Page 28 - การประเมินปริมาณโพแทสเซียมในดิน ด้วยเทคนิคเนียร์อินฟราเรด (NIR) The evaluation of Potassium content in soil by Near Infrared.
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Ben-Dor, E. and A. Banin. 1995. Near-infrared analysis as a rapid method to simultaneously
evaluate several soil soil properties. Soil Sci. Soc. Am. J. 59: 364-372.
Bowers, S.A. and R.J. Hanks. 1965. Reflection of radiant energy from soils. Soil Sci. 100: 130-138.
Brown, D.J., K.D. Shepherd, M.G. Walsh, M.D. Mays and T.G. Reinsch. 2006. Global soil
characterization with VNIR diffuse reflectance spectroscopy. Geoderma. 132: 273-290.
Blanco, M. and D. Valdes. 2004. Influence of temperature on the predictive ability of near
infrared spectroscopy models. J. Near Infrared Spectrosc. 12: 121-126.
Dardenne, P., G. Sinnaeve and V. Baeten. 2000. Multivariate calibration and chemometrics for
near infrared spectroscopy. J. Near Infrared Spectrosco. 8: 229-237.
Haaland, D.M. and E.V. Thomas. 1988. Partial least-squares methods for spectral analyses.
Relation to other quantitative calibration methods and the extraction of qualitative
information. Anal. Chem. 60: 1193-1202.
Hansen, S., H.E. Jensen, N.E. Nielsen and H. Svendsen. 1991. Simulation of nitrogen dynamics
and biomass production in winter wheat using the Danish simulation model DAISY.
Fertilizer research. 27: 245-259.
Kawano, S., H. Abe and M. lwamoto. 1995. Development of calibration equation with
temperature compensation for determining the brix value in intact peaches. J. Near
Infrared Spectrosco. 3: 211-218.
Kawano, S. 2002. Sampling and sample presentation. In Siesler, H.W., Y. Ozaki., S. Kawata and
H.M. Heise. (eds). Near Infrared Spectroscopy: Principles, Instruments, Applications.
WILEY-VCH Verlag GmBH. Germany. Pp. 115-124.