Bentonite Impact on Soil Properties and Biological Activity in the Face of Drought : A Review

Abstract

Abstract The clay mineral bentonite has received a lot of attention for its potential to reduce the harmful effects of drought on soil health and biological activity. Reduced enzymatic activity and microbial diversity are two negative outcomes of the drought’s impact on soil quality. Bentonite, however, has been shown to aid in the restoration of biological functions in drought-affected soils. Bentonite’s function as a soil moisture retainer is an important consideration. Bentonite acts as a reservoir, trapping water within its layers due to its high water-holding capacity and ability to form a gel-like structure. This capacity for water retention can reduce the negative impact of drought on soil organisms, making conditions better for enzyme activity and microbial life. Bentonite has also been shown to increase soil enzyme production and activity. Soil fertility and healthy ecosystems rely on the work of enzymes in nutrient cycling and organic matter decomposition. Reduced enzymatic activity is a common consequence of drought stress, which in turn reduces nutrient availability and worsens soil health. The application of bentonite, however, has been shown to increase enzyme production and activity even in drought conditions. This has the potential to improve soil health and productivity by preserving vital soil processes and encouraging nutrient cycling. In addition, bentonite can increase soil microorganism activity in dry areas. Soil microorganisms play a crucial role in the cycling of nutrients, the control of disease, and the health of the soil ecosystem as a whole. Reduced microbial diversity and activity have been linked to drought stress. However, research shows that applying bentonite to drought-affected soils increases both microbial growth and diversity. Increased nutrient availability, enhanced soil structure, and enhanced water infiltration and retention are all possible results of microbial stimulation. In conclusion, areas that have experienced drought can benefit from bentonite’s ability to improve soil enzymes and biological activity. Bentonite helps restore and maintain soil health even when water supplies are low. It does this by increasing water retention, encouraging enzyme production, and boosting microbial activity. To fully realize bentonite’s potential for fostering sustainable agriculture and sustaining healthy ecosystems, more study is required to determine the optimum application rates and methods.