Nitrogen and organic compounds correlations in groundwater from the aquifer in a semi-island (Curonian Spit, Lithuania)

Q4 Social Sciences

Socijalna Ekologija Pub Date : 2014-04-29 DOI:10.6001/EKOLOGIJA.V60I1.2857

G. Ignatavicius, V. Valskys

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引用次数: 2

Abstract

Anthropogenic activities are a major source of groundwater contamination in semi-island regions, and evaluation methods developed for inland sites may not be appropriate for coastal sites. We investigated the feasibility of diversity a nitrate-affected groundwater source-fate system in a semi-island environment using comparative methods. The study site was a groundwater well-field in Neringa, Lithuania, where nitrogen compounds obtained in groundwater had increased from the origin thereafter treatment plants. We used ammonium ions and ammonium nitrogen / organic compounds ratios and direct evaluation of total nitrogen concentration to show that biological processes occurred in both source area and water treatment, and could increase nitrogen concentrations over time. The nitrogen compounds and organic carbon compounds rate was changing water quality from the place of origin aquifer, offering a possible means of preventing diversity of the nitrogen compounds by controlling reacting rate over the site. We conclude that biological processes are the real reason of nitrogen compounds diversity at this type of site.

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半岛屿含水层地下水中氮和有机化合物的相关性(立陶宛库尔斯沙嘴)

人为活动是半岛屿地区地下水污染的主要来源，为内陆地点制定的评价方法可能不适用于沿海地点。采用比较方法研究了半岛屿环境中硝酸盐影响地下水水源-命运系统多样性的可行性。研究地点是立陶宛尼林加的一个地下水井田，在那里，地下水中获得的氮化合物在处理后从源头增加了。我们使用铵离子、铵态氮/有机物比值和总氮浓度的直接评价表明，生物过程在源区和水处理中都发生，并且随着时间的推移会增加氮浓度。氮化合物和有机碳化合物的速率从源头含水层开始改变水质，通过控制现场的反应速率来防止氮化合物的多样性提供了可能的手段。我们得出结论，生物过程是氮化合物多样性的真正原因在这种类型的网站。

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