阿拉伯海东南部氧化亚氮和甲烷的动态

IF 3 3区 地球科学 Q2 CHEMISTRY, MULTIDISCIPLINARY Marine Chemistry Pub Date : 2023-11-18 DOI:10.1016/j.marchem.2023.104333
K.S. Arya , T.R. Gireeshkumar , E.R. Vignesh , K.R. Muraleedharan , K.U. Abdul Jaleel , M.A. Abdul Razaque , C.M. Furtado , V. Sudheesh , T.M. Balakrishnan Nair , K.S. Krishnamohan
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引用次数: 0

摘要

本研究探讨了阿拉伯海东南部(SEAS)溶解甲烷(CH4)和氧化亚氮(N2O)季节内和季节间变化的控制因素。CH4、N2O和相关生物地球化学参数的时序测量是在沿海水域的月度运动和海洋陆架水域的季节性运动中进行的。西南季风期(SWM)由于沿海上升流导致低氧水体的入侵,使区域水文环境发生了剧烈变化,N2O浓度显著升高,CH4水平显著降低。上升流期N2O和CH4的变化范围分别为8 ~ 89 nM和9 ~ 165 nM,非上升流期N2O和CH4的变化范围分别为2 ~ 27 nM和5 ~ 271 nM。N2O与表观氧利用率(AOU)、溶解硝酸盐和亚硝酸盐(NO2−+ NO3−)和过量N2O (ΔN2O)呈显著正相关,与溶解氧呈负相关,表明该地区非上升流期主要发生硝化作用。相反,在SWM过程中,N2O与NO2−+ NO3−不相关;然而,在缺氧条件下,它与溶解的亚硝酸盐呈显著负相关,这表明在缺氧条件下,硝化-反硝化可能是一个活跃的过程。富氧春季季风间期记录的CH4高(低)水平与底栖生物群落的变化有直接关系。大型成虫的高丰度和活跃的生物扰动导致沉积CH4大量释放,导致春季风间期水体CH4浓度升高(17 ~ 271 nM)。此外,营养受限条件下甲基化有机化合物的分解也可能支持地表水中CH4水平的升高。低的大型动物丰度和减少的生物扰动导致缺氧期间地下CH4浓度显著降低。总体而言,海洋是大气中CH4和N2O的净源,N2O的海气通量为1.7 ~ 85.8 μM−2 d−1(19.88±22.20 μM−2 d−1),CH4的海气通量为4 ~ 756 μM−2 d−1(133±158 μM−2 d−1)。
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Dynamics of nitrous oxide and methane in the southeastern Arabian Sea

This study examined the factors controlling the intra- and inter-seasonal variations of dissolved methane (CH4) and nitrous oxide (N2O) in the southeastern Arabian Sea (SEAS). Time-series measurements of CH4, N2O and allied biogeochemical parameters were carried out during the monthly campaigns in the coastal waters and a seasonal campaign in the shelf waters of the SEAS. The southwest monsoon period (SWM) brought drastic changes in the regional hydrography through the incursion of hypoxic waters due to coastal upwelling, which increased N2O concentrations substantially but reduced CH4 levels. The ranges of N2O and CH4 during the upwelling period were 8–89 nM and 9–165 nM, respectively, and the non-upwelling period was 2–27 nM and 5–271 nM, respectively. The significant positive correlations of N2O with apparent oxygen utilisation (AOU), the sum of dissolved nitrate and nitrite (NO2 + NO3) and excess N2O (ΔN2O), as well as a negative correlation with dissolved oxygen indicates that nitrification is the major process in this region during the non-upwelling period. In contrast, during SWM, N2O did not correlate with NO2 + NO3; however, it exhibited a significant negative correlation with dissolved nitrite (under hypoxia), suggesting the possibility of nitrifier-denitrification as an active process during hypoxia. The high (low) levels of CH4 recorded during the oxic spring inter-monsoon (hypoxic during the SWM) period showed a direct dependency on the changes in the benthic community. The high abundance of the adult macrofauna and active bioturbation resulted in high sedimentary CH4 release, which led to enhanced water column CH4 concentrations (17–271 nM) during the spring inter-monsoon period. In addition, the breakdown of methylated organic compounds under nutrient-limited conditions may also support the elevated CH4 levels in surface waters. A low macrofaunal abundance and reduced bioturbation led to a considerable reduction of subsurface CH4 concentrations during hypoxia. Overall, the SEAS is found to be a net source of CH4 and N2O to the atmosphere, with its sea-to-air fluxes ranging from 1.7 to 85.8 μM m−2 d−1 (19.88 ± 22.20 μM m−2 d−1) for N2O and 4–756 μM m−2 d−1(133 ± 158 μM m−2 d−1) for CH4.

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来源期刊
Marine Chemistry
Marine Chemistry 化学-海洋学
CiteScore
6.00
自引率
3.30%
发文量
70
审稿时长
4.5 months
期刊介绍: Marine Chemistry is an international medium for the publication of original studies and occasional reviews in the field of chemistry in the marine environment, with emphasis on the dynamic approach. The journal endeavours to cover all aspects, from chemical processes to theoretical and experimental work, and, by providing a central channel of communication, to speed the flow of information in this relatively new and rapidly expanding discipline.
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