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Translocation and hand-rearing techniques for establishing a colony of threatened albatross

  • TOMOHIRO DEGUCHI (a1), JUDY JACOBS (a2), TOMOKO HARADA (a3), LYNDON PERRIMAN (a4), YUKI WATANABE (a5), FUMIO SATO (a1), NOBORU NAKAMURA (a1), KIYOAKI OZAKI (a1) and GREG BALOGH (a2)...
Summary
Summary

Many breeding colonies of Procellariiformes have been threatened with extinction. Chick translocation has been shown to be an effective method for establishing new “safer” colonies of burrow-nesting species, but techniques for surface-nesting species have not been fully developed. The entire breeding population of the threatened Short-tailed Albatross Phoebastoria albatrus is restricted to two sites, Torishima Island and the Senkaku Islands, and neither site is secure due to volcanic activity or political instability. The Short-tailed Albatross Recovery Team has recommended facilitating the recovery of this species by establishing at least one additional colony through the translocation and hand-rearing of chicks at a safe historical breeding site. To evaluate the feasibility of this approach, we hand-reared 10 post-guard phase chicks of two related species in 2006–2007: Laysan Albatross P. immutabilis translocated from Midway Atoll to Kaua’i Island, Hawai’i and Black-footed Albatross P. nigripes translocated from a nearby islet in the Ogasawara (Bonin) Islands to Mukojima Island, Japan. In these pilot studies, 40% of Laysan Albatross chicks and 90% of Black-footed Albatross chicks fledged successfully. Following this groundwork, 40 post-guard phase Short-tailed Albatross chicks were translocated from Torishima Island to Mukojima Island in February 2008–2010 and hand-reared to fledging. Their fledging success has been 100% in all three years. Fledging body sizes were similar or greater in hand-reared chicks at the release site than parent-reared chicks on Torishima Island. There were significant differences in levels of some blood chemistry parameters between pre-fledging hand-reared and parent-reared chicks. The techniques developed in our studies have broad-reaching implications for the future conservation of threatened populations of other surface-nesting seabirds.

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*Author for correspondence; e-mail: deguchi@yamashina.or.jp
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D. R Ardia . (2006) Glycated hemoglobin and albumin reflect nestling growth and condition in American kestrels. Comp. Biochem. Physiol. A 143: 6266.

G. B. Baker , R. Gales , S. Hamilton and V. Wilkinson (2002) Albatrosses and petrels in Australia: a review of their conservation and management. Emu 102: 7197.

T. Bollinger , G. Wobeser , R. G. Clark , D. J. Nieman and J. R Smith . (1989) Concentration of creatine kinase and aspartate aminotransferase in the blood of wild Mallards following capture by three methods for banding. J. Wildl. Dis. 25: 225231.

M. S. de Villiers , J. Cooper and P. G Ryan . (2005) Individual variability of behavioural responses by wandering albatrosses (Diomeda exulans) to human disturbance. Pol. Biol. 28: 255260.

H. I Fisher . (1967) Body weight in Laysan Albatross Diomedea immutabilis. Ibis 109: 373382.

H. I Fisher . (1971) Experiments on homing in Laysan Albatross, Diomeda immutabilis. Condor 73: 389400.

T. Harada , T. Deguchi , B. Zaun , R. S. Sprague and J. Jacobs (2008) An artificial rearing experiments of Laysan Albatross chicks. J. Yamashina Inst. Ornithol. 39: 87100.

A. Hedd , R. Gales and N. Brothers (2002) Provisioning and growth rates of shy albatrosses at Albatross Island, Tasmania. Condor 104: 1229.

R. Hill , G. Wyse and M. Anderson (2004) Animal physiology. Sunderland, MA: Sinauer.

G. M. Hilton and R. J Cuthbert . (2010) The catastrophic impact of invasive mammalian predators on birds of the UK Overseas Territories: a review and synthesis. Ibis 152: 443458.

T. R. Howell and G. A Bartholomew . (1961) Temperature regulation in Laysan and Black-footed Albatrosses. Condor 63: 185197.

C. M. Miskelly , G. A. Taylor , H. Gummer and R. Williams (2009) Translocation of eight species of burrow-nesting seabirds (genera Pterodroma, Pelecanoides, Pachyptila and Puffinus: Family Procellariidae). Biol. Conserv. 142: 19651980.

K. W. Morrison , J. M. Hipfner , C. Gjerdrum and D. J Green . (2009) Wing length and mass at fledging predict local juvenile survival and age at first return in tufted puffins. Condor 111: 433441.

V. Naidoo , M. Diekmann , K. Wolters and G. E Swan . (2008) Establishment of selected baseline blood chemistry and hematologic parameters in captive and wild-caught African white-backed vultures (Gyps africans). J. Wildl. Dis. 44: 649654.

S. H. Newman , J. F. Piatt and J. White (1997) Hematological and plasma reference ranges of Alaskan seabirds: their ecological significance and clinical importance. Colon. Waterbirds 20: 492504.

D. S. Nicolson , R. L. Lochmiller , M. D. Stewart , R. E. Masters and D. M. Leslie Jr. (2000) Risk factors associated with capture-related death in eastern wild turkey hens. J. Wildl. Dis. 36: 308315.

C. Perrins , M. P. Harris and C. K Britton . (1973) Survival of Manx shearwater Puffinus puffinus. Ibis 115: 535548.

D. Priddel , N. Carlile and R. Wheeler (2006) Establishment of a new breeding colony of Gould’s petrel (Pterodroma leucoptera leucoptera) through the creation of artificial nesting habitat and the translocation of nestlings. Biol. Conserv. 128: 553563.

K. Reid , P. A. Prince and J. P Croxall . (2000) Fly or die: the role of fat stores in the growth and development of grey-headed albatross Diomedea chrysostoma chicks. Ibis 142: 188198.

D. W. Rice and K. W Kenyon . (1962) Breeding cycles and behavior of Laysan and Black-footed Albatrosses. Auk 79: 517567.

R. E Ricklefs . (1968) Patterns of growth in birds. Ibis 110: 419451.

P. E. Seiser , L. K. Duffy , A. D. McGuire , D. D. Roby , G. H. Golet and M. A Litzow . (2000) Comparison of Pigeon guillemot, Cepphus columba, blood parameters from oiled and unoiled areas of Alaska eight years after the Exxon Valdez oil spill. Mar. Poll. Bull. 40: 152164.

C. P. Teixeira , C. S. de Azevedo , M. Mendl , C. F. Cipreste and R. J Young . (2007) Revisiting translocation and reintroduction programmes: the importance of considering stress. Anim. Behav. 73: 113.

J. Vinuela , M. Ferrer and F. Recio (1991) Age-related variations in plasma levels of alkaline phosphatase, calcium and inorganic phosphorus in chicks of two species of raptors. Comp. Biochem. Physiopl A 99: 4954.

M. P Wallace . (1994) Control of behavioral development in the context of reintroduction programs for birds. Zoo Biol. 13: 491499.

H. Weimerskirch , C. Barbaraud and L. Patrice (2000) Sex differences in parental investment and chick growth in wandering albatrosses: fitness consequences. Ecology 81: 309318.

D. B Wingate . (1972) First successful hand-rearing of an abandoned Bermuda petrel chick. Ibis 114: 97101.

T. M. Work and R. A Rameyer . (1999) Mass stranding of wedge-tailed shearwater chicks in Hawaii. J. Wildl. Dis 35: 487495.

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Bird Conservation International
  • ISSN: 0959-2709
  • EISSN: 1474-0001
  • URL: /core/journals/bird-conservation-international
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