Enhancing Soil Health and Crop Performance Under Saline-Sodic Calcareous Soil: A Comparative Study of Nano-Sulfur and Mineral Sulfur Combined with Compost Application
Mohamed Abd Elaziz, S. H. Abd Elghany, Mohssen Elbagory, Basher A. El-Gamal, A. A. Abdelkhalek, Seham M. Abdel-Azeem, Alaa El-Dein Omara, Tamer H. Khalifa
Abstract
Calcareous soils, prevalent in arid and semi-arid regions, often limit agricultural productivity due to their alkaline nature and poor nutrient availability. This study assessed the effects of mineral sulfur (312 kg ha−1), nano-sulfur (12, 24, and 36 kg ha−1), and compost (4.8 tons ha−1) on the physical and chemical properties of saline calcareous soils and their impact on maize and wheat yields. The field experiment on new extended agriculture in Mallawy, Egypt, utilized a randomized complete block design. The results showed that nano-sulfur treatments outperformed mineral sulfur. Specifically, the combination of 36 kg ha−1 nano-sulfur with 4.8 tons ha−1 compost improved key soil physical properties, including bulk density, porosity, and hydraulic conductivity. This treatment also significantly reduced soil pH, electrical conductivity, and exchangeable sodium while enhancing the availability of essential nutrients such as nitrogen (N), phosphorus (P), potassium (K), and total sulfate (SO42−). These enhancements in soil health led to notable increases in both maize and wheat yields, as well as better crop nutrient uptake. The findings suggest that nano-sulfur, when used in conjunction with compost, is a highly effective amendment for improving the health of saline calcareous soils, enhancing crop productivity, and promoting sustainable agricultural practices in arid and semi-arid regions. This combination provides a promising alternative to excessive chemical fertilizers, fostering soil health and long-term agricultural sustainability.