Dissolved methane (CH4) was measured at various depths in the western Arctic Ocean. The CH4 concentrations at the surface show an increasing trend northward toward stations at the shelf break and a decreasing trend toward.stations in the Canada Basin. The mean sea-to-air flux is estimated to be 10.08 mu mol/m(2)/d, indicates that the Chukchi Sea shelf (CSS) is an active site of CH4. Methane concentrations at the shelf stations increase from the surface to the bottom, and the maximum nutrient concentrations occur in the bottom layer. Strong correlations exist between CH4 and PO43-, SiO42-, or NO2-, suggesting that the production of CH4 is likely related to the degradation of organic matter in the sediment, supporting a biogenic source. At the slope and basin stations, the maximum values were observed in the subsurface of the upper halocline layer (UHL), and the concentrations decrease with increasing depth. The CH4 concentrations are elevated by similar to 7.9 nmol/L in the UHL compared with the homogeneous CH4 concentrations observed in the deep water. The elevated values in the UHL result primarily from northward spreading of CH4-rich water from the shelf. A mass balance model was used to calculate the CH4 budget in the CSS. The results show that effluxes of CH4 from the sediment-water interface and the in situ production of CH4 represent the major sources of CH4 over the CSS (95%). The main outputs for CH4 in the CSS are the sea-to-air flux and oxidation of CH4 in the water column, which account for 95% of the CH4 exports.

• 出版日期2017-9-15
• 单位国家海洋局第三海洋研究所; 国家海洋局第二海洋研究所