White Clover (Trifolium repens L.) Cultivation as a Means of Soil Regeneration and Pursuit of a Sustainable Food System Model

农业 白三叶 环境科学 粮食安全 食品加工 土壤污染 农业生产力 食品工业 可持续农业 农学 环境保护 农林复合经营 土壤水分 生物 生态学 食品科学 土壤科学
作者
Barbara Sawicka,Barbara Krochmal‐Marczak,J. Sawicki,Dominika Skiba,Piotr Pszczółkowski,Piotr Barbaś,Viola Vambol,Mohammed Messaoudi,Alaa Kadhim Farhan
出处
期刊:Land [Multidisciplinary Digital Publishing Institute]
卷期号:12 (4): 838-838 被引量:15
标识
DOI:10.3390/land12040838
摘要

Background: Currently, in the face of constant climate change and the development of the mining industry, recovering soils degraded by industry for agricultural production and ensuring more food security for the world has become more difficult. Soil contamination is of particular concern as it affects not only human health but also vegetation growth and the biological environment. The aim: The aim of our research is to develop an appropriate cultivation technology in the area of former and present oil extraction areas and monitor their recovery for agricultural purposes and, thus, for food production. Methods: Experimental, descriptive, laboratory, and comparative methods were used. Results: A significantly decreased content of PAHs in the tested soil under the influence of the “Green technology” was observed just in the third year of the research. Eight years after the introduction of “green technology”, the sum of PAHs in the soil degraded by the oil extraction industry was more than 2-fold reduced. Therefore, there is a need to develop a nature-friendly and cost-effective method of removing and minimizing the effects of soil contamination by oil and its products. Conclusions: T. repens turned out to be a species that significantly prevents the degradation of the agricultural environment and restores soil for agricultural use, consequently encouraging the production of food safe for humans. The immeasurable effect of the use of “Green technology” was to ensure the biodiversity of the grasslands and to return the sources of natural nitrogen bound by bacteria of the genus Rhizobium in coexistence with plants from the Fabaceae family.
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