Determination of maturity indices for city refuse composts

A composting experiment was carried out to study which are the best parameters to use as indicators of the degree of compost maturity, and to determine ‘humification’ indices for practical use. The following parameters were selected: cation exchange capacity (CEC), carbon/organic nitrogen ratio in water extract (CNw), CN ratio in solid phase (CNs), total organic carbon (Ct), oxidizable carbon (Co), alkaline-extractable carbon (Cex), humic and fulvic-like carbon (Cha, Cfa) humification ratio (HR = CexCo×100), humification index (H 1= ChaCo×100), percent humic acid (Pha=ChaCex×100) and ChaCfa ratio. The regression analysis shows that the carbon (total and oxidizable), CNs, CNw, CEC, Hl, Pha and ChaCfa ratio are correlated with a level of significance higher than 99.5%. From the integration of the deduced values, applying the obtained equations sequentially, the optimal values of these parameters to assure an acceptable degree of maturity of the compost are: CNs 67 mEq per 100 g (on an ash-free basis), ChaCfa > 1.6, Hl > 13% and Pha > 62%.

[1]  Y. Harada,et al.  The measurement of the cation-exchange capacity of composts for the estimation of the degree of maturity , 1980 .

[2]  Emeterio Iglesias Jiménez,et al.  Evaluation of city refuse compost maturity: a review , 1989 .

[3]  J. Cegarra,et al.  CATION EXCHANGE CAPACITY AS A PARAMETER FOR MEASURING THE HUMIFICATION DEGREE OF MANURES , 1988 .

[4]  M. Díaz-Raviña,et al.  Microbiological characterization of four composted urban refuses , 1989 .

[5]  R. Nogales,et al.  Effect of the application of town refuse compost on the soil-plant system: A review , 1987 .

[6]  Mitsuyo Hirai,et al.  Changes of Chemical Components and Nitrogen Transformation in Water Extracts during Composting of Garbage , 1982 .

[7]  Hiroshi Kubota,et al.  Carbon/Organic Nitrogen Ratio in Water Extract as Measure of Composting Degradation , 1981 .

[8]  F. González-Vila,et al.  Chemical structural characteristics of humic acids extracted from composted municipal refuse , 1985 .

[9]  Y. Harada,et al.  MATURING PROCESS OF CITY REFUSE COMPOST DURING PILING , 1981 .

[10]  A. Inoko,et al.  Composition analysis of humus and characterization of humic acid obtained from city refuse compost , 1981 .

[11]  J. M. Soileau,et al.  Municipal Waste Compost: Effects on Crop Yields and Nutrient Content in Greenhouse Pot Experiments 1 , 1973 .

[12]  S. Hernando,et al.  Effect of the application of a municipal refuse compost on the physical and chemical properties of a soil , 1989 .

[13]  M. Viel,et al.  Optimization of In-vessel Co-composting through heat recovery , 1987 .

[14]  M. Bertoldi,et al.  The Biology of Composting: a Review , 1983 .

[15]  A. Katayama,et al.  Effects of compost maturity on growth of Komatsuna (Brassica rapa var. pervidis) in Neubauer's pot. II: Growth inhibitory factors and assessment of degree of maturity by org.-c/org.-N ratio of water extract , 1983 .

[16]  Y. Harada,et al.  Relationship between cation-exchange capacity and degree of maturity of city refuse composts , 1980 .

[17]  A. Saviozzi,et al.  Humic fractions of organic wastes , 1983 .

[18]  Ming Hung Wong,et al.  The responses of edible crops treated with extracts of refuse compost of different ages , 1985 .

[19]  A. Katayama,et al.  Effects of compost maturity on growth of komatsuna (brassica rapa var. pervidis) in neubauer's pot: I. Comparison of Growth in Compost Treatments with That in Inorganic Nutrient Treatments as Controls , 1983 .

[20]  N. Senesi,et al.  Composted materials as organic fertilizers , 1989 .

[21]  C. C. Hortenstine,et al.  Pelletized Municipal Refuse Compost as a Soil Amendment and Nutrient Source for Sorghum , 1973 .

[22]  Ming Hung Wong,et al.  Phytotoxicity of refuse compost during the process of maturation , 1985 .

[23]  J. Morel,et al.  Methods for the evaluation of the maturity of municipal refuse compost , 1985 .

[24]  A. Das City garbage compost as a source of humus , 1988 .