Calcifying marine phytoplankton—coccolithophores—are some of the most successful yet
enigmatic organisms in the ocean and are at risk from global change. To better understand …

This paper begins with a review of the history of remote sensing algorithms for the
determination of particulate inorganic carbon (PIC; aka calcium carbonate), primarily …

Marine phytoplankton play important roles in the global ecosystem, with a limited number of
cosmopolitan keystone species driving their biomass. Recent studies have revealed that …

From Harvard University to the University of Miami, the first edition of Chemical
Oceanography was a great success as a textbook. Now you can own the fully updated …

A rapidly growing body of literature documents the potential negative effects of CO2‐driven
ocean acidification (OA) on marine organisms. However, nearly all this work has focused on …

Ocean acidification, caused by the uptake of atmospheric CO 2, is a threat to marine
biodiversity, potentially rivalling the threat imposed by rising temperatures in some marine …

Marine algae are instrumental in carbon cycling and atmospheric carbon dioxide (CO2)
regulation. One group, coccolithophores, uses carbon to photosynthesize and to calcify …

Oceanic uptake of anthropogenic CO2 leads to decreased pH, carbonate ion concentration,
and saturation state with respect to CaCO3 minerals, causing increased dissolution of these …

Microzooplankton dominate trophic interactions and biogeochemical processes at the base
of pelagic marine food webs and so their responses to a changing ocean environment have …

Coccolithophores are the most abundant calcifying phytoplankton in the ocean. These tiny
primary producers have an important role in the global carbon cycle, substantially …