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大棚番茄群体结构及光分布特性与中早期产量形成关系的研究 被引量:3

Study on the Forming Relationship Between the Tomato Population Structure and the Light Distribution Characteristic in the Plastic Sheet Shed and the Yield During the Middle-early Stage
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摘要 试验研究了大棚内不同栽培密度条件下的番茄群体结构特点(叶倾角、株形、叶容量、冠层叶面积密度)及光的分布特性(相对照度、光量子数、辐射量)与产量之间的关系。试验表明:大棚番茄高架栽培群体最适密度为5.56株/m^2其中早期最高产量达5940kg/亩;最适宜生理指标为:冠层叶面积密度LAD0.942m^2/m^2,叶容量98.6片/m^2。此冠层接受的辐射量为45.6%,光量子数40.3%,冠层的相对照度38.5%,群体消光系数1.04。 This experiment studied the tomato population structure in the film greenhouse and its light distributon characteristic under the different density conditions. The results showed that the most suitable density of the tomato elevated culture in the plastic film greenhouse was 556 plants / m2, and its spacing in the rows and row distance were 30 × 60cm. The highest yield of the tomato cultured under the above density during the middle-earty stage before August 10 was 5940kg / mu. Its most suitable physiological in dices were as follows. The leaf area density(LTD) of the coown layer was 0.942 m2/m2. The leaf capacity was 98.6 pieces / m2. The received radiation amoumt at the crown layer was 45.6% . The received photon amount at the crown layer was 40.3%. The relative light degree within the crown layer was 38.5%. The extinction coefficient of the population was 1.04.
作者 陈友 宗亚平 毕宏文 陈克农
机构地区 东北农学院园艺系 广州市仲恺农业技术学院园艺系 黑龙江省农科院园艺所
出处 《农业工程学报》 EI CAS CSCD 北大核心 1990年第2期50-55,共6页 Transactions of the Chinese Society of Agricultural Engineering
关键词 大棚 番茄 群体结构 光分布 栽培 Plastic film greenhouse, Tomato, Population structure, Light distribution.
分类号 S641.204 [农业科学—蔬菜学]
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参考文献2

  • 1吕家龙,园艺学报,1983年,4期,245页 被引量:1
  • 2王景文,东北农学院学报,1960年,1卷,36页 被引量:1

同被引文献33

  • 1孙敏芬.植被层内能量与水分交换的显式解的推导[J].植物生理学报(0257-4829),1994,20(2):171-178. 被引量:1
  • 2董仁杰,彭高军.沼气-畜-菜共养生态系统试验初报:CO2气体分布[J].农业工程学报,1995,11(增刊):21-25. 被引量:1
  • 3[2]Meng Hailing, Xing Yanan, Liu Guangqing, et al. CO2 distribution in an ecological greenhouse system. Proceeding of 2003 International Forum on Bio-environmental and Bio-energy Engineering, 2003 被引量:1
  • 4[3]Yang X,Short T H, Fox R D, et al. Transpiration, leaf temperature and stomatal resistance of a greenhouse cucumber crop. Agric and Forest Meteorol, 1990b, 51:196~209 被引量:1
  • 5[4]Yang X,Short T H,Fox R D, et al. A theoretical model of solar radiation transfer in a row-crop canopy. ASAE, 1990c, 33 (3):917~924 被引量:1
  • 6[5]Yang X, Short T H, Fox R D, et al. Dynamic modeling of the microclimate of a greenhouse cucumber row-crop. Part Ⅰ. Theoretical model. Trans of ASAE, 1990d, 33(5): 1701~1709 被引量:1
  • 7[6]Yang X,Short T H, Fox R D, et al. Dynamic modeling of the microclimate of a greenhouse cucumber row-crop. Part Ⅱ. Verification and simulation. Trans of ASAE, 1990e, 33(5): 1710~1716 被引量:1
  • 8[7]Acock B,Charles Edwards D A, Fitter DJ,et al. The contribution of leaves from different levels within a tomato crop to canopy net photosynthesis: An experiential examination of two canopy models. J Experimental Botary, 1978, 29(111): 815~827 被引量:1
  • 9[9]Yang X,Short T H,Fox R D, et al. The microclimate and transpiration of a greenhouse cucumber crop. Trans of ASAE, 1989,32(6): 2143~2150 被引量:1
  • 10[10]Yang X. Greenhouse micrometeorology and estimation of heat and water vapour fluxes. Agric Engng Res,1995, 61:227~238 被引量:1

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农业工程学报
1990年 第2期

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