Stimulating Tropical Soils with Na+ Cl- Radicals and Reclamation of Na+ Cl- Salinity Using Biochar and Hydro-Leaching Technology: A Sustainable Strategy for Management of Saline and Sodic Soils Under Climate Change

Rev. iberoam. bioecon. cambio clim. Pub Date : 2022-10-14 DOI:10.5377/ribcc.v8i16.15015

Monday Sunday Adiaha

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引用次数: 1

Abstract

Humanity suffered far-more-than 80% increase in environmental-climatic-ecosystem-degradation. As a modality towards sustainable-solution to salt-soil toxicity with climate-change, and for the reclamation/management of global Salt Affected-Soils, this study investigated soil-salinity status with the objectives of x-raying sustainable approaches for the management and reclamation of salt-affected soils. Stimulations and laboratory studies were conducted to induce soil samples with 70g of Na+Cl- radicals which follow a reclamation procedure with 70 g of biochar technology and leaching with one (1) liter of distilling water. Results indicated the two reclamation strategies were able to reclaim soils induced with inducing Na+Cl- radicals at a Coefficient of Variation value at (CV=62%) which indicated a high variability potential in the reclamation technology. Forecasting results indicated that the area could remain free of salt, but if unsustainable practices like the application of untreated wastewater for irrigation, then a percentage at a high dosage of salt (4.3 dS/m for Na+Cl-) could result as observed during the inducement stage of this experiment. Biotechnical tools like Biochar at 70g are recommended for reclamation at a pot stage of salinity influence, and at a larger dosage for larger fields, as this could drive sustainable soil-productivity.

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以Na+ Cl-自由基刺激热带土壤和利用生物炭和水浸技术回收Na+ Cl-盐:气候变化下盐碱地管理的可持续策略

人类遭受了超过80%的环境-气候-生态系统退化。作为气候变化下盐土毒性可持续解决方案的一种模式，以及全球盐害土壤的复垦/管理，本研究调查了土壤盐度状况，目的是为盐害土壤的管理和复垦提供可持续途径。用70g Na+Cl-自由基诱导土壤样品进行刺激和实验室研究，然后用70g生物炭技术回收土壤样品，并用1升蒸馏水浸出。结果表明，诱导Na+Cl-自由基诱导的两种复垦策略均能对土壤进行复垦，变异系数为62%，表明复垦技术具有较高的变异潜力。预测结果表明，该地区可以保持无盐状态，但如果采用不可持续的做法，如使用未经处理的废水进行灌溉，则在高盐剂量(Na+Cl-为4.3 dS/m)下可以达到本试验诱导阶段观察到的百分比。生物技术工具，如70克的生物炭，被推荐用于受盐分影响的盆栽阶段的开垦，并在更大的田地上使用更大的剂量，因为这可以推动可持续的土壤生产力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Rev. iberoam. bioecon. cambio clim.

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