Biblioteca do Café
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Item Programmed pruning cycle for arabica coffee as enhancer of nutrient cycling to maintain soil fertility(Empresa Brasileira de Pesquisa Agropecuária - Embrapa, 2024-12-13) Araújo, Diogo Ribeiro de; Colodetti, Tafarel Victor; Souza, Matheus Fonseca de; Caldeira, Marcos Vinicius Winckler; Oliveira, Fábio Luiz de; Amaral, José Francisco Teixeira do; Maciel, Laiane Silva; Martins, Lima Deleon; Tomaz, Marcelo AntonioThe objective of this work was to evaluate the nutrient cycling and biomass input of arabica coffee plants managed with a programmed pruning cycle and potassium fertilization. The experiment was carried out in a split-plot arrangement, with four doses of K in the plot, and nine periods of evaluation in the subplot. A randomized complete block design with four replicates was applied. Significance was observed as a function of days after pruning, reaching 78.5% of the decomposed leaf material at 324 days. The release of nutrients showed a variable behavior. At 360 days of evaluation, the percentages of releases nutrients were: 97.2, 79.1, 73.7, 68.0, 48.6, and 32.5, for K, P, Mg, Mn, N, and Ca, respectively. Potassium fertilization levels do not influence the decomposition rate of the leaves eliminated by the programmed pruning cycle in arabica coffee.Item Nutritional characteristics of conilon coffee genotypes grown in transition altitude with water management in soil(Editora UFLA, 2021-10-27) Salles, Rodrigo Amaro de; Jordaim, Renan Baptista; Colodetti, Tafarel Victor; Rodrigues, Wagner Nunes; Amaral, José Francisco Teixeira do; Tomaz, Marcelo AntonioThe modification of water management in the Conilon coffee (Coffea canephora) crop is a possible strategy to improve nutritional management efficiency and ensure better use of the genotypes for regions of transitional altitude. The objective of this study was to evaluate the nutritional characteristics of 27 genotypes of C. canephora and submit them to two water management schemes in soil. The goal was to find evidence of higher leaf contents, exports, and nutrient recycling potential in the productive branches of various genotypes. The experiment was carried out in a randomized block design with three replications in a split-plot scheme. The treatment consisted of 27 genotypes of C. canephora and two water management schemes in soil (“Irrigated” and “Rainfed”). Nutritional content in leaves, exported by fruits, and pruned (leaves and stem of plagiotropic branches) recyclable contents were evaluated for nitrogen, phosphorus, potassium, calcium, and magnesium. Variations were observed among genotypes for all the parameters evaluated in both water management in soil. However, significant homogeneous groups were formed among the genotypes in the irrigated management. Furthermore, the genotypes showed distinct nutritional characteristics in response to water management in the soil. Genotypes 108 and 302 had higher nutritional content and were exported by fruits, regardless of soil water management.