Calcifying plankton: From biomineralization to global change
Patrizia Ziveri, Gerald Langer, Sonia Chaabane, Joost de Vries, William R. Gray, Nina Keul, Ian Hatton, Clara Manno, Richard D. Norris, Sven Pallacks, J. R. Young, Ralf Schiebel, Stergios D. Zarkogiannis, Griselda Anglada‐Ortiz, Stefania Bianco, Thibault de Garidel‐Thoron, Michaël Grelaud, Arturo Lucas, Ian Probert, P. Graham Mortyn
Abstract
The cycling of calcium carbonate (CaCO 3 ) in the ocean is closely linked to seawater alkalinity and the regulation of atmospheric CO 2 . In the modern pelagic ocean, almost all CaCO 3 is produced by three groups of calcifying planktonic organisms: coccolithophores, foraminifers, and shelled pteropods. In this Review, we examine the differences in functional traits that define each group’s distinctive role in the global carbon cycle and their sensitivity to climate change and ocean acidification. This synthesis reveals that a single representation of CaCO 3 in climate models is unlikely to accurately reflect system dynamics or their impacts on biogeochemical cycling under climate change. We argue that understanding past and future CaCO 3 cycle requires a better delineation of the traits that make up the diversity of calcifying plankton groups.