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Irene R. Schloss
Researcher at Instituto Antártico Argentino
Publications - 110
Citations - 3660
Irene R. Schloss is an academic researcher from Instituto Antártico Argentino. The author has contributed to research in topics: Phytoplankton & Cove. The author has an hindex of 34, co-authored 100 publications receiving 3055 citations. Previous affiliations of Irene R. Schloss include Alfred Wegener Institute for Polar and Marine Research & National Scientific and Technical Research Council.
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Journal ArticleDOI
The Southern Ocean Ecosystem Under Multiple Climate Change Stresses - An Integrated Circumpolar Assessment
Julian Gutt,Nancy A. N. Bertler,Thomas J. Bracegirdle,Alexander Buschmann,Josefino C. Comiso,Graham Hosie,Enrique Isla,Irene R. Schloss,Craig R. Smith,Jean Tournadre,José C. Xavier,José C. Xavier +11 more
TL;DR: Assessment of observed and projected environmental changes in the Southern Ocean shows that aragonite undersaturation (acidification) might become one of the biggest problems for the Antarctic marine ecosystem by affecting almost the entire SO.
Journal ArticleDOI
Response of phytoplankton dynamics to 19-year (1991–2009) climate trends in Potter Cove (Antarctica)
Irene R. Schloss,Irene R. Schloss,Irene R. Schloss,Doris Abele,Sébastien Moreau,Serge Demers,A. Valeria Bers,Oscar Ulises Reynoso González,Gustavo A. Ferreyra +8 more
TL;DR: In this article, the results show that global trends have significant effects on local hydrographical and biological conditions in the coastal marine environments of Western Antarctica, and that the Southern Annular Mode (SAM) climate signal was apparent in fluctuating interannual pattcern of the hydrographic variables in the outer Potter Cove and bottom waters whereas surface hydroggraphy was strongly governed by the local forcing of glacier melt.
Journal ArticleDOI
A roadmap for Antarctic and Southern Ocean science for the next two decades and beyond
Mahlon C. Kennicutt,Steven L. Chown,John J. Cassano,Daniela Liggett,Lloyd S. Peck,Robert A. Massom,Stephen R. Rintoul,John W. V. Storey,David G. Vaughan,Terry J. Wilson,Ian Allison,Jeff Ayton,Renuka Badhe,Jenny Baeseman,Peter Barrett,Robin E. Bell,Nancy A. N. Bertler,S. Bo,Angelika Brandt,David H. Bromwich,Stephen Craig Cary,Melody S. Clark,Peter Convey,Erli Schneider Costa,Don A. Cowan,Robert M. DeConto,Robert B. Dunbar,C. Elfring,Carlota Escutia,Jane E. Francis,Helen A. Fricker,M. Fukuchi,Neil Gilbert,Julian Gutt,Charlotte Havermans,David S. Hik,G. Hosie,Carl G. Jones,Y.D. Kim,Y. Le Maho,S.H. Lee,Marcelo Leppe,German Leitchenkov,Xichen Li,Vladimir Ya. Lipenkov,Karin Lochte,Jerónimo López-Martínez,C. Lüdecke,W. B. Lyons,Sergio A. Marenssi,Heinz Miller,P. Morozova,Tim R Naish,Shailesh Nayak,R. Ravindra,J. Retamales,C.A. Ricci,Michelle Rogan-Finnemore,Yan Ropert-Coudert,Azizan Abu Samah,L. Sanson,Ted Scambos,Irene R. Schloss,Kazuyuki Shiraishi,Martin J. Siegert,Jefferson Cardia Simões,Bryan C. Storey,Michael Sparrow,Diana H. Wall,Jessica C. Walsh,Gary S. Wilson,Jan-Gunnar Winther,José C. Xavier,H. Yang,William J. Sutherland +74 more
TL;DR: A co-ordinated portfolio of cross-disciplinary science, based on new models of international collaboration, will be essential as no scientist, programme or nation can realize these aspirations alone.
Journal ArticleDOI
Aggregation of algae released from melting sea ice: implications for seeding and sedimentation
TL;DR: In experiments simulating the conditions during sea ice melting, ice algae revealed a strong propensity to form aggregates, suggesting that ice algae released from the melting sea ice are subject to rapid sedimentation.
Journal ArticleDOI
Climate change and glacier retreat drive shifts in an Antarctic benthic ecosystem
Ricardo Sahade,Cristian Lagger,Luciana Torre,Fernando Momo,Fernando Momo,Patrick Monien,Patrick Monien,Irene R. Schloss,David K. A. Barnes,Natalia Servetto,Soledad Tarantelli,Marcos Tatián,Nadia Zamboni,Doris Abele +13 more
TL;DR: A marked shift in an Antarctic benthic community that can be linked to ongoing climate change is reported, and the resulting increased sediment runoff, triggered by glacier retreat, is highlighted as the potential causal factor.