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Effective strategies for reclamation of saline-alkali soil and response mechanisms of the soil-plant system. | LitMetric

AI Article Synopsis

  • The study investigates how different amendments can alleviate salt stress in saline-alkali soils, aiming to optimize their composition and understand their mechanisms.
  • A pot experiment revealed that a specific combination (2.0% phosphogypsum, 2.0% humic acid, 0.25% bentonite, 0.03% sodium carboxymethyl cellulose) significantly improved soil quality and enhanced growth in oilseed rape plants, reducing salinity and increasing nutrient content.
  • The amendments not only improved soil properties but also activated plant defense mechanisms, such as enhancing antioxidant enzyme levels, which helped the oilseed rape effectively manage oxidative stress from elevated salt levels.

Article Abstract

The combination of amendments has emerged as a potential strategy to efficiently alleviate salt stress in saline-alkali soil. However, knowledge regarding how to optimize the proportion of different amendment materials, comprehensively assess the contribution of each component, and clarify the response mechanisms of the amendment-saline-alkali soil-plant system is incomplete. Based on this, we conducted a pot experiment to evaluate the improvement effect of the combined application of different amendment materials at varying levels and the contribution of the amendment components to alleviating salt stress. Overall, T6 exhibited the most significant improvement effect on the physicochemical and biological properties of the saline-alkali soil and promoted the growth of oilseed rape, with the levels of 2.0 % phosphogypsum, 2.0 % humic acid, 0.25 % bentonite, and 0.03 % sodium carboxymethyl cellulose. Compared with the control group, the EC decreased by 1.51 % to 33.49 %, the soil salt content dropped by 11.40 % to 35.46 %, and the soil soluble Na + concentration significantly declined by 39.47 % to 63.20 %. Additionally, the soil nutrient content and soil microbial community structure were enhanced in treatment groups. Meanwhile, amendments alleviated salt stress in the oilseed rape plant by activating anti-oxidative enzymes and osmoregulatory substances such as soluble sugar and proline, thus improving their ability to remove reactive oxygen species (ROS). The anti-oxidative enzymes such as superoxide dismutase (SOD), peroxidase (POD), and catalase (CAT) were significantly increased, with an increase of 10.68 % (SOD, T2) ∼207.31 % (CAT, T6) compared to the control group. The structural equation modeling (SEM) analysis and simulation experiments indicated that the amendment components synergically promoted the amelioration effect on salt stress, and effectively improved soil properties, which affected the response of oilseed rape to soil environment. This research paper provides the relevant reference for the combined application of different amendment materials for soil reclamation.

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Source
http://dx.doi.org/10.1016/j.scitotenv.2023.167179DOI Listing

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