麦秸成分和光谱反射率在分解过程中的变化

2009 First Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing Pub Date : 2009-10-16 DOI:10.1109/WHISPERS.2009.5289086

C. Daughtry, G. Serbin, J. Reeves, P. Doraiswamy, E. Hunt

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引用次数: 1

摘要

量化作物残茬覆盖是评估保护性耕作程度的必要条件。我们的目的是测量小麦秸秆成分和光谱反射率在分解过程中的变化，并评估这些变化对秸秆覆盖遥感估计的影响。将装满麦秸的网袋放在土壤表面，每隔22个月取出一次。秸秆中纤维素和半纤维素的相对比例下降，木质素增加。测定了小麦秸秆和两种土壤在350 ~ 2500 nm范围内的反射光谱。与纤维素相关的反射光谱中的吸收特征随着秸秆的分解而减弱。纤维素吸收指数(CAI)是作物残茬覆盖的可靠估计指标。需要具有多个相对较窄的短波红外波段或高光谱传感器的先进多光谱传感器来可靠地评估不同农业景观下的作物残茬覆盖。

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Wheat straw composition and spectral reflectance changes during decomposition

Quantification of crop residue cover is required to assess the extent of conservation tillage. Our objectives were to measure the changes in wheat straw composition and spectral reflectance during decomposition and to assess impact of these changes on remotely sensed estimates of residue cover. Mesh bags filled with wheat straw were placed on the soil surface and removed at intervals over 22 months. The relative proportions of cellulose and hemicellulose in the straw declined while lignin increased. Reflectance spectra of wheat straw and two soils were measured over 350-2500 nm region. Absorption features in the reflectance spectra associated with cellulose diminished as the straw decomposed. The Cellulose Absorption Index (CAI) was a robust estimator of crop residue cover. Advanced multi-spectral sensors with multiple relatively narrow shortwave infrared bands or hyperspectral sensors are needed to assess crop residue cover reliably over diverse agricultural landscapes.

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2009 First Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing

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