Chin J Plant Ecol ›› 2006, Vol. 30 ›› Issue (5): 861-867.DOI: 10.17521/cjpe.2006.0109
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LI Yong-Xiu1, LUO Wei-Hong1,2,*(), NI Ji-Heng1, CHEN Yong-Shan1, XU Guo-Bin1, JIN Liang1, DAI Jian-Feng1, CHEN Chun-Hong2, BU Chong-Xing2
Received:
2005-06-30
Accepted:
2005-09-13
Online:
2006-06-30
Published:
2006-09-30
Contact:
LUO Wei-Hong
About author:
E-mail: lwh@njau.edu.cnLI Yong-Xiu, LUO Wei-Hong, NI Ji-Heng, CHEN Yong-Shan, XU Guo-Bin, JIN Liang, DAI Jian-Feng, CHEN Chun-Hong, BU Chong-Xing. SIMULATION OF GREENHOUSE CUCUMBER LEAF AREA BASED ON RADIATION AND THERMAL EFFECTIVENESS[J]. Chin J Plant Ecol, 2006, 30(5): 861-867.
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URL: https://www.plant-ecology.com/EN/10.17521/cjpe.2006.0109
Fig.1 Relationship between number of leaves unfolding and accumulated product of thermal effectiveness and PAR (TEP) after unfolding of the first leaf
Fig.5 Relationship between number of old leaves removed and accumulated product of thermal effectiveness and PAR (TEP) after unfolding of the first leaf Legends see Fig. 1
[1] | Dayan E, van Keulen H, Jones JW, Zipori I, Shmuel D, Challa H (1993). Development, calibration and validation of a greenhouse tomato growth model. Ⅰ. Description of the model. Agricultural Systems, 43,145-161. |
[2] | de Visser CLM (1994). ALCEPAS, an onion growth model based on SUCROS87. Ⅰ. Development of the model. Journal of Horticultural Science, 69,501-518. |
[3] | Gai JY (盖钧镒) (2000). Statistical Methods for Experimental Data Analysis (试验统计方法). China Agriculture Press, Beijing,100-180. (in Chinese) |
[4] | Gao LH (高丽红), Guan QZ (关秋竹), Chen QY (陈青云) (2004). Research on adaptability of different fruit-cucumber varieties in solar greenhouse in springtime growth. Applied Engineering Technology in Rural Areas (农村实用工程技术), (1),39-41. (in Chinese) |
[5] | Ge MJ (葛明金) (2002). Fruit—cucumber of new variety. Agricultural Technique Service (农技服务), (1),17. (in Chinese) |
[6] | Gijzen H, Heuvelink E, Challa H, Marcelis LFM, Dayan E, Cohen S, Fuchs M (1998). HORTISIM: a model for greenhouse crops and greenhouse climate. Acta Horticulturae, 456,441-450. |
[7] | Goudriaan J, van Laar HH (1994). Modelling Potential Crop Growth Processes. Kluwer Academic Publishers, the Netherlands, 32. |
[8] | Heuvelink E (1996). Tomato Growth and Yield: Quantitative Analysis and Synthesis. PhD dissertation, Wageningen Agriculture University, the Netherlands,235-254. |
[9] | Heuvelink E, Marcelis LFM (1996). Influence of assimilate supply on leaf formation in sweet pepper and tomato. Journal of Horticultural Science, 71,405-414. |
[10] | Karlsson MG, Heins RD, Gerberick JO, Hackmann ME (1991). Temperature-driven leaf unfolding rate in Hibiscus rosasinensis. Scientia Horticulturae, 45,323-331. |
[11] | Li FS, Kang S, Zhang J (2004). Interactive effects of elevated CO 2, nitrogen and drought on leaf area, stomatal conductance, and evapotranspiration of wheat . Agricultural Water Management, 67,221-233. |
[12] | Li J (李娟), Guo SR (郭世荣), Luo WH (罗卫红) (2003). Simulation model for photosynthesis and dry matter accumulation in greenhouse cucumber. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 19,241-244. (in Chinese with English abstract) |
[13] | Lieth JH, Carpenter P (1990). Modeling elongation and leaf unfolding of Easter lily during greenhouse forcing. Scientia Horticulturae, 44,149-162. |
[14] | Marcelis LFM, Gijzen H (1998). A model for prediction of yield and quality of cucumber fruits. Acta Horticulturae, 476,237-242. |
[15] | Marcelis LFM, Heuvelink E, Goudriaan J (1998). Modelling biomass production and yield of horticultural crops: a review. Scientia Horticulturae, 74,83-111. |
[16] | Shang QM (尚庆茂), Gao LH (高丽红), Wang HS (王怀松) (2003). Production Techniques for Cucumber Without Social Effects of Pollution (黄瓜无公害生产技术). China Agriculture Press, Beijing,21-24. (in Chinese) |
[17] | Tao ZP (陶正平) (2002). Corresponding Cultivation Techniques for Cucumber Industry (黄瓜产业配套栽培技术). China Agriculture Press, Beijing, 26-30. (in Chinese) |
[18] | van Keulen H, Penning de Vries FWT, Drees EM (1982). Simulation of plant growth and crop production. In: Penning de Vires & van Laar eds. Simulation Monographs. Wageningen Pudoc, the Netherlands, 87-97. |
[19] | Wu XG (吴兴国), Zhang ZH (张真和), Ling YX (凌云昕) (2000). Anniversary Corresponding Production Techniques for Cucumber (黄瓜周年生产配套技术). China Agriculture Press, Beijing, 14-19. (in Chinese) |
[20] | Xie ZJ (谢祝捷), Chen CH (陈春宏), Yu JZ (余纪柱), Li SC (李世诚), Luo WH (罗卫红) (2004). Study on the dry matter production and distribution simulation model of cucumber in automatic control glasshouse of Shanghai. Acta Agriculturae Shanghai (上海农业学报), 20(1),75-79. (in Chinese with English abstract) |
[21] | Yuan CM (袁昌梅), Luo WH (罗卫红), Zhang SF (张生飞), Dai JF (戴剑锋), Jin L (金亮) (2005). Simulation of the development of greenhouse muskmelon. Acta Horticulturae Sinica (园艺学报), 32,262-267. (in Chinese with English abstract) |
[22] | Zhang XZ (张宪政) (1992). Investigation Methods of Crop Physiology (作物生理研究法). China Agriculture Press, Beijing, 35-45. (in Chinese) |
[23] | Zhao SJ (赵双进), Zhang MC (张孟臣), Yang CY (杨春燕) (1999). Effect of fertilization stage on yield, characteristic of plant type and plant nutrition in summer soybean. Scientia Agricultrua Sinica (中国农业科学), 32 (Suppl.),112-116. (in Chinese with English abstract) |
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