洞庭湖氮磷时空分布及形态组成特征
Temporal-spatial Distribution and Speciation of Nitrogen and Phosphorus in Dongting Lake
投稿时间:2016-01-31  修订日期:2016-05-27
DOI:10. 15928/j.1674-3075.2016.03.003
中文关键词:洞庭湖      时空分布  形态组成  相关分析
英文关键词:Dongting Lake  nitrogen  phosphorus  temporal and spatial distribution  speciation  correlation analysis
基金项目:湖南省环保科技计划项目(2014-16)
作者单位E-mail
田琪 湖南省洞庭湖生态环境监测中心国家环境保护洞庭湖科学观测研究站湖南岳阳414000 douzi115@126.com 
李利强* 湖南省洞庭湖生态环境监测中心国家环境保护洞庭湖科学观测研究站湖南岳阳414000 liliqiang858@163.com 
欧伏平 湖南省洞庭湖生态环境监测中心国家环境保护洞庭湖科学观测研究站湖南岳阳414000 oufuping1964@163.com 
卢少勇 中国环境科学研究院国家环境保护洞庭湖科学观测研究站国家环境保护湖泊污染控制重点实验室环境基准与风险评估国家重点实验室北京 100012 lushy2000@163.com 
王丑明 湖南省洞庭湖生态环境监测中心国家环境保护洞庭湖科学观测研究站湖南岳阳414000 douzi115@126.com 
张屹 湖南省洞庭湖生态环境监测中心国家环境保护洞庭湖科学观测研究站湖南岳阳414000 douzi115@126.com 
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中文摘要:
      为揭示洞庭湖水体营养盐形态结构、时空分布特征,分别于2014年8月(丰水期)、2015年1月(枯水期)在入湖河流、湖体、出湖口设置16个代表性断面采集水样,分析了氮、磷营养盐等特征指标。结果表明:①洞庭湖氮、磷是洞庭湖水体的主要污染物,亦是影响洞庭湖水体营养程度的主要营养指标。为揭示洞庭湖水体营养盐时空分布特征与形态结构及变化,于2014年8月(丰水期)和2015年1月(枯水期)在入湖河流、湖体、出湖口设置16个代表性断面采集水样,分析了氮、磷营养盐的特征指标,并与前期研究成果进行对比分析。 结果表明:①洞庭湖水体中,总氮(TN)含量为1.60~3.65 mg/L,平均值2.25 mg/L,总磷(TP)含量为0.060~0.359 mg/L,平均值0.138 mg/L;颗粒态总氮(TPN)含量为0.07~1.39 mg/L,平均值0.25 mg/L,颗粒态总磷(TPP)含量为0.003~0.172 mg/L,平均值0.05 mg/L。②时空分布上,水体中氮、磷含量整体表现为丰水期高于枯水期,出湖口最高,东洞庭湖高于西、南洞庭湖,入湖河流差异大的特征;颗粒态氮磷呈现自西向东呈逐渐增加趋势,与悬浮物(SS)的空间分布一致。③形态组成上,洞庭湖水体中氮磷以溶解态为主(TDN/TN为88.0%、TDP/TP为66.7%);三峡工程2003年蓄水前后,洞庭湖的磷营养盐形态组成发生了大的变化,由以颗粒态磷为主(TDP/TP 20.0%~35.6%)转变为以溶解态为主,而氮营养盐形态组成基本未变。④营养结构上,洞庭湖大多数断面TN/TP在10~22,且氮、磷浓度远高于水体富营养的限制阈值,比较适宜藻类生长。相关分析显示,洞庭湖TN、TP、TDN、TDP均与Chl-a相关性不显著,因此认为洞庭湖氮、磷营养盐对藻类生长的限制作用不明显。
英文摘要:
      Nitrogen and phosphorus are the primary pollutants and main indicators of eutrophication in Dongting Lake. In this study, the spatial-temporal distribution of nitrogen and phosphorus in Dongting Lake were investigated and the relationships between nitrogen and phosphorus levels and phytoplankton growth were analyzed. The study was carried out in August 2014 (wet season) and January 2015 (dry season) at 16 sampling stations that covered inflowing rivers, Dongting Lake and outflowing rivers. Physiochemical parameters were determined both in situ and by laboratory analysis of water samples; SD, WT, Chl-a, CODMn, TP, TN, TDP and TDN. Results show:(1) The concentration of TN ranged from 1.60 to 3.65 mg/L (average, 2.25 mg/L), and the concentration of TP ranged from 0.060to 0.359 mg/L (average, 0.138 mg/L).The concentration of total particulate nitrogen (TPN) varied from 0.07-1.39mg/L (average, 0.25 mg/L),and total particulate phosphorus (TPP) varied from 0.003-0.172mg/L (average, 0.05 mg/L).(2) Temporally, the concentrations of nitrogen and phosphorus were higher in wet season than dry season. Spatially, the highest concentrations of nitrogen and phosphorus occurred at the outlets of Dongting Lake, followed by the eastern lake area and then the western and southern lake areas. Obvious differences of nutrient concentration were observed among the four inflowing rivers. Particulate nitrogen and phosphorus increased gradually from west to east, consistent with the spatial distribution of SS.(3) Total dissolved nitrogen (TDN) and total dissolved phosphorus(TDP)were the primary species in Dongting Lake (88.0% TN and 66.7% TP). After Three Gorges Reservoir was first impounded in 2003, TDP increased from 20.0% to35.6%of TP, but nitrogen speciation remained nearly the same. (4)With regard to the nutrient structure, TN/TP ratios at most sampling sites ranged from10-22.Correlationsbetween nutrient levels (TN, TP, TDN and TDP) and Chl-a were not significant, indicating that algal growth is not limited by nitrogen or phosphorus in Dongting Lake. Concentrations of nitrogen and phosphorus in Dongting Lake are far higher than the threshold value for eutrophication and promote algae growth.
田琪,李利强,欧伏平,卢少勇,王丑明,张屹.2016.洞庭湖氮磷时空分布及形态组成特征[J].水生态学杂志,37(3):19-25.
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