|Table of Contents|

Analysis on the Canopy Microclimate of the Different Grape Cultivation Trellis in Turpan(PDF)

《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:
2014年09期
Page:
23-26
Research Field:
Publishing date:

Info

Title:
Analysis on the Canopy Microclimate of the Different Grape Cultivation Trellis in Turpan
Author(s):
JIA YangLIAO KangLIU Man-manZHAO Shi-rongLIAO Xiao-longWANG Yu-rongPENG Xiao-li
Research Centre of Feature Fruits,Xinjiang Agriculture University,Urumqi,Xinjiang 830052
Keywords:
Turpangrapecanopy structuremicroclimate factors
PACS:
S 663.1
DOI:
-
Abstract:
With three kinds of grape cultivation mode that are common in turpan area as the research object,using the HOBO were weather stations,EI USB 2 canopy temperature and humidity recorder and LAI-2200 analyzer,the daily change each part of three frame PAR,temperature and humidity and the LAI at different positions were determined,microclimate differences were analyzed,in order to improve the difference of trellis system of grape canopy on the yield and quality,and provide the basis theory for choosing a suitable way of cultivation.The results showed that the difference of average relative PAR and relative temperature inside the frame of the different trellis were that small trellis Ⅰ>horizontal trellis>small trellis Ⅱ,relative humidity showed a contrary tendency;in the same trellis the maximum value of PAR appeared in the tip of the trellis,the highest LAI appeared in the middle of the trellis;the value of the highest relative humidity appeared in the root surface of each frame;the relative PAR,LAI and temperature from tip to the root of the inside frame showed a decreasing trend.The difference of the factor of microclimate in the setting fruit position of small trellis Ⅰ inside of frame was small,the microclimate was stable.

References:

[1]张大鹏,娄成后.北京地区三种主要栽培方式的叶幕微气候和植物水分关系的研究[J].中国农业科学,1990,23(2):73-82.

[2]Jackson J E.Aspect so flight climate with apple orchards[J].Applied Ecol,1970(7):207-216.

[3]Chalmers D J.The Tatura Trellies:A new design for high yielding orchards[J].Agr Victoria1975,73:473-476.

[4]Barrit B H.Influence of orchards system on canopy development,light interception and production of third-year Grany Smith apples trees[J].Acta Hort,1989,24(3):121-130.

[5]张大鹏.叶幕微气候及其调控生物学研究中的基本概念和内涵[J].葡萄栽培与酿酒,1993,65(2):1-4.

[6]张大鹏.叶幕微气候调控在葡萄生产中的地位[J].葡萄栽培与酿酒,1989(2):5-9.

[7]张大鹏.叶幕微气候与葡萄生产[J].葡萄栽培与酿酒,1989(3):42-55.

[8]张大鹏,Carbonnean A.不同修剪水平对葡萄叶幕光照微气候和水分关系的影响[J].园艺学报,1990,17(1):13-20.

[9]张大鹏,王学臣,娄成后.不同辐射日照变化系统对葡萄净光合和气孔导性的影响[J].中国农业科学,1991,24(3):1-7.

[10]张大鹏.葡萄叶幕微气候的研究方法与技术[J].葡萄栽培与酿酒,1992(3):1-5.

[11]张大鹏,栽植方式、叶幕微区气候与葡萄生产-国外葡萄栽培生态生理研究进展[J].葡萄栽培与酿酒,1989(11):42-55.

[12]张大鹏.姜红英.叶幕微气候与葡萄生理、产量和品质形成之间的基本关系研究[J].园艺学报,1995,22(2):110-116.

[13]张大鹏,姜红英.叶幕PAR光能截留和分配对葡萄群体光合同化物库原关系的调控植物[J].生态学报,1995,19(4):302-310.

[14]魏钦平,张继祥.苹果优质生产的最适气象因子和气候区划[J].应用生态学报,2003,14(5):713-716.

[15]孙志鸿.苹果树冠微气候与果实品质关系的研究[D].北京:中国农业科学院,2005.

[16]Barrs H D.Water defieits and plant growth(ed.T.T.Kozlowski)[M].Vol.I.London and New-YorkAcademic Press,1968:339-347.

[17]王建新,牛自勉.叶幕结构与光合作用的关系研究[J].中国农学通报,200811(24):302-305.


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Last Update: 2014-08-13