Joint Research Centre of the European Commission, Ispra (VA), Italy.
Department of Computer Science, Aston University, Birmingham, United Kingdom.
PLoS One. 2019 Jan 17;14(1):e0210496. doi: 10.1371/journal.pone.0210496. eCollection 2019.
Inland waters are unique ecosystems offering services and habitat resources upon which many species depend. Despite the importance of, and threats to, inland water, global assessments of protected area (PA) coverage and trends have focused on land habitats or have assessed land and inland waters together. We here provide the first assessment of the level of protection of inland open surface waters and their trends (1984-2015) within PAs for all countries, using a globally consistent, high-resolution (30 m) and validated dataset on permanent and seasonal surface waters based on Landsat images. Globally, 15% of inland surface waters are covered by PAs with mapped boundaries. Estimated inland water protection increases to 16.4% if PAs with reported area but delineated only as points are included as circular buffers. These coverage estimates slightly exceed the comparable figure for land but fall below the 17% goal of the Convention on Biological Diversity's Aichi Target 11 for 2020. Protection levels are very uneven across countries, half of which do not yet meet the 17% target. The lowest coverage of surface water by PAs (<5%) was found in Africa and in parts of Asia. There was a global trend of permanent water losses and seasonal water gains within PAs, concomitant with an increase of both water types outside PAs. In 38% of countries, PAs lost over 5% of permanent water. Global protection targets for inland waters may well be met by 2020, but much stronger efforts are required to ensure their effective conservation, which will depend not only on sound PA governance and management but also on the sustainable use of water resources outside PAs. Given the pressures on water in a rapidly changing world, integrated management planning of water resources involving multiple sectors and entire basins is therefore necessary.
内陆水域是独特的生态系统,为许多物种提供了服务和生境资源。尽管内陆水域具有重要性和受到威胁,但全球对保护区(PA)覆盖范围和趋势的评估一直集中在陆地生境上,或者同时评估陆地和内陆水域。我们在此首次评估了所有国家内陆开阔地表水的保护水平及其趋势(1984-2015 年),方法是使用基于 Landsat 图像的永久性和季节性地表水的全球一致、高分辨率(30 米)和经过验证的数据集。在全球范围内,有 15%的内陆地表水被具有映射边界的保护区所覆盖。如果将报告面积但仅划分为点的保护区作为圆形缓冲区包括在内,则估计内陆水域的保护面积将增加到 16.4%。这些覆盖估计值略高于陆地的可比数字,但低于 2020 年《生物多样性公约》爱知目标 11 规定的 17%目标。各国之间的保护水平极不均衡,其中一半尚未达到 17%的目标。保护区内地表水的覆盖率最低(<5%)的是非洲和亚洲部分地区。保护区内永久性水域的损失和季节性水域的增加呈全球性趋势,同时保护区外的两种水域都有所增加。在 38%的国家中,保护区永久性水域损失超过 5%。到 2020 年,全球内陆水域保护目标可能会实现,但需要做出更大努力来确保其有效保护,这不仅取决于健全的保护区治理和管理,还取决于保护区外水资源的可持续利用。鉴于在快速变化的世界中对水资源的压力,需要进行涉及多个部门和整个流域的水资源综合管理规划。
