Abstract
Strategies for waste valorisation from domestic and agro-industrial activities must be pursued, and its use as a soil amendment is an interesting possibility. In this four-year study, the effect of applying municipal solid waste (MSW), farmyard manure (FYM), bottom wood ash supplemented with nitrogen (Ash + N), the inorganic fertilization common in the region (50 kg ha−1 N, P2O5 and K2O) (Control) and this inorganic fertilization supplemented with 70 kg N ha−1 (High N) was assessed in a rainfed olive grove planted in a shallow soil with low organic matter and managed with conventional tillage. The High N treatment significantly increased olive yield in comparison to the other treatments (165% more than MSW), and soil available N proved to be the main driver for tree productivity. MSW and FYM increased soil organic matter, as well as the levels of phosphorus and cation exchange capacity, leaving good indications for future production cycles, although during the four years of the study these treatments provided little N to the trees. The High N treatment significantly reduced soil organic matter (63% less than MSW). The result was attributed in part to the soil management system that did not allow the development of herbaceous vegetation, but also to an effect known as “added N interaction”, in which the excess of inorganic N in the soil might have contributed to accelerate the mineralization of native soil organic matter, an aspect that compromises the sustainability of this fertilization strategy. Although MSW and wood ash are sometimes associated with risks of environmental contamination with heavy metals, in this study the levels of heavy metals in soils and in plant tissues were not of concern.
Highlights
Even though in some studies results have been reported in which no differences in olive yield were observed by the application of N [42,43]
The High N treatment resulted in higher olive yields and the treatments consisting of organic amendments (MSW and farmyard manure (FYM)) were associated with poorer N nutritional status of olive trees
Organic amendments increased the organic matter content in the soil, as well as P levels and CEC, which could play an important role in the long-term if this fertilization strategy is maintained over the years
Summary
Agricultural soils contain all the essential nutrients for higher plants. They are not always in the most appropriate balance for plant development or in the quantities that allow high productivity to be achieved. The slush and burn system (cleaning, burning, cropping and abandonment) was the traditional way to deal with nutrient mining and allow the regeneration of soil fertility [1]. Current agricultural systems require continuous cultivation and intensification of crop production to produce more food per unit of land area. Continuous cultivation is a major cause of declining soil fertility due to the largescale nutrient removal in crops, coupled with nutrient loss through erosion, leaching and greenhouse gas emission [2]
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