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Applying bio-organic fertilizer improved saline alkaline soil properties and cotton yield in Xinjiang

Hanji Xia, Hongguang Liu, Ping Gong, Pengfei Li, Qiang Xu, Qian Zhang, Changkun Yang, Qiang Meng

2025Scientific Reports11 citationsDOIOpen Access PDF

Abstract

Bio-organic fertilizers have demonstrated significant potential in enhancing saline-alkali soil properties, boosting crop yield, and reducing chemical fertilizer dependency. However, the extent of improvement and optimal application rates for varying saline-alkali soil conditions remain unclear. We conducted a 2-year field experiment (2022-2023) to evaluate the effects of different bio-organic fertilizer application rates on soil properties, nutrient availability, and cotton yield across three saline-alkali cotton fields with varying salinity levels 4.58, 9.07, and 12.76 g·kg⁻¹ (T1-T3). Four treatments were implemented, involving chemical fertilizer reductions of 0% (CK), 20% (F1), 40% (F2), and 60% (F3). Results indicated that, compared to CK, bio-organic fertilizer application reduced soil bulk density, salinity, and pH by an average of 15.84%, 53.86%, and 7.5%, respectively. Concurrently, soil moisture content, organic matter, nitrogen, phosphorus, potassium, and cotton yield increased by 36.72%, 58.4%, 59.4%, 77.9%, 88.7%, and 50.32%, respectively. Notably, the improvements in soil properties and cotton yield were more pronounced in 2023 compared to 2022. Principal component analysis revealed that a 60% bio-organic fertilizer application rate was optimal for mild, moderate, and severely salinized cotton fields. These findings provide a scientific basis for reducing chemical fertilizer use while improving the productivity and sustainability of saline-alkali soils.

Topics & Concepts

Alkali soilFertilizerYield (engineering)Environmental scienceSalineAgronomyBiologySoil scienceSoil waterMaterials scienceEndocrinologyMetallurgySoil Carbon and Nitrogen Dynamics