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7079144 
Journal Article 
Direct expression of an index for the degree of humification of humic acids using organic carbon concentration 
Ikeya, K; Watanabe, A; , 
2003 
Soil Science and Plant Nutrition
ISSN: 0038-0768
EISSN: 1747-0765 
JAPANESE SOC SOIL SCIENCE PLANT NUTRITION 
TOKYO 
47-53 
WOS:000180861000007 
One of the indices for the degree of humification of humic acids, RF, was evaluated in terms of organic C concentration. Thirty-six humic acid samples varying in the degree of humification were analyzed for comparison of the volumes of 0.02 M KMnO4, consumed by humic acid solutions, with their organic C concentration determined using a dissolved C analyzer. A significant correlation (r = 0.981***) was found between them regardless of the degree of humification, and RF could be replaced with A(600)/C, the absorbance at 600 nut per mg C mL(-1) in 0.1 M NaOH, by multiplying by a factor of 0.0648 (r = 0.994***). Accuracy of the organic C concentration of the humic acid solution that was determined using the dissolved C analyzer was confirmed by comparing with the C content determined by the dry-combustion method. Although the organic C concentrations in the humic acid solutions estimated by a colorimetric method with potassium dichromate-sulfuric acid as reagent were significantly lower than those determined using the dissolved C analyzer, the high correlation between them (r = 0.918***) enabled to estimate A(600)/C by the colorimetry, In the A(600)/C-log (A(400)/A(600)) (= Deltalog K) diagram, A(600)/C values of 2.5 and 5.0 could be applied instead of RF values of 40 and 80 as boarders to classify humic acids into Types A, B, and Rp. Significant correlations were also found between E-4/E-6, the ratio of absorbances at 465 and 665 nut in 0.025 m NaHCO3, and A(400)/A(600) or Deltalog K except for a sample containing a high proportion of Pg, the green fraction, which indicated the interchangeability between them with exception. Shortening of the period for extracting humic and fulvic acid fractions without changes in quantity and quality was also examined using four typical Japanese soils. Modification of extraction with standing and intermittent shaking with 0.1 m NaOH at 25degreesC for 48 h in the present NAGOYA method (Kuwatsuka et al. 1992: Soil Sci. Plant Nutr., 38, 2330) to continuous shaking under the same conditions enabled to shorten the period of extraction to 24 It. Shorter periods of 4 It and 16 It (overnight) were considered to be insufficient for a Fluvisol containing humic acids with a low degree of humification.