Log in
This case study shows how research on ecosystem service governance is directly supporting the Government's promotion of Payment for Ecosystem Services (PES) schemes. These aim to pay for nature's services through the involvement of business and the wider public. Specifically, research has informed the development of a pilot UK Peatland Code to stimulate private investment in peatland restoration. The pilot Code, which was published for public feedback in June (and launched in September 2013 by the Environment Minister), sets out guidance and quality standards for sustainable business investment in peatlands. It has implications for chartered surveyors, planners and others advising clients on future land use and income generating opportunities. According to Defra's Deputy Director of Sustainable Land and Rural Evidence and Analysis, lessons from this research have "made a significant contribution" towards Defra's PES agenda, "provid[ing] us with valuable lessons for the development of PES schemes in the UK" (Testimonial 1).
A major requirement for national conservation strategies within the EU is to ensure that priority habitats for conservation within their domain are in "favourable" condition (i.e. compliance with Council Directive 92/43/EEC on the Conservation of Natural Habitats and of Wild Fauna and Flora). In order to achieve this there is an increasing need to provide sound evidence-based advice. This is especially needed in cultural landscapes (grassland, heaths and moors) which were created and maintained by human activity. Marrs' group has led the field in providing evidence-based advice on management of both lowland heaths/upland moors for over 30 years using results from (a) regional-scale, structured-surveys, (b) extensive, long-term, manipulative-experiments and (c) ecosystem modelling. Outcomes have helped frame policy and guide good-practice by conservation practitioners, especially in the area of prescribed burning of moorlands.
Research at the University of East London has catalysed action across a wide range of policy, science and practice activities aimed at restoring and conserving peatlands. It has underpinned the development of a government-affiliated body (IUCN UK PP) committed to ensuring effective conservation and restoration of peatlands, and helped shape carbon-management initiatives and policies at national and inter-governmental level, prompting Ministerial commitments and substantial funding for UK peatlands. It has also supported inter-governmental consensus over the sustainable management of peatlands and their carbon stores, and influenced legal decisions about windfarm development on peat. Furthermore, it has enhanced public understanding of important environmental issues relating to peatlands and their ecosystem services, particularly in relation to greenhouse-gas emissions and water management.
Impact of peat research at NTU comprises:
Research on peatland hydrology and erosion has been used by stakeholders including Defra, International Union for the Conservation of Nature (IUCN), Natural England, Scottish Natural Heritage, Moors for the Future, RSPB, water companies, horticultural peat producers and Environment Agency to improve policy and practice in the management of peatland habitats. Research into alternative growing media for use in horticulture, pioneered by Carlile in conjunction with William Sinclair Horticulture, contributed to development of market-leading brand New Horizon.
The project combined stakeholder knowledge with natural science to identify future scenarios and adaptation options for uplands. Research into upland ecosystem services identified win-win scenarios (e.g. around carbon management) and important trade-offs (e.g. effects on biodiversity). These were embedded within government policy reports leading to additional work in government departments seeking to overcome policy barriers in these areas in order to implement the recommendations from the research. Overcoming these policy barriers has influenced government's decision to work in partnership to launch a new peatland carbon code, focussing on upland peatlands, creating corporate social responsibility (CSR) options for companies via peatland protection and restoration.
The water industry sources significant drinking waters from peatland catchments and faces major water discolouration problems due to dissolved organic carbon (DOC) caused by peat degradation. DOC has to be removed to meet strictly regulated drinking water standards and to eliminate disinfection by-products. One proven, but expensive industry solution uses Magnetic Ion Exchange (MIEX) at treatment works. Research at the School of Geography (SoG) investigated catchment management as a potentially longer term, more sustainable treatment solution that addresses the problem at source. Yorkshire Water (YW) has subsequently adopted recommended practices, and has invested [text removed for publication] in catchment solutions yielding wider environmental benefits.
This case study describes the impact of the research of the Centre for Earth and Ecosystem Responses to Environmental Change (CEEREC), MMU, on the protection and restoration of native ecosystems and upland semi-natural habitats that are affected by nitrogen pollution. CEEREC investigates the harm caused by nitrogen pollution to a range of semi-natural habitats. We also explore the impact of historic pollution in upland Britain and the potential for recovery through ecological restoration. Our research has informed evidence-based changes to UK, EU and US emission control policy and on the mitigation and restoration methods (e.g. `BeadaMoss™) of pollution affected landscapes.
In the REF impact period, our research on carbon-rich tropical peat swamp forests in Indonesia has been used to:
The Mikoko Pamoja project uses carbon credits for conservation and development in Africa. It is one outcome of Edinburgh Napier University's (ENU) work on mangrove ecology which has local, national and international impacts. With public and private support, the project has recruited >140 international volunteers, trained 46 African scientists, and funded development including schools and pumps. It is pioneering community control of mangroves using new legal instruments and informing the national management plan. A regional forum founded by the team facilitates international networking. The work has been highlighted by the United Kingdom (UK) Department for International Development as good practice and has generated ACES (Association for Coastal Ecosystem Services), a new charity.
Our research has impacted on UK and international policy on peatland/wetland conservation and restoration for climate change mitigation and water purification, by showing how peatlands function as a major global carbon sink and regulator of climate and water quality. Additionally, our discovery that peatland carbon release, from local to global scales, is controlled by a single enzyme system has provided a tool to prevent carbon loss from degraded peat. Our new methods have been implemented in peatland restoration projects by UK agencies and NGOs, benefiting carbon storage, biodiversity and landscapes; raising public awareness and improving UK water industry management leading to better water quality.