文献类型: 会议论文
第一作者: Liyong Cao
作者: Liyong Cao 1 ; Dong Li 2 ; Junmin Wang 3 ; Zhigang Zhan 4 ;
作者机构: 1.China National Rice Research Institute Chinese National Center for Rice Improvement Hangzhou, Zhejiang Province, China
2.Institute of Digital Agriculture Zhejiang Academy of Agricultural Sciences Hangzhou, Zhejiang Province, China
3.Institute of Crop and Nuclear Technology Utilization Zhejiang Academy of Agricultural Sciences Hangzhou, Zhejiang Province, China
4.College of Resources and Environmental Sciences China Agricultural University Beijing, China
关键词: Ideotype;leaf shape;rice;structural model
会议名称: IEEE International Symposium on Plant Growth Modeling, Simulation, Visualization and Applications
主办单位:
页码: 228-234
摘要: Because the outlook of modern rice cultivars towards ideotype are very similar, it is necessary to develop tools to distinguish their structures and consequences on plant functioning. In this study, leaf shapes and sizes were observed, measured and analyzed for ten rice cultivars among the most productive in Zhejiang province, China. The blade shapes were found quiet consistent in terms of normalized width vs. length profile although the blade sizes varied among cultivars. The three dimensional structure models were constructed based on several "Ideotype" specifications and the real data of blade sizes. The vertical profiles of leaf area according to plant height were calculated, on which there were two peaks and one valley for all the cultivars. The normalized profile curves were found stable among all the cultivars. In future, we will be able to quantify the influence of the blade shapes on rice functioning, after simulating canopy light interception and potential photosynthesis based on the structural models.
分类号: q945.3-53
- 相关文献
[1]Modeling and Analyzing the Influence of Blade Shape on Rice Canopy Structure. Li, Dong,Zhan, Zhigang,Wang, Junmin,Cao, Liyong. 2012
[2]Modeling and analyzing the influence of blade shape on rice canopy structure. Li, Dong,Wang, Junmin,Zhan, Zhigang,Cao, Liyong. 2012
[3]Mapping of leaf and neck blast resistance genes with RFLP, RAPD and resistance gene analogs in rice. K.-L. ZHENG,R.-Y. CHAI,M.-Z. JIN,J.-L. WU,Y.-Y. FAN,H. LEUNG,J.-Y. ZHUANG. 2000
[4]Monitoring Leaf Chlorophyll Fluorescence with Spectral Reflectance in Rice (Oryza sativa L.). Hao Zhang,Lian-feng Zhu,Hao Hu,Ke-feng Zheng,Qian-yu Jin. 2011
[5]DEVELOPMENT AND APPLICATION OF THE CONSULTING SYSTEM OF PRECISION FERTILIZATION IN RICE. Xiaonan Lii,Wanzhu Ma,Zhouqiao Ren,Xiaojia Chen. 2005
[6]Effects of Nitrogenous Fertilization in Rice Fields on the Predatory Function ofCyrtorhinus Lividipennis to Nilaparvata lugens Stal. LU Zhongxian,YU Xiaoping,HEONG Kongluen,HU Cui. 2008
[7]Resistance Performances of Transgenic Bt Rice Lines T-2A-1 and T1c-19 Against Cnaphalocrocis medinalis (Lepidoptera: Pyralidae). Zheng, Xusong,Yang, Yajun,Xu, Hongxing,Wang, Baoju,Lu, Zhongxian,Zheng, Xusong,Yang, Yajun,Xu, Hongxing,Wang, Baoju,Lu, Zhongxian,Chen, Hao,Lin, Yongjun,Chen, Hao,Lin, Yongjun. 2011
[8]Differentiation of a Miniature Inverted Transposable Element (MITE) system in Asian rice cultivars and its inference for a diphyletic origin of two subspecies of Asian cultivated rice. Hu, H,Mu, J,Zhang, HJ,Tao, YZ,Han, B. 2006
[9]Phosphorus Adsorption and Bioavailability in a Paddy Soil Amended with Pig Manure Compost and Decaying Rice Straw. Liang, Yongchao,Guo, Bin,Liang, Yongchao,Li, Zhaojun,Han, Fengxiang. 2009
[10]Nitrogen management to reduce yield-scaled global warming potential in rice. Liang, X. Q.,Ye, Y. S.,Ji, Y. J.,Tian, G. M.,Li, H.,Wang, S. X.,van Kessel, C.,Linquist, B. A.. 2013
[11]Suppression of OsMADS7 in rice endosperm stabilizes amylose content under high temperature stress. Zhang, Hua,Xu, Heng,Feng, Mengjie,Zhu, Ying. 2018
[12]Agrobacterium-mediated transformation efficiency is altered in a novel rice bacterial blight resistance cultivar and is influenced by environmental temperature. Dong, Rui-xian,Chen, Juan,Wang, Xu-ming,Li, Jin-shan,Zhou, Jie,Yang, Yong,Yu, Chu-lang,Cheng, Ye,Yan, Cheng-qi,Chen, Jian-ping,Dong, Rui-xian,Chen, Juan,Li, Jin-shan. 2012
[13]Characterization and mapping of a novel mutant sms1 (senescence and male sterility 1) in rice. Yan, Wenyi,Zeng, Longjun,Peng, Yu,Yan, Dawei,Yang, Weibing,Yang, Donglei,He, Zuhua,Yan, Wenyi,Dong, Yanjun,Yan, Wenyi,Ye, Shenghai,Jin, Qingsheng,Zhang, Xiaoming. 2010
[14]Identification and Classification of Rice Leaf Blast Based on Multi-Spectral Imaging Sensor. Lou Bing-gar,Feng Lei,Sun Guang-ming,Wu Di,He Yong,Chai Rong-yao. 2009
[15]Gibberellin homeostasis and plant height control by EUI and a role for gibberellin in root gravity responses in rice. Zhang, Yingying,Zhu, Yongyou,Peng, Yu,Yan, Dawei,Li, Qun,He, Zuhua,Wang, Jianjun,Wang, Linyou. 2008
[16]Sustainable Management of Rice Insect Pests by Non-Chemical-Insecticide Technologies in China. Xu Hong-xing,Yang Ya-jun,Lu Yan-hui,Zheng Xu-song,Tian Jun-ce,Lu Zhong-xian,Lai Feng-xiang,Fu Qiang. 2017
[17]Bacterial brown stripe of rice in soil-less culture system caused by Acidovorax avenae subsp avenae in China. Li, Bin,Liu, Baoping,Tao, Zhongyun,Xie, Guanlin,Li, Hongye,Yu, Rongrong,Wang, Yanli,Sun, Guochang. 2011
[18]Characterization and molecular cloning of a serine hydroxymethyltransferase 1 (OsSHM1) in rice. Wang, Dekai,Liu, Heqin,Li, Sujuan,Zhai, Guowei,Shao, Jianfeng,Tao, Yuezhi,Wang, Dekai,Liu, Heqin,Li, Sujuan,Zhai, Guowei,Shao, Jianfeng,Tao, Yuezhi. 2015
[19]Monitoring Leaf Chlorophyll Fluorescence with Spectral Reflectance in Rice (Oryza sativa L.). Zhang, Hao,Zhu, Lian-feng,Jin, Qian-yu,Zhang, Hao,Hu, Hao,Zheng, Ke-feng. 2011
[20]Comparative Proteomic Analysis of Susceptible and Resistant Rice Plants during Early Infestation by Small Brown Planthopper. Chen, Jianping,Dong, Yan,Yang, Yong,Wang, Xuming,Yu, Chulang,Zhou, Jie,Yan, Chengqi,Chen, Jianping,Fang, Xianping,Fang, Xianping,Xue, Gang-Ping,Chen, Xian,Zhang, Weilin,Mei, Qiong,Fang, Wang. 2017
作者其他论文 更多>>
-
APPLICATION AND BENEFIT ANALYSIS OF FACILITY INTELLIGENT CONTROL SYSTEM
作者:Zhifu Xu;Liping Sun;Xiaoyan Shi;Hongbao Ye;Dong Li
关键词:GPRS/GSM;PLC;Facility agriculture;Intelligent control;Benefit analysis
