Effect of Long-Term Biodegradable Film Mulch on Soil Physicochemical and Microbial Properties

Biodegradable mulches have become the focus of attention, as pollution caused by leftover plastic mulch material becomes increasingly severe. However, the impact of biodegradable mulches to the soil needs to be further investigated. An experiment was conducted to evaluate the impact of no-mulch, biodegradable film mulch (BM) and polyethylene film mulch (PM) on the soil's physical, chemical and biological properties after six years (2013-2019) of mulching in garlic growing season in a garlic-maize rotation. Results showed that the soil bulk density of the 10-20 cm soil layer under BM decreased by 12.09-17.17% compared with that under PM. The soil total nitrogen content increased significantly by 14.75-28.37%, and the soil available phosphorus and potassium content increased by 64.20% and 108.82%, respectively. In addition, BM increased the soil's microbial, soil urease, and soil catalase activities compared with those for PM. To sum up, BM can reduce soil bulk density, and long-term use of BM does not cause a decrease in soil nutrient content and microbial activity. On the contrary, it can improve soil quality. This study helps accumulate data for the environmental safety evaluation of BM and provides theoretical and technical support for the large-scale promotion of biodegradable mulches.