1 张大鹏.葡萄叶幕微气候调控及其生物学原理.见:韩振海主编:园艺学年评(第一集).北京:科学出版社,1995.57~84 2 Jackson JE. Light interception and utilization by orchard systems. Horticultural Review, 1980,2:208~267 3 Palmer JW. Light transmittance by apple leaves and canopies. J Appl.Ecol. 1977,14:505~513 4 Ferree DC.Cultural factors influencing net photosynthesis of apple trees HortScience 1978,13:650~652 5 Flore JA. Environmental and physiological regulation of photosynthesis in fruit crops. Horticultural Rev, 1989, 11:112~139 6 Wagenmakers PS, Callesen O. Influence of light interception on apple and fruit quality related to arrangement and tree height. Acta Horticulturae, 1989, 243: 149~157 7 Jackson JE. Utilization of light resources by high density planting systems. Acta Horticulturae, 1978,65:61~70 8 Robinson TL, Lakso AN. Light interception, yield and fruit quality of ‘Empire’and ‘Delicious’apple trees grown in fourorchard systems. Acta Horticulturae, 1989, 243:175~184 9 Ferree DC. Influence of orchard management systems on spur quality light, and fruit within the canopy of ‘Golden Delicious’ apple trees. J Amer Soc Hort Sci., 1989, 114(6): 869~875 10 Ferree DC, Clayton~Greene KA. Influence of orchard management system on canopy composition, light distribution, net photosynthesis and transpiration of apple trees. J Hort Sci, 1993, 68(3):377~392 11 Wunsche JN. The bases of productivity in apple production systems: The role of light interception by different shoot types. J Amer Soc Hort Sci. 1996,121(5): 886~893 12 Wunsche JN, Lakso AN, Denning SS et al. Estimating the contribution of canopy components to direct light interception of apple trees using a laser~assisted scanning device. Environmental and Experimental Botany. 1997,37: 63~72 13 Sands PJ. Modelling canopy production.III. Canopy light~utilisation efficiency and its sensitivity to physiological and environmental variables. Aust J Plant Physiol. 1996, 23:103~114 14 Francesconi AHD, Lakso AN, Denning SS, et al. Light and temperature effects on whole canopy net carbon dioxide exchange rates of apple tree. Acta Horticulturae,1997, 451:287~294 15 张大鹏.葡萄不同栽培方式叶幕光能利用的综合评估――叶幕受光指数.园艺学报,1995,22(4):324~330 16 张大鹏,娄成后.北京地区葡萄三种主要栽培方式的叶幕微气候和植物水分关系的研究.中国农业科学,1990, 23(2):73~83 17 张大鹏,王学臣,娄成后.不同辐照日变化系统对葡萄净光合和气孔导性的影响.中国农业科学,1991,24(3):1~7 18 张大鹏,姜红英,陈星黎,等.葡萄不同栽培方式叶幕微气候光合作用和水分生理效应.园艺学报,1994,21(2):105~110 19 程述汉,杨春燕,魏钦平.幼龄新红星苹果园高产稳产群体结构优化模式.见:张上隆、昆松主编:园艺学进展.北京:中国农业出版社,1994,452~454 20 Palmer JW. The effects of row orientation, tree height, time of year and latitude on light interception and distribution in model apple hedgerow canopies. J Hort Sci, 1989, 64 (2) :137~14 21 Takishita F, Fukuda H, Chiba K,et al. A computer graphics analysis of tree form, light penetration and fruit quality in apple. Bull. Fruit tree Res. Stn. 1995,27:43~46 22 Bruce HB. Influence of orchard system on canopy development, light interception and production of third~year granny smith apple trees. Acta Horticulturae, 1989,243:121~127 23 Ferree DC, Schupp JR. Influence of five orchard management systems on canopy composition, light penetration and net photosynthesis of Golden Delicious apple. Acta Horticulturae, 1989, 243:131~140 24 Jones HG. Plant and Microclimate. 2nd ed., London: Cambridge University Press, 1992, 131~214 25 Lakso AN, Musselman RC. Effects of cloudiness on interior diffuse light in apple trees. J.Amer.Soc.Hort.Sci. 1976,101:642~644 26 Lakso AN. Correlations of fisheye photography to canopy structure, light climate, and biological responses to light in apple trees. J Amer Soc Hort Sci.1980, 105(1): 43~46 27 Carbonneau A, Lespinasse JM. Influence of canopy management on microclimate and photosynthesis. Acta Horticulturae, 1989,243:185~194 28 Kikuchi T, Shiozaki Y, Asada T, Arakawa O. Light and fruit distribution within a canopy of Fuji apple trees trained to a traditional open center system in Japen. J. Japan. Soc. Hort. Sci. 1994, 62(4): 761~768 29 Campbell, RJ, Marini RP. Instantaneous light measurements predict relative light levels within an apple canopy. J.Amer.Soc. Hort. Sci.1992, 117(4):678~684 30 Palmer, JW. Diurnal light interception and a computer model of light interception by hedgerow apple orchards. J.Appl.Ecol. 1977, 14:601~614 31 Palmer, JW, Jackson JE. Seasonal light interception and canopy development in hedgerow and bed system apple orchards. J. Appl.Ecol.1977, 14:539~549 32 Smart RE. Shoot spacing and canopy light microclimate. Am J Enol Vitic, 1988,39(4):325~333 33 Hampson CR, Quamme HA, Kappel F,et al Effects of apple tree density and training system on productivity. Compact fruit tree. 1988, 31(3):72~76 34 Smock, R M, Childers N P. Chang SS. Volatile constituents of apple fruits as influenced by fertilizer treatments. Proc. Am. Soc. Hort, Sci., 1984, 69:51~58 35 Romani R J, Ku L. Direct gas Chromatographic analysis of volatiles produced by ripening pears. J. Food Sci., 1996, 31:558~560
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