Relationship Between Hyperspectral Parameters of Winter Wheat Canopy and Plant Height Components under Late Frost Injury

文献类型: 外文期刊

第一作者: Shi Ping

作者: Shi Ping;Wu Yong-feng;Lu Guo-hua;Song Ji-qing;Hu Xin;Ren De-chao

作者机构:

关键词: Winter wheat;Late frost injury;Hyperspectral parameters;Plant height components;Correlation analysis;Regression analysis

期刊名称:SPECTROSCOPY AND SPECTRAL ANALYSIS ( 影响因子:0.589; 五年影响因子:0.504 )

ISSN: 1000-0593

年卷期: 2017 年 37 卷 12 期

页码:

收录情况: SCI

摘要: After late frost injury, the physiological and ecological aspects of winter wheat were changed, among which the change of plant height was the most significant. In this research, four plant height components, including plant height, ear length, peduncle length, and penultimate internode length, as well as 15 hyperspectral parameters, namely red edge position and the red edge amplitude, etc were obtained. The change rate plant height components, which has the best correlation with the hyperspectral parameters were selected by correlation analysis, and then were used to establish stepwise regression model. The results showed that only the change rate of plant height was significantly correlated with the hyperspectral parameters in both two experiments in 2013 and 2014. After the two experimental data were combined, the change rates of spike length, peduncle length and the penultimate internode length were also significantly correlated. Comprehensively considering the Adj. R2 and the significance level (Sig.), it can be seen that the best fitting model is the change rate of ear length, followed by the plant height, the peduncle length and the penultimate internode length. Comparing the RMSE of the model, it can be seen that the change rate of peduncle length got the highest prediction precision. The results of this study provide a good reference for the prediction of wheat plant height by hyperspectral parameters under freezing stress conditions. The results are of great significance to the study of the changes of plant height elements in winter wheat under low temperature stress.

分类号:

  • 相关文献

[1]Using Hyperspectral Data for Detecting Late Frost Injury to Winter Wheat under Different Topsoil Moistures. Meng Lei,Wu Yong-feng,Lu Guo-hua,Song Ji-qing,Hu Xin,Ren De-chao. 2017

[2]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

[3]Homogeneity models estimating cotton aboveground fresh biomass of the different canopy style based on hyperspectral parameters. Bai, Junhua,Li, Shaokun. 2007

[4]Modeling greenhouse air humidity by means of artificial neural network and principal component analysis. He, Fen,Ma, Chengwei,He, Fen.

[5]DNA markers for eating quality of indica rice in Indonesia. Lestari, Puji,Chu, Sang-Ho,Kim, Backki,Piao, Rihua,Koh, Hee-Jong,Lestari, Puji,Chu, Sang-Ho,Kim, Backki,Piao, Rihua,Koh, Hee-Jong,Lestari, Puji,Reflinur,Sutrisno,Jiang, Wenzhu,Chu, Sang-Ho,Chin, Joong-Hyeon,Kusbiantoro, Bram,Cho, Young-Chan,Luo, Zhixiang.

[6]Analysis of climate variability in the Manas River Valley, North-Western China (1956-2006). Zhang, Fenghua,Hua, Fan,Hanjra, Munir A.,Shu, Yunqiao,Hanjra, Munir A.,Hanjra, Munir A.,Li, Yuyi.

[7]Response of denitrifying genes coding for nitrite (nirK or nirS) and nitrous oxide (nosZ) reductases to different physico-chemical parameters during agricultural waste composting. Zhang, Lihua,Zeng, Guangming,Zhang, Jiachao,Chen, Yaoning,Lu, Lunhui,Zhu, Yuan,Yuan, Yujie,Huang, Aizhi,He, Ling,Zhang, Lihua,Zeng, Guangming,Chen, Yaoning,Lu, Lunhui,Zhu, Yuan,Yuan, Yujie,Huang, Aizhi,He, Ling,Zhang, Jiachao,Yu, Man,Li, Hui.

[8]Regression analysis of dynamics of insecticide resistance in field populations of chilo suppressalis (Lepidoptera: Crambidae) during 2002-2011 in China. He, Yueping,Zhang, Juefeng,Chen, Jianming,Gao, Congfen,Su, Jianya,Shen, Jinliang.

[9]Short-Term Price Forecasting For Agro-products Using Artificial Neural Networks. Li, Gan-qiong,Xu, Shi-wei,Li, Zhe-min. 2010

[10]ESTIMATION OF THE CHLOROPHYLL CONTENTS OF TOBACCO INFECTED BY THE MOSAIC VIRUS BASED ON CANOPY HYPERSPECTRAL CHARACTERISTICS. Xinju, L.,Mingqin, L.,Yuqing, D.,Yonghua, Y.,Jijun, N.. 2015

[11]An efficient approach to large-scale genotype-phenotype association analyses. Yang, Runqing,Liu, Yongxin.

[12]Identification of Metabolites and Transcripts Involved in Salt Stress and Recovery in Peanut. Cui, Feng,Liu, Yiyang,Han, Yan,Wan, Shubo,Li, Guowei,Cui, Feng,Liu, Yiyang,Han, Yan,Wan, Shubo,Li, Guowei,Sui, Na,Liu, Shanshan,Duan, Guangyou. 2018

[13]Multivariate analyses of major and trace elements in 19 species of herbs consumed in Yunnan, China. Dong, Xiao-Lei,Dong, Xiao-Lei,Zhang, Ji,Zhao, Yan-Li,Zuo, Zhi-Tian,Wang, Yuan-Zhong,Zhang, Jin-Yu.

[14]Chemometrics analysis on the content of fatty acid compositions in different walnut (Juglans regia L.) varieties. Li, Qun,Hu, Xiao-jun,Gao, Zhong-dong,Yin, Rong,Zhang, Qian-ru,Wang, Xian-ping,Duan, Ze-min.

[15]Detoxification of gramine by the cereal aphid Sitobion avenae. Cai, Qing-Nian,Han, Ying,Hu, Yuan,Zhao, Xin,Cao, Ya-Zhong.

[16]Land use/cover change and regional climate change in an arid grassland ecosystem of Inner Mongolia, China. Li, Zhouyuan,Wu, Wenzhao,Liu, Xuehua,Liu, Xinchao,Li, Zhouyuan,Wu, Wenzhao,Liu, Xuehua,Liu, Xinchao,Li, Zhouyuan,Fath, Brian D.,Sun, Hailian,Liu, Xinchao,Sun, Hailian,Liu, Xinchao,Xiao, Xinru,Cao, Jun.

[17]The characteristic of codon usage pattern and its evolution of hepatitis C virus. Hu, Jin-song,Wang, Qin-qin,Zhang, Jie,Chen, Hao-tai,Ding, Yao-zhong,Ma, Li-na,Gu, Yuan-xing,Liu, Yong-sheng,Hu, Jin-song,Xu, Zhi-wen,Zhu, Ling,Xu, Kai.

[18]Soil fluoride fractions and their bioavailability to tea plants (Camellia sinensis L.). Yi, Xiaoyun,Qiao, Sha,Ma, Lifeng,Wang, Jie,Ruan, Jianyun,Yi, Xiaoyun,Qiao, Sha,Ma, Lifeng,Wang, Jie,Ruan, Jianyun.

[19]MAJOR ANTIOXIDANTS AND IN VITRO ANTIOXIDANT CAPACITY OF ELEVEN MANGO (MANGIFERA INDICA L.) CULTIVARS. Wang, Songbiao,Chen, Jiezhong,Li, Li,Wang, Songbiao,Xie, Jianghui,Wu, Hongxia,Zhan, Rulin,Li, Weiming.

[20]Simultaneous determination of Se, trace elements and major elements in Se-rich rice by dynamic reaction cell inductively coupled plasma mass spectrometry (DRC-ICP-MS) after microwave digestion. Wei, Yi Hua,Zhang, Jin Yan,Zhang, Da Wen,Luo, Lin Guang,Tu, Tian Hua.

作者其他论文 更多>>

微信小程序