ISSN 1009-6248CN 61-1149/P 双月刊

主管单位:中国地质调查局

主办单位:中国地质调查局西安地质调查中心
中国地质学会

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    西北干旱半干旱煤矿开采沉陷区土地复垦与生态修复技术研究进展与展望

    Research Progress and Prospects of Land Reclamation and Ecological Restoration Technologies in Coal Mining Subsidence Areas of Arid and Semi-Arid Northwestern China

    • 摘要: 中国西北干旱半干旱的生态环境脆弱区与煤炭资源富集区高度叠置,高强度煤炭开采在保障国家能源资源供给的同时,也引发了地表沉陷及系列生态环境问题。现有单一修复技术在西北矿区应用中存在较大局限性:物理修复难以从根本上恢复土壤肥力,化学修复存在二次污染风险,微生物修复受限于恶劣环境条件。本文结合西北干旱半干旱煤矿开采沉陷区生态环境问题特征,在系统分析已有土地复垦与生态修复关键技术的基础上,对其在区域内的适用性和应用效果进行总结和研究,综合分析表明:①土地复垦与生态修复技术经历了从单纯的工程复垦到生物复垦、再到多技术协同修复的发展历程,修复理念从追求土地平整和植被覆盖逐步转向生态系统功能的整体恢复与提升;②在西北煤矿沉陷区复杂生态环境条件下,现有单一修复技术难以兼顾土壤重构、养分恢复、植被重建和水分调控等多重目标,亟需发展多技术融合的综合修复模式;③化学–微生物协同修复技术,通过化学改良剂改善土壤理化环境与微生物群落活化土壤养分、促进植物生长的耦合效应,在干旱半干旱矿区沉陷地修复中展现出良好的适用性优势和技术潜力。化学–微生物协同修复技术的深入研究与工程化应用,将为西北干旱半干旱区煤矿开采沉陷土地的生态恢复与可持续利用提供重要的技术支撑。

       

      Abstract: The ecologically fragile areas in the arid and semi-arid regions of Northwest China highly overlap with coal-rich regions. While intensive coal mining ensures national energy supply, it also causes large-scale surface subsidence and associated ecological problems. Existing single remediation technologies have significant limitations in their application in Northwest mining areas: physical restoration cannot fundamentally restore soil fertility, chemical restoration carries secondary pollution risks, and microbial restoration is constrained by harsh environmental conditions. This paper systematically analyzed existing key technologies for land reclamation and ecological restoration, and summarized their applicability and application effects in coal mining subsidence areas of the arid and semi-arid regions in Northwest China. The comprehensive analysis indicates that: (1) Land reclamation and ecological restoration technologies have evolved from pure engineering reclamation to biological reclamation, and then to multi-technology synergistic restoration, with the restoration concept shifting from land leveling and vegetation coverage to holistic recovery and enhancement of ecosystem functions. (2) Under the complex ecological conditions of Northwest coal mining subsidence areas, existing single restoration technologies struggle to achieve multiple objectives including soil reconstruction, nutrient recovery, vegetation rebuilding, and moisture regulation, necessitating the development of comprehensive restoration models integrating multiple technologies. (3) Chemical–microbial synergistic restoration technology achieves a coupling effect whereby chemical amendments improve the soil physicochemical environment, and microbial communities activate soil nutrients and promote plant growth, demonstrating good applicability advantages and technical potential in the restoration of subsidence lands in arid and semi-arid mining areas. In-depth research and engineering application of chemical–microbial synergistic restoration technology will provide important technical support for the ecological recovery and sustainable utilization of coal mining subsidence lands in Northwest China.

       

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