顺应地形梯度的矿山景观生态修复设计——以威海建材开发区华夏城设计为例

doi:10.16843/j.sswc.2021247

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摘要矿山开采在引发较多矿山生态环境问题的同时也严重影响了人民的生产生活。如何合理规划矿山景观生态修复模式以保护生态环境和提升社会经济效益是十分重要的问题。以威海华夏城为对象,以矿山迹地地貌为研究基础,提出和搭建矿山景观生态修复的策略与技术框架,开展顺应地形梯度的矿山景观生态修复的设计与实践研究。结果表明:从环境要素设计、结构设计、功能设计3方面建立的矿山景观设计技术框架,在矿山迹地修复设计实践中具有指导意义,使建成后华夏城景区生态优良,实现了生态效益、经济效益和社会效益的共赢,同时在矿山生态环境恢复和绿化景观设计实践中起到了示范性作用。

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	马婷婷

关键词 ：矿山迹地, 地形梯度, 景观, 生态环境, 修复

Abstract：[Background] As a model of mine restoration and ecological civilization construction, the restoration model of mining sites in Huaxia city, Weihai, Shandong province, is highly instructive in protecting the ecological environment and improving social and economic benefits. Mining caused many ecological and environmental problems in mining sites, also restricted regional economic development. Currently, research on ecological restoration of mine landscapes is mostly carried out with a single element such as soil restoration, ecological governance, and landscape reconstruction, lacking a multi-functional coupling of various elements and an overall grasp of ecology, economy, landscape, and culture.[Methods]Taking the Huaxia city of Weihai as the object, the terrain of the mine footprint as the research base, and various landscape elements as the research patches, an ETZLM design model for ecological management of the mine landscape was established. Then, we designed elements from aspects such as terrain, base, vegetation, etc., and carried out functional design of different elements in combination with horizontal and vertical spatial layout design, internal and external network connectivity design. We proposed and built a strategic and technical framework for ecological restoration of mine landscapes, and developed design and practical research on ecological restoration of mine landscapes that conformed to terrain gradients. [Results]In terms of element design, the terrain structure design that conforms to the terrain and surface undulation perfectly integrates the natural environment and landscape design, while saving development costs and avoiding resource waste caused by transitional excavation. The base reconstruction design of slopes and ponds, taking into account the back-end benefits after restoration, provides a high-quality platform for later vegetation growth and biological reproduction. The vegetation restoration design of the mountain has constructed a diverse and ornamental landscape environment, providing support for tourism development. In terms of structural design, the spatial layout of the horizontal structure of the site should grasp the spatial configuration of various elements as a whole, which is conducive to maintaining the consistency between the landscape and the environment. While the ecological spatial layout of the vertical structure of the vegetation community, which combines different types of plant communities in a hierarchical manner, is crucial to protecting the habitat of animals and plants and stabilizing the stability of the slope. As an important node of the regional ecological network, the landscape ecological restoration of Huaxia city mining pits provides good support for regional soil and water conservation, water conservation, and climate regulation. The combination of elements and structural design improves the functional requirements of Huaxia city from different perspectives such as soil, vegetation, landscape, and economy. [Conclusions]The practice of mine restoration based on environmental factors, structures, and functions has made the scenic area of Huaxia city excellent in ecology and beautiful in scenery after completion, realizing a virtuous cycle of ecological, economic, and social benefits, and playing a exemplary role in the restoration of the mine ecological environment and greening landscape design practice.

Key words： pit wasteland topographic gradient landscape ecological environment repair

收稿日期: 2021-10-26

PACS:

P901

作者简介: 马婷婷(1995—),女,博士研究生。主要研究方向:景观生态。E-mail:m82164098@163.com

引用本文:

马婷婷. 顺应地形梯度的矿山景观生态修复设计——以威海建材开发区华夏城设计为例[J]. 中国水土保持科学, 2024, 22(4): 137-145.
MA Tingting. Ecological restoration design of mine landscape conforming to topographic gradient: Taking the design of Weihai Huaxia city as an example. SSWC, 2024, 22(4): 137-145.

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http://journal12.magtechjournal.com/Jweb_stbc/CN/10.16843/j.sswc.2021247 或 http://journal12.magtechjournal.com/Jweb_stbc/CN/Y2024/V22/I4/137

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