Climate forcing multiplies biological productivity in the coastal Arctic Ocean

Gratton, Y; Link, H.; Archambault, P; Sallon, A.; Michel, C.; Tremblay, J-É; Philippe, B.; Gosselin, M; Williams, W J; Belanger, S; Barber, D. G.; Asplin, M.; Martin, J.; Darnis, G.; Fortier, L

doi:10.1029/2011GL048825

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Climate forcing multiplies biological productivity in the coastal Arctic Ocean : UPWELLING AND PRODUCTIVITY IN THE ARCTIC

Author(s): J.-É. Tremblay , S. Bélanger , D. G. Barber , M. Asplin , J. Martin , G. Darnis , L. Fortier , Y. Gratton , H. Link , P. Archambault , A. Sallon , C. Michel , W. J. Williams , B. Philippe , M. Gosselin

Publication date Created: September 28 2011

Publication date (Print): September 28 2011

Journal: Geophysical Research Letters

Publisher: American Geophysical Union (AGU)

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Impact of a shrinking Arctic ice cover on marine primary production

Kevin Arrigo, Gert van Dijken, Sudeshna Pabi (2008)

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Smallest algae thrive as the Arctic Ocean freshens.

William K. W. Li, Fiona McLaughlin, Connie Lovejoy … (2009)

As climate changes and the upper Arctic Ocean receives more heat and fresh water, it becomes more difficult for mixing processes to deliver nutrients from depth to the surface for phytoplankton growth. Competitive advantage will presumably accrue to small cells because they are more effective in acquiring nutrients and less susceptible to gravitational settling than large cells. Since 2004, we have discerned an increase in the smallest algae and bacteria along with a concomitant decrease in somewhat larger algae. If this trend toward a community of smaller cells is sustained, it may lead to reduced biological production at higher trophic levels.