[1]王锡平, 李保国, 郭 焱, 翟志席. 玉米冠层内光合有效辐射三维空间分布的测定和分析. 作物学报, 2004, 30(6): 568-576.Wang X P, Li B G, Guo Y, Zhai Z X. Measurement and analysis of the 3D spatial distribution of photosynthetically active radiation in maize canopy. Acta Agronomica Sinica, 2004, 30(6): 568-576. (in Chinese)[2]申广荣, 王人潮, 李云梅, 王秀珍, 沈掌泉. 水稻群丛结构和辐射传输分析. 作物学报, 2001, 27(6): 769-775.Shen G R, Wang R C, Li Y M, Wang X Z, Shen Z Q. Study on rice cluster architecture and radiation transfer. Acta Agronomica Sinica, 2001, 27(6): 769-775. (in Chinese)[3]Zhang Y B, Tang Q Y, Zou Y B, Li D Q, Qin J Q, Yang S H, Chen L J, Xia B, Peng S B. Yield potential and radiation use efficiency of ‘‘super’’ hybrid rice grown under subtropical conditions. Field Crops Research, 2009, 114: 91-98.[4]Li G H, Xue L H, Gu W, Yang C D, Wang S H, Ling Q H, Qin X, Ding Y F. Comparison of yield components and plant type characteristics of high-yield rice between Taoyuan, a ‘special eco-site’ and Nanjing, China. Field Crops Research, 2009, 87: 54-61.[5]李迪秦, 唐启源, 秦建权, 张运波, 郑华英, 杨胜海, 陈立军, 邹应斌. 水稻光能辐射利用率与产量的关系. 核农学报, 2010, 24(4): 809-814.Li D Q, Tang Q Y, Qin J Q, Zhang Y B, Zheng H Y, Yang S H, Chen L J, Zou Y B. Effects of nitrogen management patterns on grain yield, solar radiant use efficiency in super hybrid rice. Journal of Nuclear Agricultural Sciences, 2010, 24(4): 809-814. (in Chinese)[6]吕川根, 邹江石, 胡 凝, 姚克敏. 水稻叶片形态对冠层特性和光合有效辐射传输的影响. 江苏农业学报, 2007, 23(6): 501-508.Lv C G, Zou J S, Hu N, Yao K M. Effects of leaf morphological factors on canopy structure and transmission of photosynthetically active radiation in rice. Jiangsu Journal of Agricultural Sciences, 2007, 23(6): 501-508. (in Chinese)[7]李艳大, 汤 亮, 张玉屏, 刘蕾蕾, 曹卫星, 朱 艳. 水稻冠层光合有效辐射的时空分布特征. 应用生态学报, 2010, 21(4): 952-958.Li Y D, Tang L, Zhang Y P, Liu L L, Cao W X, Zhu Y. Spatiotemporal distribution of photosynthetically active radiation in rice canopy. Chinese Journal of Applied Ecology, 2010, 21(4): 952-958. (in Chinese)[8]徐正进, 陈温福, 张文忠, 马殿荣, 徐 海. 水稻冠层垂直反射率的品种间差异及其影响因素初步分析. 中国农业科学, 2008, 41(9): 2868-2872.Xu Z J, Chen W F, Zhang W Z, Ma D R, Xu H. A preliminary analysis on difference of nadir reflectance of canopy and its affecting factors in different rice varieties. Scientia Agricultura Sinica, 2008, 41(9): 2868-2872. (in Chinese)[9]谢立勇, 徐正进, 林而达, 张文忠, 刘宏光. 水稻灌浆期群体光能截获与利用分析. 中国农业气象, 2005, 26(4): 207-209.Xie L Y, Xu Z J, Ling E D, Zhang W Z, Liu H G. Utilization and interception of light on rice population during filling stage. Chinese Journal of Agrometeorology, 2005, 26(4): 207-209. (in Chinese)[10]Kiniry J R, Cauley G M, Xie Y. Rice parameters describing crop performance of four U.S. cultivars. Agronomy Journal, 2001, 93: 1354-1361.[11]Casanova D, Epema G F, Goudriaan J. Monitoring rice reflectance at field level for estimating biomass and LAI. Field Crops Research,1998, 55: 83-92.[12]李艳大, 汤 亮, 张玉屏, 朱相成, 曹卫星, 朱 艳. 水稻冠层光截获与叶面积和产量的关系. 中国农业科学, 2010, 43(16): 3296-3305.Li Y D, Tang L, Zhang Y P, Zhu X C, Cao W X, Zhu Y. Relationship of PAR Interception of canopy to leaf area and yield in rice. Scientia Agricultura Sinica, 2010, 43(16): 3296-3305. (in Chinese)[13]张 涛, 殷 红, 辛明月. 水稻冠层光合有效辐射的分布特征及其与叶面积指数的关系. 中国农业气象, 2010, 31(2): 251-254.Zhang T, Yin H, Xin M Y. Distribution characteristics of PAR in rice canopy and relationship between PAR and LAI. Chinese Journal of Agrometeorology, 2010, 31(2): 251-254. (in Chinese)[14]高亮之, 金之庆, 张更生, 石春林, 葛道阔. 水稻最佳株型群体受光量与光合量的数值模拟. 江苏农业学报, 2000, 16(1): 1-9.Gao L Z, Jin Z Q, Zhang G S, Shi C L, Ge D K. A numerical model to simulate the incident radiation and photosynthate for rice canopies with optimum plant type. Jiangsu Journal of Agricultural Sciences, 2000, 16(1): 1-9. (in Chinese)[15]吕丽华, 赵 明, 赵久然, 陶宏斌, 王 璞. 不同施氮量下夏玉米冠层结构及光合特性的变化. 中国农业科学, 2008, 41(9): 2624-2632.Lv L H, Zhao M, Zhao J R, Tao H B, Wang P. Canopy structure and photosynthesis of summer maize under different nitrogen fertilizer application rates. Scientia Agricultura Sinica, 2008, 41(9): 2624-2632. (in Chinese)[16]林洪鑫, 潘晓华, 石庆华, 彭春瑞, 吴建富. 栽插密度与施氮量对双季稻上部三叶叶长和叶角的影响. 作物学报, 2010, 36(10): 1743-1751.Ling H X, Pan X H, Shi Q H, Peng C R, Wu J F. Effects of nitrogen application amount and planting density on angle and length of Top three leaves in double-cropping rice. Acta Agronomica Sinica, 2010, 36(10): 1743-1751. (in Chinese)[17]李国强, 汤 亮, 张文宇, 曹卫星, 朱 艳. 施氮量对不同株型小麦品种叶型垂直分布特征的影响. 作物学报, 2011, 37(1): 127-137.Li G Q, Tang L, Zhang W Y, Cao W X, Zhu Y. Effect of nitrogen rate on vertical distribution characteristics of leaf-type in wheat with different plant types. Acta Agronomica Sinica, 2011, 37(1): 127-137. (in Chinese)[18]Binghama I J, Blake J, Foulkes M J. Is barley yield in the UK sink limited? I. Post-anthesis radiation interception, radiation-use efficiency and source–sink balance. Field Crops Research, 2007, 101: 198-211.[19]陈雨海, 余松烈, 于振文. 小麦生长后期群体光截获量及其分布与产量的关系. 作物学报, 2003, 29(5): 730-734.Chen Y H, Yu S L, Yu Z W. Relationship between amount or distribution of PAR interception and grain output of wheat communities. Acta Agronomica Sinica, 2003, 29(5): 730-734. (in Chinese)[20]高晓飞, 谢 云, 王晓岚. 冬小麦冠层消光系数日变化的实验研究. 资源科学, 2004, 26(1): 137-142.Gao X F, Xie Y, Wang X L. Experiment research of diurnal variation of winter wheat canopy extinction coefficient. Resource Science, 2004, 26(1): 137-142. (in Chinese)[21]莫兴国, 林忠辉, 项月琴, 刘苏峡. 玉米群体辐射传输特征. 中国生态农业学报, 2000, 8(1): 1-4.Mo X G, Lin Z H, Xiang Y Q, Liu S X. Characteristics of incoming radiation through maize canopy. Eco-Agricultural Research, 2000, 8(1): 1-4. (in Chinese)[22]Maddonni G A, Otegui M E, Cirilo A G. Plant population density, row spacing and hybrid effects on maize canopy architecture and light attenuation. Field Crops Research, 2001, 71: 183-193.[23]孟亚利, 曹卫星, 柳新伟, 周治国, 潘 洁. 水稻光合生产与干物质累积的动态模拟. 生物数学学报, 2004, 19(2): 205-212.Meng Y L, Cao W X, Liu X W, Zhou Z G, Pan J. Dynamic simulation photosynthetic production and dry matter accumulation in rice. Journal of Biomathematics, 2004, 19(2): 205-212. (in Chinese)[24]Timsina J, Humphreys E. Performance of CERES-Rice and CERES-Wheat models in rice-wheat systems: A review. Agricultural Systems, 2006, 90: 5-31.[25]Confalonieri R, Acutis M, Bellocchi G, Donatelli M. Multi-metric evaluation of the modelsWARM, CropSyst, and WOFOST for rice. Ecological Modekling, 2009, 220: 1395-1410.[26]Hasegawa T, Horie T. Leaf nitrogen, plant age and crop dry matter production in rice. Field Crops Research,1996, 47: 107-116.[27]Shabanov N V, Wang Y, Buermann W, Dong J, Hoffman S, Smith G R, Tian Y, Knyazikhin Y, Myneni R B. Effect of foliages patial heterogeneity in the MODIS LAI and FPAR algorithm over broadleaf forests. Remote Sensing of Environment, 2003, 85: 410-423.[28]杨 飞, 张 柏, 李凤秀, 国志兴, 勒华安. 大豆和玉米冠层光合有效辐射各分量日变化. 生态学杂志, 2007, 26(8): 1153-1158.Yang F, Zhang B, Li F X, Guo Z X, Le H A. Diurnal changes of photosynthetically active radiation parameters in soybean and corn. Chinese Journal of Ecology, 2007, 26(8): 1153-1158. (in Chinese)[29]周晓东, 朱启疆, 王锦地, 孙 睿, 陈 雪, 吴门新. 夏玉米冠层内PAR截获及FPAR与LAI的关系. 自然资源学报, 2002, 17(1): 110-116.Zhou X D, Zhu Q J, Wang J D, Sun R, Chen X, Wu M X. Interception of PAR, relationship between FPAR and LAI in summer maize canopy. Journal of Natural Resources, 2002, 17(1): 110-116. (in Chinese)[30]李 林, 张更生, 姚永康. 水稻开花灌浆期间阴害形成的光谱辐射能特征初步研究. 中国水稻科学, 1994, 8(2): 91-96.Li L, Zhang G S, Yao Y K. Preliminary studies on characteristics of the radiant spectrum causing the formation of insufficient illumination impairment during rice flowering-filling period. Chinese Journal of Rice Science, 1994, 8(2): 91-96. (in Chinese)[31]于 强, 王天铎, 刘建栋, 孙菽芬. 玉米株型与冠层光合作用的数学模拟研究I. 模型与验证. 作物学报, 1998, 24(1): 7-15.Yu Q, Wang T D, Liu J D, Sun S F. A mathematical study on crop architecture and canopy photosynthesis I. model and validation. Acta Agronomica Sinica, 1998, 24(1): 7-15. (in Chinese) |