Katri Rankinen, Jose E Cano Bernal, Maria Holmberg, Magnus Nordling, Torsti Schulz, Annikki Mäkelä, Ninni Mikkonen, Heini Kujala, Leah Jackson-Blake, Heleen A de Wit, Martin Forsius
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引用次数: 0
摘要
北半球各地都观察到由于陆地溶解有机物(DOM)负荷增加而导致的地表水褐变现象。这种效应影响了从淡水生产力到水净化等多项生态系统服务。褐化通常是由大规模人为压力和生态系统功能变化(酸化、气候变化和土地覆盖变化)引起的。考虑到全球压力的影响,本研究考察了森林使用变化对芬兰水褐变的影响。我们的目标是找到对增加 DOM 负荷的环境压力最敏感的生态系统和地理区域。同时,我们也在寻找能够减少褐变的土地利用策略。我们将流域数学模型与气候变化、大气沉积和森林使用变化的情景相结合。这些变化包括森林采伐和森林保护的情景,这些情景来自欧盟的规定。研究区域涵盖芬兰从南到北的 20 个流域。在芬兰北部,棕色化仍在继续。在芬兰南部,全球影响(大气沉降、气候变化)似乎有所减弱,这为当地森林使用变化对褐化的影响提供了更大的空间。在以有机土壤为主的河流流域,森林使用的变化比矿物土壤的影响更大。扩大森林保护范围可降低棕色化程度,尤其是在大气压力影响减弱的地区。如果森林保护的规划是为了提供碳储存和固碳潜力,并有利于生物多样性,那么它也会对地表水质量产生有利影响。
Modelling the Effects of Forest use Change on Brownification of Finnish Rivers under Atmospheric Pressure.
Browning of surface waters due to increased terrestrial loading of dissolved organic matter (DOM) is observed across the Northern Hemisphere. The effects influence several ecosystem services from freshwater productivity to water purification. Brownification is often explained by changes in large-scale anthropogenic pressures and ecosystem functioning (acidification, climate change, and land cover changes). This study examined the effect of forest use changes on water browning in Finland, considering the effects of global pressures. Our goal was to find the ecosystems and geographic areas that are most sensitive to environmental pressures that increase the loading of DOM. We were also looking for land use strategies that decrease browning. We combined mathematical watershed modelling to scenarios of climate change, atmospheric deposition, and forest use change. Changes included scenarios of forest harvest and protection on forest, that were derived from European Union's regulation. The study area covered 20 watersheds from south to north of Finland. In northern Finland brownification continue. In southern Finland global influence (atmospheric deposition, climate change) seem to weaken, giving more space for local forest use change having an influence on brownification. Forest use change was more influential in river basins dominated by organic soils than in mineral soils. Extending forest protection decreased brownification especially in areas where the influence of atmospheric pressure is decreasing. When forest protection is planned to provide a carbon storage and sequestration potential and to favor biodiversity, it has favorable effect on surface water quality as well.
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.