Using new hyperspectral index to estimate leaf chlorophyll content in winter wheat

文献类型: 外文期刊

第一作者: Xu, Xingang

作者: Xu, Xingang;Song, Xiaoyu;Li, Cunjun;Wang, Jihua

作者机构:

关键词: leaf chlorophyll conten;normalized reflectance;spectral index;winter wheat

期刊名称:2012 FIRST INTERNATIONAL CONFERENCE ON AGRO-GEOINFORMATICS (AGRO-GEOINFORMATICS)

ISSN: 2334-3168

年卷期: 2012 年

页码:

收录情况: SCI

摘要: Leaf chlorophyll content is a key indicator of crop photosynthesis activity, which is correlated with leaf nitrogen concentration, and can serve nitrogen fertilizer decision-making. So it is of significant to estimate chlorophyll content for crop growth diagnosis. In this study, a new hyperspectral index was proposed to estimate leaf chlorophyll content in winter wheat. Hyperspectral reflectance data, covering bands from 350 to 2500nm, were collected using a ground-based ASD spectrometer on winter wheat at different stages from 2008 in rural fields of Beijing, China. Leaf chlorophyll content was obtained by traditional laboratory methods on the same area. First, hyperspectral reflectance data from 400 to 1300nm were normalized, and then a new spectral index, symbolized k(nir), was proposed by a mean of fitting the normalized reflectance ranging from 760 to 920nm to evaluate chlorophyll content in winter wheat in comparison with some existing typical indices. The analysis results showed that k(nir) was the best index for assessing chlorophyll comparing with the existing indices, with R-2 value of 0.51. It indicates that the new spectral index has a good potential for estimating chlorophyll in winter wheat.

分类号:

  • 相关文献

[1]Estimation of water productivity in winter wheat using the AquaCrop model with field hyperspectral data. Jin, Xiuliang,Jin, Xiuliang,Yang, Guijun,Li, Zhenhai,Xu, Xingang,Jin, Xiuliang,Yang, Guijun,Li, Zhenhai,Xu, Xingang,Wang, Jihua,Lan, Yubin. 2018

[2]Monitoring the ratio of leaf carbon to nitrogen in winter wheat with hyperspectral measurements. Xu, Xin-gang,Yang, Xiao-dong,Gu, Xiao-he,Yang, Hao,Feng, Hai-kuan,Yang, Gui-jun,Song, Xiao-yu. 2015

[3]Estimation of Winter Wheat Biomass and Yield by Combining the AquaCrop Model and Field Hyperspectral Data. Jin, Xiuliang,Kumar, Lalit,Li, Zhenhai,Xu, Xingang,Yang, Guijun,Li, Zhenhai,Xu, Xingang,Yang, Guijun,Wang, Jihua. 2016

[4]Assessing the ratio of leaf carbon to nitrogen in winter wheat and spring barley based on hyperspectral data. Xu, Xin-gang,Gu, Xiao-he,Song, Xiao-yu,Xu, Bo,Yu, Hai-yang,Yang, Gui-jun,Feng, Hai-kuan. 2016

[5]ESTIMATING LEAF NITROGEN CONCENTRATION IN BARLEY BY COUPLING HYPERSPECTRAL MEASUREMENTS WITH OPTIMAL COMBINATION PRINCIPLE. Xu, Xingang,Zhao, Chunjiang,Song, Xiaoyu,Yang, Xiaodong,Yang, Guijun. 2014

[6]Associating new spectral features from visible and near infrared regions with optimal combination principle to monitor leaf nitrogen concentration in barley. Xu Xin-Gang,Zhao Chun-Jiang,Wang Ji-Hua,Li Cun-Jun,Yang Xiao-Dong. 2013

[7]Using optimal combination method and in situ hyperspectral measurements to estimate leaf nitrogen concentration in barley. Xu, Xin-gang,Zhao, Chun-jiang,Wang, Ji-hua,Zhang, Jing-cheng,Song, Xiao-yu.

[8]Estimation the leaf phosphorus concentration of litchi (Litchi chinensis Sonn.) at different growth stages by canopy reflectance. Wang, Chongyang,Chen, Shuisen,Li, Dan,Liu, Wei,Huang, Siyu,Peng, Zhiping. 2015

[9]HYPERSPECTRAL IMAGE FOR DISCRIMINATING APHID AND APHID DAMAGE REGION OF WINTER WHEAT LEAF. Luo Juhua,Huang Wenjiang,Guan Qingsong,Zhao Jinling,Zhang Jingcheng. 2013

[10]Prediction of soil organic matter content in a litchi orchard of South China using spectral indices. Li, Dan,Chen, Xiuzhi,Chen, Shuisen,Han, Liusheng,Li, Dan,Chen, Xiuzhi,Chen, Shuisen,Han, Liusheng,Li, Dan,Chen, Xiuzhi,Han, Liusheng,Peng, Zhiping,Chen, Weiqi,Chen, Shuisen,Li, Yongjie.

[11]Morphological and yield responses of winter wheat (Triticum aestivum L.) to raised bed planting in Northern China. Wang, Fahong,Kong, Ling'an,Li, Shengdong,Si, Jisheng,Feng, Bo,Zhang, Bin,Wang, Fahong,Sayre, Ken. 2011

[12]Estimating Winter Wheat Leaf Area Index From Ground and Hyperspectral Observations Using Vegetation Indices. Xie, Qiaoyun,Huang, Wenjiang,Zhang, Bing,Dong, Yingying,Xie, Qiaoyun,Chen, Pengfei,Song, Xiaoyu,Pascucci, Simone,Pignatti, Stefano,Laneve, Giovanni. 2016

[13]Winter wheat biomass estimation based on canopy spectra. Zheng Ling,Zhu Dazhou,Zhang Baohua,Wang Cheng,Zhao Chunjiang,Zheng Ling,Liang Dong. 2015

[14]MONITORING WINTER WHEAT MATURITY BY HYPERSPECTRAL VEGETATION INDICES. Wang, Qian,Huang, Yuanfang,Wang, Qian,Li, Cunjun,Wang, Jihua,Song, Xiaoyu,Huang, Wenjiang. 2012

[15]Yield loss compensation effect and water use efficiency of winter wheat under double-blank row mulching and limited irrigation in northern China. Yan, Qiuyan,Yang, Feng,Dong, Fei,Lu, Jinxiu,Li, Feng,Zhang, Jiancheng,Yan, Qiuyan,Duan, Zengqiang,Lou, Ge. 2018

[16]Discrimination of yellow rust and powdery mildew in wheat at leaf level using spectral signatures. Yuan, Lin,Zhang, Jingcheng,Zhao, Jinling,Du, Shizhou,Huang, Wenjiang,Wang, Jihua. 2012

[17]SELECTION OF SPECTRAL CHANNELS FOR SATELLITE SENSORS IN MONITORING YELLOW RUST DISEASE OF WINTER WHEAT. Yuan, Lin,Wang, Jihua,Yuan, Lin,Zhang, Jingcheng,Nie, Chenwei,Wei, Liguang,Yang, Guijun,Wang, Jihua,Yuan, Lin,Zhang, Jingcheng,Nie, Chenwei,Wei, Liguang,Yang, Guijun,Wang, Jihua. 2013

[18]Effect of brackish water irrigation and straw mulching on soil salinity and crop yields under monsoonal climatic conditions. Pang, Huan-Cheng,Li, Yu-Yi,Liang, Ye-Sen,Yang, Jin-Song. 2010

[19]Optimization of sampling basic unit size on spatial sampling for estimating winter wheat sown acreage. Wang Di,Zhou Qingbo,Chen Zhongxin,Liu Jia. 2012

[20]Evaluating Multispectral and Hyperspectral Satellite Remote Sensing Data for Estimating Winter Wheat Growth Parameters at Regional Scale in the North China Plain. Koppe, Wolfgang,Gnyp, Martin L.,Bareth, Georg,Koppe, Wolfgang,Chen, Xinping,Zhang, Fusuo,Li, Fei,Miao, Yuxin,Miao, Yuxin. 2010

作者其他论文 更多>>

微信小程序