Riccardo Scotti scite author profile

Intensive agriculture is a farming system characterised by a large use of inputs, causing a large pressure on the environment. As peculiar and efficient example of intensive agriculture cultivation under plastic tunnels provides several advantages for farmers due to improvement of microclimatic conditions coupled with a relatively low investment costs. In the Mediterranean Basin such cultivation systems reach about 200,000 ha mainly in Spain, Turkey, Italy, and Morocco. As downside, intensive agriculture negatively affects soil fertility principally because of a loss in soil organic matter. Sustainable practices providing organic amendments could be a useful tool to maintain or increase organic matter content in agricultural soils, preserving and improving soil fertility. An improved knowledge of management factors affecting soil quality is crucial to plan farming systems that effectively maintain soil fertility. Therefore, this review focuses on the potential value of organic amendments in the recovery of soil fertility, in particular in sites under plastic cover intensive farming system. Following a brief overview of the effects of intensive agriculture on soil, the review describes various organic amendments used in agriculture and their benefits on soil fertility, to conclude with the need, in the future researches, to identify organic amendments able to maximize a recovery of soil fertility.

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Role of Enzymes in the Remediation of Polluted Environments

Rao

Scelza

Scotti

et al. 2010

J. Soil Sci. Plant Nutr.

177

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Environmental pollution is growing more and more due to the indiscriminate and frequently deliberate release of hazardous, harmful substances. Research efforts have been devoted to develop new, low-cost, low-technology, eco-friendly treatments capable of reducing and even eliminating pollution in the atmosphere, the hydrosphere and soil environments. Among biological agents, enzymes have a great potentiality to effectively transform and detoxify polluting substances because they have been recognized to be able to transform pollutants at a detectable rate and are potentially suitable to restore polluted environments. This brief review will examine some classes of pollutants and enzymes capable of transforming them effectively into innocuous products. Particular attention will be devoted to pollutants with a high polluting potential such as polyphenols, nitriles, PAHs, cyanides and heavy metals. The enzymatic processes developed and implemented in some of these detoxification treatments will be examined in details. The main advantages as well as the main drawbacks that are still present in the extensive application of enzymes in the in situ restoration of polluted environments will be discussed.

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Changes in soil chemical and biochemical properties following amendment with crude and dephenolized olive mill waste water (OMW)

et al. 2011

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Soil quality recovery and crop yield enhancement by combined application of compost and wood to vegetables grown under plastic tunnels

Bonanomi

D’Ascoli

Scotti

et al. 2014

Agriculture, Ecosystems & Environment

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Riccardo Scotti

Organic amendments as sustainable tool to recovery fertility in intensive agricultural systems

Role of Enzymes in the Remediation of Polluted Environments

Changes in soil chemical and biochemical properties following amendment with crude and dephenolized olive mill waste water (OMW)

Soil quality recovery and crop yield enhancement by combined application of compost and wood to vegetables grown under plastic tunnels

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