汉石桥湿地水质参数光谱分析与遥感反演

doi:10.3964/j.issn.1000-0593(2010)03-0757-05

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摘要：水质可见光近红外遥感监测是通过研究水体反射光谱特征与水质参数之间的关系，建立水质参数反演算法进行的。与传统水质监测方法相比，遥感技术监测水质可以快速反映区域水质在空间和时间上的分布情况和变化。文章以汉石桥湿地水体水质为研究对象，通过在可见光近红外波段分析光谱仪和ASTER遥感影像的水质参数特征光谱，建立了水质参数与最佳波段及其组合的多元线性回归方程。研究结果表明，基于地面光谱仪的光谱特征分析可为航天遥感特征波段的选择提供依据，但估算模型不能通用。基于ASTER遥感的水质参数特征光谱其波段比值相对向长波方向移动, 研究最终在分析ASTER遥感特征波段基础上，构建水质参数估算模型，并通过该模型得到目标水质参数空间分布图，实现了对湿地水质时空变异的遥感监测。

关键词：遥感监测;湿地水质;特征光谱;估算模型

Abstract：The research object of the present paper is the water quality of Han Shiqiao wetland water. Water spectrum and quality parameters were measured on the site and in the lab. The authors simulated the relationships between water quality parameters and the best bands or combination, and built the multiple linear regression equation to obtain characteristic spectrum of the key water quality parameters. Besides, several key issues involved in applying ASTER satellite imagery to water quality include atmospheric correction, discussing methods for ASTER data bands analysis, and choosing the best bands and band combination. Results indicated that although the simulation model is not universal, the analysis of spectral characteristics based on ground spectrometer could provide foundations for the choice of remote sensing characteristics bands. The band ratio of water quality parameters simulated from ASTER spectral characteristics moves to relatively long-wave band. Finally, based on the analysis of ASTER remote sensing characteristics bands, the authors built water quality parameters regression model. The models for water quality parameters were recommended, and the accuracies of these models were analyzed. Making use of regression model, we executed spatial distribution map of water quality parameters to achieve wetland water monitoring with remote sensing in terms of variation in space and with time.

Key words：Remote sensing monitoring;Water quality;Spectral characteristics;Semi-empirical algorithms

收稿日期: 2008-12-12 修订日期: 2009-03-16

中图分类号:	TP722.4
	S127

通讯作者: 李红 E-mail: edelweiss-bloom@163.com

引用本文:

杜为静^1，2，李淑敏¹，李红^1*，孙丹峰²，周连第¹ . 汉石桥湿地水质参数光谱分析与遥感反演[J]. 光谱学与光谱分析, 2010, 30(03): 757-761.
DU Wei-jing^{1, 2}, LI Shu-min¹, LI Hong^1*, SUN Dan-feng², ZHOU Lian-di¹ . Spectral Characteristics Analysis and Remote Sensing Inversion of Water Quality Parameters in Han Shiqiao Wetland . SPECTROSCOPY AND SPECTRAL ANALYSIS, 2010, 30(03): 757-761.

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[1] GUO Yue-dong，HE Yan，DENG Wei，et al(郭跃东，何岩，邓伟，等). Wetland Science(湿地科学), 2004, 2(1)：47.
[2] HE Chi-quan，ZHAO Kui-yi(何池全，赵魁义). Advances in Earth Science(地球科学进展), 2000, 15(2)：165.
[3] Cairns S H, Dickson K L, Atkinson S F. Photogrammetric Engineering and Remote Sensing, 1997, 63(3): 263.
[4] Thiemann S, Kaufmann H. Remote Sensing of Environment, 2000, 73(2): 227.
[5] Rundquist D C, Han L, Schalles J F, et al. Photogrammetric Engineering and Remote Sensing, 1996, 62(2): 195.
[6] ZHU Li(朱利). Journal of Chinese Urban Forestry(中国城市林业), 2007, 5(1): 37.
[7] XIE Huan, TONG Xiao-hua(谢欢，童小华). Remote Sensing Information(遥感信息), 2006, (2): 67.
[8] WEI Fu-sheng, et al(魏复盛, 等). Guide to Analytical Method on Water and Waste Water(水和废水监测分析方法指南). Beijing: China Environmental Science Press(北京：中国环境科学出版社)，2002.
[9] SHU Xiao-zhou, YIN Qiu, KUANG Ding-bo(疏小舟，尹球，匡定波). Journal of Remote Sensing(遥感学报), 2000, 4(1): 41.
[10] Peter F, Tommy L, Catherine O. The Science of the Total Environment, 2001, 268(1-3): 155.
[11] Lü Heng, JIANG Nan, LUO Lian-cong(吕恒，江南，罗潋葱). Scientia Geographica Sinica(地理科学), 2006, 26(4): 473.
[12] DUAN Hong-tao，WEN Yu，ZHANG Bai, et al(段洪涛，闻钰，张柏, 等). Journal of Arid Land Researches and Environment(干旱区资源与环境), 2006, 20(6): 104.
[13] Kopelevich O V, Mezhericher E M. Oceanology, 1979, 19: 621.
[14] ZHENG Wei，ZENG Zhi-yuan(郑伟，曾志远). Remote Sensing for Land & Resources(国土资源遥感), 2005, 3(1): 8.
[15] QIAO Ping-lin，ZHANG Ji-xian，LIN Zong-jian(乔平林，张继贤，林宗坚). Remote Sensing for Land & Resources(国土资源遥感), 2003, (4): 39.
[16] Dekker A G, Hoogenboom H J. Proceedings of the Sixth International Colloquium on Physical Measurement and Signatures in Remote Sensing, 1994. 245.
[17] LI Jing(李京). Acta Scientiae Circumstantiae(环境科学学报), 1986, 6(2): 166.
[18] Gordon H R. Applied Optics, 1990, 29(22): 3228.
[19] Goldman C R, Richards R C, et al. Remote Sensing of Environment, 1974, (3): 49.