| 水分胁迫下棉花冠层叶片氮素状况的高光谱估测研究 |
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| 引用本文: | 马亚琴,包安明,王登伟,孙莉,黄春燕,冯宪伟,肖春华,杨新军.水分胁迫下棉花冠层叶片氮素状况的高光谱估测研究[J].干旱区地理,2003,26(4):408-412. |
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| 作者姓名: | 马亚琴 包安明 王登伟 孙莉 黄春燕 冯宪伟 肖春华 杨新军 |
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| 作者单位: | 1. 石河子大学新疆作物高产研究中心,石河子,832003
2. 中国科学院新疆生态和地理研究所,乌鲁木齐,830011 |
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| 基金项目: | 国家 8 63“数字农业”专项 (2 0 0 3AA2 0 90 91),国家自然科学基金资助项目(3 0 0 60 0 3 9),中国科学院知识创新项目 (K2CX2 -4 0 4-4 ) |
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| 摘 要: | 在不同灌水量条件下,对棉花单叶叶绿素含量和单叶全氮含量做相关分析,并采用地物光谱仪。获取北疆棉花冠层关键生育时期的高光谱数据。应用一阶微分光谱,衍生出基于光谱位置变量的分析方法。以红边积分面积(SDr)为白变量,冠层全氮(TN)含量为因变量,做相关分析。结果表明:叶绿素含量与TN含量呈显著的正相关(R=0.8723^**。n=39),叶绿素含量能有效的估计棉花单叶TN含量;红边积分面积变量与冠层TN含量呈显著的相关性,相关系数是0.7394^**(n=40),利用构建的相关模型可以较为精确地估测新陆早6号、8号冠层叶片的全氮含量,RMSE分别为0.3859和0.4272。研究认为红边积分面积变量具有预测棉花冠层全氮含量的应用潜力。
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| 关 键 词: | 棉花 叶绿素 全氮 高光谱 估测 水分胁迫 |
| 文章编号: | 1000-6060(2003)04-0408-05 |
| 修稿时间: | 2003年3月17日 |
Estimating of the Total Nitrogen Content (TN) In Cotton Canopy by Using Hyperspectral Remote Sensing Under Water Stress |
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| MA Ya qin ,BAO An ming ,WANG Deng wei ,SUN Li HUANG Chun yan ,FENGF Xian wei ,XIAO Chun hua ,YANG Xin jun.Estimating of the Total Nitrogen Content (TN) In Cotton Canopy by Using Hyperspectral Remote Sensing Under Water Stress[J].Arid Land Geography,2003,26(4):408-412. |
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| Authors: | MA Ya qin BAO An ming WANG Deng wei SUN Li HUANG Chun yan FENGF Xian wei XIAO Chun hua YANG Xin jun |
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| Institution: | MA Ya qin 1,BAO An ming 2,WANG Deng wei 1,SUN Li 2 HUANG Chun yan 1,FENGF Xian wei 2,XIAO Chun hua 1,YANG Xin jun 1 |
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| Abstract: | Under water stress, this project studied the correlation between leaf chlorophyll content (CHL.C) and leaf total nitrogen (TN) content, and analyzed Red Edge Area and canopy total nitrogen content using first derivative spectral data in cotton main growing periods. As result that there was a high positively correlation between leaf chlorophyll content (CHL.C) and leaf total nitrogen (TN) content, correlation coefficient (r= 0.8723 ** , n=39), the first derivative spectral data deduce Red Edge Area positively correlation with canopy TN content, correlation coefficient (r= 0.7394 ** , n=40). Established mathematic regression models were used to estimate TN content in Xin Luzao No.6 and Xin Luzao No.8 respectively, the results show that RMSE is 0.3859 and 0.4272. The study imply that leaf chlorophyll content can efficiently estimate leaf TN content, and Red Edge Area had lager applied potential capacity to estimate total nitrogen content in cotton canopy. |
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| Keywords: | cotton waters tress hyperspectral chlorophyll content TN content Red Edge Area |
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