Social-ecological systems influence ecosystem service perception: a Programme on Ecosystem Change and Society (PECS) analysis

The demand the human population is placing on the environment has triggered accelerated rates of biodiversity change and created trade-offs among the ecosystem services we depend upon. Decisions designed to reverse these trends require the best possible information obtained by monitoring ecological and social dimensions of change. Here, we conceptualize a network framework to monitor change in social–ecological systems. We contextualize our framework within Ostrom’s social–ecological system framework and use it to discuss the challenges of monitoring biodiversity and ecosystem services across spatial and temporal scales. We propose that spatially explicit multilayer and multiscale monitoring can help estimate the range of variability seen in social–ecological systems with varying levels of human modification across the landscape. We illustrate our framework using a conceptual case study on the ecosystem service of maple syrup production. We argue for the use of analytical tools capable of integrating qualitative and quantitative knowledge of social–ecological systems to provide a causal understanding of change across a network. Altogether, our conceptual framework provides a foundation for establishing monitoring systems. Operationalizing our framework will allow for the detection of ecosystem service change and assessment of its drivers across several scales, informing the long-term sustainability of biodiversity and ecosystem services.

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Mapping social–ecological systems: Identifying ‘green-loop’ and ‘red-loop’ dynamics based on characteristic bundles of ecosystem service use

Global Environmental Change ◽

10.1016/j.gloenvcha.2015.07.008 ◽

2015 ◽

Vol 34 ◽

pp. 218-226 ◽

Cited By ~ 68

Author(s):

Maike Hamann ◽

Reinette Biggs ◽

Belinda Reyers

Keyword(s):

Ecosystem Service ◽

Service Use ◽

Ecological Systems ◽

Social Ecological Systems ◽

Social Ecological ◽

Loop Dynamics

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Application of the Ecosystem Service Concept in Social–Ecological Systems—from Theory to Practice

Sustainability ◽

10.3390/su12072960 ◽

2020 ◽

Vol 12 (7) ◽

pp. 2960

Author(s):

Johannes Rüdisser ◽

Georg Leitinger ◽

Uta Schirpke

Keyword(s):

Ecosystem Service ◽

Temporal Dynamics ◽

Natural Capital ◽

Spatial Scales ◽

Sustainable Use ◽

Ecological Systems ◽

Social Ecological Systems ◽

Social Ecological ◽

Societal Changes ◽

Key Issues

Ecological footprint analyses demonstrate that the world’s more than 7.5 billion people consume multiple planets’ worth of resources. To incite and evaluate societal changes for the sustainable use of the environment and its natural resources, the ecosystem service (ES) concept was developed more than 20 years ago. To ensure the sustainable provision of indispensable ES, the concept has been refined and enhanced, enabling its application across various temporal and spatial scales. However, evidence-based strategies and policies are needed to preserve biodiversity and natural capital in our changing world. This Special Issue comprises studies advancing the frameworks, concepts, and applications related to ES assessment, with a particular focus on social–ecological systems. To broadly apply the ES concept in different social–ecological systems, several key issues emerged: (1) ES-related definitions and procedures should be improved and standardized; (2) the complexity of the interactions in a social–ecological system must be recognized, and knowledge about spatial and temporal dynamics and interactions among multiple ESs must be deepened; and (3) communication about ES, considering cultural and stakeholder differences, must be increased.

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Characterizing fisheries connectivity in marine social–ecological systems

ICES Journal of Marine Science ◽

10.1093/icesjms/fsx128 ◽

2017 ◽

Vol 74 (8) ◽

pp. 2087-2096 ◽

Cited By ~ 26

Author(s):

Emma C. Fuller ◽

Jameal F. Samhouri ◽

Joshua S. Stoll ◽

Simon A. Levin ◽

James R. Watson

Keyword(s):

Marine Ecosystem ◽

Spiny Lobster ◽

California Current ◽

Ecological Systems ◽

Ecosystem Change ◽

Social Ecological Systems ◽

Social Ecological ◽

The Social ◽

The Us ◽

Large Marine Ecosystem

Abstract Marine social–ecological systems are constantly changing, and fishers who make a living from working the seas are continually adapting in response to different sources of variability. One main way in which fishers can adapt to ecosystem change is to change the fisheries they participate in. This acts to connect fisheries, creating interlinked networks of alternative sources of income for fishers. Here, we synthesize fisheries data and construct fisheries connectivity networks for all major ports in the US California Current Large Marine Ecosystem. Fisheries connectivity networks are comprised of nodes, which are fisheries, connected by edges, whose weights are proportional to the number of participating vessels. Fisheries connectivity networks identify central fisheries in the US California Current Large Marine Ecosystem, specifically Dungeness crab and Spiny Lobster, and systematic topological differences, e.g. in network resilience and modularity. These network metrics directly relate to the social vulnerability of coastal fishing communities, especially their sensitivity and capacity to adapt to perturbation. Ultimately, improving knowledge of fisheries connectivity is vital if policy makers are to create governance institutions that allow fishermen to adapt to environmental, technological and management change while at the same time enhancing the social and economic value of fisheries. In doing so, new policies that account for fisheries connectivity, will lead to improved sustainable fisheries management, and enhanced socioeconomic resilience of coastal communities.

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