Organic fertilizations and fertigation with chicken boiled manure for organic crop
Keywords:
Bokashi, Penergetic, Fragaria x ananassa, Soil microbial biomass carbon, Berry nutrient
Abstract
In order to achieve high profit in agricultural crops, it is necessary that fertilization of the soil is carried out properly, avoiding over fertilization, which contributes to the sustainable management of the soil. The objective of this study was to evaluate the effect of organic fertilization with bokashi, penergetic and boiled chicken manure doses on the production and nutrient content of berries, leaf chlorophyll index and soil microbial biomass in strawberry cultivation. The experiment was conducted in protected cultivation, evaluating productive variables (individual weight of berries and total production per plant), nutrients of the berry (nitrogen, phosphorus and potassium), soil (carbon of microbial biomass) and chlorophyll index in sheets. The treatments were strawberry without fertilization (control), penergetic (1.5 g.L-1), bokashi (50 g per plant) and doses of boiled manure via fertigation (2.5; 5; 7.5 and 10%, diluted in water) in a completely randomized design with five replications. Strawberry plants fertilized with bokashi showed significantly higher means of berry biomass, total berry production per plant, leaf chlorophyll and carbon values of soil microbial biomass. Doses of 7.5 and 10% of boiled poultry manure provided berries production similar to bokashi and both were superior to the control. Higher levels of nitrogen, phosphorus and potassium were found with bokashi treatment and treatments with EF 7.5 and 10% obtained higher averages for phosphorus content in berries, only.
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References
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Reyes-Pérez, J.J., R.A.L. Murillo, M.D.R.R. Bermeo, V.F.V. Morán, D.Z. Burgos e J.A.T. Rodríguez. 2018. Efecto de abonos orgánicos sobre la respuesta productiva en el tomate (Solanum lycopersicum L.). Rev. Fac. Agron. (LUZ). 35(1): 26-39.
Scotton, J. C., J. Silva Pereira, A.A.B. Campos, D.F.P. Pinto, W.L.F. Costa e S.K. Homma. 2017. Different sources of inoculum to the bokashi provides distinct effects on the soil quality. Braz. J. Sust. Agr. 7(3): 32-38.
Silva E.E., P.H.S. Azevedo e H. de-Polli. 2007. Determinação do Carbono da Biomassa Microbiana do Solo (BMS-C), Comunicado Técnico 98, EMBRAPA Agrobiologia, p.6.
Souza, J.L. e P. Resende. 2006. Manual de Horticultura Orgânica. 2ªed. Viçosa-MG: Aprenda Fácil. p.843.
Tonin, J., J.T.M. Machado, J.A. Benati, B. Rohrig, L. Sobucki, T. Chassot e E.P. Schneider. 2017. Yield and quality of fruits of strawberry cultivars in an organic production system. Científica. 45(3): 271-277.
Vignolo, G.K., V.F. Araújo, R.J. Kunde, C.A.P. Silveira e L.E.C. Antunes. 2011. Produção de morangos a partir de fertilizantes alternativos em pré-plantio. Cienc. Rural. 41(10): 1755-1761.
Antunes, L.E.C., S. Bonow e C. Reisser Junior. 2020. Morango: crescimento constante em área e produção. In: Anuário HF 2020. Revista Campo & Negócios 88-92. Disponible en: https://www.alice.cnptia.embrapa.br/bitstream/doc/1122535/1/Anuario-HF-2020-LEC-Antunes.pdf
Aparecido, L.E.O., G.S. Rolim, J. Richetti, P.S. de Souza e J.A. Johann. 2016. Köppen, Thornthwaite and Camargo climate classifications for climatic zoning in the State of Paraná, Brazil. Cienc. Agrotec. 40(4): 405-417
Association of Analytical Chemists International - AOAC. 1992. Official methods of analysis of the Association of Analytical Chemists International. 14 ed. Washington.
Carvalho, S.P., M.A.C. Zawadneak, P.F.S. Andrade e J.C. Zandoná. 2014. O cultivo do morangueiro no Brasil. In: Como produzir morangos. Zawadneak M.A.C., J.M. Schuber e A.F. Mógor (orgs) Editora UFPR, Curitiba - Paraná - Brazil. p.15-31.
de Lima Silva, P.N., N.D.B.L. Lanna e A.I.I. Cardoso. 2018. Doses de bokashi em cobertura na produção de beterraba. Rev. Agric. Neotropical. 5(1): 28-34.
Domingues, A.R., T.C.M. Vidal, F.T. Hata, J.B. da Silva, M.U. Ventura e L.S.A. Gonçalves. 2018. Postharvest quality, antioxidant activity and acceptability of strawberry fruits grown in conventional and organic systems. Braz. J. Food Technol. 21: 2017154.
Ferreira, S., R.J. Souza e L.A.A. Gomes. 2013. Produtividade de brócolis de verão com diferentes doses de bokashi. Rev. Agrogeoambiental, 5(2): 31-38.
Gonçalves, A.S., M.T. Monteiro, J.G.M. Guerra e H. De-Polli. 2002. Biomassa microbiana em amostras de solos secadas ao ar e reumedecidas. Pesqui. Agropecu. Bras. 37(5): 651-658.
Hata, F.T., M.U. Ventura, M.S.D.J. de Souza, N.V. de Sousa, B.G. Oliveira e J.B. da Silva. 2019a. Mineral and organic fertilization affects Tetranychus urticae, pseudofruit production and leaf nutrient content in strawberry. Phytoparasitica. 47: 513–521.
Hata, F.T., M.U. Ventura, M.T. de Paula, G.D. Shimizu, J.C.B. de Paula, D.A.O. Kussaba, N.V. de Sousa. 2019b. Intercropping garlic in strawberry fields improves land equivalent ratio and gross income. Cienc. Rural. 49(12): e20190338.
Hata, F.T., M.U. Ventura, V. Sousa e G.A.F. Fregonezi. 2019c. Low-cost organic fertilizations and bioactivator for arugula-radish intercropping. Emir. J. Food Agric. 31(10): 773-778.
Higa, T. 2001. The Technology of Effective Microorganisms: Its role in Kyusei Nature Farming. Sixth International Conference on Kyusei Nature Farming, Ed. by Y. D. A. Senanayake, Sangakkara, U.R., Pretoria, South Africa, 40p..
Ilha, L.L.H. 2012. Húmus líquido: a utilização de esterco fervido na adubação de hortaliças. II Reunião Sul-Brasileira Sobre Agricultura Sustentável. IV Encontro Caxiense para Desenvolvimento da Agricultura Orgânica Sustentável. Caxias do Sul.
Lima, F.A., T.V. de Araújo Viana, G.G. de Sousa, L.F.M. Correira e B.M. de Azevedo. 2018. Yield of strawberry crops under different irrigation levels and biofertilizer doses. Rev. Cienc. Agron. 49(3): 381-388.
Lori, M., S. Symnaczik, P. Mäder, G. de Deyn e A. Gattinger. 2017. Organic farming enhances soil microbial abundance and activity—A meta-analysis and meta-regression. PLoS One. 12(7): 180-442.
Malavolta, E., G.C. Vitti, S.A. Oliveira. 1997. Avaliação do estado nutricional das plantas. 2. ed. Piracicaba: Potafós. 3219 p.
PBMH e PIMO - Programa Brasileiro para Modernização da Horticultura e Produção Integrada de Morango. 2009. Normas de Classificação de Morango (Documentos, 33). São Paulo: CEAGESP. 2 p.
Pei-Sheng, Y. e X. Hui-Lian. 2002. Influence of EM Bokashi on nodulation, physiological characters and yield of peanut in nature farming fields. J. Sust. Agr. 19(4): 105-112.
Quiroz, M. e C. Céspedes. 2019. Bokashi as an amendment and source of nitrogen in sustainable agricultural systems: A review. J. Plant Nutr. Soil Sci. 19(1): 237-248.
Rocha, D.A., C.M.P. Abreu, A.D. Corrêa, C.D. Santos e E.W.N. Fonseca. 2008. Análise comparativa de nutrientes funcionais em morangos de diferentes cultivares da região de Lavras-MG. Rev. Bras. Frutic. 30: 1124-1128.
Reyes-Pérez, J.J., R.A.L. Murillo, M.D.R.R. Bermeo, V.F.V. Morán, D.Z. Burgos e J.A.T. Rodríguez. 2018. Efecto de abonos orgánicos sobre la respuesta productiva en el tomate (Solanum lycopersicum L.). Rev. Fac. Agron. (LUZ). 35(1): 26-39.
Scotton, J. C., J. Silva Pereira, A.A.B. Campos, D.F.P. Pinto, W.L.F. Costa e S.K. Homma. 2017. Different sources of inoculum to the bokashi provides distinct effects on the soil quality. Braz. J. Sust. Agr. 7(3): 32-38.
Silva E.E., P.H.S. Azevedo e H. de-Polli. 2007. Determinação do Carbono da Biomassa Microbiana do Solo (BMS-C), Comunicado Técnico 98, EMBRAPA Agrobiologia, p.6.
Souza, J.L. e P. Resende. 2006. Manual de Horticultura Orgânica. 2ªed. Viçosa-MG: Aprenda Fácil. p.843.
Tonin, J., J.T.M. Machado, J.A. Benati, B. Rohrig, L. Sobucki, T. Chassot e E.P. Schneider. 2017. Yield and quality of fruits of strawberry cultivars in an organic production system. Científica. 45(3): 271-277.
Vignolo, G.K., V.F. Araújo, R.J. Kunde, C.A.P. Silveira e L.E.C. Antunes. 2011. Produção de morangos a partir de fertilizantes alternativos em pré-plantio. Cienc. Rural. 41(10): 1755-1761.
Published
2021-03-15
How to Cite
Hata, F. T., de Paula, M. T., Moreira, A. A., Ursi Ventura, M., de Lima, R. F., de Freitas Fregonezi, G. A., & Martinez de Oliveira, A. L. (2021). Organic fertilizations and fertigation with chicken boiled manure for organic crop. Revista De La Facultad De Agronomía De La Universidad Del Zulia, 38(2), 342-359. Retrieved from https://produccioncientificaluz.org/index.php/agronomia/article/view/35503
Issue
Section
Crop Production
