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- :''This page is part of the topic [[Marine biology over the next 100 years]]'' [[Category:Antarctic biology]]2 KB (305 words) - 15:33, 6 August 2014
- :''This page is part of the topic [[Marine biology over the next 100 years]]'' ...waters. Stockton (1984<ref name="Stockton, 1984">Stockton, W.L. 1984. The biology and ecology of the epifaunal scallop ''Adamussium colbecki'' on the west si54 KB (8,443 words) - 17:49, 22 August 2014
- ...ice and ocean modelling. However, they are now starting to be employed in biology – a trend that seems set to continue in the future. #[[Observations of marine biology]]2 KB (307 words) - 16:44, 6 August 2014
- ...tation e.g. by CCAMLR surveys (Convention on the Conservation of Antarctic Marine Living Resources), but also to monitor the impact of climate change at any ...tribute especially to a better understanding of the presence and future of marine biota if they are combined with field obervations and field surveys. Modern23 KB (3,516 words) - 15:33, 6 August 2014
- ...COM (HYbrid Coordinate Ocean Model) data assimilative system, ''Journal of Marine Systems'', '''65''', 60-83.</ref>) in which the layers correspond to consta ...COM (HYbrid Coordinate Ocean Model) data assimilative system, ''Journal of Marine Systems'', '''65''', 60-83.</ref>) and POM (Mellor, 2003<ref name="Mellor,37 KB (5,859 words) - 15:33, 6 August 2014
- :''This page is part of the topic [[Marine biology over the next 100 years]]'' ...., Peck, L.S., Barnes, D.K.A. and Smith, R.C. 2007. Climate change and the marine ecosystem of the western Antarctic Peninsula, ''Phil. Trans. R. Soc. B'', '25 KB (3,663 words) - 15:33, 6 August 2014
- :''This page is part of the topic [[Marine biology over the next 100 years]]'' ...nts and most islands (even around Antarctica), across land, freshwater and marine habitats. The result is that over long time periods species have increased,13 KB (2,063 words) - 15:33, 6 August 2014
- ...he Antarctic Peninsula since the Last Glacial Maximum-a synthesis, ''Polar Biology'', '''21''', 227-234.</ref>), Ingólfsson (2004<ref name="Ingó ...Stuiver, M., Talamo, S., Taylor, F.W., Van Der Plicht, J. and Ce, W. 2004. Marine Radiocarbon Age Calibration 0-26 Cal Kyr Bp, ''Radiocarbon'', '''46''',105910 KB (1,543 words) - 15:33, 6 August 2014
- ...ref name="Sandwell and Smith, 1997">Sandwell, D.T. and Smith, W.H.F. 1997. Marine gravity anomaly from Geosat and ERS-1 satellite altimetry, J. Geophys. Res. ...ariations in ocean chlorophyll concentration contribute information on the biology of the Southern Ocean and are a key input for modeling of the South Ocean e20 KB (3,084 words) - 15:57, 6 August 2014
- ...2001">Lizotte, M.P. 2001. The contributions of sea ice algae to. Antarctic marine primary production, ''Am. Zool.'', '''41''', 57-73.</ref>) inferred that Fr ...mass, nutrient, and production profiles within a dense microalgal bloom, ''Marine Ecology Progress Series'', '''127'''(1-3), 255-268.</ref>; Fritsen et al.,18 KB (2,786 words) - 15:33, 6 August 2014
- :''This page is part of the topic [[Marine biology in the instrumental period]]'' [[Category:Antarctic biology]]2 KB (306 words) - 15:33, 6 August 2014
- ...ges during the World Ocean Circulation Experiment, Oceanography and Marine Biology: An Annual Review, 40, 1-35.</ref>). Many of these deployments have been by11 KB (1,784 words) - 15:33, 6 August 2014
- ...rctic Chironomidae and its implications for biogeographical history. Polar Biology, 29, 320-326.</ref>; Stevens et al., 2006<ref name="Stevens et al, 2006">St In contrast to many Antarctic marine organisms, the terrestrial biota often has a wide environmental tolerance.21 KB (3,069 words) - 18:14, 22 August 2014
- ...; Smith, 1984<ref name="Smith, 1984">Smith, R.I.L. 1984. Terrestrial plant biology of the sub-Antarctic and Antarctic. In: Laws, R.M. (ed.), Antarctic Ecology ...in a freeze-tolerant sub-Antarctic caterpillar, ''Journal of Experimental Biology'', '''208''', 869-879.</ref>). How these patterns change in the future will32 KB (4,651 words) - 16:17, 6 August 2014
- | style="text-align: left"|Crustacea (non-marine)||44||10||14 ...ution in the southern maritime Antarctic – clues to history?, ''Soil Biology and Biochemistry'', '''38''', 3141-3151.</ref>). ND - number of representat22 KB (3,222 words) - 16:12, 6 August 2014
- ...., Peck, L.S., Barnes, D.K.A. and Smith, R.C. 2007. Climate change and the marine ecosystem of the western Antarctic Peninsula, ''Phil. Trans. R. Soc. B'', ' ...lored marine systems on Earth, provide the most obvious impacts on coastal marine areas. In offshore systems, a shift of pelagic communities towards the sout20 KB (3,055 words) - 15:34, 6 August 2014
- ...of planktonic biostratigraphy in the Southern Ocean during the Cenozoic, ''Marine Micropaleontology'', '''3''', 301-345.</ref>).]] ...ll, 1977">Barker, P.F. and Burrell, J. 1977. The opening of Drake passage, Marine Geology, 25.</ref>; Livermore et al., 2004<ref name="Livermore et al, 2004"20 KB (3,076 words) - 15:34, 6 August 2014
- :''This page is part of the topic [[Marine biology over the next 100 years]]'' ...sequent anthropogenic impacts. The main direct influences on the Antarctic marine ecosystem are likely to come from global climate change in the mid- to long14 KB (2,188 words) - 15:34, 6 August 2014
- :''This page is part of the topic [[Marine biology in the instrumental period]]'' ...a rapid rate, profoundly affecting the structure and functioning of Arctic marine ecosystems, particularly mammal and bird populations. For a comprehensive a28 KB (4,437 words) - 15:34, 6 August 2014
- :''This page is part of the topic [[Marine biology in the instrumental period]]'' ...organism standing at the base of the food chains for nearly all Antarctic marine vertebrates. As winter approaches, the continental shelf and large areas of9 KB (1,434 words) - 15:34, 6 August 2014