珠江口溶解有机物光化学降解活性

Photoreactivity of dissolved organic matter in the Pearl River Estuary

  • 摘要: 本文分别于2015年夏季和2016年冬季对珠江口表层水体中溶解有机碳(DOC)和有色溶解有机物(CDOM)的光化学降解行为进行了研究。研究结果表明,DOC浓度和CDOM丰度随光照时间呈指数递减的趋势。受陆源输入和人为活动的影响,淡水端元可降解DOC和CDOM的含量较高,且该含量向海逐渐降低。冬季,淡水端元可降解DOC占DOC总量的50%,显著高于夏季,而CDOM无明显季节变化,揭示了冬季更高含量的无色溶解有机物(DOM)参与了间接光化学降解。受温度和光照的影响,自然条件下夏季DOC和CDOM的光化学降解速率分别约为冬季的4倍和2.5倍,夏季光化学过程是珠江口DOM向海输送过程中重要的汇。在光降解过程中,DOM芳香性和分子量先迅速降低,而后趋于稳定,表明芳香族大分子有机物是发生光降解的主要底物。

     

    Abstract: The photodegradation of dissolved organic carbon (DOC) and chromophoric dissolved organic matter (CDOM) was investigated in surface Pearl River estuary water in summer 2015 and winter 2016. The results revealed both DOC and CDOM decreased exponentially with irradiation time. The contents of photochemical labile DOC and CDOM were higher in the freshwater endmember, induced by the influence of terrigenous- and sewage-derived organic matter, and the fraction decreased seaward. The relative content of photochemical labile DOC was up to 50% in winter in the freshwater endmember, which was significantly higher than that in summer, whereas no obvious seasonal variation for CDOM. This demonstrated more transparent dissolved organic matter (DOM) participated indirect photochemistry in winter. Under natural conditions, the photodegradation rates of DOC and CDOM in summer were about 4 times and 2.5 times of those in winter, respectively, due mainly to the differences of temperature and solar irradiance. Our results also suggested photochemistry should be an important sink of DOM during its transport from the Pearl River to the shelf. Moreover, the aromaticity and molecular weight of DOM decreased rapidly during irradiation and then kept relatively constant, which suggested aromatic DOM with higher molecular weight was the dominant substrate of photodegradation.

     

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