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湖泊富营养化状态的地面高光谱遥感评价 被引量:29

Evaluating Eutrophic State of Taihu Lake by in situ Hyperspectra
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摘要 分别于2004-06和2004-08在太湖的21个固定监测站点进行原位水质取样分析和波谱实测,进而利用地面实测高光谱数据评价太湖水体富营养化状态.水体富营养化程度的评价指标为营养状态指数(TSI).首先,根据太湖水体固有光学特性,用分析模型的方法建立水体反射率模拟模型,进而用求解优化函数的方法,利用Matlab软件反演叶绿素a浓度;其次,利用反演的叶绿素a浓度,计算采样点位的营养状态指数,并利用ArcView软件进行插值,制作太湖富营养状态评价图.结果表明,2004-06和2004-08太湖富营养化程度差异显著:6月,中营养水平湖区所占比例最大,其面积占总面积的61%;8月,轻度富营养水平湖区所占比例最大,其面积占总面积的52%.总体上,富营养化程度最严重的区域为太湖北部,由北向南富营养化程度逐渐减弱,东部的富营养化水平最低. In situ experiments including water quality analyzing and spectra measuring were conducted on Jun. , 2004 and Aug. , 2004 in Taihu Lake for 21 samples. Then eutrophic state of Taihu Lake was evaluated by measured hyperspectra data, and the evaluating index was eutrophic state index (TSI). Firstly, the simulation model of water reflectance was built by analytic model using inherent optical properties (IOPs). Then Chlorophyll a content (Chl-a) was inversed by optimizing method by Matlab software; Secondly, TSI was calculated by inversed Chl-a, and the eutrophic state of Taihu Lake was evaluated by using ArcView' s interpolation function. The evaluation figures show that: there are notable differences between Jun. , 2004 and Aug. , 2004. The proportion of mesotropher state is as high as 61% in June, while the proportion of light eutrophic is as high as 52% in August. In totally, the most serious eutrophic state occurs in north of Taihu Lake. Eutrophic state wears off from north to .south. The lowest eutrophic region is in the east of Taihu Lake.
出处 《环境科学》 EI CAS CSCD 北大核心 2006年第9期1770-1775,共6页 Environmental Science
基金 国家高技术研究发展计划(863)项目(AA131060) 国家自然科学基金项目(40571110) 江苏省教育厅自然科学基金项目(2004105TSJB141)
关键词 太湖 富营养化状态 高光谱 营养状态指数 Taihu Lake eutrophic state hyperspectra eutrophic state index
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  • 1李旭文,季耿善,杨静.苏州运河水质的TM分析[J].环境遥感,1993,8(1):36-44. 被引量:19
  • 2尹球,疏小舟,徐兆安,匡定波.湖泊水环境指标的超光谱响应特征分析[J].红外与毫米波学报,2004,23(6):427-430. 被引量:32
  • 3佘丰宁,蔡启铭,陈宇炜,李旭文.水体叶绿素含量的遥感定量模型[J].湖泊科学,1996,8(3):201-207. 被引量:41
  • 4陈楚群,施平,毛庆文.应用TM数据估算沿岸海水表层时绿素浓度模型研究[J].环境遥感,1996,11(3):168-176. 被引量:66
  • 5胡守仁 余少波.神经网络导论[M].长沙:国防科技大学出版社,1992.113-129.
  • 6中国海湾志编撰委员会.中国海湾志·第一分册(辽东半岛东部海湾)[M].北京:海洋出版社,1991..
  • 7[1]Findlay S, Sinsabaugh R L. Unravelling the sources and bioavailability of dissolved organic matter in lotic aquatic ecosystems [J]. Mar. Freshwat. Res., 1999,50(8):781-790.
  • 8[2]Bricaud A, Morel A, Prieur L. Absorption by dissolved organic matter of the sea (yellow substance) in the UV and visible domain[J]. Limnol. and Oceanogr., 1981,26(1):43-53.
  • 9[3]Kirk J T O. Light and photosynthesis in aquatic ecosystem [M].Cambridge, Britain: Cambridge University Press, 1994.
  • 10[4]Laurion I, Venture M, Catalan J, et al. Attenuation of ultraviolet radiation in mountain lakes: Factors controlling the among- and within-lake variability [J]. Limnol. and Oceanogr., 2000,45(6):1274-1288.

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