在复垦地表煤矿上发展多样、有效和永久的植物群落:恢复生态系统功能

E. Vasquez, R. Sheley
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引用次数: 4

摘要

摘要地表煤矿扰动影响植被、土壤化学/物理性质、基岩和地貌。本文的范围侧重于在植物组成/多样性、结构和生态系统功能方面与矿前生态系统相似的被开垦为牧场的土地(矿后土地利用)。仅仅强调植物群落的组成和结构,而不是有效地修复受干扰或改变的生态过程的复垦计划,忽视了重建植物群落的可持续性所依赖的基础。通过解决驱动生态系统功能的主要生态过程作为填海过程的一部分,可以提高填海成功。改变的初级过程需要修复物理系统,同时加入种子或植物。地形设计策略旨在有效地捕获、储存和释放水到重建的流域,是成功开垦生态系统的基础。由于植物功能群对资源的时空获取存在差异,提高功能多样性可能是复垦土壤更充分利用土壤养分和提高抵御杂草入侵能力的一种方法。在种子混合物中有策略地组合具有不同种子/幼苗性状的物种可以增加在植被恢复期间获得足够植株的机会。监测方案设计应成为填海规划过程的一个组成部分,反映景观尺度过程的指标可以用来监测填海工程的成功。有效的填海计划以过程为导向,寻求自我修复,并解决景观的相互作用。通过追求一个更广泛的目标,即利用具有所需功能并产生一系列生态系统产品和服务的新物种组合来改善生态系统的活力、组织和恢复力,从而提高成功复垦的可能性。复垦矿区需要考虑矿区的生态潜力、土地利用目标和社会经济约束等现实目标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
DEVELOPING DIVERSE, EFFECTIVE, AND PERMANENT PLANT COMMUNITIES ON RECLAIMED SURFACE COAL MINES: RESTORING ECOSYSTEM FUNCTION
Abstract. Surface coal mine disturbances affect vegetation, soil chemical/physical properties, bedrock, and landforms. The scope of this article focuses on lands to be reclaimed back to rangelands (post-mine land use) similar to the pre-mine ecosystem in terms of plant composition/diversity, structure, and ecosystem function. Reclamation programs that solely emphasize plant community composition and structure rather than effectively repairing disturbed or altered ecological processes ignores the foundation upon which the sustainability of reconstructed plant communities depends. Reclamation success may be improved by addressing primary ecological processes driving ecosystem function as part of the reclamation process. Altered primary processes require repair of the physical system in conjunction with adding seeds or plants. Land-form design strategies, which are designed to capture, store, and release water effectively into reconstructed watersheds is the foundation of successfully reclaimed ecosystems. Because plant functional groups can differ in their spatial and temporal acquisition of resources, improving functional diversity may be a method to more fully utilize soil nutrients in reclaimed soils and improve resilience to weed invasion. Strategically combining species with different seed/seedling traits in seed mixtures can increase chances of achieving adequate plant establishment during revegetation. Monitoring program design should be an integral part of the reclamation planning process, and indicators reflecting landscape-scale processes can be adapted to monitor reclamation project success. Effective reclamation plans are process-oriented, seek to initiate self-repair, and address landscape interactions. The probability of achieving successful reclamation is enhanced by pursuing a broader goal of improving ecosystem vigor, organization and resilience utilizing novel assemblages of species that perform desired functions and produce a range of ecosystem goods and services. Reclaiming mined land requires realistic objectives that consider the ecological potential of the site, land-use goals, and socioeconomic constraints.
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