Riparian Landscape Change: A Spatial Approach for Quantifying Change and Development of a River Network Restoration Model

IF 2.7 3区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES
Martin Stieger, Paul Mckenzie
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引用次数: 0

Abstract

Natural river landscapes can be biodiversity hotspots but are one of the most human altered ecosystems with habitats significantly damaged around the world, and a third of fish populations threatened with extinction. While riparian ecosystems have been negatively altered by anthropogenic activities, effective planning and restoration strategies can reverse negative impacts by improving habitat quality. However, restoring rivers requires appropriate data on current riparian health while also considering priorities for different stakeholders. To address this, a Geographic Information System (GIS) was used to create a new and transferable restoration priority model based on a section of the river Linth in Switzerland as a case study. The restoration priority model is founded on connectivity, river condition, national priority species and species hotspots. Landscape change of the riparian zone was analyzed using aerial imagery and landscape metrics. Almost a quarter of rivers within the study area were considered high or very high restoration priority, with many aquatic species set to benefit from restoration. From 1946 to 2019, the riparian landscape became highly fragmented due to significant growth in impervious surfaces and a concomitant loss of agricultural land. The GIS model provides a tool by which environmental agencies can manage natural features over large scales, while also planning priorities and targeting conservation strategies to the areas of greatest need.

Abstract Image

河岸景观变化:量化变化和开发河网恢复模型的空间方法。
自然河流景观可以成为生物多样性的热点,但也是人类改变最多的生态系统之一,世界各地的栖息地都遭到了严重破坏,三分之一的鱼类种群濒临灭绝。虽然人类活动对河岸生态系统造成了负面影响,但有效的规划和恢复策略可以通过改善栖息地质量来扭转负面影响。然而,恢复河流需要有关当前河岸健康状况的适当数据,同时还要考虑不同利益相关者的优先事项。为了解决这个问题,我们利用地理信息系统(GIS),以瑞士林斯河的一个河段为案例,创建了一个新的、可移植的修复优先级模型。该恢复优先模型以连通性、河流状况、国家优先物种和物种热点为基础。利用航拍图像和景观指标分析了河岸带的景观变化。研究区域内近四分之一的河流被认为具有较高或极高的修复优先级,许多水生物种将从修复中受益。从 1946 年到 2019 年,由于不透水表面的大幅增加以及随之而来的农业用地的减少,河岸景观变得非常破碎。地理信息系统模型提供了一种工具,环境机构可借此管理大范围的自然景观,同时还可规划优先事项,并将保护战略目标锁定在最需要的区域。
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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来源期刊
Environmental Management
Environmental Management 环境科学-环境科学
CiteScore
6.20
自引率
2.90%
发文量
178
审稿时长
12 months
期刊介绍: Environmental Management offers research and opinions on use and conservation of natural resources, protection of habitats and control of hazards, spanning the field of environmental management without regard to traditional disciplinary boundaries. The journal aims to improve communication, making ideas and results from any field available to practitioners from other backgrounds. Contributions are drawn from biology, botany, chemistry, climatology, ecology, ecological economics, environmental engineering, fisheries, environmental law, forest sciences, geosciences, information science, public affairs, public health, toxicology, zoology and more. As the principal user of nature, humanity is responsible for ensuring that its environmental impacts are benign rather than catastrophic. Environmental Management presents the work of academic researchers and professionals outside universities, including those in business, government, research establishments, and public interest groups, presenting a wide spectrum of viewpoints and approaches.
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