Species of bird From Wikipedia, the free encyclopedia
The grey-headed albatross (Thalassarche chrysostoma) also known as the gray-headed mollymawk, is a large seabird from the albatrossfamily. It has a circumpolar distribution, nesting on isolated islands in the Southern Ocean and feeding at high latitudes, further south than any of the other mollymawks. Its name derives from its ashy-gray head, throat and upper neck.
Mollymawks are a type of albatross that belong to the family Diomedeidae from the order Procellariiformes, along with shearwaters, fulmars, storm petrels, and diving petrels. They share certain identifying features. First, they have nasal passages that attach to the upper bill called naricorns, although the nostrils of an albatross are on the sides of the bill. The bills of Procellariiformes are also unique in that they are split into between seven and nine horny plates. Finally, they produce a stomach oil made up of wax esters and triglycerides that is stored in the proventriculus. This is used against predators as well as an energy rich food source for chicks and for the adults during their long flights.[3] They also have a salt gland situated above the nasal passage that helps desalinate their bodies, to compensate for the ocean water they imbibe. It excretes a concentrated brine from the nostrils.[4]
The name chrysostoma is derived from two Greek words. Khrusos means "gold" and stoma means "the mouth", in reference to its golden bill.[5]
The grey-headed albatross averages 81cm (32in) in length and 2.2m (7.2ft) in wingspan. Weight can range from 2.8 to 4.4kg (6.2 to 9.7lb), with a mean mass of 3.65kg (8.0lb).[6] It has a dark ashy-grey head, throat, and upper neck, and its upper wings, mantle, and tail, are almost black. It has a white rump, underparts, and a white crescent behind its eyes. Its bill is black, with bright yellow upper and lower ridges, that shades to pink-orange at the tip. Its underwings are white with a lot of black on the leading edge and less on the trailing edge. Juveniles have a black bill and head and a darker nape. Its eye crescent is indistinct and its underwing is almost completely dark.[7]
At sea the grey-headed albatross is highly pelagic, more so than other mollymawks, feeding in the open oceans rather than over the continental shelves. They feed predominantly on squid, taking also some fish, crustacea, carrion, cephalopods, and lampreys.[12][13][14][15]Krill is less important as a food source for this species, reflecting their more pelagic feeding range. They are capable of diving as deep as 7m (23ft) to chase prey, but do not do so frequently.
Reproduction
A single egg is laid in a large nest, typically built on steep slopes or cliffs with tussock grass,[7] and incubated for 72 days. Studies at South Georgia's Bird Island have shown that the growing chick is fed 616g (21.7oz) of food every 1.2 days, with the chick increasing in weight to around 4,900g (170oz). Chicks then tend to lose weight before fledging, which happens after 141 days. Chick will generally not return to the colony for 6–7 years after fledging, and will not breed for the first time until several years after that.[citation needed] If a pair has managed to successfully raise a chick it will not breed in the following year, taking the year off.[7] During this time spent away from the colony they can cover great distances, often circling the globe several times.
Populations have been shrinking based on different studies. Bird Island numbers have been reduced 20% to 30% in the last 30 years.[24]Marion Island registered 1.75% reduction per year until 1992 and now appears to be stable.[25] Campbell Island has seen reduction of 79% to 87% since the 1940s.[26] Overall, the trends looks like a 30-40% reduction over 90 years (3 generations).[7] Illegal or unregulated fishing in the Indian Ocean for the Patagonian toothfish, Dissostichus eleginoides resulted in 10–20,000 dead albatrosses, mainly this species, in 1997 and 1998.[27][28][29]Longline fishing is responsible for other deaths.[23][30]
Centre, UNESCO World Heritage. "Macquarie Island". whc.unesco.org. Retrieved 2017-02-06.
Arata, J.; Moreno, C. A. (2002). "Progress report of Chilean research on albatross ecology and conservation". Convention for the Conservation of Antarctic Marine Living Resources Working Group on Fish Stock Assessment.
Brooke, M. (2004). "Procellariidae". Albatrosses And Petrels Across The World. Oxford, UK: Oxford University Press. ISBN978-0-19-850125-1.
CCAMLR (1998). Report of the XVII Meeting of the Scientific Committee. Hobart. Hobart, Australia: Committee for the Conservation of Antarctic Marine Living Resources.{{cite journal}}: CS1 maint: untitled periodical (link)
CCAMLR (1997). Report of the XVI Meeting of the Scientific Committee. Hobart. Hobart, Australia: Committee for the Conservation of Antarctic Marine Living Resources.{{cite journal}}: CS1 maint: untitled periodical (link)
Cherel, Y.; Weimerskirch, H.; Trouve, C. (2002). "Dietary evidence for spatial foraging segregation in sympatric albatrosses (Diomedea spp.) rearing chicks at Iles Nuageuses, Kerguelen". Marine Biology. 141 (6): 1117–1129. Bibcode:2002MarBi.141.1117Y. doi:10.1007/s00227-002-0907-5. S2CID83653436.
Croxall, J. P.; Gales, R. (1998). "Assessment of the conservation status of albatrosses". In Robertson, G.; Gales, R. (eds.). Albatross biology and conservation. Chipping Norton, Australia: Surrey Beatty & Sons.
Croxall, J. P.; Prince, P. A.; Rothery, P.; Wood, A. G. (1998). "Population changes in albatrosses at South Georgia". In Robertson, G.; Gales, R. (eds.). Albatross biology and conservation. Chipping Norton, Australia: Surrey Beatty & Sons. pp.69–83.
del Hoyo, Josep, Elliott, Andrew & Sargatal, Jordi (1992). Handbook of Birds of the World Vol 1. Barcelona:Lynx Edicions, ISBN84-87334-10-5
Double, M. C. (2003). "Procellariiformes (Tubenosed Seabirds)". In Hutchins, Michael; Jackson, Jerome A.; Bock, Walter J.; Olendorf, Donna (eds.). Grzimek's Animal Life Encyclopedia. 8. Vol.Birds I Tinamous and Ratites to Hoatzins. Joseph E. Trumpey, Chief Scientific Illustrator (2nded.). Farmington Hills, MI: Gale Group. pp.107–111. ISBN978-0-7876-5784-0.
Gales, R. (1998). "Albatross populations: status and threats". In Robertson, G.; Gales, R. (eds.). Albatross biology and conservation. Chipping Norton, Australia: Surrey Beatty & Sons.
Gotch, A. F. (1995) [1979]. "Albatrosses, Fulmars, Shearwaters, and Petrels". Latin Names Explained A Guide to the Scientific Classifications of Reptiles, Birds & Mammals. New York, NY: Facts on File. p.191. ISBN978-0-8160-3377-5.
Moore, P. J. (2004). "Abundance and population trends of mollymawks on Campbell Island". Science for Conservation. 242. Wellington, NZ: Department of Conservation.
Nel, D. C.; Ryan, P. G.; Crawford, R. J. M.; Cooper, J.; Huyser, O. (2002). "Population trends of albatrosses and petrels at sub-Antarctic Marion Island". Polar Biology. 25 (2): 81–89. Bibcode:2002PoBio..25...81N. doi:10.1007/s003000100315. S2CID11970816.
Poncet, S.; Robertson, G.; Phillips, R. A.; Lawton, K.; Phalan, B.; Trathan, P. N.; Croxall, J. P. (2006). "Status and distribution of wandering Black-browed and Grey-headed Albatrosses breeding at South Georgia". Polar Biology. 29 (9): 772–781. Bibcode:2006PoBio..29..772P. doi:10.1007/s00300-006-0114-9. S2CID21411990.
Prince, P. A. (1980). "The food and feeding ecology of Grey-headed Albatross Diomedea chrysostoma and Black-rowed Albatross D. melanophris". Ibis. 122 (4): 476–488. doi:10.1111/j.1474-919x.1980.tb00902.x.
Prince, P. A.; Croxall, J. P.; Trathan, P. N.; Wood, A. G. (1998). "The pelagic distribution of South Georgia albatrosses and their relationships with fisheries". In Robertson, G.; Gales, R. (eds.). Albatross biology and conservation. Chipping Norton, Australia: Surrey Beatty & Sons.
Taylor, G. A. (2000). "Action plan for seabird conservation in New Zealand. Wellington: Department of Conservation". Threatened Species Occasional Publication. 16.
Xavier, J. C.; Croxall, J. P.; Trathan, P. N.; Wood, A. G. (2003). "Feeding strategies and diets of breeding grey-headed and wandering albatrosses at South Georgia". Marine Biology. 143 (2): 221–232. Bibcode:2003MarBi.143..221X. doi:10.1007/s00227-003-1049-0. S2CID85569322.