Nitrous oxide in the western Bay of Bengal

Extensive observations on nitrous oxide (N2O) in the atmosphere and waters of the western Bay of Bengal during March–April 1991 yield surface saturations and atmospheric fluxes ranging from 89.3 to 213.9% (mean 125.2%), and from −0.10 to 10.67 μmol (N2O)/m2/d (mean 0.65 μmol/m2/d), respectively. The overall N2O flux from the Bay of Bengal is estimated to be 0.027–0.077 Tg N/yr which is substantially lower than that computed for the Arabian Sea (0.19–0.28 Tg N/yr). Lower surface saturations and consequently smaller air-sea fluxes in the Bay of Bengal may result from strong stratification caused by the immense river runoff. The computed vertical exchange coefficient (0.16 cm2/s) at the top of the thermocline is about 1/3 of the corresponding value (0.55 cm2/s) in the Arabian Sea. The associated smaller nutrient fluxes to the euphotic zone may be significantly responsible for the lower productivity of the Bay of Bengal. As expected, marked accumulation of N2O occurs in subsurface layers of the Bay of Bengal with the total inventory of excess nitrous oxide (ΔN2O) estimated as 5.4 Tg N. Since the Bay of Bengal is not an active water-column denitrification site, there appears to be no loss of N2O through bacterial reduction. Vertical profiles of N2O are characterized by a pronounced maximum at 200–300 m which intensifies northward. The N2O distribution seems to be influenced by the subsurface circulation. The relationship between ΔN2O and the apparent oxygen utilization (AOU) is linear in three ranges: at AOU < 150 μM, from AOU ≈ 150 μM to the N2O maximum (depth ≈ 300 m), and at depths > 1000 m. Within the depth range 300–1000 m, however, ΔN2O and AOU are not significantly correlated due to large changes in N2O concentrations associated with small variations in the ambient oxygen levels.