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不同生育时期玉米洪涝胁迫遥感监测与评估
基金项目:Agricultural Great Application Technology Innovative Projects of Shandong Province(1-0504);Agricultural and Rural Resources Monitoring and Statistics Projects of Ministry of Agriculture and Rural Affairs(061721301112422018)
摘    要:

收稿时间:2020-02-28

Remote sensing monitoring on maize flood stress and yield evaluation at different stages
SUI Xue-Yan,LIANG Shou-Zhen,ZHANG Jin-Ying,WANG Meng,WANG Yong,HOU Xue-Hui,ZHANG Xiao-Dong. Remote sensing monitoring on maize flood stress and yield evaluation at different stages[J]. Acta Agronomica Sinica, 1962, 47(1): 177-184. DOI: 10.3724/SP.J.1006.2021.03011
Authors:SUI Xue-Yan  LIANG Shou-Zhen  ZHANG Jin-Ying  WANG Meng  WANG Yong  HOU Xue-Hui  ZHANG Xiao-Dong
Affiliation:1.Shandong Institute of Agricultural Sustainable Development / Key Laboratory of East China Urban Agriculture, Ministry of Agriculture and Shandong Rural Affairs, Jinan 250100, Shandong, China;2.Shandong Provincial Institute of Land Surveying and Mapping, Jinan 250013, Shandong, China;3.Shandong Center of Crop Germplasm Resources, Jinan 250100, Shandong, China
Abstract:In order to set up remote sensing monitoring and evaluation technology of maize flood stress and loss, a simulation experiment with different flood stress degrees was developed at different stages. Chlorophyll content, canopy spectral reflectance and coverage were monitored in vivo, and yield level was tested finally. The results showed that chlorophyll content decreased under flood stress at jointing and filling stages. The decreasing extend was significant at jointing stage and the value of maximal relative change reached -56.30%. There was little influence on chlorophyll at silking stage. Flood stress could reduce the coverage, especially at jointing stage, the most serious treatment was only 46.33%, followed by silking stage and filling stage. Flood stress reduced production at last, and the reduction was more serious in the early stage than in the later stage. There was a negative correlation between reflectance and flood stress degree at jointing stage and silking stage. It was extremely significantly difference at near infrared platform bands and significantly at green peak bands. There was no significant positive correlation between reflectance and flood stress degree at filling stage. Reflectance and spectral indexes with extremely significant correlation can be used to monitor flood. Two models with DSIPI were set up to evaluate flood loss at jointing and silking stage separately.
Keywords:maize  flood stress  remote sensing  monitoring  evaluation  
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