SHEN Xiao-hui,ZHANG Jing-tao,JIANGCheng,et al.Correlation between Chlorophyll Content and Spectral Characteristics of Soybean Leaves[J].Soybean Science,2009,28(04):747-750.[doi:10.11861/j.issn.1000-9841.2009.04.0747]
大豆叶片叶绿素含量与光谱的特征分析
- Title:
- Correlation between Chlorophyll Content and Spectral Characteristics of Soybean Leaves
- 文章编号:
- 1000-9841(2009)04-0747-04
- Keywords:
- Soybean; Leaf; Spectral reflectance; Vegetation indices
- 分类号:
- s565.1
- 文献标志码:
- A
- 摘要:
- 用Unispec光谱分析仪和SPAD叶绿素仪测定了2个品种从初花期到成熟期的反射光谱和叶绿素含量。用SPAD叶绿素仪测定结果表明:每个时期均为合交98-1667的叶绿素含量高于合丰55号;用Unispec光谱分析仪测定结果显示:合丰55号大豆的光谱反射率高于合交98-1667,并且发现在可见光510 nm~610 nm处有一个叶绿素反射吸收峰,此吸收峰是大豆叶片上特有的一个特征值。数据统计分析表明:叶片叶绿素含量与光谱植被指数mSR705、mND705和PSSRc具有极显著相关性。说明可以通过测量叶片光谱的方法来监测大豆叶片叶绿素含量。
- Abstract:
- Spectral reflection and chlorophyll content are measured respectively by Unispec spectrometer and SPAD chlorophyll meter from initial flowering to maturing of two soybean cultivars.The chlorophyll content of Hejiao 98-1667 was higher than that of Hefeng 55 in each measured period.The spectral reflectance of Hefeng 55 was higher than that of Hejiao 98-1667.A chlorophyll reflection absorption peak was observed in 510-610 nm wavelength,which maybe a unique eigenvalue of soybean leaves.Statistical analysis showed chlorophyll content of leaves significantly correlated to their spectral vegetation indices such as mSR705,mND705 and PSSRc,which suggests that the chlorophyll content of the leaves of soybean can be monitored by measuring the leaf spectral method.
参考文献/References:
[1]Knipling E B.Physical and physiological basis for the reflectance of visible and near infrared radiation from vegetation [J].Remote Sensing of Environment,1970,1 :155-159. [2]Thomas J R,Gausman H W.Leaf reflectance vs.leaf chlorophyll and carotenoid concentration for eight crops [J].Agronomy Journal,1977,69:799-802. [3]Blackmer T M,Schepers J S ,Varvel G E.Light reflectance compared with other nitrogen stress measurements in corn leaves[J].Agronomy Journal,1994,86:934-938. [4]McMurtrey J E,Chappelle E W,Kim M S,et al.Distinguishing nitrogen fertilization levels in field corn with actively induced fluorescence and passive reflectance measurements[J].Remote Sensing of Enviornment,1994,47:36-44. [5]Hong S,Rim S ,Lee J,et al.Remote sensing for estimating chlorophyll amount in rice canopies [A].Int.Proc Geoscience and Remote Sensing Symposium[C].Singapore,1997. [6]Gausman H W,Allen W A,Cardenas R,et al.Relation of light reflectance to histological and physical evaluations of cotton leaf maturity [J].Applied Optics,1970,9:545-552. [7]Blackburn G A.quantifying chlorophylls and carotenoids at leaf and canopy scales:an evaluation of some hyperspectral approaches[J].Remote Sensing of Enviornment,1998,66:273-285. [8]Datt B.Remote sensing of chlorophyll a,chlorohyll b,chlorohyll a+b and total carotenoid content in Eucalyptus leaves[J].Remote Sensing of Enviornment,1998,66:111-121. [9]Daughtry C S T,Walthall C L,Kim M S.Estimating corn foliar chlorophyll content from leaf and canopy reflectance[J].Remote Sensing of Enviornment,2000,74:229-239. [10]Sims D A,Gamon J A.Relationships between leaf pigment content and spectral reflectance across a wide range of species,leaf structures and developmental stages[J].Remote Sensing of Enviornment,2002,81:337-354. [11]Card D H,Peterson D L,Matson P A,et al.Prediction of leaf chemistry by the use of visible and near infrared reflectance spectroscopy[J].Remote Sensing of Enviornment,1988,26:123-147. [12]唐延林,黄敬峰,王人潮.水稻不同发育时期光谱与叶绿素和类胡萝卜素的变化规律[J].中国水稻科学,2004,18(1):59-66.(Tang Y L,Huang J F,Wang R C.The changes of spectrum of rice at different developmental stages and their chlorophyll and carotenoid[J].China National Rice Science,2004,18(1):59-66.) [13]唐延林,黄敬峰,王人潮,等.水稻遥感估产模拟模式比较[J].农业工程学报,2004,21(1):166-171.(Tang Y L,Huang J F,Wang R C,et al.The comparison of Rice yield estimation by remote sensing simulation model[J].Agricultural Engineering Journal,2004,21(1):166-171.) [14]薛利红,曹卫星,罗卫红.基于冠层反射光谱的水稻产量预测模型[J].遥感学报,2005,9(1):100-105.(Xue L H,Cao W X,Luo W H.Canopy reflectance spectrum based on the rice yield prediction model[J].Journal of Remote Sensing,2005,9(1):100-105.)
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备注/Memo
基金项目:黑龙江省国际合作资助项目(WB08C07)。 作者简介:申晓慧(1980-),女,硕士,研究方向为大豆高产栽培。E-mail:nxysxh@163.com。