Dissolved oxygen fluctuation alters dissolved organic carbon stability and can accumulate resistant fraction

IF 3 3区 地球科学 Q2 CHEMISTRY, MULTIDISCIPLINARY Marine Chemistry Pub Date : 2024-08-13 DOI:10.1016/j.marchem.2024.104441
Yu-Qing Li , Fu-Tao Fang , Cong Zeng , Zhuo-Yi Zhu
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Abstract

Recurrent dissolved oxygen (DO) depletion is common in many estuaries and coastal areas worldwide. However, its impact on the accumulation of resistant dissolved organic carbon (DOC) remains controversial. To address how recurrent DO depletion affects the degradation and stability of marine DOC, a series of DOC degradation incubations in a particulate-dissolved coexisting system in April 2021 were conducted, followed by a field investigation in the East China Sea (ECS) in October. In the ECS, we found that DO ranged from 4.71 to 7.40 mg/L in the near-bottom waters, while the degradation index (DI), an indicator of amino acids molecules, increased from −0.78–2.84, suggesting an accumulation of labile DOC over DO depletion. This is further supported by the bacteria community composition that showed an increase in anaerobic metabolism families when DO <6.29 mg/L. Laboratory incubation revealed strong labile DOC release (∼ 243 ± 38 μmol/L) from particulate organic carbon (POC) over oxygen depletion, followed by significant DOC loss in either anoxic-oxic or oxic-oxic groups. The degraded original DOC was slightly less in the oxygen depletion-treated group compared to the oxic group, and the resistant proportion was estimated as 1% ∼ 8% after 1–14 days of anoxic treatments. The resistant DOC accumulation after DO alleviation for 30 days was much less in amount when compared to the big release of labile DOC over DO depletion (48 vs. 243 μmol/L) and we believed that the lack of observed resistant DOC accumulation in the field observation was due to the overlap of multiple anoxic-oxic cycling processes and the masking effect of newly labile DOC released from the POC.

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溶解氧的波动会改变溶解有机碳的稳定性,并可能积累抗性部分
经常性溶解氧(DO)耗竭是全球许多河口和沿海地区的普遍现象。然而,它对抗性溶解有机碳(DOC)积累的影响仍然存在争议。为了解决溶解氧耗竭如何影响海洋溶解有机碳的降解和稳定性问题,我们于 2021 年 4 月在一个颗粒物-溶解物共存系统中进行了一系列溶解有机碳降解培养,并于 10 月在中国东海(ECS)进行了实地调查。在东海海域,我们发现近底水域的溶解氧介于 4.71 至 7.40 毫克/升之间,而作为氨基酸分子指标的降解指数(DI)则从-0.78 升至-2.84,这表明溶解氧耗竭的同时,可溶性溶解氧也在积累。细菌群落组成进一步证实了这一点,当溶解氧为 6.29 毫克/升时,厌氧代谢家族有所增加。实验室培养显示,在氧气耗尽时,颗粒有机碳(POC)释放出大量可溶性 DOC(243 ± 38 μmol/L),随后缺氧-缺氧或缺氧-缺氧组中的 DOC 大量流失。与缺氧组相比,缺氧处理组降解的原始 DOC 略少,缺氧处理 1-14 天后,抗性比例估计为 1% ∼ 8%。与溶解氧耗尽时大量释放的溶解氧相比,溶解氧降低 30 天后的抗性溶解氧积累量要小得多(48 μmol/L 与 243 μmol/L),我们认为实地观测中未观察到抗性溶解氧积累是由于多个缺氧-缺氧循环过程重叠以及 POC 新释放的溶解氧的掩蔽效应所致。
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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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