期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

不同水分状况下棉花茎直径变化规律研究 被引量:35

Stem diameter variations of cotton under different water conditions
在线阅读 下载PDF
导出
摘要 利用DD型直径生长测量仪持续监测筒栽棉花茎秆直径的动态变化,对茎直径在不同天气的日变化规律、水分胁迫条件下不同生长阶段的变化规律及其与环境因素的关系进行了研究。结果表明,茎直径变化测量参数能较好地反映棉花水分状况,但茎直径变化受外界环境因素和作物自身发育特性共同影响,在不同生长阶段,宜采用不同参数作为水分诊断指标。在茎生长阶段,茎直径最大值随时间的变化能较好地反映棉花水分亏缺程度,而不同水分处理间的日最大收缩量差异不显著;在茎成熟阶段,日最大收缩量对水分亏缺的反应非常敏感,是适宜的水分诊断指标。对影响茎直径变化的环境因素进行分析后得出,土壤水分、辐射和空气饱和差影响最大,相对湿度次之,气温和风速的影响很小。在此基础上建立了棉花茎直径日最大收缩量与环境因子之间的回归模型,可为利用茎直径变化评价作物缺水状况提供依据。 Stem diameter variations of cotton cultivated in pots were monitored continuously by using stem growth measurement transducer (DD-type). The diurnal variations of stem diameter under different weather conditions and the stem diameter responses to water deficits at different growth, stages were investigated, while the influences of environmental variables on stem diameter variations were evaluated. The results showed that parameters derived from stem diameter measurements were reliable plant water status indicators. Since stem diameter variations reflect the combined effects of environmental variables and plant vegetate characteristic, the influence of phenology on stem growth must be taken into account when selecting suitable plant water status indicators. During stem growth stages, the trend of maximum stem diameter (MXSD) had greater response to water stress but there were no obvious differences in maximum daily shrinkage (MDS) under different water conditions. Conversely, MDS can be a reliable indicator of plant water status at the stem mature stages with its high sensitivity to water deficits. Then, stem diameter variations were correlated to environmental factors. Soil water content, radiation and vapor pressure deficit (VPD) were found to be the predominant factors affecting MDS, followed by the relative humidity, while air temperature and wind velocity had the least effect. The established relationship between MDS and environmental variables (radiation, vapor pressure deficit, relative humidity, and soil water content) can be used to detect crop water deficits.
作者 张寄阳 段爱旺 孟兆江 刘祖贵 陈金平 刘战东
机构地区 中国农业科学院农田灌溉研究所
出处 《农业工程学报》 EI CAS CSCD 北大核心 2005年第5期7-11,共5页 Transactions of the Chinese Society of Agricultural Engineering
基金 "863"节水重大专项(2002AA2Z4071) "863"专项(2001AA242081)
关键词 棉花 茎直径变化 水分胁迫 环境因素 cotton stem diameter variations water stress environmental variables
分类号 S274.4 [农业科学—农业水土工程]
  • 相关文献

参考文献16

  • 1Turner N C. Crop water deficits: A decade of progress[J]. Advance in Agronomy, 1987,39:1-51.
  • 2Turner N C. Techniques and experimental approaches for the measurement of plant water stress[J]. Plant and Soil,1981,58 .. 339- 366.
  • 3Goldhamer D A, Fereres E. Irrigation scheduling of almond trees with trunk diameter sensors [J]. Irrigation Science, 2004,23:11-19.
  • 4Lee B W, Shin J H. Optimal irrigation management system of greenhouse tomato based on stem diameter and transpiration monitoring [J]. Agricultural Information Technology in Asia and Oceania, 1998,87-90.
  • 5Kozlowski T T, Winget C H. Diurnal and seasonal variation in radii of tree stems[J]. Ecology, 1964,45: 149-155.
  • 6Namken L N, Bartholic J F, Runkles J R. Monitoring cotton plant stem radius as an indication of water stress[J]. Agronomy Journal, 1969,61:891-893.
  • 7Huck M G, Klepper B. Water relations of cotton. Ⅱ.Continuous estimates of plant water potential from stem diameter measurements[J]. Agronomy Journal, 1977,69..593-597.
  • 8Higgs K H, Jones H G. A microcomputer-based system for continuous measurement and recording fruit diameter in relation to environmental factors[J]. Journal of Experimental Botany, 1984,35 : 1646-1655.
  • 9Garnier E, Berger A. Testing water potential in peach trees as an indicator of water stress [J]. Journal of Horticultural Science, 1985,60:47-56.
  • 10Katerji N, Tardieu F, Bethenod O. Behavior of maize stem diameter during drying cycles: comparison of two methods for detecting water stress [J]. Crop Science,1994,34:165-169.

二级参考文献24

  • 1Turner NC.Crop water deficits:A decade of progress[J]. Adv in Agron, 1987,39:1-51.
  • 2Holmes J W, Shim S Y. Diurnal changes in stem diameter of Canary Island pine trees caused by soil water stress and varying miroclimate[J].J.Exp.Bot.,1968,19:219-232.
  • 3So H B. An analysis of the relationship between stem diameter and leaf water potentials[J]. Agron. Journal,1979,71:675-679.
  • 4So H B, Reicosky D C, Taylor H M. Utility of stem diameter changes as predictors of plant canopy water potential[J]. Agron. Journal,1979,71:707-712.
  • 5Mcburney T,Costigan P A. The relationship between stem diameter and water potentials in stems of young cabbage plants[J].Journal of Experimental Botany,1984,35:1787-1793.
  • 6Sato N,Hasegawa K. A computer controlled irrigation system for muskmelon using stem diameter sensor[J].Acta Hortic.,1995,399:161-166.
  • 7Lee B W. Diagnosis of irrigation time based on microchange of stem diameter in greenhouse tomato[J].J.Biol.Prod.Facilities & Envir.Control,1997,6(4):250-257.
  • 8Lee B W,Shin J H. Optimal irrigation management system of greenhouse tomato based on stem diameter and transpiration monitoring[J]. Agric.Info.Tech.in Asia and Oceania,1998:87-90.
  • 9Kozlowski T T. Diurnal variations in stem diameters of small trees[J]. Bot. Gaz.,1967,128:60-68.
  • 10Namken L N,Bartholic J F,Runkles J R. Monitoring cotton plant stem radius as an indication of water stress[J].Agron. J.,1969,61:891-893.

共引文献48

同被引文献491

引证文献35

二级引证文献272

农业工程学报
2005年 第5期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部