The Effects of Hypoxia on Sediment Nitrogen Cycling in the Baltic Sea

Helena Jantti; Susanna Hietanen

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The Effects of Hypoxia on Sediment Nitrogen Cycling in the Baltic Sea

机译：低氧对波罗的海沉积物氮循环的影响

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Primary production in the eutrophic Baltic Sea is limited by nitrogen availability; hence denitrification (natural transformation of nitrate to gaseous N_2) in the sediments is crucial in mitigating the effects of eutrophication. This study shows that dissimilatory nitrate reduction to ammonium (DNRA) process, where nitrogen is not removed but instead recycled in the system, dominates nitrate reduction in low oxygen conditions (O_2<110 μM), which have been persistent in the central Gulf of Finland during the past decade. The nitrogen removal rates measured in this study show that nitrogen removal has decreased in the Gulf of Finland compared to rates measured in mid-1990s and the decrease is most likely caused by the increased bottom water hypoxia.

机译：富营养化的波罗的海的初级生产受到氮素供应的限制。因此，沉积物中的反硝化作用（硝酸盐自然转化为气态N_2）对于减轻富营养化的影响至关重要。这项研究表明，异化硝酸盐还原成铵（DNRA）的过程，其中不除去氮，而是在系统中进行循环利用，在低氧条件下（O_2 <110μM）硝酸盐还原起主要作用，该条件在芬兰中部海湾一直存在在过去的十年中。这项研究中测得的脱氮率表明，与1990年代中期测得的率相比，芬兰湾的脱氮率有所下降，而下降的可能性很可能是由于底部缺氧性增加所致。

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《Ambio: A Journal of the Human Environment》 |2012年第2期|共9页
作者
Helena Jantti; Susanna Hietanen;
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正文语种 eng
中图分类环境科学、安全科学;
关键词
Baltic Sea; Sediment; Hypoxia; Nitrogen; Denitrification; DNRA;

机译：波罗的海沉积物缺氧氮反硝化DNRA;
入库时间 2022-08-18 09:57:26

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1. The Effects of Hypoxia on Sediment Nitrogen Cycling in the Baltic Sea [J] . Helena Jäntti, Susanna Hietanen AMBIO: A Journal of the Human Environment . 2012,第2期

机译：低氧对波罗的海沉积物氮循环的影响
2. Rates and regulation of nitrogen cycling in seasonally hypoxic sediments during winter (Boknis Eck, SW Baltic Sea): Sensitivity to environmental variables [J] . A.W. Dale, S. Sommer, L. Bohlen, Estuarine Coastal and Shelf Science . 2011,第1期

机译：冬季季节性低氧沉积物中氮循环的速率和调控（波克尼斯·埃克，波罗的海）：对环境变量的敏感性
3. The potential effect of sustained hypoxia on nitrogen cycling in sediment from the southern North Sea: a mesocosm experiment [J] . Neubacher Elke C., Parker Ruth E., Trimmer Mark Biogeochemistry . 2013,第1a3期

机译：持续缺氧对北海南部沉积物中氮循环的潜在影响：中观实验
4. Effects of Periodic Drying-Rewetting Cycles on Nitrogen Contents in Sediments in a Typical Coastal Wetland, Chongming East Intertidal Flat [C] . Cao Xue, Han Jiangang, Zhu Yongli, 3rd International conference on pollution ecology . 2012

机译：崇明东潮间带典型周期性湿润地区周期性的干湿循环对沉积物中氮含量的影响
5. Effects of benthic macrofauna on nitrogen cycling and oxygen consumption of estuarine sediments. [D] . Mayer, Marilyn Suzanne. 1992

机译：底栖大型动物对河口沉积物氮循环和耗氧量的影响。
6. The Effects of Hypoxia on Sediment Nitrogen Cycling in the Baltic Sea [O] . Helena Jäntti, Susanna Hietanen 2012

机译：低氧对波罗的海沉积物氮循环的影响
7. Geochemical and acoustic evidence for the occurrence of methane in sediments of the Polish sector of the southern Baltic Sea**The research was supported by the Polish Ministry of Science and Higher Education grant No. N306 441638 entitled ‘Occurrence and transformations of methane in sediments of the southern Baltic Sea’, by the BONUS project ‘BALTIC GAS. Methane emission in the Baltic Sea: Gas storage and effects of climate change and eutrophication (2009–2011)’ and by the National Science Centre grant No. DEC-2011/03/N/ST10/05633 ‘Acoustic recognition of gas-bearing sediment forms in the southern Baltic Sea and quantitative assessment of gas outflows’. [O] . Brodecka Aleksandra, Majewski Piotr, Bolałek Jerzy, 2013

机译：在波罗的海南部波兰地区沉积物中甲烷发生的地球化学和声学证据**这项研究得到了波兰科学和高等教育部N306 441638资助，题为“甲烷在沉积物中的发生和转化” BONUS项目“ BALTIC GAS”开发的“波罗的海南部”。《波罗的海的甲烷排放：气体存储以及气候变化和富营养化的影响（2009-2011年）》，以及国家科学中心授予的DEC-2011 / 03 / N / ST10 / 05633号文件“对含气沉积物的声学识别”在波罗的海南部形成天然气并定量评估出气量。

The Effects of Hypoxia on Sediment Nitrogen Cycling in the Baltic Sea

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