大伙房水库营养状态遥感评价
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摘要
利用遥感方法对大伙房水库营养状态进行评价。首先,确定了适用于大伙房水库遥感反演透明度和叶绿素a的最佳波段组合;其次,建立2指标的波段组合和最小二乘支持向量机(LS-SVM)模型并评估模型精度;再次,确定LS-SVM模型为水库2项指标预测模型,计算2指标综合营养状态指数并进行营养状态分级;最后,成功将LS-SVM模型应用于2017年7月2指标反演,并利用2指标综合营养状态指数法评价水库水体营养状态。结论:LS-SVM模型适用于2指标的反演预测,2项指标综合营养状态指数法适用于大伙房水库水体的营养状态评价。
This study had assessed the trophic state of Dahuofang reservoir by remote sensing. Firstly, the optimal band combination used for transparency and chlorophyll-a calculation had been analyzed. Secondly, the band combination model and least squares support vector machine model( LS-SVM) for estimating the concentration of chlorophyll-a and the value of transparency had been built up, meanwhile, the accuracy had been assessed. Thirdly, LS-SVM had been used for estimating those value, and the trophic state index model TLI( ∑) had been built up with chlorophyll-a and the transparency. Lastly, the LS-SVM model for chlorophyll-a and the transparency and the two factors' TLI( ∑) for trophic state assessment had been successfully applied to satellite image in July,2017. To sum up, LS-SVM was a suitable model for estimating the concentration chlorophyll-a and the value of transparency, two factors' TLI( ∑) could also be used to assess the trophic state in Dahuofang reservoir.
This study had assessed the trophic state of Dahuofang reservoir by remote sensing. Firstly, the optimal band combination used for transparency and chlorophyll-a calculation had been analyzed. Secondly, the band combination model and least squares support vector machine model( LS-SVM) for estimating the concentration of chlorophyll-a and the value of transparency had been built up, meanwhile, the accuracy had been assessed. Thirdly, LS-SVM had been used for estimating those value, and the trophic state index model TLI( ∑) had been built up with chlorophyll-a and the transparency. Lastly, the LS-SVM model for chlorophyll-a and the transparency and the two factors' TLI( ∑) for trophic state assessment had been successfully applied to satellite image in July,2017. To sum up, LS-SVM was a suitable model for estimating the concentration chlorophyll-a and the value of transparency, two factors' TLI( ∑) could also be used to assess the trophic state in Dahuofang reservoir.
引文
[1]史玉强,金福杰,朱玉,等.辽宁大伙房水库浮游植物演替生态环境特征[J].辽宁城乡环境科技,1998(2):76-81.
[2]况琪军,马沛明,胡征宇,等.湖泊富营养化的藻类生物学评价与治理研究进展[J].安全与环境学报,2005(2):87-91.
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[7]温树影.大伙房水库水体富营养化现状分析及对策研究[J].水土保持应用技术,2015(1):31-32.
[8]贺斌,金永民.辽宁大伙房水库水质富营养化评价[J].黑龙江环境通报,2009(4):53-54.
[9]张淑琴.辽宁大伙房水库水质富营养化状况及其发展趋势[J].黑龙江环境通报,2012(1):25-27.
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[11]陈俊.大伙房水库水质预测中水文水质模型联合应用分析[J].黑龙江水利科技,2017,45(1):146-148.
[12]朱茂森.基于模糊数学的大伙房水库营养状态评价[J].东北水利水电,2017,35(9):22-25.
[13]祝令亚.湖泊水质遥感监测与评价方法研究[D].北京:中国科学院研究生院(遥感应用研究所),2006.
[14]吴传庆,盖嘉翔,王桥,等.湖泊富营养化遥感评价模型的建立方法[J].中国环境监测,2011(5):77-82.
[15]徐祎凡.基于环境一号卫星数据的太湖富营养化遥感评价[D].南京:南京师范大学,2012.
[16]任春涛.基于遥感监测的湖泊富营养化状态的模糊模式识别研究[D].呼和浩特:内蒙古农业大学,2007.
[17]解启蒙,林茂森,杨国范,等.清河水库水体高锰酸盐指数遥感反演模型研究[J].中国农村水利水电,2017(10):57-61.
[18]金相灿,朱萱.我国主要湖泊和水库水体的营养特征及其变化[J].环境科学研究,1991(1):11-20.
[19]牟冰.基于静止轨道水色卫星GOCI的渤海浑浊水体遥感信息提取方法研究[D].青岛:中国海洋大学,2014.
[20]檀静.面向内陆浑浊水体遥感的Gordon大气校正算法改进方法研究[D].南京:南京师范大学,2013.
[2]况琪军,马沛明,胡征宇,等.湖泊富营养化的藻类生物学评价与治理研究进展[J].安全与环境学报,2005(2):87-91.
[3]王利佳,凤颀,白艳丽.大伙房水库水质污染和富营养化问题[J].环境保护与循环经济,2001(6):45-47.
[4]刘智慧.大伙房水库水质生态学评价[J].环境保护科学,2004(3):61-62.
[5]牛海宁,孙英.大伙房水库水体中磷、氮污染的变化趋势[J].环境保护与循环经济,2001(2):34-35.
[6]宋世伟,史玉强.辽宁大伙房水库水质变化趋势研究[J].环境保护与循环经济,2006,26(1):36-38.
[7]温树影.大伙房水库水体富营养化现状分析及对策研究[J].水土保持应用技术,2015(1):31-32.
[8]贺斌,金永民.辽宁大伙房水库水质富营养化评价[J].黑龙江环境通报,2009(4):53-54.
[9]张淑琴.辽宁大伙房水库水质富营养化状况及其发展趋势[J].黑龙江环境通报,2012(1):25-27.
[10]沈晓飞,马巍,罗佳翠,等.湖库营养状态评价方法及适用性分析[J].中国水利水电科学研究院学报,2013(1):74-80.
[11]陈俊.大伙房水库水质预测中水文水质模型联合应用分析[J].黑龙江水利科技,2017,45(1):146-148.
[12]朱茂森.基于模糊数学的大伙房水库营养状态评价[J].东北水利水电,2017,35(9):22-25.
[13]祝令亚.湖泊水质遥感监测与评价方法研究[D].北京:中国科学院研究生院(遥感应用研究所),2006.
[14]吴传庆,盖嘉翔,王桥,等.湖泊富营养化遥感评价模型的建立方法[J].中国环境监测,2011(5):77-82.
[15]徐祎凡.基于环境一号卫星数据的太湖富营养化遥感评价[D].南京:南京师范大学,2012.
[16]任春涛.基于遥感监测的湖泊富营养化状态的模糊模式识别研究[D].呼和浩特:内蒙古农业大学,2007.
[17]解启蒙,林茂森,杨国范,等.清河水库水体高锰酸盐指数遥感反演模型研究[J].中国农村水利水电,2017(10):57-61.
[18]金相灿,朱萱.我国主要湖泊和水库水体的营养特征及其变化[J].环境科学研究,1991(1):11-20.
[19]牟冰.基于静止轨道水色卫星GOCI的渤海浑浊水体遥感信息提取方法研究[D].青岛:中国海洋大学,2014.
[20]檀静.面向内陆浑浊水体遥感的Gordon大气校正算法改进方法研究[D].南京:南京师范大学,2013.
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