Does conservation in Natura 2000 areas promote water quality improvement? Findings from a contingent valuation study on environmental benefits and residents' preferences
In: Environmental science & policy, Band 124, S. 226-234
ISSN: 1462-9011
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In: Environmental science & policy, Band 124, S. 226-234
ISSN: 1462-9011
Freshwaters provide multiple natural and cultural ecosystem services, which form the basis of Finnish water heritage. In most cases, the deterioration of freshwater ecosystems is due to a range of interacting background factors at many scales, and reversing the trend requires comprehensive restoration measures in catchment areas and water systems as well. Following this, to preserve our valuable water heritage, the co-operation across human-set boundaries is required. Funding for restoration projects conventionally comes from one or few sources and is often targeted to a given habitat or species. However, enhancing the ecological status of many inter-connected habitats or species usually requires large-scale and multi-targeted solutions. LIFE Integrated Projects were introduced in 2014 to implement environmental legislation and strategies on the regional, multi-regional or national level, and to increase the impact of the EU LIFE programme. FRESHABIT LIFE IP project, financed by the LIFE Integrated Projects funding, aims to improve the ecological status and biodiversity of N2000 freshwater sites in 12 selected catchment areas. Within FRESHABIT, common practices across the organizational levels of a range of actors is established, thus contributing importantly to ´capacity building` for further water management. Due to the characteristics of the water bodies in question, most of the measures are implemented outside Natura 2000 sites on both state-owned and private-owned areas. Several water protection measures to reduce the environmental loading on water bodies are implemented, and habitats of waterfowl, fish, and other biota is restored. Especially the measures in the catchment areas include improvement and restoration of other habitats than freshwaters, e.g. peatland restoration. To secure the natural lifecycles of freshwater pearl mussel (Margaritifera margaritifera) and migratory fish, six fishways are constructed and related support measures implemented. The impacts of measures on the aquatic environment is monitored on a broad basis. Acknowledging the importance of appreciation of and interest in Finland's water heritage among water management professionals, decision-makers, residents and recreational users, a variety of public events, nature schools and voluntary work sessions is organized, and stakeholders involved with actions in the early stage. FRESHABIT also promotes rural business in many ways, and creates opportunities for contractors in different parts of Finland. ; peerReviewed
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Forestry and wood industry have formed a foundation for Finland's national economy, yet inevitably at the expense of aquatic environments. From 1940s to 1970s, to provide energy resources for the industry sector, majority of large rivers were dammed for hydropower, blocking off their longitudinal connectivity. Concurrently, majority of the stream channels were dredged to facilitate timber transportation from headwaters to downriver factories. While most large rivers remain blocked, the timber floating ceased in the 1980s, and legislation imposing restoration as well as intensive restoration programs have been established ever since. Habitat restoration has mostly been motivated by the enhancement of recreational fisheries through the provision of better living conditions for salmonids. The measures have included construction of in-stream structures, such as weirs, flow deflectors, boulder dams and gravel beds, and recently also installation of large wood. Based on before-after-restoration measurements of physical variables and habitat-hydraulic modeling, the measures have been effective in enhancing complexity of stream beds and hydraulic conditions, thus potentially increasing the availability of suitable habitat for juvenile brown trout. The increase in habitat heterogeneity has been persistent over time, and has also shown positive signs in functional processes of stream ecosystem. Nevertheless, overall substrate variability in restored streams has remained lower than in natural streams, especially with a shortage of gravel beds for brown trout spawning. Sound ecological monitoring of restoration projects has been limited in Finland. A few long term before-after-restoration monitoring of brown trout densities, together with a meta-analytical synthesis of all good-quality monitoring data, have indicated an overall positive effect on brown trout parr densities. Yet, the absolute juvenile brown trout density in post-management streams has mainly remained lower than in natural reference streams. In addition, brown trout responses have varied strongly between restored streams. The strong context-dependency in restoration outcomes is explained mainly by catchment scale (e.g. river basin size, dominant geology) and local (potential interspecific competition, fisheries management) factors. Among the local fisheries management measures, loosely restricted fishing has diluted the positive effects of restoration, and stocking by eggs and parr have either been ineffective or affected negatively brown trout's response to restoration. Stream-specific differences have also been observed in the delivery of ecosystem services, mainly reflecting stakeholder perceptions of landscape values and fish provisioning. Yet, stream restoration in its present form has a strong public acceptance in Finland, mainly because it is considered beneficial for recreationally important fish, ecotourism, and the well-being of local people. ; peerReviewed
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In: UFUG-D-22-00431
SSRN
In: Ecology and society: E&S ; a journal of integrative science for resilience and sustainability, Band 11, Heft 2
ISSN: 1708-3087