Case studies tagged with Wetlands
Testing the feasibility of a green infrastructure, instead of a traditional grey infrastructure, to treat sewage overflows, and investigating the multiple benefits that the green infrastructure provides and its relevance for water management.More
The city is currently revising its urban Master Plan, which aims to make Bilbao i) an example for other cities around the world; ii) a city in continuous renewal; iii) a sustainable city; and iv) a socially balanced city.
Extreme climate events in the recent – and not-so recent – past have shown that Bilbao is more vulnerable than most other cities. This realisation prompted scientific research into how the city could plan for sustainable development and prepare itself for further climate-change risks.
This resulted in the city authorities drawing up a list of the following...More
Minimising the impacts of dredging and flood bank extension: In 2018/2019, in the Ria de Aveiro two management interventions will have negative unintended impacts on biodiversity: 1) a dredging programme to manage water flow and navigability in Ria de Aveiro coastal lagoon, and 2) the extension of a flood bank to stop surface saltwater intruding onto local farmland. The goal of this study is to apply adaptive management and minimise foreseen but unintended management challenges in a Natura 2000 protected area, which crosses fresh and marine waters, in the context of EU...More
The objectives are create long term conditions for a metropolitan periurban park Confluence (Soutok in Czech) and introduce tools for coordinated and sustainable development of periurban landscapes.
The main aim is to create harmony in between supported natural processes, economical interests and the visitors activities. Set conditions for formation of landscapes rich on natural biotop diversity, transparent and penetrable suburban areas with alive flowing river, side by side agriculture, integrated flood protection and management, and economic and sport activities....More
The public perception of ecosystems (e.g. forests, including possibly protecting ones) is strongly worsened following floods with massive wood jams. This case study aims at performing a comprehensive and in-depth analysis of a Mediterranean catchment to assess NBS benefits, dis-benefits and co-benefits and ways to optimize them.More
The main purpose of the roof is to offer an unique green environment to the residents in the house. In the project every surface, also on the ground below, is maximized with greenery. The greenery offers a range of ecosystem services which also benefits the neighbors and the city. More
Rotterdam aims to be 100 % climate-proof by 2025. This is the goal expressed in the city’s climate change adaptation programme. This means that by 2025 measures will already have been taken to ensure that each specific area is minimally disrupted by climate change both then and throughout the following decades. Furthermore, all urban planning in Rotterdam will take into account long-term foreseeable climate change while allowing for contingencies.
The ‘waterproof city’ is robust and resilient with a mix of paving and vegetation. The focus is on adaptive measures whereby rainwater is...More
Genk’s multi-annual strategic plan for 2014-19 is a response to the closure of the Ford car manufacturing company. The main objective of the plan has been to use Genk’s natural and human capital for sustainable value creation. Nature-based solutions are an integral part of the plan, used to create blue-green connections (top-down approach) and promote social inclusion (bottom-up approach).More
In its 2016-2022 Development Plan the city has set out a vision for a ‘Sustainable, Resilient Dublin based on economy, environment and equity’ (1). The Development Plan’s principles for green infrastructure include sustainable buildings which should use ‘sustainable energy technologies and innovative design solutions such as living walls, roofs as well as solar panels’. NBS could help address climate change, environmental infrastructure, green infrastructure, open spaces and recreation, cultural heritage and sustainable communities and neighbourhoods (1). For example, sustainable urban...More
This exemplar aims to: Map and describe existing and potential use and non-use community-held values of the estuary; Elicit community-held preferences and willingness to pay for coastal land use and management on landscape-scale; Test impacts of deliberation on preferences for estuarine land in a workshop setting; Contextualise study findings through institutional analysis; Identify ecosystem values held by land-owners and their attitudes towards coastal realignment; Understand future visions for the estuaries from diverse stakeholders; Test operational potential and impact of valuation...More
The city’s Grünlandkonzept (green space strategy) provides detailed strategic indications for local land use and infrastructure planning (Stadt Linz, 2013). Enhancing and protecting urban green areas is seen as a way of increasing the city’s attractiveness, and will also form part of the upcoming transformation of the city harbour area. Linz AG, a holding company owned by the municipality, is planning to position the harbour on the Danube river as an important regional and international business location, inter alia by means of intensive greening for parts of the area...More
Enhancing the effectiveness of the integrated and adaptive management planning and its implementation in the area. This will be done by mainstreaming the improved understanding, using operational tools regarding the concepts of natural capital and ecosystem services.More
Rönne å catchment area is a river watershed located in Southern Sweden and includes lakes (e.g. Ringsjön), rivers (Rönne å) and marine coastal areas (Kattegatt). The AQUACROSS Case Study looks at the process of eutrophication and restoration of good water quality and their implications for the provision of ecosystem services along the Rönne å catchment.More
This case illustrates how ecosystem service assessments can help to catalyse changes in conservation and development policy and management practice − but are rarely the sole factor. In the Upper Tuul example, the intention was to “make the case” for a higher policy and budgetary priority to be accorded to the UpperTuul ecosystem.More
The aim of this research was to understand how private sector natural capital investments could be increased and diversified in the Spey catchment. The focus of the study was on businesses that do not primarily manage land, but nevertheless rely on the Spey landscape, e.g. for their supply chain or to attract customers. Specifically, the study tried to answer four questions:
1. How do businesses currently invest in natural capital?
2. What motivates and hinders businesses to invest in natural capital?
3. Is there potential for coordinated business investment in natural...More
To create a new wetland reserve on a brown field site and agricultural land to mitigate the loss of mudflats in Cardiff Bay and the two designated species that were displaced when the Taff/Ely SSSI was destroyed.More
Examining management scenarios related to the maintenance of a marina at the Dutch Wadden Sea Island Schiermonnikoog. Identifying how ecosystem services (ES) in a Natura 2000 area would be affected by different ways of depositing the dredging sludge. Gathering stakeholder feedback to advance the ES approach.More
We aim to support regional and national decision-making on landscape management and ecosystem services in Peru, through stakeholder involvement and research on tradeoffs between ecosystem services.More
The Park 500 Natural Treatment System (NTS) was constructed as a voluntary effort to provide a low-energy, low-maintenance alternative to reducing nitrogen and phosphorus in the process’s wastewater, which is high in nitrate-nitrogen, organic nitrogen and total phosphorus.
The project was initiated to reduce the environmental footprint of the tobacco production facility and help Philip Morris USA meet its environmental sustainability goals. The NTS reduces mass loading to the James River and creates a performance buffer for the existing plant discharge to ensure long-term...More
Using the widely used Policy Support System tools at www.policysupport.org as a basis, we built an insurance industry-relevant policy support system called Eco:Actuary. The objective of this project is to to co-develop and test the Eco:Actuary with NAIAD project partners & stakeholders in the fluvial non-tidal Thames as a DEMO catchment in the NAIAD project.
EcoActuary is an open-access catastrophe model capable of assessing the impact of NBS on local and downstream assets at risk of flood. It simulates a minimum of 1200 spatial...More
The 2010 city-region plan ‘Structural Vision: Amsterdam 2040’, managed by the Department of Physical Planning, set the investment and project ambitions for the period 2010-2040. The strategy seeks to fulfil the vision of a creative and varied city, with an integrated public transport network, high quality urban planning, and investment in recreational green spaces, water and renewable energies. Water-related hazards, such as floods and storm surges, are managed at all levels - city, regional and national. The ‘Agenda Groen 2015-2018’ (Green Agenda 2015-2018) includes specific ‘...More
Analysing the effects of the landscape planning scheme in ecosystem service performance, and exploring the ways in which ecosystem services can be explicitly incorporated in the management of the protected areas of Donana and the surrounding landscape.More
Persina Nature Park has high conservation value but is also of importance to local economies through its fish resources, climate regulation and biomass production. However, the societal, economic and environmental value of this wetland is not well recognized by local and national stakeholders and decision-makers. This exemplar aims to explore the link between Danube ecosystems and a range of environmental benefits for local and Danube-region communities, given the application of an appropriate set of instruments to safeguard or improve them.More
Freshwater ecosystems in the Swiss plateau are threatened by multiple stressors that deteriorate water quality and hydromorphology. This is the result of channelization, dams, wastewater, and agriculture, among other causes. To restore these ecosystems and stop the biodiversity decline, multiple management measures will be implemented over the next decades. We propose methods for prioritising the location and timing of restoration measures to maximise their effectiveness, considering many sectors and multiple societal objectives.More
Analysing future land use trajectories and their effects on networks of biodiversity and ecosystem services for the Grenoble urban area. It will offer a better knowledge of mechanisms underpinning ecosystem services as well as analysing trade-offs and synergies between biodiversity, critical ecosystem services and territorial management. Further it will facilitate appropriation of tools and concepts by stakeholders and support the integration of the complexity of ecological functioning into debates on territorial planning and management.More
Viridian were asked to model an entire lowland catchment of approximately 750 km2 for a basket of ecosystem services, so the client could better understand where to focus effort on the ground, assist with planning, inform stakeholder engagement and influence policy formation.More
Restoring river-floodplains to protect biodiversity: The Danube’s river biodiversity is threatened by changes to hydrology and geomorphology (so-called hydro-morphological alterations), such as disconnection of floodplains. Multiple human activities, including the construction of hydropower plants, expansion of agriculture, and large-scale river regulation measures to increase navigation and flood protection are resulting in an ongoing loss of habitat and biodiversity. Our aim: In this Case Study, we apply the AQUACROSS Assessment Framework to identify how management of...More
- Preserve the remaining patch of riparian habitat while providing amenities to the residents of the dense urban center.
- Identify best approach to flood control (prevention with a high, concrete retaining wall or cooperation by allowing the park to flood).
- Integrate the existing building into the surrounding environment to create a cohesive landscape.
- Connect the separated city to the natural riparian landscape to strengthen the community and cultural identity of the city More