Factors determining the ocean–atmosphere CO2 flux variability in 5 coastal zones of the Gulf of California

The Gulf of California (GC) features many oceanographic processes. It communicates with the Pacific Ocean via a surface water outflow (0–200 m) with relatively low dissolved inorganic carbon (DIC) values and a water inflow (200–600 m) with high DIC values. Data on the marine carbon system in the GC...

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Detalles Bibliográficos
Autores: Morales-Urbina, Pedro, Espinosa-Carreón, T Leticia, Álvarez-Borrego, Saúl, Hernández-Ayón, José Martín, Coronado-Álvarez, Luz de Lourdes Aurora, Flores-Trejo, Lorena, Chapa-Balcorta, Cecilia
Tipo de recurso: artículo
Estado:Versión publicada
Fecha de publicación:2022
País:México
Institución:UNIVERSIDAD AUTÓNOMA DE BAJA CALIFORNIA
Repositorio:Ciencias Marinas
Idioma:inglés
español
OAI Identifier:oai:cienciasmarinas.com.mx:article/3265
Acceso en línea:https://www.cienciasmarinas.com.mx/index.php/cmarinas/article/view/3265
Access Level:acceso abierto
Palabra clave:CO2 fluxes
upwelling
forcing agents
coastal regions
Gulf of California
flujos de CO2
surgencia
agentes forzantes
regiones costeras
golfo de California
Descripción
Sumario:The Gulf of California (GC) features many oceanographic processes. It communicates with the Pacific Ocean via a surface water outflow (0–200 m) with relatively low dissolved inorganic carbon (DIC) values and a water inflow (200–600 m) with high DIC values. Data on the marine carbon system in the GC are scarce and most have been taken from the Midriff Islands region, in the central part of the gulf. We explored possible forcing agents that control the ocean–atmosphere CO2 flux (fCO2) variability in 5 coastal zones of the GC. We carried out 6 oceanographic cruises in 5 regions: off northern Sinaloa in September 2016 (NAV2016) and in March 2017 (NAV2017), in the Guaymas Basin (central gulf) in September 2016 (GUA2016), in Concepción Bay (Baja California Sur) in July 2017 (BC2017), in Mulegé (Baja California Sur) in July 2017 (MUL2017), and off Mazatlán (southern gulf) in July 2017 (MAZ2017). We measured temperature, salinity, DIC, and total alkalinity and calculated the surface water partial pressure of CO2 and fCO2. We also used sea surface height anomaly with geostrophic flow, sea surface temperature, and chlorophyll concentration data from satellite imagery to generate composites for the sampling days. The lowest temperature, highest DIC, and negative fCO2 were registered in NAV2017. NAV2016, GUA2016, and BC2017 showed the highest temperatures; and MUL2017 and MAZ2017, intermediate temperatures. The most contrasting fCO2 values occurred in GUA2017 (0.56 ± 0.46 mmol C·m–2·d–1) and MAZ2017 (–2.26 ± 1.85 mmol C· m–2·d–1). In general, fCO2 is determined by the oceanographic conditions of each study area.