Air-water CO2 flux was measured from the gradient of fCO(2) (water) and fCO(2) (air) in the Hooghly-Matla estuary to offshore transition zone. An average gas transfer velocity of 10.2 cm h(-1) was evaluated in this region. fCO(2) (air) ranged between 275.08 mu atm to 459.07 mu atm and fCO(2) (water) varied from 149.1 mu atm to 299.2 mu atm. Wind velocity and bathymetry (depth) were observed to be the main controlling factors for exchange of CO2 between the atmosphere and water phase. Seawater is found to have a greater influence at the marine end of the estuary. Apart from physical mixing in this freshwater-sea water interacting zone, the study of fCO(2) and pH reflects a possible influence of biological activity as well. A maximum efflux rate of 24.56 mu mol m(-2) h(-1) and influx rate of -41.61 mu mol m(-2) h(-1) is determined during high wind velocity. The overall region surveyed was found to behave as a sink during the study period with an average (daytime) influx rate of -14.03 mu mol m(-2) h(-1).

• 出版日期2012-4