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‘Scalping’ of albatross fledglings by introduced mice spreads rapidly at Marion Island

Published online by Cambridge University Press:  02 November 2015

Ben J. Dilley ,
Stefan Schoombie ,
Janine Schoombie  and
Peter G. Ryan
Ben J. Dilley*
Affiliation:
Percy FitzPatrick Institute of African Ornithology, DST/NRF Centre of Excellence, University of Cape Town, Rondebosch 7701, South Africa
Stefan Schoombie
Affiliation:
Percy FitzPatrick Institute of African Ornithology, DST/NRF Centre of Excellence, University of Cape Town, Rondebosch 7701, South Africa
Janine Schoombie
Affiliation:
Percy FitzPatrick Institute of African Ornithology, DST/NRF Centre of Excellence, University of Cape Town, Rondebosch 7701, South Africa
Peter G. Ryan
Affiliation:
Percy FitzPatrick Institute of African Ornithology, DST/NRF Centre of Excellence, University of Cape Town, Rondebosch 7701, South Africa
*
[email protected]
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Abstract

House mice (Mus musculus L.) were introduced to sub-Antarctic Marion Island more than two centuries ago, and have been the only introduced mammal on the island since 1991 when feral cats were eradicated. The first mouse-injured wandering albatross (Diomedea exulans L.) chick was found in 2003 and since then attacks have continued at a low level affecting <1% of the population. In 2009, the first ‘scalpings’ were detected; sooty albatross (Phoebetria fusca Hilsenberg) fledglings were found with raw wounds on the nape. In 2015, mice attacked large chicks of all three albatross species that fledge in autumn: grey-headed (Thalassarche chrysostoma Forster) (at least 102 wounded chicks; 4.6% of fledglings), sooty (n=45, 4.3%) and light-mantled albatross (P. palpebrata Forster) (n=1, 4%). Filming at night confirmed that mice were responsible for wounds. Attacks started independently in small pockets all around the island’s 70 km coastline, separated by distances hundreds of times greater than mouse home ranges. The widespread nature of mouse attacks in 2015 on large, well-feathered chicks is alarming and highlights not only Marion Island as a priority island for mouse eradication but also that mice alone may significantly affect threatened seabird species.

Keywords

Diomedeaeradicationmammal behaviourmortalityMus musculusPhoebetriaThalassarche
Type
Biological Sciences
Information
Antarctic Science , Volume 28 , Issue 2 , April 2016 , pp. 73 - 80
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Copyright
© Antarctic Science Ltd 2015 

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References

Ainley, D.G, Henderson, R.P. & Strong, C.S. 1990. Leach’s and ashy storm-petrel. In Ainley, D.G. & Boekelheide, R.J., eds. Seabirds of the Farallon Islands. Palo Alto: Stanford University Press, 128162.Google Scholar
Atkinson, I.A.E. 1985. The spread of commensal species of Rattus to oceanic islands and their effect on island avifaunas. In Moors, P.J., ed. Conservation of island birds. Cambridge: International Council for Bird Preservation, 3581.Google Scholar
Avenant, N.L. & Smith, V.R. 2003. The microenvironment of house mice on Marion Island (sub-Antarctic). Polar Biology, 26, 129141.Google Scholar
Bester, M.N., Bloomer, J.P., van Aarde, R.J., Erasmus, B.H., van Rensburg, P.J.J., Skinner, J.D., Howell, P.G. & Naude, T.W. 2002. A review of the successful eradication of feral cats from sub-Antarctic Marion Island, Southern Indian Ocean. South African Journal of Wildlife Research, 32, 6573.Google Scholar
Burger, A.E. 1978. Terrestrial invertebrates: a food source for birds at Marion Island. South African Journal Antarctic Research, 8, 87100.Google Scholar
Campos, A.R. & Granadeiro, J.P. 1999. Breeding biology of the white-faced storm-petrel on Selvagem Grande Island, north-east Atlantic. Waterbirds, 22, 199206.Google Scholar
Cooper, J. 2008. Human history. In Chown, S.N. & Froneman, P.W., eds. The Prince Edward Islands: land–sea interactions in a changing ecosystem. Stellenbosch: SUN Press, 331350.Google Scholar
Courchamp, F., Chapuis, J.L. & Pascal, M. 2003. Mammal invaders on islands: impact, control and control impact. Biological Reviews, 78, 347383.Google Scholar
Croxall, J.P., Butchart, S.H., Lascelles, B., Stattersfield, A.J., Sullivan, B., Symes, A. & Taylor, P. 2012. Seabird conservation status, threats and priority actions: a global assessment. Bird Conservation International, 22, 134.Google Scholar
Cuthbert, R. & Hilton, G. 2004. Introduced house mice Mus musculus: a significant predator of threatened and endemic birds on Gough Island, South Atlantic Ocean? Biological Conservation, 117, 483489.Google Scholar
Cuthbert, R.J., Black, A., Rexer-Huber, K., Parker, G. & Sommer, E. 2012. Field trials for the eradication of house mice from South Georgia. RSPB Research Report No. 48. Sandy, Bedfordshire: Royal Society for the Protection of Birds.Google Scholar
Cuthbert, R.J., Louw, H., Parker, G., Rexer-Huber, K. & Visser, P. 2013a. Observations of mice predation on dark-mantled sooty albatross and Atlantic yellow-nosed albatross chicks at Gough Island. Antarctic Science, 25, 763766.Google Scholar
Cuthbert, R.J., Louw, H., Lurling, J., Parker, G., Rexer-Huber, K., Sommer, E., Visser, P. & Ryan, P.G. 2013b. Low burrow occupancy and breeding success of burrowing petrels at Gough Island: a consequence of mouse predation. Bird Conservation International, 23, 113124.Google Scholar
Cuthbert, R.J., Wanless, R.M., Angel, A., Burlé, M-H., Hilton, G.M., Louw, H., Visser, P., Wilson, J. & Ryan, P.G. In press. Drivers of predatory behaviour and extreme body size in House Mice Mus musculus on Gough Island. Journal of Mammalogy.Google Scholar
Davies, D., Dilley, B.J., Bond, A.L., Cuthbert, R.J. & Ryan, P.G. 2015. Trends and tactics of mouse predation on Tristan Albatross Diomedea dabbenena chicks at Gough Island, south Atlantic Ocean. Avian Conservation and Ecology, 10, 10.5751/ACE-00738-100105.Google Scholar
Dilley, B.J., Davies, D., Bond, A.L. & Ryan, P.G. 2015. Effects of mouse predation on burrowing petrel chicks at Gough Island. Antarctic Science, 27, 10.1017/S0954102015000279.Google Scholar
Ferreira, S.M., van Aarde, R.J. & Wassenaar, T.D. 2006. Demographic responses of house mice to density and temperature on sub-Antarctic Marion Island. Polar Biology, 30, 8394.Google Scholar
Fugler, S.R., Hunter, S., Newton, I.P. & Steele, W.K. 1987. Breeding biology of blue petrels Halobaena caerulea at the Prince Edward Islands. Emu, 87, 103110.Google Scholar
Gleeson, J.P. & van Rensburg, P.J.J. 1982. Feeding ecology of the house mouse Mus musculus on Marion Island. South African Journal Antarctic Research, 12, 3439.Google Scholar
Hilton, G.M. & Cuthbert, R.J. 2010. The catastrophic impact of invasive mammalian predators on birds of the UK Overseas Territories: a review and synthesis. Ibis, 152, 443458.Google Scholar
Jones, H.P., Tershy, B.R., Zavaleta, E.S., Croll, D.A., Keitt, B.S., Finkelstein, M.E. & Howald, G.R. 2008. Severity of the effects of invasive rats on seabirds: a global review. Conservation Biology, 22, 1626.CrossRefGoogle ScholarPubMed
Jones, M.G.W. & Ryan, P.G. 2010. Evidence of mouse attacks on albatross chicks on sub-Antarctic Marion Island. Antarctic Science, 22, 3942.Google Scholar
Le Roux, P.C. & McGeoch, M.A. 2008. Changes in climate extremes, variability and signature on sub-Antarctic Marion Island. Climatic Change, 86, 309329.Google Scholar
Matthewson, D.C., van Aarde, R.J. & Skinner, J.D. 1994. Population biology of house mice (Mus musculus L.) on sub-Antarctic Marion Island. South African Journal of Zoology, 29, 99106.Google Scholar
McClelland, G.T. 2013. Ecology of the black-faced sheathbill on Marion Island. PhD thesis, Stellenbosch University, Stellenbosch. [Unpublished].Google Scholar
Russell, J.C. 2012. Spatio-temporal patterns of introduced mice and invertebrates on Antipodes Island. Polar Biology, 3, 11871195.Google Scholar
Ryan, P.G., Jones, M.G.W., Dyer, B.M., Upfold, L. & Crawford, R.J.M. 2009. Recent population estimates and trends in numbers of albatrosses and giant petrels breeding at the sub-Antarctic Prince Edward Islands. African Journal of Marine Science, 31, 409417.Google Scholar
Schramm, M. 1986. Burrow densities and nest site preferences of petrels (Procellariidae) at the Prince Edwards Islands. Polar Biology, 6, 6370.Google Scholar
Smith, V.R., Avenant, N.L. & Chown, S.L. 2002. The diet and impact of house mice on a sub-Antarctic island. Polar Biology, 25, 703715.Google Scholar
Thiebot, J.B., Barbraud, C., Delord, K., Marteau, C. & Weimerskirch, H. 2014. Do introduced mammals chronically impact the breeding success of the world’s rarest albatross? Ornithological Science, 13, 4146.Google Scholar
Tickell, W.L.N. 2000. Albatrosses. Sussex: Pica Press, 448 pp.Google Scholar
Van Aarde, R.J. 1980. The diet and feeding behaviour of feral cats Felis catus at Marion Island. South African Journal of Wildlife Research, 10, 123128.Google Scholar
Van Aarde, R., Ferreira, S., Wassenaar, T. & Erasmus, D.G. 1996. With the cats away the mice may play. South African Journal of Science, 92, 357358.Google Scholar
Wanless, R.M., Angel, A., Cuthbert, R.J., Hilton, G.M. & Ryan, P.G. 2007. Can predation by invasive mice drive seabird extinctions? Biology Letters, 3, 241244.Google Scholar
Wanless, R.M., Ryan, P.G., Altwegg, R., Angel, A., Cooper, J., Cuthbert, R. & Hilton, G.M. 2009. From both sides: dire demographic consequences of carnivorous mice and longlining for the Critically Endangered Tristan albatrosses on Gough Island. Biological Conservation, 142, 17101718.Google Scholar
Wanless, R.M., Ratcliffe, N., Angel, A., Bowie, B.C., Cita, K., Hilton, G.M., Kritzinger, P., Ryan, P.G. & Slabber, M. 2012. Predation of Atlantic petrel chicks by house mice on Gough Island. Animal Conservation, 15, 472479.Google Scholar