摘要
以采集于贵州、云南、广西、湖南等地的火棘、密花火棘、全缘火棘、细圆齿火棘和窄叶火棘共5种火棘属植物26 401个成熟叶样为材料,利用WinFOLIA软件测量叶的多项形态指标并与叶面积进行11种模拟方程回归分析。结果表明:五种火棘属植物的叶面积(LA)与叶长×叶宽(LW)相关性最高,幂函数方程、三次方程、二次方程和线性方程能较好拟合其关系,且均以幂函数方程的解释程度最高(R2均大于0.970),5个物种的幂函数方程分别为LA=0.743(LW)0.936、LA=0.748(LW)0.936、LA=0.742(LW)0.955、LA=0.732(LW)0.952、LA=0.766(LW)0.954。这说明基于叶长×叶宽的叶面积幂函数方程能很好地来模拟五种火棘属植物的叶面积。
Leaf is an important plant organ for transpiration and photosynthesis. Accurate and non-destructive methods for estimating leaf area are critical to many related studies. In order to get the accurate regression functions to estimate leaf area of Pyracantha species,26401 mature leaf samples,from five species( Pyracantha fortuneana,P. densiflora,P. atalantioides,P. crenulata,P. angustifolia) in Guizhou,Yunnan,Guangxi,Hunan provinces in China,were collected in 2010 and 2011. Leaf analysis software of WinFOLIA was used to measure leaf indices such as leaf area( LA),leaf blade length( L),leaf horizontal width( W),leaf perimeter( LP),leaf vertical length( VL); then LW,L /W,LL and WW were also obtained. Regression analyses between LA and these leaf shape indices of these five species were carried out by using 11 models including power, cubic, quadratic, linear, logarithmic, inverse,compound,S,growth,exponential,logistic model. The results were as follows: leaf area can be modeled better with LW than other indices; leaf area can be modeled better with LW by power,cubic,quadratic and linear models,and power function is the fittest model( R2 0. 970); Power models for five Pyracantha species were LA = 0. 743( LW)0. 936,LA=0. 748( LW)0. 936,LA=0. 742( LW)0. 955,LA=0. 732( LW)0. 952and LA = 0. 766( LW)0. 954respectively. This study highlight that power model of leaf area based on L×W can be better used to non-destructively estimate leaf area of five Pyracantha species.
出处
《广西植物》
CAS
CSCD
北大核心
2013年第6期756-762,869,共8页
Guihaia
基金
国家自然科学基金(31070554)
国家重点基础研究发展计划项目(2006CB403207)
关键词
火棘属
叶面积
叶形
回归分析
幂函数方程
Pyracantha
leaf area
leaf shape
regression analysis
power function
