Open Access
Issue
OCL
Volume 27, 2020
Article Number 43
Number of page(s) 10
Section Agronomy
DOI https://doi.org/10.1051/ocl/2020036
Published online 18 August 2020
  • Brodrick RM, Bange P, Milroy SP, Hammer GL. 2013. Physiological determinants of high yielding ultra-narrow row cotton: Canopy development and radiation use efficiency. Field Crops Res 148: 86–94. [Google Scholar]
  • Brunel-Muguet S, Beauclair P, Bataille MP, et al. 2013. Light restriction delays leaf senescence in winter oilseed rape (Brassica napus L.). J Plant Growth Regul 32: 506–518. [Google Scholar]
  • Chang SX, Li CX, Yao XY, et al. 2016. Morphological, photosynthetic, and physiological responses of rapeseed leaf to different combinations of red and blue lights at the rosette stage. Front Plant Sci 7: 1144. [PubMed] [Google Scholar]
  • Channaoui S, El Idrissi IS, Mazouz H, Nabloussi A. 2019. Reaction of some rapeseed (Brassica napus L.) genotypes to different drought stress levels during germination and seedling growth stages. OCL 26. [Google Scholar]
  • Cui L, Su B, Yang F, Yang W. 2015. Study on relationship between light interception and light use of soybean canopy in relay strip intercropping system. Sci Agric Sin 48: 43–54. [Google Scholar]
  • Danso EO, Yakubu A, Arthur E, Sabi EB, Abenney-Mickson S, Andersen MN. 2020. Effect of rice straw biochar and irrigation on growth, dry matter yield and radiation-use efficiency of maize grown on an Acrisol in Ghana. J Agron Crop Sci 206: 296–307. [Google Scholar]
  • Denoroy P, Thiebeau P, Gosse G. 2002. A method for assessing intercepted radiation by a crop with a low leaf area: An application to oilseed rape. OCL 9: 54–63. [CrossRef] [EDP Sciences] [Google Scholar]
  • Diepenbrock W. 2000. Yield analysis of winter oilseed rape (Brassica napus L.): A review. Field Crops Res 67: 35–49. [Google Scholar]
  • Earl HJ, Davis RF. 2003. Effect of drought stress on leaf and whole canopy radiation use efficiency and yield of maize. Agron J 95: 688–696. [Google Scholar]
  • Fochesatto E, Nied AH, Bergamaschi H, et al. 2016. Interception of solar radiation by the productive structures of spring canola hybrids. Cienc Rural 46: 1790–1796. [CrossRef] [Google Scholar]
  • Fortescue JA, Turner DW. 2007. Changes in seed size and oil accumulation in Brassica napus L. by manipulating the source-sink ratio and excluding light from the developing siliques. Aust J Agric Res 58: 413–424. [Google Scholar]
  • Gauthier M, Pellet D, Monney C, Herrera JM, Rougier M, Baux A. 2017. Fatty acids composition of oilseed rape genotypes as affected by solar radiation and temperature. Field Crops Res 212: 165–174. [Google Scholar]
  • Hamzei J, Soltani J. 2012. Deficit irrigation of rapeseed for water-saving: Effects on biomass accumulation, light interception and radiation use efficiency under different N rates. Agric Ecosyst Environ 155: 153–160. [Google Scholar]
  • Han YY, Wang GY, Zhou XB, Chen YH, Liu P. 2014. Radiation use efficiency and yield response of winter wheat to planting patterns and irrigation in Northern China. Agron J 106: 168–174. [Google Scholar]
  • Jian HJ, Wang J, Wang TY, Wei LJ, Li J, Liu LZ. 2016. Identification of rapeseed microRNAs involved in early stage seed germination under salt and drought stresses. Front Plant Sci 7: 658. [PubMed] [Google Scholar]
  • Kuai J, Sun YY, Zhou M, et al. 2016. The effect of nitrogen application and planting density on the radiation use efficiency and the stem lignin metabolism in rapeseed (Brassica napus L.). Field Crops Res 199: 89–98. [Google Scholar]
  • Li L, Li JG, Shen MC, Zhang CL, Dong YH. 2015. Cold plasma treatment enhances oilseed rape seed germination under drought stress. Sci Rep 5: 130033. [Google Scholar]
  • Liao G, Guan C. 2002. Study on Characteristics of dry matter accumulation, distribution and transfer of winter rapeseed (Brassica napus). Acta Agron Sin 28: 52–58. [Google Scholar]
  • Mattera J, Romero LA, Cuatrin AL, Cornaglia PS, Grimoldi AA. 2013. Yield components, light interception and radiation use efficiency of lucerne (Medicago sativa L.) in response to row spacing. Eur J Agron 45: 87–95. [Google Scholar]
  • Momoh EJJ, Zhou W. 2001. Growth and yield responses to plant density and stage of transplanting in winter oilseed rape (Brassica napus L.). J Agron Crop Sci 186: 253–259. [Google Scholar]
  • Muller J, Behrens T, Diepenbrock W. 2005. Measurement and modelling of canopy gas exchange of oilseed rape. Agric For Meteorol 132: 181–200. [Google Scholar]
  • Muller J, Behrens T, Diepenbrock W. 2006. Use of a new sigmoid growth equation to estimate organ area indices from canopy area index in winter oilseed rape (Brassica napus L.). Field Crops Res 96: 279–295. [Google Scholar]
  • Muller K, Bottcher U, Meyer-Schatz F, Kage H. 2008. Analysis of vegetation indices derived from hyperspectral reflection measurements for estimating crop canopy parameters of oilseed rape (Brassica napus L.). Biosyst Eng 101: 172–182. [Google Scholar]
  • Purcell LC, Ball RA, Reaper JD, Vories ED. 2002. Radiation use efficiency and biomass production in soybean at different plant population densities. Crop Sci 42: 172–177. [CrossRef] [PubMed] [Google Scholar]
  • Shabani A, Sepaskhah AR, Kamgar-Haghighi AA. 2014. Estimation of yield and dry matter of rapeseed using logistic model under water salinity and deficit irrigation. Arch Agron Soil Sci 60: 951–969. [CrossRef] [Google Scholar]
  • Singh J, Singh SP, Kingra PK. 2018. Influence of sowing time and planting geometry on yield and radiation use efficiency of various rapeseed-mustard cultivars. J Agrometeorol 20: 246–248. [Google Scholar]
  • Soleymani A. 2017. Light response of sunflower and canola as affected by plant density, plant genotype and N fertilization. J Photochem Photobiol B-Biol 173: 580–588. [CrossRef] [Google Scholar]
  • Velicka R, Marcinkeviciene A, Kosteckas R, Pupaliene R, Duchovskis P, Brazaityte A. 2012. The influence of crop density on the photosynthetic characteristics and productivity of the spring oilseed rape under non-fertilized and fertilized conditions. J Food Agric Environ 10: 850–856. [Google Scholar]
  • Wang R, Cheng T, Hu LY. 2015. Effect of wide-narrow row arrangement and plant density on yield and radiation use efficiency of mechanized direct-seeded canola in Central China. Field Crops Res 172: 42–52. [Google Scholar]
  • Wang Y, Lu J, Li X. et al. 2011. Study on nitrogen fertilizer effect and optimum fertilizer rate for transplanting and direct-seeding rapeseed. Sci Agric Sin 44: 4406–4414. [Google Scholar]
  • Xu ZH, Luo T, Rao N. et al. 2019. High yield achieved by early-maturing rapeseed with high light energy and temperature production efficiencies under ideal planting density. Crop Sci 59: 351–362. [Google Scholar]
  • Zajac T, Oleksy A, Stoklosa A, Klimek-Kopyra A. 2011. Comparison of morphological traits, productivity and canopy architecture of winter oilseed rape (Brassica napus L.) and white mustard (Sinapis alba L.). J Appl Bot Food Qual-Angewandte Botanik 84: 183–191. [Google Scholar]
  • Zhang HP, Berger JD, Milroy SP. 2013. Genotype × environment interaction studies highlight the role of phenology in specific adaptation of canola (Brassica napus L.) to contrasting Mediterranean climates. Field Crops Res 144: 77–88. [Google Scholar]
  • Zhu TT, Li J, Liu YY, Tong XJ, Yu Q. 2020. Leaf photosynthetic light response of summer maize: comparison of models and analysis of parameters. Photosynthetica 58: 19–28. [Google Scholar]

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