Abstract
The degree of coupling between the social and ecological components of social-ecological systems is seen as fundamental to understanding their functioning, interactions and trajectories. Yet, there is limited work about how to empirically understand the degree of coupling between social and ecological systems, nor the processes by which the degree of coupling could change over time. Here, we introduce a conceptual framework for characterizing trajectories over time of coupling and de-coupling in social-ecological river systems. We analyze two conceptual scenarios describing coupling and de-coupling trajectories in a social-ecological system and define a series of key concepts for understanding social-ecological system trajectories. We tested these coupling and de-coupling trajectories theory by linking these concepts to empirical case examples of two river social-ecological systems in the western United States. Finally, we propose a quantitative approach with the potential for evaluating the level of social-ecological coupling and de-coupling trajectories in other SES contexts. This paper represents an advancing on the identification of specific actions that explain current SES trajectories and immediate actions to reinforce or shift the trajectory.
Highlights
The science of social-ecological systems (SES), which is variously called human–environment systems (HES) and coupled human–nature systems (CHANS) (Wang et al 2018), describes a co-evolutionary phenomenon in which ecosystem services are the emergent outcomes of complex interactions and feedbacks between social and ecological components of a system (Berkes and Folke 2000; Liu et al 2007a; Reyers and Selomane 2018)
Both trajectories represent the processes by which feedbacks within the SES develop and change through time leading to specific SES outcomes and to different levels of adaptive capacity of the system
Our analyses indicate that informational feedbacks about maintaining a riparian zone and continuous public access along the Boise River triggered a coupling trajectory
Summary
The science of social-ecological systems (SES), which is variously called human–environment systems (HES) and coupled human–nature systems (CHANS) (Wang et al 2018), describes a co-evolutionary phenomenon in which ecosystem services are the emergent outcomes of complex interactions and feedbacks between social and ecological components of a system (Berkes and Folke 2000; Liu et al 2007a; Reyers and Selomane 2018). We introduce a conceptual framework for characterizing SES coupling and de-coupling trajectories through time, and apply that framework using a case study of two socio-ecological river systems in the western United States.
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