C. Machado, Brendo de Oliveira Ferreira, A. França, L. T. Sardinha, Eudes Neiva Júnior
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引用次数: 0
摘要
杂草对咖啡种植的干扰是造成作物生长和产量损失和损害的因素之一。因此,有必要采取一些策略来减轻这种压力,并通过加强营养来促进作物的最佳生长。本研究旨在评估在温室中与杂草 Bidens pilosa 竞争的阿拉伯咖啡(Coffea arabica L.)植物的初始生长过程中,不同来源和释放模式的高效磷肥的影响。实验在巴西 Vales do Jequitinhonha 和 Mucuri - Diamantina MG 联邦大学进行,采用了 4 x 6 因式排列的区组设计,四次重复。各因子对应于四种柔毛虫侵扰水平和六种磷源(超级单一磷源、常规磷源、MAP 磷源、颗粒有机矿质磷源、粒状有机矿质磷源、MAP 磷源与聚合物涂层,以及不施肥的对照处理)。研究结果表明,在本研究的实验条件下,来自 B. pilosa 的杂草竞争密度不断增加,对咖啡植株的初期生长产生了负面影响。不过,这种影响取决于磷肥的来源。建议咖啡种植园使用缓释磷肥,因为与咖啡植株相比,缓释磷肥有助于减少杂草的生长。
Enhanced-efficiency fertilizers on the growth of coffee plants under weed (Bidens Pilosa) competition stress
The interference of weeds in coffee cultivation is one of the factors contributing to losses and impairments in crop growth and productivity. Consequently, it becomes necessary to employ strategies aimed at mitigating this stress and facilitating optimal crop development through enhanced nutritional practices. This study aimed to assess the impact of various sources and modes of release of enhanced-efficiency phosphate fertilizers on the initial growth of Coffea arabica L. plants in competition with the weed Bidens pilosa in a greenhouse. The experiment was conducted at the Federal University of Vales do Jequitinhonha and Mucuri – Diamantina MG, Brazil, employing a block design in a 4 x 6 factorial arrangement with four replications. The factors corresponded to four levels of B. pilosa infestation and six phosphorus sources (Super Single, Conventional, MAP, Granulated Organomineral, Pelleted Organomineral, MAP Coated with Polymer, and a control treatment without fertilization). The findings suggest that under the experimental conditions of this research, the escalating density of weed competition from B. pilosa negatively impacts the initial growth of coffee plants. However, this effect is dependent on the source of phosphate fertilization. Fertilizers with slow-release phosphate sources are recommended for coffee plantations, as they contribute to reduced weed growth in comparison to coffee plants.