Abstract
Shading coffee trees has gained importance, especially among smallholders, as an option to improve the products’ quality, therefore acquiring place at the specialty coffee market, where consumers are willing to give bonus for quality. This work aims to evaluate the influence of shade trees’ spatial distribution among coffee trees’ agronomic characteristics, yield, and beans and cup quality of shaded coffee trees. The experimental design consisted of completely randomized blocks with six repetitions and four treatments: coffee trees on shade trees planting rows, distant one meter from the trunk; coffee trees on shade trees planting row, distant six meters from the trunk; and coffee plants between the rows of shade trees, parallel to the previous treatments. The parameters analyzed were plant height, canopy diameter, plagiotropic branches’ length, yield, coffee fruits’ phenological stage, ripe cherries’ Brix degree, percentage of black, unripe, and insect damaged beans, bean size, and beverage quality. Shade trees quickened coffee fruits’ phenological stage of coffee trees nearest to them. This point also showed the best beverage quality, except for overripe fruits. The remaining parameters evaluated were not affected by shade trees’ spatial distribution.
Highlights
Brazilian production processes of specialty coffee have grown in the past decades due to the increase of demand from international markets [1]
Coffee trees’ plant height, canopy diameter, and plagiotropic branch length did not differ between the treatments (Table 3)
Ricci et al [4] related that in systems with low soil cover and little variation in shadows’ levels, such as coffee trees shaded with Erythrina, which cover only 2 to 6% of the soil, external morphological changes are not observed in coffee trees
Summary
Brazilian production processes of specialty coffee have grown in the past decades due to the increase of demand from international markets [1]. The implantation of shade trees in coffee plantation can bring about many benefits to the agroecosystem, such as temperature reduction of air, soil, and leaf surface [4], as well as the thermal amplitude [5], and softening the effect of biennial bearing [6]. It protects coffee plants from strong winds, rains, or hail [7] and increases nutrient cycling and soil organic matter [8].
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