Physiological potential of creole bean seeds subjected to alternative adhesive agents and sururu shell in Alagoas, Brazil

Elda Bonifácio dos Santos; Luan D.F. de Andrade Melo; João L. de A. Melo Junior; Larice B. F. Soares; João C. de Araújo Neto; Vilma Marques Ferreira; Vanuze Costa de Oliveira; Jaqueline F. de O. Costa; Regla T. L. R. Massahud; Erika Elias da Silva

Elda Bonifácio dos Santos, Luan D.F. de Andrade Melo

, João L. de A. Melo Junior, Larice B. F. Soares, João C. de Araújo Neto, Vilma Marques Ferreira, Vanuze Costa de Oliveira, Jaqueline F. de O. Costa, Regla T. L. R. Massahud, Erika Elias da Silva

Abstract: Various productive sectors have pursued sustainability, and agriculture is no exception. As a result, studies have been conducted on potential techniques for utilizing waste and enhancing the quality of materials used in plant production. Seed coating is probably the oldest, most economical, and safest measure, offering the best results for improving the physiological aspects of seeds. Lima bean (Phaseolus lunatus L.) belongs to the legume family; its seeds are edible and frequently cultivated as food in various parts of the world. Lima bean cultivation is primarily carried out by family farming in the Northeast of Brazil. In the state of Alagoas, the sururu (Mytella charruana) is found. The collection of this mollusk annually generates about five tons of shell waste in the Mundaú Lagoon, located on the southern coast of Alagoas. Therefore, the objective of this study was to evaluate the effect of different adhesive agents in the pelleting of creole lima bean seeds with sururu shell powder, analyzing the impact of these treatments on the physiological potential of the seeds. The adhesive materials used for the coating were water, extracts of aloe vera, mandacaru, and prickly pear, as well as cassava gum and polyvinyl acetate-based glue. Immediately after the application of the adhesive agent, the seeds were pelleted with sururu shell powder. The analyzed variables were: Thousand-seed weight, water content, first germination count, germination rate, germination speed index, mean velocity of germination, mean germination time, germination uncertainty, and seedling length and dry mass. The analysis of these variables allowed us to verify that pelleting the Creole lima bean seeds resulted in increased weight of a thousand seeds, mean germination speed, seedling length, and dry mass, as well as decreased mean germination time and germination uncertainty. Concluding, cassava gum is thus the most efficient adhesive agent in pelleting Creole lima bean seeds with sururu shell powder.

Keywords: germination; sustainability; vigor

Citation: dos Santos, E. B., Melo, L. D. F. de A., Junior, J. L. de A. M., Soares, L. B. F., Neto, J. C. de A., Ferreira, V. M., de Oliveira, V. C., Costa, J. F. de O., Massahud, R. T. La R. & da Silva, E. E. (2025). Physiological potential of creole bean seeds subjected to alternative adhesive agents and sururu shell in Alagoas, Brazil. Bulg. J. Agric. Sci., 31(6), 1149–1154

References: (click to open/close)

Anor, G. A, Mãe, Z., Irene, J. & Boye, J. I. (2014). Food Processing: Principles and Applications, 2nd ed. Wiley and Sons: Hoboken, NJ, USA, 2(1), 305 - 337.
Bortolini, M. F. & Fortes, A. M. T. (2005). Allelopathic effects on soybean seed germination (Glycine max L. Merrill). Semina: Agricultural Sciences, 26(1), 5 - 10.
Brasil. (2009). Rules for Seed Analysis. Ministry of Agriculture and Agrarian Reform. SNDA/DNPV/CLAV, Brasília, 365.
Caldeira, C. M., Carvalho, M. L. M., Guimarães, R. M. & Coelho, S. V. B. (2016) Seed Quality of Tobacco During Pelletization and Storage Process. Rural Science, 46(2), 216 - 220.
Carvalho, F., Aguiar, L. & Almeida, L. F. (2015). Germination Analysis in Radish Varieties. Encyclopedia Biosphere, 11(21), 60 - 68.
Carvalho, M. P., Santana, D. G. & Ranal, M. A. (2005). Seedling Emergence of Anacardium humile A. St.-Mil. (Anacardiaceae) Evaluated Through Small Samples. Brazilian Journal of Botany, 28(3), 627 - 633.
Conceição, P. M. & Vieira, H. D. (2008). Physiological Quality and Coating Resistance of Maize Seeds. Brazilian Journal of Seeds, 30(1), 48 - 53.
Crisóstomo, N. M. S., Costa, E. A., Silva, C. L., Berto, T. S., Ramos, M. G. C., Melo Junior, J. L. A., Melo, L. D. F. A. & Araujo Neto, J. C. (2018). Physiological Quality of Creole Maize Seeds from Different Localities. Craíbeiras Journal of Agroecology, 3(1), 6555 - 6560.
Czabator, F. J. (1962). Germination value: an index combining speed and completeness of pine seed germination. Forest Science, 8(4), 386 - 396.
Ferreira, D. F. (2014). Sisvar: a Guide for its Bootstrap procedures in multiple comparisons. Science and Agrotechnology, 38(2), 109 - 112.
Gadotti, C. & Puchala, B. (2010). Seed Coating, Abrates, 1(20), 70 - 71.
Krzyzanowski, F. C., França-Neto, J. De B., Gomes-Junior, F. G. & Nakagawa, J. (2020). Seed Vigor Tests Based on Seedling Performance. In: Seed Vigor: Concepts and Tests, Londrina: Abrate, 601.
Labouriau, L. G. (1983). Seed Germination. General Secretariat of the OAS, Washington - Regional Program for Scientific and Technological Development, Washington, 174.
Lima, S. F. & Oliveira, K. C. S. (2016). Alternative Uses of Sururu Shell. Undergraduate Journal - Exact and Technological Sciences - UNIT-ALAGOAS, 3(3), 121 - 121.
Maguire, J. D. (1962). Speed of germination: aid in selection and evaluating for seedling emergence and vigour. Crop Science, 2(1), 176 - 177.
Melo, L. D. F. A., Melo Junior, J. L. A., Santos, K. M., Silva, L. L., Malta, A. S., Santos, E. B., Costa, J. F. O., Oliveira, V. C., Magalhães, I. D., Silva, I. C. & Torres, I. L. N. (2023a.). Adhering agents in maize seed pelletizing. Journal of agriculture and ecology research international, 24, 28 – 33.
Melo, L. D. F. A, Junior, J. L. D. A. M, Santos, E. B. & Santos M. A. (2023b). Use of brown sugar adhesive adhesive agents based on, palm and alobe extracts in the coating of crean bean seeds with rock dust. Contributions to Social Sciences, 16(1), 393 - 402.
Melo, L. D. F. A., Melo Junior, J. L. A., Crisóstomo, N. M. S., Berto, T. S., Ramos, M. G. C. & Silva, L. G. (2020). Use of Adhesive Agents in Pelleting Creole Maize Seeds with Rock Powder. Revista Verde of Agroecology and Sustainable Development, 15, 245 - 249.
Melo, L. D. F. A. (2017). Morphometry, Physiological Potential of Seeds, and Post-germination Development of Mimosa bimucronata (DC) O. Ktze. Thesis (PhD in Plant Production) - Federal University of Alagoas, Rio Largo, 113p.
Melo, L. D. A. F. (2011). Physiological Potential of Enterolobium contortisiliquum (vell) Morong Seeds. Undergraduate Thesis (Bachelor's Degree in Agronomy) - Federal Rural University of Pernambuco, Garanhuns, 34p.
Mendonça, E. A. F., Carvalho, N. M. & Ramos, N. P. (2007). Seed Coating of Super Sweet Corn (SH2). Brazilian Journal of Seeds, 29(2), 68 - 79.
Monaco, P. A.V. L., Júnior G. R., Vieira G. H. S., Meneghelli C. M. & Simonc. P. (2015). Ground oyster shells and eggshells as soil acidity correctives. Engineering in Agriculture, 23(6), 584 - 590.
Moraes, C. D., Dilly, J. L., Dias, T. & Burle, M. L. (2017). Catalog of Lima Bean (Phaseolus lunatus L.) Preserved at Embrapa. Brasília, DF: Embrapa Genetic Resources and Biotechnology, 46 p. (Documents / Embrapa Genetic Resources and Biotechnology, 351).
Nascimento, A. L, Sampaio, R. A., Zuba Junio, G. R., Fernandes, L. A., Cruz, S. F. Da, Carneiro, J. P., Barbosa, C. F. & Lima, N. N. (2014). Soil Chemical Attributes Fertilized with Sewage Sludge Stabilized by Different Processes and Cultivated with Sunflower. Biosci. J., 30(1), 146 - 153.
Nascimento, W. M., Silva, J. B. C., Santos, P. E. C. & Carmona, R. (2009). Germination of osmotically primed and pelleted carrot seeds with various ingredients. Brazilian Horticulture, 27(1), 12 - 16.
Oliveira, A. K. M., Ribeiro, J. W. F., Pereira, K. C. L. & Silva, C. A. A. (2014). Seed Germination of Paineira-do-Campo (Eriotheca gracilipes (K. Schum.) A. Robyns) at Different Temperatures. Scientific, 42(4), 316 - 324.
Popoola, J., Ojuedérie, O., Omonhinmin, C. & Adegbite, A. (2019). Neglected and Underutilized Legume Crops: Improvement and Future Prospects. Improvement and Future Prospects. Recent Advances in Grain Crop Research, 1(1), 1 - 12.
Rios, P. A. F., Araujo Neto, J. C., Ferreira, V. M. & Neves, M. I. R. S. (2016). Morphometry and Seed Germination of Aechmea costantinii (Mez) L. B. Sm. (BROMELIACEAE). Caatinga Journal, 29, 85 - 93.
Sampaio, T. G. & Sampaio, N. V. (2009). Vegetable seed coating. In: Nascimento, W.M. Vegetable Seed Technology. Brasília: Embrapa Vegetables, 275 - 306.
Santana, D. G. & Ranal, M. A. (2004). Germination Analysis: A Statistical Approach. UnB Publisher, Brasília, 247.
Santos, S. R. G. (2016). Pelleting of Forest Seeds in Brazil: An Update. Forest and Environment, 23(2), 286 - 294.
Santos, M., Barros, M., Barros, H., Barosi, K. & Chicó, L. (2017). Creole Seeds: Sustainability in the Semi-Arid of Paraíba. Agrarian Academy, 4(7), 403 - 418.
Sarmento, H. G. S, Souza David, A. M. S., Barbosa, M. G., Nobre, D. A. C. & Amaro, H. T. R. (2015). Determinação do teor de água em sementes de milho, feijão e pinhão manso por métodos alternativos. Energia na Agricultura. Botucatu, 30(3), 249 - 256.
Tavares, L. C., Rufino, C. A., Dorr, C. S., Barros, A. C. S. A. & Peske, S. T. (2012). Performance of lowland rice seeds coated with dolomitic limestone and aluminum silicate. Brazilian Journal of Seeds, 34(2), 202 - 211.

Date published: 2025-12-16

Download full text