D. L. and Selander, R. B. (1981) Biosys-I: A Fortran program for the comprehensive analysis of electrophoretic data in population genetics and systematics. J. Heredity 72: 281283.CrossRefGoogle Scholar
Tauber, C. A. and Tauber, M. J. (1977) A genetic model for sympatric speciation through habitat diversification and seasonal isolation. Nature 268: 702705.CrossRefGoogle ScholarPubMed
Taylor, R. H. (1975) Some ideas on speciation in New Zealand parakeets. Notornis 22: 110121.Google Scholar
Taylor, R. H. (1985) Status, habits, and conservation of Cyanoramphus parakeets in the New Zealand region. Pp. 195211 in Moors, P. J., ed. Conservation of island birds. Cambridge, U.K.: International Council for Bird Conservation (Techn. Publ. 3).Google Scholar
Taylor, R. H., Heatherbell, E. G. and Heatherbell, E. M. (1986) The Orange-fronted Parakeet (Cyanoramphus malherbi) is a colour morph of the Yellow-crowned Parakeet (C. auriceps). Notornis 33: 1722.Google Scholar
Triggs, S. J., Powlesland, R. G. and Daugherty, C. H. (1989) Genetic variation and conservation of Kakapo (Strigops habroptilus: Psittaciformes). Conserv. Biol. 3: 9296.CrossRefGoogle Scholar
Veitch, C. R. (1979) Parakeet hybridization. Notornis 26: 395.Google Scholar
Vrijenhoek, R. C., Douglas, M. E. and Meffe, G. K. (1985) Conservation genetics of endangered fish populations in Arizona. Science 229: 400402.CrossRefGoogle ScholarPubMed