Modeling the marine aragonite cycle: changes under rising carbon dioxide and its role in shallow water CaCO3 dissolution Gangsto, R. Gehlen, M. Schneider, B. Bopp, L. /Aumont, Olivier Joos, F. The marine aragonite cycle has been included in the global biogeochemical model PISCES to study the role of aragonite in shallow water CaCO₃ dissolution. Aragonite production is parameterized as a function of mesozooplankton biomass and aragonite saturation state of ambient waters. Observation-based estimates of marine carbonate production and dissolution are well reproduced by the model and about 60% of the combined CaCO₃ water column dissolution from aragonite and calcite is simulated above 2000 m. In contrast, a calcite-only version yields a much smaller fraction. This suggests that the aragonite cycle should be included in models for a realistic representation of CaCO₃ dissolution and alkalinity. For the SRES A2 CO₂ scenario, production rates of aragonite are projected to notably decrease after 2050. By the end of this century, global aragonite production is reduced by almost one third and total CaCO₃ production by 19% relative to pre-industrial. Geographically, the effect from increasing atmospheric CO₂, and the subsequent reduction in saturation state, is largest in the subpolar and polar areas where the modeled aragonite production is projected to decrease by 65% until 2100. 2008 text https://www.documentation.ird.fr/hor/fdi:010073884 fdi:010073884 Gangsto R., Gehlen M., Schneider B., Bopp L., Aumont Olivier, Joos F.. Modeling the marine aragonite cycle: changes under rising carbon dioxide and its role in shallow water CaCO3 dissolution. 2008, 5 (2), 1655-1687 EN PACIFIQUE ATLANTIQUE