Green Infrastructure Training Manual Background Information
Green Infrastructure Training Manual Background Information Why Green Infrastructure: halting biodiversity loss and contributing to sustainable growth Land use change, urban sprawl and the associated deforestation and loss of natural habitats, new linear transportation and energy infrastructure and damming of rivers are among the recently increasing phenomena and trends which are contributing to the advance of habitat fragmentation in Europe. Habitat fragmentation and loss in turn are the most significant causes of the current biodiversity crisis. Being the continent most transformed by humans, Europe should put special effort into safeguarding its last remaining patches of natural habitat. Habitat fragmentation reduces the land available to wildlife and changes its parameters by increasing the proportional share of edge to interior habitat (Figure 2), it decreases the average size of habitat patches and increases patch isolation. It is estimated that 30% of European territory is moderately to highly Figure 1 Fragmentation in numbers (EC 2012) fragmented, a quarter of European species being threatened with extinction and 82% of EU’s land remaining without protection (as only 18% is covered by the Natura 2000 Network (Figure 1, EC 2012)). Figure 2 Fragmentation associated habitat quality change (EEA 2011) What is Green Infrastructure? "Green Infrastructure is a strategically planned network of natural and semi-natural areas with other environmental features designed and managed to deliver a wide range of ecosystem services. It incorporates green spaces (or blue if aquatic ecosystems are considered) and other physical features in terrestrial (including coastal) and marine areas. GI is present in rural and urban settings." (European Commission 2013) Green infrastructure encompasses natural and manmade structures and solutions which facilitate the flow of ecosystem services from nature to the people and preserve our natural capital. It promotes the use of marginal land as well as making use of all possible land for biodiversity – roofs, pavements and other urban infrastructure elements. As Figures 3 and 4 illustrate, GI includes both natural and artificial habitats, protected areas and sustainable use zones. Figure 3 GI components In terms of environmental protection, it addresses both the problem of habitat loss and habitat fragmentation by enhancing ecological connectivity. However, biodiversity is only one of the focuses of Green Infrastructure. The European Commission emphasizes that natural solutions not only protect and enhance the environment but also contribute to sustainable socio-economic growth by increasing societal well-being and promoting smart growth. Natural solutions have been demonstrated to be cheaper and more durable in the long run. Figure 4 GI elements II For the EU, green infrastructure constitutes an especially valuable tool for environmental protection and climate change adaptation in a multi-stakeholder setting. Under Target 2 of the 2020 Biodiversity Strategy, the EU committed itself to deploy green infrastructure and restore a minimum of 15% of Europe’s degraded ecosystems. In 2013, the European Commission adopted a Green Infrastructure Strategy on Enhancing Europe’s Natural Capital, whose aim is to draw the attention to ecosystem services that, non-monetized by our economy and society, often remain unacknowledged or undervalued. By focusing on the benefits that nature renders for us, we can create the necessary impetus and invest into solutions that preserve and generate ecosystem services. One of the main ideas behind green infrastructure is its multifunctionality – rather than serving a single purpose such as e.g. of constituting a roof over a person’s household, green infrastructure can at the same time provide thermoregulation, water retention, habitat for wildlife and space for recreation and many more (Figures 5 and 6). Human shelter Figure 5 Traditional versus green roof functions Human shelter Thermoregulation Urban heat reduction Noise absorption Air purification Water retention Water purification Wildlife habitat Pollination Recreation Aesthetic value Employment natural resources water management climate regulation and climate change adaptation health and air quality investment and employment tourism and recreation research and education land and property values resilience conservation benefits Figure 6 GI benefits II Local or town Regional and EU level /city scale national scale Descriptor Natural and seminatural ecosystems, such as pastures, woodland, forest (no intensive plantations), ponds, bogs, rivers and floodplains, coastal wetlands, lagoons, beaches, marine habitats Extensive agricultural and forest landscapes, large marsh and bog areas, rivers and floodplains, shorelines/coastal zones Freshwater systems, Core areas – major river basins, outside mountain ranges, protected areas regional sea basins Local nature reserves, water protection areas, landscape protection areas, Natura 2000 sites Regional and National Parks and wilderness zones (includes Natura 2000 sites) Ecological Networks Core areas/ with cross-border protected areas areas, incl. Natura 2000 network Restored areas which Restored were before types fragmented or degraded natural areas, brownfield land or disused quarries; transitional ecosystems due to land abandonment or regeneration processes High nature value farmland and multiuse forests (such as watershed forests); protection forests (against avalanches, mudslides, stonefall, forest fires), natural buffers such as protection shorelines with barrier beaches and salt marshes ecosystem Restored Landscape Restoration systems covering a zones substantial part of agricultural/ forestry areas and industrialised sites, including crossborder areas Extensive agricultural landscapes, sustainable forest management on regional and national level, functional riparian systems Transboundary Sustainable use landscape features on zones river basin or mountain range level, sustainable coastal and marine management zones related to the respective sea basin Street trees and Greenways, green avenues, city forests/ belts, metropolitan woodlands, high- park systems quality green public spaces and business parks/ premises; green roofs and vertical gardens; allotments Metropolitan areas Green urban and with substantial share peri-urban areas of high quality green areas in Europe, including coherent approaches in crossborder urban zones. and orchards; storm ponds and sustainable urban drainage systems; city reserves incl. Natura 2000 Hedgerows, stone walls, small woodlands, ponds, wildlife strips, riparian river vegetation, transitional ecosystems between cropland, grassland and forests Multi-functional, sustainably managed agricultural landscapes, riparian systems Supra-regional Natural corridors, substantial connectivity share of structure- features rich agricultural, forestry or natural landscapes Eco-ducts, green bridges; animal tunnels (e.g. for amphibians), fish passes, road verges, ecological power line corridor management De-fragmented landscapes, improved areas along transport and energy networks, migration corridors, river continuum European-wide transnational defragmentation actions Figure 7 GI on various scales (EC 2013) EU financing options on GI Green infrastructure is widely convergent with other EU policy objectives such as sustainable cities, societal health, climate change adaptation, disaster risk management and more broadly safeguarding natural capital and conservation of land, soil, water and nature. In order to achieve optimal results, it should be financed both from public and private sources through risk management and sharing and providing technical assistance. Figure 8 outlines the EU funds under which green infrastructure may be financed. Figure 8 GI funding sources or Artificial connectivity features GI Cases Łódź Blue-Green Network, Poland • Type: Local government case study • What: Restoration of an urban river system, • Who: University of Lodz & the European Regional Centre for Ecohydrology • Outcomes: ecosystem restoration, biodiversity enhancement, increased water filtration and retention, improved recreational grounds Watershed conservation and biodiversity protection in Agrivair, France • Type: Business case study • What: Financial, technological and research support for sustainable farming. Watershed conservation projects are planned. • Who: Nestle Waters • Outcomes: Protection of biodiversity and ecosystem services, emloyment generation Territorial System of Ecological Stability, Czech Republic • Type: Policy maker case study • What: Hierarchical enforced ecological network • Who: Government of the Czech Republic • Outcomes: Ecological connectivity protected and managed at a variety of scales Neusiedler-Ferto Lake Cooperation, Green Belt, Austria & Hungary • Type: Agricultural manager case study • Who: Neusiedler See - Seewinkel and Ferto-Hansag National Parks • What: Supporting traditional agricultural practices, wildlife friendly livestock grazing • Outcomes: Protection and management of grassland habitats and the associated species Restoration of Comana Wetlands, Romania • Type: Environmentalist case study • What: Wetland habitat restoration, constructing educational and tourist infrastructure • Who: Two local governments and a nature park • Outcomes: Restored ecosystem, revenue from tourism and ecological education Additional Reading Check out CEEweb’s new Green Infrastructure Knowledge Hub: www.ceeweb.org/work-areas/priorityareas/green-infrastructure for more cases, information and further reading and to find out how we contribute to building GI across Central and Eastern Europe Environmentalist: Infrastructure: Sustainable Investments for the Benefit of Both People and Nature Natural England’s GI page Urban sprawl in Europe – the ignored challenge Local government: CEEweb and ECNC’s Brochure on GI: Enriching our Society through Natural Solutions The Value of Green Infrastructure. A Guide to Recognizing Its Economic, Environmental and Social Benefits Planning for a healthy environment – good practice guidance for green infrastructure and biodiversity Business: Green Infrastructure case studies Green infrastructure’s contribution to economic growth: a review The future of investment: green infrastructure Policy maker: EU Green Infrastructure Strategy The multifunctionality of Green Infrastructure Design, implementation and cost elements of green infrastructure projects Guide to Multi-Benefit Cohesion Investments in Nature and Green Infrastructure Green Infrastructure and territorial cohesion Green Infrastructure implementation and efficiency Green infrastructure Workshop The individual exercises should be carried out in small groups of 5 to 6 people; they will then come together and form a plenary group for presentations of their work. Each group should therefore nominate rapporteurs who will feedback to the plenary. It is important that the overall moderator/facilitator keeps the groups to time (and each exercise is allocated and approximate time in the text below). It is important that the seating arrangements can be modified to allow the groups to sit at separate tables. Each group will need a supply of flipchart paper and up to 4 coloured flipchart pens. Ideally a flipchart should be available in order that the groups can place their flipchart papers on it for the feedback to the plenary. Exercise 1: Re-designing the landscape I. - How to design? Objective: The objective of this exercise (assignments 1 and 2) is to train your ability to think of the landscape in terms of the various types of benefits it offers to society, and its permeability, and to understand that multiple services and goods can be provided by the same landscape feature (for example a woodland, a park, a field, an industrial estate); and identification of possible GI projects based on this landscape analysis (assignment 3). Method: Visualisation Time allocation: 45 min Assignment 1 – mapping the landscape For this you will first jointly draw the landscape according to the instructions and then assess the values or benefits each of the features and list the connectivity elements you included in your landscape. On a flipchart sheet spread out on the table, draw, as preferred, a map in 2D map view or 3D landscape view, of an imaginary or real ( if one of the participants would like to take the initiative) landscape with 10 – 15 landscape features (see annex X for example of landscape elements). For the feasibility of the exercise please keep the total number under 15. Standard landscape pictures and Google maps might be used for inspiration if needed, but it is better for the group to pool their imagination. Identify each map feature (e.g. broadleaved forest, road, village, wetland etc.) with a number or code to refer to the Landscape feature valuation form Annex 2; Don’t forget the connectivity aspect: consider and identify the corridors and/ or bottlenecks in the landscape for the movement of species (e.g. mammals, amphibians and reptiles, invertebrates, etc.) and mark these on the map as well; Expected result: A map of the landscape with the listed features. Assignment 2 – Evaluating the landscape features Fill out the Landscape feature valuation form based on a rapid valuation using the best judgment of the group. Do not go into details. For a natural full grown forest, biodiversity value is obviously higher than for an industrial estate. It is these differences that should become clear in the form. Describe values in terms of 0=nil, 1= low, 2= moderate, 3= high, 4= very high (5 categories); For each map feature think of the ecosystem services it provides (e.g. a forest feature would typically provide fibre and fuel (wood), water regulation, climate mitigation etc.). Refer to Annex X (page x), if needed; Try and keep the momentum going in a brainstorm-like way. Do not discuss individual suggestions or ideas in first instance, but just write down all suggestions from the group; If time permits, go through the list and discuss the ecosystem services one by one and agree on the most important services per feature on the list; Make a separate list of connectivity elements (corridors and/ or bottlenecks) in the landscape and briefly describe them (e.g. hydro-electric dam causing a blockage to fish migration, network of green areas as stepping stones for urban species) Make a rapid description of each mapped feature on the landscape feature valuation form Annex 2 by assessing: the biodiversity value (nil, low, moderate, high, very high); the economic value (nil, low, moderate, high, very high); the social value (nil, low, moderate, high, very high); the types of ecosystem services it provides (e.g. water regulation, food production, aesthetic value etc.). See Annex X for examples and explanation, or ask the trainer; the connectivity aspects of the landscape (corridors and/ or bottlenecks). Expected result: A list of mapped features and a rapid assessment of their biodiversity, economic and social values described using the landscape feature valuation form; a list of connectivity elements with a short description. Assignment 3 – identifying GI projects Identify possible projects for: utilising/ improving/ restoring existing (or potential) ES; or for solutions to the connectivity bottlenecks. The projects should be related to some (or all) of the above listed ES and bottlenecks. Possible table to present the results of the group work (metaplan): Identified ES/ bottlenecks Brief description Possible GI project Expected result: An elaborated list of possible GI projects based on the landscape analysis undertaken above and the benefits (e.g. ecosystem services provided, connectivity elements preserved / restored) these will deliver in return. Exercise 2: Re-designing the landscape II. - How to implement? Objective: Objective of this exercise is to learn how to prioritise between different GI projects based on the benefits which can be gained in return (these can be based on the ecosystem services, on biodiversity benefits, connectivity, etc.); and to analyse the key factors for successful implementation of GI projects (key partners/ stakeholders and appropriate funding sources). Method: Prioritising and delivery Time allocation (assignments 1 and 2): 30 min Assignment 1 – Prioritising the possible GI projects Continue working in the same groups of five to six. Groups should prioritise the GI projects they have identified above based on: benefits they will provide; ecological imperatives; financial issues; likely political constraints; The selection process can be done through an open discussion or in a more structured way. For example: each member of the group has a number of votes (e.g. 3 or 5) which she / he can distribute at free will (e.g. 1 vote to 5 projects; 5 votes to 1 project; or 1, 2, and 3 votes to 3 projects); In the end the groups should have discussed and agreed their top three solutions. Assignment 2 – Implementing priority projects Think of the best ways to implement the 3 priority projects selected above; Through discussion decide who/which key stakeholders should be involved in implementation of the specific solutions? Not a broad stakeholder analysis; this should be a consideration of the specific individuals/ organisations which have to be directly involved for the successful delivery of the selected GI projects; Consider the best approach to get the selected GI projects implemented. You should think about the key issues such as: level of involvement of individuals and organisations identified above (i.e. partner, consulted, informed); what would be suitable sources of finance; public/ voluntary involvement; etc. Possible table to present the results of the group work (metaplan): GI project Key stakeholders Level of involvement Sources of funding Assignment 3 – Present the results of the group work and moderated plenary session Time allocation: 10 min per group max Each group has 10 minutes to present the results of their work. Questions will be allowed at the end of each presentation from the other delegates/ facilitator; At the end of the final presentation there will be time allocated for a general discussion; The flipchart should be used by the moderator to record the key points emerging from the discussion. Exercise 3: Redesigning the landscape III: How to reconcile? Objective: The objective of this exercise is to enable various stakeholders to understand opposing points of view in order to better be able to resolve conflicts of interest which often arise around conservation projects. The exercise should enable both conservationists and local inhabitants to see the other point of view and understand the values and logic behind it and acknowledge its equal importance and validity. Method: Role-play activity: Protected areas – how to understand all sides Time allocation: 60 min All participants read the background information and try to think whether they have heard of similar situations in their neighbourhood. The facilitator gives each participant a strip of paper with the description of their role. Everyone reads out their role out loud in order for everyone to gain an understanding of what the sides to the conflict are. Then participants get 10-15 minutes to prepare their arguments, think about how best to defend their position during the debate. Afterwards all participants discuss for 30 minutes the future of area XXX. The final decision is made by the Minister for Environment and the Local Authorities. As the EU participatory regulations require consent from the local population, without the consent of the Local Authorities the Minister cannot enlarge the park. Following the discussion the facilitator moderates a 15 minute long conversation on what are the needs of people and nature, how they clash and are interconnected, can such clashes be minimised and what is the right balance. A discussion on sustainable tourism may follow. Actors: 1. Local authorities of XYZ village 2. Conservationists/Environmental NGO representatives 3. Investors and businessmen 4. Local inhabitants: Room and hotel owners Unemployed Foresters Pensioners (berry gatherers) 5. Ministry of the Environment Background information about the role-play situation: Village XYZ is located in a pristine natural area. Some tourists visit the village already, however, the area is not very well known for its natural value. Ministry for the environment together with nature conservationists and environmental NGOs have proposed to create a protected area in order to better preserve the natural heritage as well as giving local nature better marketing. However, not all stakeholders are in favour of this idea. Thus a debate goes on regarding whether or not XXX national park should be created. Participants are assigned roles which they must represent during the discussion. Participants must remember to speak in the name of the person whose role they were assigned even if personally they disagree. They are strongly encouraged to make up their own stories, add and improvise. Positions: 1. Local authority: You are the mayor of XYZ village. You are afraid that creating a national park will block investment (e.g. building of new hotels, ski resorts etc.) in the region. You want that people in your municipality live better: that they have well paid jobs and the region becomes more prosperous. You make decisions according to the will of the inhabitants (or the loudest group among them) – as they will decide whether you stay for another term and you will keep this prestigious and well paid job for next year. You think that nature conservation could be the solution, and nature could be the brand of the village, however, it is risky and there are equally many arguments that economic investment is the way forward. 2. Environmentalist: You are an activist in an NGO, whose aim is nature protection. Widespread environmental degradation scares you – you would like to preserve and protect area XXX – this unique and beautiful ecosystem from urbanisation, mass tourism and investment detrimental to the environment. Your job is your mission, you are convinced that you are right. You want to protect area XXX for future generations. Creating a national park could ensure appropriate protection and could create space for saving vulnerable species such as lynxes, wolves or bears. 3. Investor: You are an investor, who wants to build a ski and hotel complex near area XXX. You promise to give jobs to a few hundred people, you also convince people that skiers using your resort will use other local services (rooms, hotels, restaurants) thus spending leaving money in the region for the local inhabitants. In reality you are only interested in your personal profits, you want to make as much money as possible, pay as little salaries as possible and host all tourists in your own hotels. 4. Room renter: You are a local inhabitant. In your house you have a few rooms that you rent out to tourists. Creating a National Park might be good for you as it might make the area more attractive for tourists who could stay in your rooms. However, no one can guarantee that this will actually happen. 5. Unemployed: You are a local inhabitant – an unemployed person. You believe that in the region it is very difficult to find a job and existing offers pay too little money. You think that more economic development and/or tourism could be a chance for people in a situation similar to yours. 6. Pensioner: You are an elderly person, inhabitant of XYZ village. You have a low pension, you get extra money by gathering berries. There are already rules regarding not being able to gather in nature reserves and you risk paying a high fine by gathering berries there. And now the plan is to make a National Park and take more areas away from the local people. The park is a bane for you and restricts your freedom of movement and using resources that used to belong to your ancestors. You are a fierce and diehard opponent of the park. 7. Forester: You are a forester in XXX forest district. You wish to sustainably exploit the forest, as it generates large financial benefits. Salaries in forestry are higher than other sectors. If a park is created you might be able to work for the park instead, however, the salaries there are much lower and you do not believe in strict conservation. You believe that in order to maintain high biodiversity levels, one needs to actively manage the forest. 8. Minister for Environment: You are the Minister for Environment. Your legal obligation is nature protection. For a few years now in Poland no new national park has been created, and none have been enlarged despite the fact that according to the 2020 Conception of Spatial Planning for Poland, 3 new national parks should be created and several existing ones enlarged. You would like to enlarge the national park, but you care that all stakeholders are satisfied. You do not wish to antagonise your constituency who can turn their backs on you and your party during the next elections if things do not happen as they wish. Questions for the moderated conversation afterwards: The needs of nature versus the needs of humans: Deep ecology claims that the life of one creature is always more valuable than lower need of other creatures. Do we live according to deep ecology? Is living according to deep ecology possible in today’s world? If animals die in collisions with cars, does it mean that we are not allowed to use cars as long as we do not need this for survival. Where is the right balance? Nature’s needs: National park, reserve, buffer zone Small tourist pressure No new large investment Human needs: Trails Hotels, shelters Roads, easy access, public transport Ski resorts, pistes How can we decrease the impact that tourism has on nature: By changing our behaviour (being quiet, not walking off the designated paths) Through technology (having biological sewage treatment plants, solar batteries) Landscape feature Annex X. Landscape feature valuation form to guide decisions The purpose of the table is to help you as a group to carry out a rapid assessment of your landscape in terms of social, economic and natural benefits and ecosystem services, based on your pooled best judgement. First, write all your landscape features in the first row. Then, fill in the numbers (0 to 4) corresponding to the values in the cells for each landscape feature / benefit combination. Most valuations will be quite straightforward, and you shouldn’t need to discuss them at length (e.g. Old growth forest has very high (4) biodiversity value, “arable field – intensive use” has high (3) economic value and low (1) biodiversity value). Value Biodiversity value Economic value Social value ES – provisioning – food ES – provisioning – fuel / fibre ES – regulating – carbon sequestratio n ES – regulating – clean water ES – regulation – flood control ES – support – nutrient cycling ES – cultural – recreation *Valuation: 0 = nil; 1 = low; 2 = moderate; 3 = high; 4 = very high Annex x Examples of possible landscape elements in different landscape types In a small rural village A.1. Arable Wheat, Maize or Potato fields in intensive use B.8. Deciduous or broadleaved forest plantation B.9. Golf course B.10. Unpaved country roads A.2. Arable Rye or Flax fields in extensive use A.3. Old growth forest – protected, at least two separate areas In a developed coastal area C.1. Coastal lagoon A.4. Historic village centre C.2. Salt marsh A.5. Modern housing estate, houses with gardens C.3. Sandy beach C.4. Cliffs A.6. Small river valley with a stream and semi-natural hay fields C.5. Coastal grazed meadows C.6. Olive groves A.7. Regional road with natural verges C.7. Docks C.8. Container terminal A.8. Bridge over the stream C.9. Coastal dunes A.9. Hedgerows C.10. Old vineyards A.10. Active quarry or abandoned In a more natural rural area In a large urban area D.1. Train station D.2. Brownfields D.3. Urban park B.1. Calcareous grasslands D.4. High rise buildings B.2. Scrubs B.3. Stone walls D.5. Densely built up urban centre B.4. Hay meadows D.6. Tree-lined roads B.5. Stream and damp meadows D.7. Industrial Estate B.6. Broadleaved or mixed forest D.8. Historic centre B.7. Mediaeval castle ruins D.9. Arable fields D.10. Allotment Annex X – Summary ecosystem services overview General description of some ecosystem services Farmland Urban ecosystems provisioning: crops, livestock, energy provisioning: food from allotments and gardens, water supply cultural: recreation, landscape, cultural heritage Biodiversity / regulating: carbon storage, flood management, pollination, improving water, soil quality, air quality biodiversity / cultural: recreation, landscape and cultural heritage Coastal areas regulating: cooling, noise reduction, flood management, pollination, improving water quality, improving air quality provisioning: fish Uplands and grasslands biodiversity / cultural: recreation, landscape and cultural heritage regulating: carbon storage, flood management, improving water quality, improving air quality provisioning: energy (wind power), water supply cultural: recreation, landscape and cultural heritage regulating: carbon storage, flood management, pollination, improving water and soil quality Fresh water Woodlands provisioning: water, fish provisioning: timber, water supply cultural: recreation, landscape, cultural heritage cultural: recreation, landscape and cultural heritage regulating: flood management, improving water quality regulating: carbon storage, flood management, noise reduction, improving water, soil and air quality The Common International Classification of Ecosystem Services (CICES): http://cices.eu/ Picture sources: http://ec.europa.eu/environment/nature/ecosystems/index_en.htm http://ec.europa.eu/environment/nature/natura2000/index_en.htm http://www.mzp.cz/www/dav.nsf/rocenka_06/b5.htm http://www.ramsar.org/cda/en/ramsar-news-archives-2007-transboundary-ramsar17220/main/ramsar/1-26-45-48%5E17220_4000_0__ http://www.danubeparks.org/blogs/danube_education/352/ http://www.extension.org/pages/62456/green-roofs-as-water-wise-landscapes http://www.nestle.com/csv/case-studies/AllCaseStudies/watershed-biodiversity http://www.dezeen.com/tag/green-walls/ http://www.linz09.at/en/pressefotos/download/2057918.html http://www.vogelwarte.ch/scoring-with-biodiversity-farmers-enrich-nature.html http://newsdesk.si.edu/photos/smithsonian-environmental-research-center http://www.klamathwaterquality.com/images/fish_ladder.html http://en.wikipedia.org/wiki/Common_toad#mediaviewer/File:Toad_tunnel.jpg http://www.greenrooftechnology.com/green-bridges http://kansas.sierraclub.org/kansas-chapter-conservation-conference-july-19/ http://www.e-izolacje.pl/a/10840,warstwy-dachu-zielonego-sopranature/0/7,gotowy-dach-zielony http://e-czytelnia.abrys.pl/index.php?mod=tekst&id=16598 http://www.stylus.com/xhbgtg http://www.priva.ca/en/solutions-products/horticulture/water-management/ http://en.wikipedia.org/wiki/Climate#mediaviewer/File:MonthlyMeanT.gif http://bandh-airconditioning.co.uk/ http://aia-arizona.org/business-center/employment-opportunities/ http://www.iliketurkey.com/birdwatching_e.htm https://www.linkedin.com/today/post/article/20140614000722-234910581-power-of-resilience http://en.wikipedia.org/wiki/Habitat_fragmentation#mediaviewer/File:Amazonie_deforestation.jpg http://www.fauna-flora.org/species/iberian-lynx/ This brochure is generously supported by the European Commission, but does not necessarily reflect its views and opinions.
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