Planning with Green Infrastructure
Incorporating social learning in collaborative decision making processes within which the development of multifunctional, multi-services delivering Green Infrastructure is included in local level planning.
Incorporating social learning in collaborative decision making processes within which the development of multifunctional, multi-services delivering Green Infrastructure is included in local level planning.
Identification of the health of the coral reef of St.Eustatius. The reefs are important drivers for dive tourism, they support local fisheries and they protect against storms.
Removing sediment from reservoirs is an important part of the costs of hydro-power generation. Under the “Rewarding Upland Poor for Environmental Services” project (RUPES), an initiative by ICRAF, upstream farmers changed land-use practices for reducing soil erosion and sedimentation load in streams. The sedimentation rate was used as an indicator to measure the effectiveness of the agreed activities. Monitoring sedimentation rate as an indicator for the positive impact of improving land-use practices made the success of the changes in land-use practices transparent and motivated all...
Rapid urbanisation in the Philippines has given rise to many challenges as increasing infrastructure developments contribute to reduced open spaces and increased energy consumption.
Both the public and private construction sectors are responding by reshaping the cityscape and designing building structures that are as environmentally responsive as they are beautiful and compact. Now, buildings should not only be sturdy and spacious, they should also be efficient in energy consumption and adaptive to the changing environment.
LafargeHolcim Philippines (LafargeHolcim) has...
The restoration of peatlands is part of the LIFE Elia-RTE project 1. The main objective of this project is converting forest corridors of the high-voltage power lines into ecological corridors by restoring stable natural habitats that will require minimal intervention in the future. These actions undertaken onsite are real opportunities for nature, local stakeholders, and RTE.
The project’s objective is to restore peatlands located under overhead power lines to encourage the return of specific plant and animal communities of these ecosystems and restore their functional components....
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.
The main objective of our BIOVEINS proposal is to use functional diversity (FD) to highlight the mechanisms underpinning the link between GBI, taxonomic diversity (TD) and ecosystem services (ESs) provisioning, and to provide, together with local stakeholders, the ecological and interdisciplinary knowledge to identify the critical features of GBI, to guide the establishment, management and restoration of GBI, and to mitigate the effects of major urban global challenges, like habitat fragmentation, air pollution, and urban heat island.
This main objective will be accomplished by...
The main objective of our BIOVEINS proposal is to use functional diversity (FD) to highlight the mechanisms underpinning the link between GBI, taxonomic diversity (TD) and ecosystem services (ESs) provisioning, and to provide, together with local stakeholders, the ecological and interdisciplinary knowledge to identify the critical features of GBI, to guide the establishment, management and restoration of GBI, and to mitigate the effects of major urban global challenges, like habitat fragmentation, air pollution, and urban heat island.
This main objective will be accomplished by...
The main objective of our BIOVEINS proposal is to use functional diversity (FD) to highlight the mechanisms underpinning the link between GBI, taxonomic diversity (TD) and ecosystem services (ESs) provisioning, and to provide, together with local stakeholders, the ecological and interdisciplinary knowledge to identify the critical features of GBI, to guide the establishment, management and restoration of GBI, and to mitigate the effects of major urban global challenges, like habitat fragmentation, air pollution, and urban heat island.
This main objective will be accomplished by...
The main objective of our BIOVEINS proposal is to use functional diversity (FD) to highlight the mechanisms underpinning the link between GBI, taxonomic diversity (TD) and ecosystem services (ESs) provisioning, and to provide, together with local stakeholders, the ecological and interdisciplinary knowledge to identify the critical features of GBI, to guide the establishment, management and restoration of GBI, and to mitigate the effects of major urban global challenges, like habitat fragmentation, air pollution, and urban heat island.
This main objective will be accomplished by...
The main objective of our BIOVEINS proposal is to use functional diversity (FD) to highlight the mechanisms underpinning the link between GBI, taxonomic diversity (TD) and ecosystem services (ESs) provisioning, and to provide, together with local stakeholders, the ecological and interdisciplinary knowledge to identify the critical features of GBI, to guide the establishment, management and restoration of GBI, and to mitigate the effects of major urban global challenges, like habitat fragmentation, air pollution, and urban heat island.
This main objective will be accomplished by...
The main objective of our BIOVEINS proposal is to use functional diversity (FD) to highlight the mechanisms underpinning the link between GBI, taxonomic diversity (TD) and ecosystem services (ESs) provisioning, and to provide, together with local stakeholders, the ecological and interdisciplinary knowledge to identify the critical features of GBI, to guide the establishment, management and restoration of GBI, and to mitigate the effects of major urban global challenges, like habitat fragmentation, air pollution, and urban heat island.
This main objective will be accomplished by...
The main objective of our BIOVEINS proposal is to use functional diversity (FD) to highlight the mechanisms underpinning the link between GBI, taxonomic diversity (TD) and ecosystem services (ESs) provisioning, and to provide, together with local stakeholders, the ecological and interdisciplinary knowledge to identify the critical features of GBI, to guide the establishment, management and restoration of GBI, and to mitigate the effects of major urban global challenges, like habitat fragmentation, air pollution, and urban heat island.
This main objective will be accomplished by...
Mapping green and grey structures of Leipzig to understand in which urban structure types land-use pressures on urban green are higher / lower and analysing how political and governance strategies and instruments support the protection of green infrastructure and its ecosystem services.
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.
Ecological enhancement of hard coastal structures. Project aimed to mitigate expected habitat losses associated with improving coastal defences for both the natural substrate & pre-existing defences within Natural 2000 site, & minimise future habitat losses due to sea level rise & coastal squeeze.
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...
Biotope City is an integral concept of the Biotope City Foundation Amsterdam based on the integrative combination of Flora + Fauna + Humans to realise the dense city as nature.
World's first official climate-resilient district and world's first constructed Biotope City in Vienna with 2/3 affordable social housing and climate adaptation by the support of GREENPASS - the world's first Software-as-a-Service for climate...
The Programme for Enhancing the Urban Green Infrastructure is an ambitious government measure approved in 2017. It establishes the main strategies for enhancing the quality and quantity of green infrastructure in Barcelona till 2030. Barcelona wants to renature the city and create, in this period, 165 ha of new green spaces, which increases the green spaces/inhabitant ratio by 1m2. As Barcelona is a compact city, there are various strategies to improve, transform or create new green spaces. The actions will take place at various urban scales (street, district or city scale) and...
For several reasons, protecting important ecological areas in Lisbon from urbanisation has become difficult. Remnant areas of natural habitat have gained particular importance in consolidating the green corridors network, benefiting from the fact that much of this land is still within the municipality’s property holdings. The “Lisbon Green Plan” published in 1996 set out the approach used in 2008 to implement safeguarding measures to protect the ecological structure under development threat at that point. It triggered an update to the Lisbon Master Plan at a time when climate issues were...
The city’s green and blue areas have a long history, and are even today seen as an important and integrated part of the city of Malmö, as reflected in the recent Master Plan. The ambitions are to create a close, dense, green and mixed functioning city, with densification as a driver, rather than expansion into the outside highly productive farmland. Urban green is a vital component of the future of the city and, in the master plan, is brought forward under such diverse headings as Green City, Green and Blue Environments, Biodiversity, Countryside and Agriculture, Children’s Perspectives,...
In the second part of the 20th century, three major challenges led towards a new thinking and the implementation of river restoration as a nature-based solution at the Isar.
First, after decades of river regulation, water diversion and hydro-morphological modifications, the resulting degraded morphological status and related losses of ecological and social quality triggered serious concerns from civil society and citizens.
Second, the Isar River was very popular for swimming and other water-related outdoor recreational activities as one of the key elements of the local...
Controlling and mitigating the heat island effect in Arará slum, northern Rio de Janeiro, based on the development and monitoring of green roofs, using epiphytes or lithophytes. Given the common uses of cement or metal, tiles required the development of specific techniques and materials to allow for the growth of vegetation while keeping the overall weight low for safety.
Developing a green infrastructure plan in Santiago as a shared territorial strategy and a means of unifying different stakeholders relevant for decision making and implementation at different spatial scales. This was achieved through a participatory approach including multiple stakeholders, workshops, and collective mapping sessions. This approach identified the principal issues, the justification of the plan, the goals, and the key spatial components.