Regulation of CO2 by the sea in areas around Latin America in a context of climate change
Lutz, V.; Chidiak, M.; Frouin, R.; Negri, R.; Dogliotti, A. I.; Santamaria-del-Angel, E.; Berghoff, C. F.; Rojas, J.; Filipello, C.; Astor, Y.; Segura, V.; Gonzalez-Silvera, A.; Escudero, L.; Ledesma, J.; Ueyoshi, K.; Silva, R. I.; Ruiz, M. G.; Cozzolino, E.; Allega, L.; Tan, J.; Kampel, M. (2023). Regulation of CO2 by the sea in areas around Latin America in a context of climate change. Environ. Monit. Assess. 195(3): 417. https://dx.doi.org/10.1007/s10661-023-10997-1
In: Environmental Monitoring and Assessment. Kluwer: Dordrecht. ISSN 0167-6369; e-ISSN 1573-2959, more
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Keywords |
Aquatic communities > Plankton > Phytoplankton Marine/Coastal |
Author keywords |
Chlorophyll · GHG inventories · Latin- America · Sea-air CO2 fluxes · Marine-ecological-time-series |
Abstract |
Anthropogenic activities are increasing the atmospheric carbon dioxide (CO2); around a third of the CO2 emitted by these activities has been taken up by the ocean. Nevertheless, this marine ecosystem service of regulation remains largely invisible to society, and not enough is known about regional differences and trends in sea-air CO2 fluxes (FCO2), especially in the Southern Hemisphere. The objectives of this work were as follows: first to put values of FCO2 integrated over the exclusive economic zones (EEZ) of five Latin-American countries (Argentina, Brazil, Mexico, Peru, and Venezuela) into perspective regarding total country-level greenhouse gases (GHG) emissions. Second, to assess the variability of two main biological factors affecting FCO2 at marine ecological time series (METS) in these areas. FCO2 over the EEZs were estimated using the NEMO model, and GHG emissions were taken from reports to the UN Framework Convention on Climate Change. For each METS, the variability in phytoplankton biomass (indexed by chlorophyll-a concentration, Chla) and abundance of different cell sizes (phy-size) were analyzed at two time periods (2000–2015 and 2007–2015). Estimates of FCO2 at the analyzed EEZs showed high variability among each other and non-negligible values in the context of greenhouse gas emissions. The trends observed at the METS indicated, in some cases, an increase in Chla (e.g., EPEA-Argentina) and a decrease in others (e.g., IMARPE-Peru). Evidence of increasing populations of small size-phytoplankton was observed (e.g., EPEA-Argentina, Ensenada-Mexico), which would affect the carbon export to the deep ocean. These results highlight the relevance of ocean health and its ecosystem service of regulation when discussing carbon net emissions and budgets. |
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