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叶面降尘对香梨叶片高光谱特征的影响及定量反演研究 被引量:1

Effect of Foliar Dustfall Content(FDC)on High Spectral Characteristics of Pear Leaves and Remote Sensing Quantitative Inversion of FDC
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摘要 叶面降尘指大气中的浮尘经重力沉降后,在植物叶片表面所形成的一层明显积尘,对其进行监测,可为沙尘区的环境评价及农业灾害评估提供基本依据。在量化叶面降尘的基础上,研究了叶面降尘对南疆香梨叶片高光谱特征的影响,分析了叶面降尘与反射率的相关性,并建立了叶面降尘的高光谱定量反演模型。研究结果表明,叶面降尘使可见光(400~700nm)反射率增加,最大变幅位于666nm,绝对变化率为-10.50%,相对变化率为62.89%;使近红外(701~1 050nm)的反射率降低,最大变幅位于758nm,绝对变化率为12.04%,相对变化率为-41.75%。叶面降尘量大于20g·m^-2时,叶片除尘后,绿峰、红光吸收谷、蓝光吸收谷得到凸现,500~750nm波段的斜率明显变大。叶面降尘量低于20g·m^-2时,其对绿峰的形状和面积影响不大。叶面降尘与反射率在可见光波段呈正相关,与近红外波段呈负相关,可见光波段的相关性要优于近红外波段,最大相关系数(0.61)出现在663nm。在构建的七种PLSR反演模型中,倒数对数一阶微分模型具有较好的稳定性及预测能力,决定系数(R^2)、均方根误差(RMSE)、预测方差比(RPD)分别为0.78,3.37和2.09,对叶面降尘具有很好的预测能力,其余模型的RPD均小于2.0。研究结果为叶面降尘的高光谱遥感监测提供了一定的理论依据,同时为沙尘区环境评价及农业灾害评估提供了新的数据获取方法与思路。 The precipitation of floating and sinking dust on leaves of plants is called as foliar dustfall.To monitor foliar dustfallIt,it will provide fundamental basis for environmental assessment and agricultural disaster evaluation of dust area.Therefore,the aim of this work to(1)study the effect of foliar dustfall content(FDC)on high spectral characteristics of pear leaves,(2)analyze the relationship between reflectances and FDC,and(3)establish high spectral remote sensing quantitative inversion model of FDC.The results showed that FDC increased reflectances of visible band(400~700nm)with maximum band of 666 nm.Absolute and relative rates of change were-10.50%and-62.89%,respectively.The FDC decreased reflectances of near infrared band(701~1 050nm)with maximum band of 758 nm.Absolute and relative rates of change were 12.04% and41.75%,respectively.After dustfall was removed,reflection peak of green light and absorption valley of red and blue light became prominent,and slope of 500~750nm wave band increased when FDC was more than 20g·m^-2.While FDC just slightly affected shape and area of reflection peak of green light when FDC was less than 20g·m^-2.FDC were positive and negative correlated with reflectances of visible band and near infrared band,respectively.Maximum correlation coefficient(0.61)showed at663 nm.All of 7inversion models,the model based on the first-order differential of logarithm of the reciprocal had better stability and predictive ability.The coefficient of determination(R^2),root mean square error(RMSE)and relative percent deviation(RPD)of this model were 0.78,3.37 and 2.09,respectively.The results of this study can provide a certain reference basis for hyperspectral remote sensing of FDC.
作者 彭杰 王家强 向红英 牛建龙 迟春明 柳维扬
机构地区 塔里木大学植物科学学院
出处 《光谱学与光谱分析》 SCIE EI CAS CSCD 北大核心 2015年第5期1365-1369,共5页 Spectroscopy and Spectral Analysis
基金 国家自然科学基金项目(41061031 30900206) "973"前期专项(2011CB411909 2012CB426507)资助
关键词 南疆 香梨 叶面降尘 高光谱 反演 South Xinjiang Pear Foliar dust Hyperspectrum Quantitative inversion
分类号 X87 [环境科学与工程—环境工程] X831 [环境科学与工程—环境工程]
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参考文献13

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二级参考文献35

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光谱学与光谱分析
2015年 第5期

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