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Crop Science Abstract -

Evaluating Wheat Nitrogen Status with Canopy Reflectance Indices and Discriminant Analysis


This article in CS

  1. Vol. 35 No. 5, p. 1400-1405
    Received: Sept 13, 1994

    * Corresponding author(s): penuelas@cc.uab.es
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  1. I. Filella ,
  2. L. Serrano,
  3. J. Serra and
  4. J. Peñuelas
  1. CREAF i Centre de Referència d'Estudis Ambientals, Facultat de Ciències, Universitat Autònoma, 08193 Bellaterra, Barcelona, Spain
    Fundació Mas Badia, E-17134 La Tallada (Girona), Spain



Nitrogen deficiencies can seriously reduce yield and economic returns for farmers. Remote sensing could provide inexpensive, largearea estimates of N status and be used to monitor N status since leaf chlorophyll (Chi) A content is mainly determined by N availability. The objective was to determine if remote sensing of wheat (Triticum aestivum L.) Chi A content would provide a rapid estimation of wheat N status. We measured the reflectance of a wheat crop submitted to five different fertilization treatments throughout the growth cycle. We tested several empirical reflectance indices of pigment content: reflectance at 550 nm (R550), reflectance at 680 nm (R680), three parameters of the red edge [wavelength (λre), amplitude in the first derivative of the reflectance spectra (dRre), and sum of amplitudes between 680 and 780 nm in the first derivative of the reflectance spectra (ΣdR680–780nm)], and pigment simple ratio (PSR) and normalized pigment chlorophyll index (NPCI) (indices of carotenoid/Chl ratio). We also measured leaf Chi A and N content, and leaf area index. There were significant correlations between canopy Chi A content and R550, R680, and all the red edge parameters. The NPCI and PSR followed phenological evolution of the carotenoids/Chl A ratio and separated the different treatments. By discriminant analysis based on the pigment indices reflectance at 430 nm (R430), R550, R680, λre, dRre, and NPCI, each reflectance spectrum can be assigned to a different N status class. Thus, the use of these optical techniques offers a potential for assessing N status of wheat.

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Copyright © 1995. Crop Science Society of America, Inc.Copyright © 1995 by the Crop Science Society of America, Inc.