Rotation of Triticale and Sweet Sorghum Improves Saline-Alkali Soil and Increases Productivity in a Saline Soil

Abstract

ABSTRACT Soil salinization significantly restricts crop yield, animal foraging, and biomass production for biofuels. Identifying an efficient farming system to mitigate these concerns has become a major research focus. The present study addresses the potential of rotating triticale and sweet sorghum at various planting densities to alleviate soil salt stress, enhance production, improve agronomic characteristics, and boost soil microbial communities in a saline agricultural environment in East China. Several indicators in 2017 and 2018. Results show that triticale and sweet sorghum planting significantly decreased soil salt contents compared to bare land plots. Multiple agronomic traits were measured for each planting density. For triticale, a density of 180 × 104 plants ha−1 showed the best plant height, tiller number per plant, yield, and lodging rate; for sweet sorghum, a density of 7 × 104 plants/ha showed the best plant height, yield, and lodging rate. High-density planting of triticale (180, 260, 320 × 104 plants/ha) and sweet sorghum (7, 8, 9 × 104 plants/ha) was associated with high counts of bacteria, Actinomycetes, and salt-tolerant Actinomycetes. However, planting density had no significant effect on the counts of fungi or salt-tolerant bacteria. Redundancy Discriminant Analysis (RDA) showed that plant height, yield, lodging rate, bacteria, salt-tolerant bacteria, Actinomycetes, and salt-tolerant Actinomycetes were negatively correlated with soil salinity, while tiller number per plant and stem thickness were positively correlated with soil salinity. In conclusion, a rotation system of triticale and sweet sorghum with planting densities of 180 × 104 and 7 × 104 plants/ha, respectively was established to improve and make full use of saline soil.