Moreau C, Jossart Q, Saucède T, Danis B. (2018). Kerguelen asteroid diversity. Implications in the Southern Ocean. Bachelor's thesis, , .
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Rivolier J., Cazes G., Dentan M.C., Rosnet E. & Vinokhodova A. (1996). Group interactions and individual behaviour during the Canadian space simulation CAPSULS. (Vol. 31).
Abstract: XXVIth International congress of Psychology, Montréal, 16-21 August 1996. Résumé
Programme: 252
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Renault D., Ouisse T. (2017). Spatial sorting and phenotypic differentiation of the populations of the invasive carabid beetle Merizodus soledadinus at the Kerguelen Islands. Bachelor's thesis, , .
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Hullé M., Buchard C., Renault D., Lebouvier M., Vernon P. (2017). Distribution patterns of invertebrate species introduced into the sub-Antarctic Kerguelen Islands.
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Dubois Philippe, Margot Gonthier-Maurin, Nadia Ameziane, Sarah Di Giglio, Jean-Pierre Féral, Christian Marschal, Loïc Michel, Sébastien Motreuil, Thomas Saucède. (2017). Is the Sub-antarctic sea urchin Abatus cordatus threatened by ocean acidification?.
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Hennion F., Dorey T., Rantier Y., Tarayre M. . (2017). Lyallia kerguelensis, a Kerguelen endemic cushion plant from extreme environments in the face of climate change. .
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Laforge M., Colas B., Hennion F., Normand V., Robert T., Nadot S. . (2017). A glimpse into the reproductive biology of buttercups in the Kerguelen Islands..
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Di Mauro D., Chambodut A., Schott J.-J., Cafarella L., Bordais P., Agnoletto P. & Di Felice P. (2008). Looking at the Earth's magnetic field dataset from Concordia base (Dome C/Antarctica)..
Abstract: XIIIth IAGA workshop, Boulder, USA.
Programme: 905
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Ropert-coudert Y, Kato A, Robbins A, Humphries Grw . (2018). The Penguiness dive record data table. Explorable at http://www.penguiness.net.
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Jennifer F. Provencher, Stephanie Borrelle, Richard B. Sherley, Stephanie Avery-Gomm, Peter Hodum, Alex Bond, Heather L. Major, Karen D. McCoy, Rory Crawford, Flemming Merkel, Stephen Votier, Michelle Reynolds, Jeff Hatfield, Dena Spatz, Mark Mallory. (2019). Chapter 7 – Seabirds. Bachelor's thesis, , .
Abstract: Seabirds have a global distribution, are numerous throughout the world’s oceans, and have been used for decades to track and understand changes in the marine environment. They are dependent on a variety of ecosystems, including terrestrial, coastal, and pelagic, and are thus vulnerable to both marine and terrestrial environmental stressors. This chapter examines impacts on seabird populations that occur in the marine environment and are global in nature (touch more than one ocean basin). Both widespread (i.e., climate change induced alterations to marine food webs and sea level rise) and more point-source impacts (i.e., incidental bycatch in fisheries, hunting) are discussed. Additionally, natural occurrences in marine ecosystems (i.e., oceanographic regime shifts, parasites) and issues related to anthropogenic activities (i.e., plastic and oil pollution) are covered. Lastly, we discuss marine protected areas and other efforts aimed at conserving global seabird populations, including colony restoration, community-based research, and international conservation actions.
Keywords: Climate change Conservation Cumulative effects Disease Fisheries Hunting Marine protected areas Pollution Populations Seabirds
Programme: 333
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