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The results of 1 year of automated p CO 2 measurements in 2002/2003 onboard the car carrier M/V Falstaff are presented and analyzed with regard to the driving forces that change the seawater p CO 2 in the midlatitude North Atlantic Ocean. The p CO 2 in surface seawater is controlled by thermodynamics, biology, air‐sea gas exchange, and physical mixing. Here we estimate the effects on the annual cycle of p CO 2 and relate this property to parameters like SST, nitrate, and chlorophyll. On the basis of the amplitude in seawater p CO 2 for all 4° × 5° grid boxes, this region can be separated into an eastern and western basin. The annual p CO 2 cycle in the eastern basin (10°W–35°W) is less variable, which can be related to the two counteracting effects of temperature and biology; air‐sea gas exchange plays a minor role when using climatological MLD. In the western basin (36°W–70°W) the p CO 2 amplitude is more variable and strongly follows the thermodynamic forcing, since the biological forcing (as derived from nitrate concentrations) is decreased. Biology and air‐sea exchange strongly depend on the MLD and therefore also include physical mixing effects. The p CO 2 data of the analyzed region between 34°N and 52°N compare well to the Takahashi et al. 2002 climatology except for regions north of 45°N during the wintertime where the bias is significant.
Lüger et al. (Wed,) studied this question.