Study on the Relation between Fraction Cover and Mixed Spectra in Karst Enviroment
LIU Bo1,YUE Yue-min2,5,LI Ru3,WANG Ke-lin4,ZHANG Bing4,TONG Qing-xi1
1. State Key Laboratory of Remote Sensing Science, Institute of Remote Sensing Applications, Chinese Academy of Sciences, Beijing 100101,China 2. Institute of Subtropical Agriculture, Chinese Academy of Sciences, Changsha 410125,China 3. Institute of Space and Earth Information Science, the Chinese University of Hong Kong, Hong Kong,China 4. Center for Earth Observation and Digital Earth, Chinese Academy of Sciences, Beijing 100080, China 5. Huanjiang Experimental Station of Karst Ecosystem, Chinese Academy of Sciences, Huanjiang 547100, China
Abstract:Karst rocky desertification is one of the most serious eco-environmental problems of land degradation in karst regions, Southwest China. The fractional cover of vegetation and exposed bedrock are the main land surface symptoms and essential assessing indicators of karst rocky desertification. To assess the extent of rocky desertification in complex karst environments, the information of multiple land cover types fraction is needed. Based on in situ spectral reflectance data, this study proposed several spectral indices and explored the relationship between spectral features of main land cover types and their responding fractional cover. The results showed that spectral indices have much higher correlation coefficients with fractional cover than does spectral reflectance. Vegetation indices have good linear relation with fractional cover of photosynthetic vegetation(PV). The proposed spectral indices have high correlation coefficients with fractional cover of non-photosynthetic vegetation(NPV) and bare soil, with R2 0.70 and 0.73, respectively. Lower correlation coefficients(R2=0.55) with the factional cover of exposed bedrock, were observed. The absorption depth of four forms of the proposed indices has the highest correlation coefficient with the fractional cover of NPV, bare soil, and exposed rock. This study indicates that hyperspectral remote sensing has the potential for the extraction of karst rocky desertification information.
刘 波1,岳跃民2,5,李 儒3,王克林4,张 兵4,童庆禧1 . 喀斯特典型地物混合光谱与复合覆盖度关系研究 [J]. 光谱学与光谱分析, 2010, 30(09): 2470-2474.
LIU Bo1,YUE Yue-min2,5,LI Ru3,WANG Ke-lin4,ZHANG Bing4,TONG Qing-xi1 . Study on the Relation between Fraction Cover and Mixed Spectra in Karst Enviroment . SPECTROSCOPY AND SPECTRAL ANALYSIS, 2010, 30(09): 2470-2474.
[1] CAI Yun-long(蔡运龙). Advances In Earth Science(地球科学进展),1996,11(6):602. [2] ZHANG Hui-yuan,CAI Yun-long(张惠远,蔡运龙). Resources Research(资源科学),2000,22(5):21. [3] ZHANG Xiao-nan,WANG Ke-lin,ZHANG Wei,et al(张笑楠,王克林,张 伟,等) . Acta Ecologica Sinica(生态学报),2009,29(2):749. [4] WANG Shi-jie,LI Yang-bing(王世杰,李阳兵). Advances In Earth Science(地球科学进展),2007,22(6):474. [5] YUAN Dao-xian(袁道先) . Pratacul Tural Science(草业科学),2008,25(9):1. [6] WANG Ke-lin,SU Yi-rong,ZENG Fu-ping,et al(王克林,苏以荣,曾馥平, 等) . Research of Agricultural Modernization(农业现代化研究) ,2008,29(6):641. [7] ZHANG Ya-mei,XIONG Kang-ning,AN Yu-lun(张雅梅,熊康宁,安裕伦). Carsologica Sinica(中国岩溶),2003,22(2):150. [8] HUANG Q H,CAI Y L. Mountain Research and Development ,2009,29:14. [9] Anatoly A G, Yoram J K, Robert S,et al. Remote Sensing of Environment,2002,80:76. [10] Xiao J F,Aaron M. Remote Sensing of Environment,2005,98:237. [11] Carlson T N,Ripley D A. Remote Sensing of Environment,1997,62: 241. [12] Haboudane D, Miller J R, Pattey E, et al. Remote Sensing of Environment, 2004, 90: 337. [13] Van Der Meer F. International Journal of Applied Earth Observation and Geoinformation, 2004, 5: 55. [14] Nagler P L, Daughtry C S T, Goward S N. Remote Sensing of Environment, 2000, 71: 207. [15] FU Bi-hong(傅碧宏). Rock and Mineral Analysis(岩矿测试),1996,15(3):207.