Dynamics of dissolved inorganic carbon in the Midriff Islands of the Gulf of California: Influence of water masses

José Martín Hernández-Ayón,Salvador Galindo-Bect,Francisco Delgadillo-Hinojosa,Cecilia Chapa-Balcorta,Miguel Angel Huerta-Díaz,Víctor Froylan Camacho-Ibar,Eduardo Santamaría-Del-Angel,José Antonio Segovia-Zavala

doi:10.7773/cm.v39i2.2243

Abstract

In the Midriff Islands region (MIR) of the Gulf of California (Mexico), tidal mixing plays a very important role in the distribution of chemical properties. Although the temporal variability of the water masses is linked to the ocean dynamics of this region, its importance has not been considered. This work estimates the effect of water mass dynamics on the spatial distribution and seasonal variation of dissolved inorganic carbon (DIC) in the region, with special emphasis on the Ballenas Channel, during winter 2002, spring 2003, and summer 2004. Gulf of California Water (GCW) was found throughout the area in the first 100 m. Below, Subtropical Subsurface Water (SSW) filled the Delfín, Salsipuedes, and Tiburón basins, while to the southeast it was found between 150 and 350 m. Pacific Intermediate Water did not cross the sills. SSW enriches the surface water of the MIR with DIC when it increases in volume and when mixed with GCW by tidal effects. This contribution decreases towards summertime, when SSW sinks and the volume of GCW increases. In winter, GCW had three water types associated with oceanographic mixing processes and in combination with the presence of SSW. There was a strong DIC vs temperature relationship, which can be applied to analyze the carbon dynamics in the MIR, both at the surface using satellite imagery and vertically to simulate physical processes.

Highlights

Upwelled water generally has a high concentration of dissolved inorganic carbon (DIC)
Gulf of California Water (GCW) occupied all the surface layer of the Midriff Islands region (MIR), while SST occurred below ~100 m in most of the region but not in the northwestern part se compararon los datos recolectados en marzo de 2002 (Umbrales I), mayo de 2003 (Umbrales II) y septiembre de 2004 (Umbrales III) a las mismas profundidades en tres estaciones representativas de la región del canal de Ballenas
Our findings show the role of Subsurface Water (SSW) as a source of DIC to GCW when it increases in volume and tidal mixing occurs

Summary

Introduction

Upwelled water generally has a high concentration of dissolved inorganic carbon (DIC). In upwelling regions, pCO2sea is greater than pCO2atm and favors a positive flux from the ocean to the atmosphere. Si el CO2 es consumido por el fitoplancton, la pCO2 superficial puede disminuir y ser menor que la pCO2atm, y se presentaría un flujo negativo de CO2 de Ciencias Marinas, Vol 39, No 2, 2013 of the Gulf of California (GC), the vertical transport of nutrients (Álvarez-Borrego et al 1978, Lavín et al 1995, Torres-Valdés 2000) and DIC (Gaxiola-Castro et al 1978; Hernández-Ayón et al 2007a, 2007b) is strongly controlled by tide-related mixing. In winter, Hernández-Ayón et al (2007b) observed the formation of peculiar oceanographic regions resulting from the effect of intense mixing on carbon dynamics

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Discussion

Conclusion