G. Campanelli, E. Testani, S. Canali, C. Ciaccia, F. Leteo, A. Trinchera
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引用次数: 8
Abstract
ABSTRACT In a two-year field experiment undertaken in Central Italy, different agro-ecological service crops (ASCs), terminated by the no-till roller crimper technology before organic melon production (Cucumis melo L.), were evaluated by assessing soil-plant N dynamics, weed management and crop performance, and by comparing with a tilled control without ASC. The ASCs (Poaceae, i.e. rye, barley, wheat, spelt and their mixture), were characterised in terms of aboveground biomass, N uptake, C : N ratio and degradation rate. During the melon growth cycle, soil mineral N (SMN), weed density and biomass were measured and the design of trial included weeded and unweeded plots. The yield and concentrations of soluble solids of the melon was measured. The ASC mulches differed in their N supply capacity and degradation rate. Rye and spelt were the best in terms of weed control, with approximately 80% lower weed density and weed biomass for either rye or spelt compared with the control. Wheat was the least effective against weeds, but it enhanced SMN. Melon yields were similar in plots with spelt and rye, weeded and unweeded treatments, but were reduced in the unweeded control (−58.5%) and barley treatment (−41.2%), compared with the respective weeded treatments. The low melon yield in the plots with rye suggested a negative allelopathic rye-melon interaction. The results highlighted that the ASCs were able to regulate, to different extents, the agro-ecosystem interactions.
期刊介绍:
Biological Agriculture & Horticulture aims to act as the central focus for a wide range of studies into alternative systems of husbandry, and particularly the biological or organic approach to food production. The Journal publishes work of a sound scientific or economic nature related to any aspect of biological husbandry in agriculture, horticulture and forestry in both temperate and tropical conditions, including energy and water utilization, and environmental impact.