Composition and mineralization of organic compost derived from composting of fruit and vegetable waste
Palavras-chave:
organic fertilizer;, nutrientes;, substrates.Resumo
Fruit and vegetable waste can be used for the production of organic compost, which when mineralized can increase the availability of nitrogen. The objectives of this study were: (a) to produce compost from different ratios of fruit and vegetable waste, rice husk and poultry manure that meets the legislation on organic fertilizers and (b) to assess the mineralization of N in substrates prepared with different ratios of compost. In experiment 1, the following treatments were prepared using (fruit and vegetable residue: rice husk: poultry waste) (v:v): Treatment 1 (2:1:0), T2 (1:1:1), T3 (1.5:1:0) and T4 (1.2:1:0). All the treatments were subjected to composting for 95 days, were subjected to analysis of nutrients, organic carbon, C/N, CEC/C, pH and moisture content. The composts were compared in regards to the parameters required by legislation. In experiment 2, the treatments consisted of eight blends of agricultural peat, carbonized rice husk and organic compost pre-selected from experiment 1. The NO3--N and NH+4-N contents were analyzed in the substrate at time zero and at 7, 14, 28, 56, 112 days after incubation. Compost (C2) met the parameters required by legislation and the use of 40% in the substrate composition promoted the mineralization of N.
Referências
ABRAS - Associação Brasileira de Supermercados (2015) Fórum trás dimensão global à prevenção de perdas . Disponível em: <http://www.abrasnet.com.br/economia-e-pesquisa/perdas/pesquisa-2015/>. Acessado em: 10 de dezembro de 2016.
Andreoli CV (2011) Resíduos sólidos do saneamento: processamento, reciclagem e disposição final. Rio de Janeiro, RiMa / ABES. 565p.
Bernal MP, Alburquerque JA & Moral R (2009) Composting of animal manures and chemical criteria for compost maturity assessment. Bioresource Technology, 37:5444-5453.
BRASIL (2009) Instrução Normativa nR” 25, de 23 de julho de 2009. Normas sobre as especificações e as garantias, as tolerâncias, o registro, a embalagem e a rotulagem dos fertilizantes orgânicos simples, mistos, compostos, organominerais e biofertilizantes destinados à agricultura. DOU, 28/07/2009, Seção 1, p. 20.
Bueno P, Tapias R, López F & Díaz MJ (2008) Optimizing composting parameters for nitrogen conservation in composting. Bioresource Technology, 99:5069-5077.
Cantarella H (2007) Nitrogênio. In: Novais RF, Alvarez V VH, Barros NF de, Fontes RL, Cantarutti RB & Neves JCL (Eds.) Fertilidade do Solo. Viçosa, Sociedade Brasileira de Ciência do Solo. p.375-470.
Corrêa ÉK, Ulguima RR, Corrêa LB, Castilhos DD, Bianchi I, Gil-Turnes C & Lucia Jr T (2012) Addition of Bacillus sp. inoculums in bedding for swine on a pilot scale: Effect on microbial population and bedding temperature. Bioresource Technology, 121:127-130.
Costa MS, Costa LAM, Decarli LD, Pelá A, Silva CJ, Matter UF & Olibone D (2009) Compostagem de resíduos sólidos de frigorífico. Revista Brasileira de Engenharia Agrícola e Ambiental, 13:361-379.
Dores PR, Landgraf MD & Rezende MDO (2013) Processo de estabilização de resíduos orgânicos: vermicompostagem versus compostagem. Química Nova, 36:640-645.
Doublet CJ, Poitrenaud FM & Houot S (2011) Influence of bulking agents on organic matter evolution during sewage sludge composting; consequences on compost organic matter stability and N availability. Bioresource Technology, 102:1298-1307.
Fernandes IJ (2016) Characterization of rice husk ash produced using different biomass combustion techniques for energy. Bioresource Technology, 165:351-359.
Ferreira DF (2008) SISVAR: Um programa para análises e ensino de estatística. Revista Symposium, 06:36-41.
Fukumoto Y, Suzuki K, Kuroda K, Waki M & Yasuda T (2011) Effects of struvite formation and nitratation promotion on nitrogenous emissions such as NH3'N2O and NO during swine manure composting. Bioresource Technology, 102:1468- 1474.
Guidoni LLC, Bittencourt G, Marques RV, Corrêa LB & Corrêa EK (2013) Compostagem domiciliar: implantação e avaliação do processo. Revista Tecnológica, 17:44-51.
Hubbe MA, Nazhad M & Sánchez C (2010) Composting as a way to convert cellulosic biomass and organic waste into high-value soil amendments. BioResources, 05:2808-2854.
Kiehl EJ (2010) Novo Fertilizantes Orgânicos. Piracicaba, Agronômica Ceres. 247p.
Morais ERC & Maia CE (2013) Crescimento da parte aérea e raiz do meloeiro adubado com fertilizante orgânico. Revista Ciência Agronômica, 44:505-511.
Oliveira LB, Accioly AMA, Menezes RSC, Alves RN, Barbosa FS & Santos CLR (2012) Parâmetros indicadores do potencial de mineralização do nitrogênio de compostos orgânicos. Idesia, 30:65-73.
Ruggieri L, Gea T, Artola A & Sanchez A (2012) A study on air filled porosity evolution in sludge composting. International Journal of Environment and Waste Management, 09:56-58.
Sánchez-Monedero MA, Roig A, Cegerra J & Bernal MP (2010) Nitrogen transformation during organic waste composting by the Rutgers system and its effects on pH, EC and maturity of the composting mixtures. Bioresource technology, 78:301- 308.
Sartor LR, Assmann AL, Assmann TS, Bigolin PE, Miyazawa M & Carvalho PCF (2012) Effect of swine residue rates on corn, common bean, soybean and wheat yield. Revista Brasileira de Ciência do Solo, 36:661-669.
Silva FA de Melo, Villas Boas RL & Silva RB (2009) Parâmetros de maturação para diferentes compostos orgânicos. Revista Brasileira de Agroecologia, 04:67-78.
Sivakumar K, Kumar VRS, Jagatheesan PNR, Viswanathan K & Chandrasekaran D (2008) Seasonal variations in composting process of dead poultry birds. Bioresource Technology, 99:3708-3713.
Souza MSB, Vieira LM, Silva MJ & Lima A (2011) Caracterização Nutricional e Compostos Antioxidantes em Resíduos de Polpas de Frutas Tropicais. Ciência e Agrotecnologia, 35:554-559.
Tedesco MJ, Gianello C, Bissani CA, Bohnen H & wolkweiss SJ (1995) Análises de solo, plantas e outros materiais. 2a ed. Porto Alegre, Universidade Federal do Rio Grande do Sul. 174p. (Boletim Técnico, 5).
Wang X, Yang G, Feng Y, Ren G & Han X (2012) Optimizing feeding composition and carbon-nitrogen ratios for improved methane yield during anaerobic co-digestion of dairy, chicken manure and wheat straw. Bioresource Technology, 120:78-83.
Yang F (2013) Effect of bulking agents onmaturity and gaseous emissions during kitchen waste composting. Chemosphere, 93:1393-1399.
Zibilske LM & Materon LA (2015) Biochemical properties of decomposition cotton and corn stem and root resídues. Soil Science Society of America Journal, 69:378-386.
Zucconi F & Bertoldi M (1987) Composts specifications for the production and characterizationof composts from municipal solid waste. In: Bertoldi M, Ferranti MP, L2 Hermite MP & Zucconi F (Eds.) Compost: production, quality and use. London, Elsevier Applied Science. p.30-50.
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