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Barbraud C., Marteau C., Delord K., Weimerskirch H. (2011). Demographic responses of white-chinned petrels Procellaria aequinoctialis and grey petrels P. cinerea to climate and longline fishery bycatch. Bachelor's thesis, , .
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Crubézy Eric, Marty Marie-Thérèse. (2011). Sur les traces de l'homme, in Raccurt M. and Chenorkian R. Mondes polaires. Hommes et biodiversités des défis pour la science. Bachelor's thesis, , .
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A Maggi. (2011). Pourquoi installer des stations sismiques en Antarctique? in Cap sur les Pôles, 100 questions sur les mondes polaires, F Lemarchand, MF André and F Rémy (Eds.).
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Vacchi M, Koubbi P, Ghigliotti L, Pisano E. (2012). Sea-Ice Interactions with Polar Fish: Focus on the Antarctic Silverfish Life History.
Abstract: In: Verde C, di Prisco G (eds), Adaptation and Evolution in Marine Environments, Volume 1, The Impacts of Global Change on Biodiversity, Springer-Verlag, Berlin Heidelberg
Programme: 1142
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M Kanao, A. Maggi, Y Ishihara, M Yamamoto, K Nawa, A Yamada, T Wilson, T Himeno, G Toyokuni, S Tsuboi, Y Tono and K Anderson. (2012). Wave interactions between the Atmosphere-Ocean-Cryosphere system and the Geosphere in the Polar Regions, in Seismic Waves – Research and Analysis.
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Chevillon C, de Meeûs T, & McCoy KD. (2012). Population genetics and epidemiology of infectious diseases. In ‘New Frontiers of Molecular Epidemiology of Infectious Diseases’ (Morand S, Beaudreau F, Cabaret J, eds) Springer..
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Gilg Olivier, Kovacs Kit M, Aars Jon, Fort Jérôme, Gauthier Gilles, Grémillet David, Ims Rolf A, Meltofte Hans, Moreau Jérôme, Post Eric, Schmidt Niels Martin, Yannic Glenn, Bollache Loïc, . (2012). Climate change and the ecology and evolution of Arctic vertebrates (Vol. 1249). Bachelor's thesis, Blackwell Publishing Inc, .
Abstract: Climate change is taking place more rapidly and severely in the Arctic than anywhere on the globe, exposing Arctic vertebrates to a host of impacts. Changes in the cryosphere dominate the physical changes that already affect these animals, but increasing air temperatures, changes in precipitation, and ocean acidification will also affect Arctic ecosystems in the future. Adaptation via natural selection is problematic in such a rapidly changing environment. Adjustment via phenotypic plasticity is therefore likely to dominate Arctic vertebrate responses in the short term, and many such adjustments have already been documented. Changes in phenology and range will occur for most species but will only partly mitigate climate change impacts, which are particularly difficult to forecast due to the many interactions within and between trophic levels. Even though Arctic species richness is increasing via immigration from the South, many Arctic vertebrates are expected to become increasingly threatened during this century.
Keywords: impacts, phenological changes, plasticity, range shifts, adaptations, threat, trophic interactions, mismatches, sea ice, tundra, parasites, geese, shorebirds, rodents, lemmings, large herbivores, seabirds, marine mammals, polar bear,
Programme: 388,1036
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Bonadonna Francesco, Mardon Jerome, . (2013). Besides Colours and Songs, Odour is the New Black of Avian Communication
(Vol. XII). Bachelor's thesis, Springer New York, .
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Olivier Chastel. (2012). Les oiseaux menacés par les polluants. in Monde Polaires, hommes et biodiversités, des défis pour LA SCIENCE. Edition du Cherche Midi-CNRS.
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Lecointre, G. (2012). Phylogeny and systematics of Antarctic teleosts: methodological and evolutionary issues. In di Prisco, G. and Verde, C. (Eds.) Adaptation and Evolution in Marine Environments – The Impacts of Global Change on Biodiversity. Book series directed by Kallenborn, R., Walton, D. and di Prisco, G. (Eds.) « From Pole to Pole ». Springer Verlag.(invited publication).
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