Abstract
The capacity of ecosystems to supply ecosystem services is decreasing. Sustaining this supply requires an understanding of the links between the impacts of pressures introduced by human activities and how this can lead to changes in the supply of services. Here, we apply a novel approach, assessing ‘risk to ecosystem service supply’ (RESS), across a range of aquatic ecosystems in seven case studies. We link aggregate impact risk from human activities on ecosystem components, with a relative score of their potential to supply services. The greatest RESS is found where an ecosystem component with a high potential to supply services is subject to high impact risk. In this context, we explore variability in RESS across 99 types of aquatic ecosystem component from 11 realms, ranging from oceanic to wetlands. We explore some causes of variability in the RESS observed, including assessment area, Gross Domestic Product (GDP) and population density. We found that Lakes, Rivers, Inlets and Coastal realms had some of the highest RESS, though this was highly dependent on location. We found a positive relationship between impact risk and service supply potential, indicating the ecosystem components we rely on most for services, are also those most at risk. However, variability in this relationship indicates that protecting the supply of ecosystem services alone will not protect all parts of the ecosystem at high risk. Broad socio-economic factors explained some of the variability found in RESS. For example, RESS was positively associated with GDP and artificial and agricultural land use in most realms, highlighting the need to achieve balance between increasing GDP and sustaining ecosystem health and human wellbeing more broadly. This approach can be used for sustainable management of ecosystem service use, to highlight the ecosystem components most critical to supplying services, and those most at risk.
Highlights
Ecosystem services support human wellbeing in many ways, providing essential sources of nutrition and materials, regulating and maintaining global systems and enhancing our quality of life (Costanza et al, 2007; MA, 2005; Maes et al, 2016)
The importance of understanding and managing this risk to ecosystem service supply is on the agenda for sustainable management at the highest level: for example, the United Nations Sustainable Development Goals (SDG) target 15.1 of SDG 15 mandates the “restoration, conservation and sustainable use of terrestrial and inland freshwater ecosystems and their services” while, Goal 14 explicitly recognises the role of the oceans in maintaining a world fit for human habitation (UN, 2015)
The relationship was positive in all case studies apart from the Swiss Plateau where there was a negative relationship between ecosystem components with the greatest service supply potential (SSP) and impact risk (IR); in that case only, the components with the greatest SSP were not those at greatest risk
Summary
Ecosystem services support human wellbeing in many ways, providing essential sources of nutrition and materials, regulating and maintaining global systems and enhancing our quality of life (Costanza et al, 2007; MA, 2005; Maes et al, 2016). Costanza et al (2014) linked changing areas of broad habitat types to changes in benefits from services, while Mace et al (2015) assessed risk to natural capital by assessing ecosystem state of habitats, as measured against environmental policy targets. These studies have tended to be comprehensive in their consideration of habitats and services, but have not explicitly linked change in service supply to manageable human activities causing those changes ( see Tzilivakis et al (2015) on assessing vulnerability of ecosystem services to climate change). To implement management for sustainable service use, we need to explicitly recognise how the distribution of ecosystem impact from drivers of change relates to the capacity or potential of the ecosystem to supply benefits to people, i.e. ecosystem services (e.g. see Elliott et al, 2017)
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