| 太滆南运河入湖河口沉积物氮素分布特征 |
| 摘要点击 2774 全文点击 1265 投稿时间:2013-04-21 修订日期:2013-07-28 |
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| 中文关键词 氮 分布特征 沉积物 入湖河口 太滆南运河 |
| 英文关键词 nitrogen distribution characteristics sediments estuary Taige South River |
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| 中文摘要 |
| 为研究入湖河口沉积物中氮素的存在形态和空间分布状况,于2012年4月在太滆南运河入湖河口区采集沉积物柱状样品并对沉积物中的氮素进行了测定分析. 结果表明,NH4+-N、TN和Org-N在表层沉积物中的沉积具有一定的同步性. NH4+-N与Org-N、TN均呈显著正相关(P<0.05),Org-N和TN呈极显著正相关(P<0.01);Org-N是入湖河口表层沉积物氮素的主要成分,平均值为2843.77 mg·kg-1,占TN的质量分数为93.38%;氮素的水平分布存在差异:TN和Org-N的含量在入湖河干流延伸方向上,随距离的增加而逐渐降低,在偏离干流延伸方向上,呈“W”型波动变化. NH4+-N含量在距河口100 m内迅速下降,100 m后在波动中保持低水平. NO3--N含量在0~800 m内保持平衡,800 m后迅速升高;氮素的垂直分布存在差异:在入湖河干流延伸方向,NH4+-N含量随沉积物深度的增加而升高,NO3--N呈现出底层富集向表层富集转变的趋势,TN和Org-N的含量自表层向底层富集. |
| 英文摘要 |
| To characterize the distribution of nitrogen in the sediment of Taige south river estuary, column samples of sediments were collected and analyzed in April, 2012. Our results revealed that a synchronized trend existed among the levels of ammonium nitrogen (NH4+-N), organic nitrogen (Org-N) and total nitrogen (TN) in the surface layer of sediment. The NH4+-N positively correlated with TN and Org-N significantly (P<0.05) while TN highly significantly correlated with Org-N (P<0.01). Org-N was the major form of nitrogen, comprising 93.38% of total nitrogen (TN) averagely. Both horizontal and vertical distribution of nitrogen in sediments apparently changed along the distance to stream outlet. In the horizontal dimension in sediments, Org-N and TN decreased progressively as forwarding into the lake in the extending direction of the main stream, while showed a "W"-type fluctuation in the diverged direction away from the main stream. The level of NH4+-N decreased rapidly within 100 m to the stream outlet and remained constantly at a lower level beyond 100 m. However, the level of nitrate nitrogen (NO3--N) stabilized within 0-800 m and increased greatly beyond 800 m. In the vertical dimension in sediments, the level of NH4+-N increased with increasing depth. As the distance to the stream outlet increasing, the enrichment of NO3--N was enhanced in surface layers rather than in lower subsurface layers. Alternatively, the enrichment of Org-N and TN were reduced in surface layers but enhanced in subsurface layers. |
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