Determining the minimum size of experimental plot for evaluating field parameters for Arabica coffee

Authors

DOI:

https://doi.org/10.33448/rsd-v11i6.29384

Keywords:

Bootstrap; Experimental accuracy; Experimental planning; Simulation.

Abstract

The coffee production chain has great socio-economic importance in Brazil, generating foreign exchange with great job-generating capacity. The Brazilian coffee production is circa 2.863 k tons and coffee research has contributed to the development of new technologies in order to increase yield. However, the size of plots used for coffee experiments has been variable and mostly based on the empirical researcher's experience. Therefore, this research was carried out aiming to determine the optimal size of experimental plots to evaluate field growing parameters of Arabica coffee. The modified maximum curvature model and the comparison of variances were the methods used. It is concluded that 2, 3, 3, and 6 plants per useful experimental plot of Arabica coffee are enough to evaluate the field growing parameters plant height, plant canopy diameter, vigor, and wet mass, respectively by the method of modified maximum curvature. Two plants per experimental plot were required when using the variance comparison method to the parameters plant height, and plant canopy diameter, and 4 plants were enough to the parameters vigor and wet mass. In general, four useful plants per experimental plot were enough using the variance comparison method and six useful plants when using the modified maximum curvature method.

References

Bonomo, R., Oliveira, L. F. C., Silveira Neto, A. N. & Bonomo, P. (2008). Produtividade de cafeeiros arábica irrigados no cerrado goiano. Pesquisa Agropecuária Tropical, 38 (4), 233-240.

Cargnelutti Filho, A., Loregian, M. V, Bubans, V. E., Somavilla, F. M., Da Costa, S. L. (2021). Comparison of methods for estimating the optimum plot size for pearl millet, slender leaf rattlebox, and showy rattlebox. Revista Caatinga, 34 (2), p. 267 – 256.

Cipriano, P. E., Ferreira Junior, J. B., Almeida, S. L. S. & Campos, K. A. (2014). Tamanho útil de parcela para produtividade de cafeeiro adulto. Revista da Estatística, 3 (3), 734-738.

CONAB - Companhia Nacional de Abastecimento. Acompanhamento da Safra Brasileira de Café. Safra 2021. (2021). Quarto Levantamento. https://www.conab.gov.br/info-agro/safras/cafe/boletim-da-safra-de-cafe.

Freitas, Z. M. T. S., Oliveira, F. J., Carvalho, S. M., Santos, V. F. & Santos, J. P. O. (2007). Avaliação de caracteres quantitativos relacionados com o crescimento vegetativo entre cultivares de café arábica de porte baixo. Bragantia, 66 (2), 267-275.

Galvão, R. N., Silva, S. S., Costa, V. C., Caliman, G. B., Betini, R. P., Oliveira, T. N., Côco, L. G., Andrião, N. B., Pereira, L. L., Caliman, R. B., Guarçoni, R. C. & Rodrigues, F. C. (2018). Tamanho de amostra para avaliar características físico-químicas de tomate. Revista Científica Intelletto, 3, 1-10.

Guarçoni, R. C., Souza, J. L., Favarato, L. F., Angeletti, M. P. & Bahiense, D. V. (2017). Determinação do tamanho ótimo de parcela experimental para experimentos com repolho utilizando simulação e métodos de estimação. Revista Científica Intelletto, 2 (2), 79-87.

Guarçoni, R. C., Alixandre, F. T., Sousa, D. G., Pereira, L. L., Brioschi Junior, D., Souza, L. H. B. P., Favarato, L. F. & Marcate, J. P. P. (2020a). Plot size for evaluation of agronomic and sensorial characteristics of arabica coffee. Revista Brasileira de Biometria. 38 (1),57- 68.

Guarçoni, R.C., Brioschi Junior, D., Alixandre, F. T., Pereira, L. L., Sousa, D. G., Marcate, J. P. P., Favarato, L. F., Souza, L. H. B. P., Fornazier, M. J. & Filete, C. A. (2020b). Tamanho ótimo de parcela experimental para avaliar características físico-químicas de café arábica. Revista Ifes Ciência, 6 (3), p.03-11.

Guimarães, B. V. C., Donato, S. L. R., Aspiazu, I., Azevedo, A. M. & Carvalho, A. J. (2019a). Methods for Estimating Optimum Plot Size for ‘Gigante’ Cactus Pear. Journal of Agricultural Science, 11 (14), 205-215.

Guimarães, B. V. C., Donato, S. L. R., Aspiazu, I., Azevedo, A. M. & Carvalho, A. J. (2019b). Size of plots for experiments with cactus pear cv. Gigante. Revista Brasileira de Engenharia Agrícola e Ambiental, 23 (5), 347-351.

Leonardo, F. A. P., Pereira, W. E., Silva, S. M., Araújo, R. C. & Mendonça, R. M. N. (2015). Tamanho ótimo da parcela experimental de abacaxizeiro ‘Vitória’. Revista Brasileira de Fruticultura, 36 (4), 909-916.

Lessman, K.J. & Atkins, R.E. (1963). Optimum plot size and relative efficiency of lattice designs for grain sorghum yield test. Crop Science, 3 (1), 477-481.

Mammen, E. & Nandi, S. Bootstrap and resampling. (2012). In: Gentle, J. E., Hardle, W. K. & Mori, Y. (Ed.). Handbook of computational statistics, p. 499-527.

Paiva, R. N., Carvalho, C; H. S., Mendes, A. N. G., Almeida, S. R., Matiello, J. B. & Ferreira, R. A. (2010). Field performance of coffee progênies (Coffea arabica L.) in Varginha, Minas Gerais State. Coffee Science, 5 (1), 49-58.

R CORE TEAM. R: A language and environment for statistical computing, version 4.0.5. (2021). https://www.R-project.org.

VALLEJO, R. L. & MENDOZA, H. A. (1992). Plot technique studies on sweet potato yield trials. Journal of the American Society for Horticultural Science, 117 (3), 508-511.

Veiga, A. D., Rocha, O. C., Guerra, A. F., Bartholo, G. F., Rodrigues, F. C., Pereira, W., Silva, T. P. & Silva, E. R. P. (2018). Agronomic performance and adaptability of Arabic coffee resistant to leaf rust in the central Brazilian savanna. Coffee Science, 13 (1), 41-52.

Viana, A. E. S., Sediyama, T., Cecon, P. R., Lopes, S. C. & Sediyama, M. A. N. (2002). Estimativas de tamanho de parcelas em experimento com mandioca. Horticultura Brasileira, 20 (1), p. 58-63.

Vilela, D. J. M., Carvalho, G. R., Botelho, C. E., Carvalho, A. M., Praxedes, M. A., Santos, M. C. & Fernandes, F. C. (2017). Crescimento inicial de cultivares de cafeeiro com diferentes doses de nitrogênio, fósforo e potássio. Coffee Science, 12 (4), 552-561.

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Published

02/05/2022

How to Cite

ZANDONADI, C. U. .; VIÇOSI, D. B. .; FORNAZIER, M. L.; BOTACIM, L. A.; SOUSA, D. G. de; MARTINUZZO, M. B.; ALIXANDRE, F. T.; FAVARATO, L. F.; KROHLING, C. A.; GUARÇONI, . R. C.; ALIXANDRE, R. D.; FORNAZIER, M. J. Determining the minimum size of experimental plot for evaluating field parameters for Arabica coffee. Research, Society and Development, [S. l.], v. 11, n. 6, p. e42811629384, 2022. DOI: 10.33448/rsd-v11i6.29384. Disponível em: https://rsdjournal.org/index.php/rsd/article/view/29384. Acesso em: 18 nov. 2024.

Issue

Vol. 11 No. 6

Section

Agrarian and Biological Sciences

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Copyright (c) 2022 Cecília Uliana Zandonadi; David Brunelli Viçosi; Maurício Lorenção Fornazier; Luciana Aparecida Botacim; Douglas Gonzaga de Sousa; Marx Bussular Martinuzzo; Fabiano Tristão Alixandre; Luiz Fernando Favarato; Cesar Abel Krohling; Rogério Carvalho Guarçoni; Ricardo Dias Alixandre; Maurício José Fornazier

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