Application of diffuse reflectance spectroscopy to characterise volcanic soil color and mineralogy M.V. Sellitto, G. Palumbo, A. Di Cerce, C. Colombo1, 1 Dip. Scienze Animali Vegetali e dell’Ambiente, Unversitá delMolise, Gampobasso, Italy Soil color is an important soil property that has been related to organic matter content of surface horizons, soil moisture regime, and iron oxides content (Stoner and Baumgardner, 1981; Torrent et al., 1983). Color variation within a soil profile is related to its chemical, mineralogical and hydraulic properties although the nature and strength of the relationship has not been well defined (Baumgardner et al.,1985). Volcanic soils are generally very dark in the upper horizons and the for this reason they were named “Andosols” (from the Japanese “An- do”, which means An dark and do soil) while deep horizons consist of bright color varying with the type of volcanic parent material and composition of weathering products. Volcanic soils formed on fresh tephra show various colors ranging from white to black according of the chemical composition and mineralogy of the tephra and organic matter content. Well developed volcanic soils in temperate regions are yellow to reddish brown reflecting the formation of hematite, goethite or ferrihydrite according to the drainage conditions. Poor drainage is favourable to formation of goethite and lepidocrocite (with yellow color). Under well drained conditions, volcanic soils show reddish brown colors indicative of hematitic formation. Despite its pedological meaning, precise methods to measure soil color and soil reflectance properties, have not been extensively studied. The normal method of measuring soil color in the field requires visual matching of a sample with standard color chips (Soil Survey Division Staff, 1993). This method is at best semiquantitative. However, it is limited by the observer subjective knowledge and by the number of Munsell color chips (Baumgardner et al., 1985). Visual measurement in situ was influenced by the lighting condition that was related with geographic position. Direct full sunlight, sunlight filtered by trees, low-angle sunlight, and indoor lighting may result in severe inaccuracy. These limitations of visual measurement techniques result in poor correlation between soil color and soil properties and reduce the application of soil color criteria in soil classification. The specific objectives of this study are to compare field and laboratory soil color measurements and to assess significant correlation between spectral measurements and volcanic soil properties. Reflectance spectra were obtained using disturbed, < 2 mm, gently ground, air-dry soil. Soil spectra were acquired using a Jasco 560 UV-visible spectrophotometer equipped with an integrating sphere of 53 mm diameter, working in the 350-900 nm spectral range, and with a spectral resolution of 0.5 nm. Barium sulphate (Merck DIN 5033) was used as white standard, and CIE parameter (tristimulus coordinates) were calculated and converted to Munsell notation (Torrent and Barron, 1993.). All the whole volcanic soil samples show yellow color (form 0.1 to 3 Y and from 10YR to 7.5YR), with values ranging from 3.8 to 7.4, and chromas ranging from 1.5 to 5.4 according to the spectrophotometric measurements. The visual estimates of the Munsell color value and the spectrophotometer measurements are moderately correlated (Fig. 1 a ). Discrepancies between the two measurements may originate by the different lighting conditions and also because the two measurements were taken under different moisture conditions. Visual estimates of Munsell value show more variation than the corresponding spectrophotometer measurements (Fig. la). For example, visual estimates of a Munsell value of 3 correspond to spectrophotometer Munsell values ranging between 3.5 to 7 . Munsell value decrease cuvilinearly as OM increased but different populations were observed (Fig. lb). For example, Italian, Hungarian and Greek soils exhibit significant curvilinear trends while Spain and France soil shown Munsell values that decrease more 83

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