A social-ecological system consists of 'a bio-geo-physical' unit and its associated social actors and institutions. Social-ecological systems are

complex Complex commonly refers to: * Complexity, the behaviour of a system whose components interact in multiple ways so possible interactions are difficult to describe ** Complex system, a system composed of many components which may interact with each ...

and adaptive and delimited by spatial or functional boundaries surrounding particular ecosystems and their context problems.Glaser, M., Krause, G., Ratter, B., and Welp, M. (2008) Human-Nature-Interaction in the Anthropocene. Potential of Social-Ecological Systems Analysis. ebsite Available from: ssessed: 28 Feb 2020/ref>

Definitions

A social-ecological system can be defined as:Redman, C., Grove, M. J. and Kuby, L. (2004). Integrating Social Science into the Long Term Ecological Research (LTER) Network: Social Dimensions of Ecological Change and Ecological Dimensions of Social Change. Ecosystems Vol.7(2), pp. 161-171.(p. 163) # A coherent system of biophysical and social factors that regularly interact in a resilient, sustained manner; # A system that is defined at several spatial, temporal, and organisational scales, which may be hierarchically linked; # A set of critical resources (natural, socio-economic, and cultural) whose flow and use is regulated by a combination of ecological and social systems; and # A perpetually dynamic, complex system with continuous adaptation.Machlis, G.E., Force J.E, and. Burch, W.R Jr. (1997) The human ecosystem part I: The human ecosystem as an organizing concept in ecosystem management. Society and Natural Resources, Vol.10, pp.347-367.Gunderson, L. H., and Holling C. S. (2002) Panarchy: understanding transformations in human and natural systems. Island Press, Washington, D.C., USA.Berkes, F., Colding, J., and Folke, C. (2003) Navigating social–ecological systems: building resilience for complexity and change. Cambridge University Press, Cambridge, UK. Scholars have used the concept of social-ecological systems to emphasise humans as part of nature and to stress that the delineation between social systems and ecological systems is artificial and arbitrary.Berkes, F., Colding, J., and Folke, C. (2001) Linking Social-Ecological Systems. Cambridge: Cambridge University Press. While resilience has somewhat different meaning in social and ecological context,Adger, N. (2000) Social and ecological resilience: are they related? Progress in Human Geography, Vol. 24, pp. 347-364. the SES approach holds that social and ecological systems are linked through feedback mechanisms, and that both display resilience and

complexity Complexity characterises the behaviour of a system or model whose components interact in multiple ways and follow local rules, leading to nonlinearity, randomness, collective dynamics, hierarchy, and emergence. The term is generally used to ch ...

Theoretical Foundations

Social-ecological systems are based on the concept that humans are a part of — not separate from — nature. This concept, which holds that the delineation between social systems and natural systems is arbitrary and artificial, was first put forth by Berkes and Folke, and its theory was further developed by Berkes et al. More recent research into social-ecological system theory has pointed to social-ecological keystones as critical to the structure and function of these systems, and to

biocultural diversity Biocultural diversity is defined by Luisa Maffi, co-founder and director of Terralingua, as "the diversity of life in all its manifestations: biological, cultural, and linguistic — which are interrelated (and possibly coevolved) within a complex ...

as essential to the resilience of these systems.

Integrative approaches

Through to the final decades of the twentieth century, the point of contact between social sciences and natural sciences was very limited in dealing with social-ecological systems. Just as mainstream ecology had tried to exclude humans from the study of ecology, many social science disciplines had ignored the environment altogether and limited their scope to humans. Although some scholars (e.g. Bateson 1979)Bateson, G. (1979) Mind and Nature: A necessary unit. ebsite Available from: ssessed: 12 May 2011 had tried to bridge the nature-culture divide, the majority of studies focused on investigating processes within the social domain only, treating the ecosystem largely as a "black box" and assuming that if the social system performs adaptively or is well organised institutionally it will also manage the environmental resource base in a

sustainable fashion Sustainable fashion (also known as eco-fashion) is a term describing products, processes, activities, and actors (policymakers, brands, consumers) aiming to achieve a carbon-neutral fashion industry, built on equality, social justice, animal ...

.Folke, C. (2006), Resilience : The emergence of a perspective for social-ecological systems analysis, Global Environmental Change, Vol. 16, pp. 253–267. This changed through the 1970s and 1980s with the rise of several subfields associated with the social sciences but explicitly including the environment in the framing of the issues. These subfields are: * Environmental ethics, which arose from the need to develop a philosophy of relations between humans and their environment, because conventional ethics only applied to relations among people. * Political ecology, which expands ecological concerns to respond to the inclusion of cultural and political activity within an analysis of ecosystems that are significantly but not always entirely

socially constructed Social constructionism is a theory in sociology, social ontology, and communication theory which proposes that certain ideas about physical reality arise from collaborative consensus, instead of pure observation of said reality. The theory ...

.Greenberg, J.B and Park, TK. (1994) Political ecology. Journal of Political Ecology, Vol. 1 pp. 1-12. * Environmental history which arose from the rich accumulation of material documenting relationships between societies and their environment. * Ecological economics which examines the link between ecology and economics by bridging the two disciplines to promote an integrated view of economics within the ecosystem.Costanza R, Low BS, Ostrom E, Wilson J. (2001) Institutions, Ecosystems, and Sustainability. Boca Raton, FL: Lewis * Common property which examines the linkages between

resource management In organizational studies, resource management is the efficient and effective development of an organization's resources when they are needed. Such resources may include the financial resources, inventory, human skills, production resources, or i ...

and social organisation, analysing how institutions and property rights systems deal with the dilemma of the ‘

tragedy of the commons Tragedy (from the grc-gre, τραγῳδία, ''tragōidia'', ''tragōidia'') is a genre of drama based on human suffering and, mainly, the terrible or sorrowful events that befall a main character. Traditionally, the intention of tragedy ...

’. McCay, B.J. and Acheson, J.M. (1987) The Question of the Cotntnons. The Culture andEcology of Comtnunal Resources. Tucson: The University of Arizona Press.Berkes, F. (1989) Common Property Resources: Ecology and Comtnunity-Based Sustainable Development London: Belhaven Press. * Traditional ecological knowledge, which refers to ecological understanding built, not by experts, but by people who live and use the resources of a place.Warren, DM., Slikkerveer, LJ., Brokensha, D. (1995) The Cultural Dimension of Development: Indigenous Knowledge System. London: Intermediate Technology Publications. Each of the six areas summarised is a bridge spanning different combinations of natural science and social science thinking.

Conceptual foundations and origins

Elinor Ostrom Elinor Claire "Lin" Ostrom (née Awan; August 7, 1933 – June 12, 2012) was an American political scientist and political economist whose work was associated with New Institutional Economics and the resurgence of political economy. In 2009, ...

and her many co-researchers developed a comprehensive "Social-Ecological Systems (SES) framework", which includes much of the theory of common-pool resources and collective self-governance. It draws heavily on

systems ecology Systems ecology is an interdisciplinary field of ecology, a subset of Earth system science, that takes a holism, holistic approach to the study of ecological systems, especially ecosystems. Systems ecology can be seen as an application of general ...

and complexity theory. The studies of SES include some central societal concerns (e.g. equity and human wellbeing) that have traditionally received little attention in

complex adaptive systems A complex adaptive system is a system that is ''complex'' in that it is a dynamic network of interactions, but the behavior of the ensemble may not be predictable according to the behavior of the components. It is ''adaptive'' in that the individ ...

theory, and there are areas of complexity theory (e.g.

quantum physics Quantum mechanics is a fundamental theory in physics that provides a description of the physical properties of nature at the scale of atoms and subatomic particles. It is the foundation of all quantum physics including quantum chemistry, q ...

) that have little direct relevance for understanding SES.Cumming, G.S. (2011), Spatial Resilience in Social-Ecological Systems, Springer, London. SES theory incorporates ideas from theories relating to the study of resilience, robustness, sustainability, and vulnerability (e.g. Levin 1999,Levin, S. A. (1999). Fragile dominion: Complexity and the commons. Reading, MA: Perseus Books. Berkes ''et al.'' 2003, Gunderson and Holling 2002, Norberg and Cumming 2008Norberg, J., & Cumming, G. S. (2008). Complexity theory for a sustainable future. New York: Columbia University Press.), but it is also concerned with a wider range of SES dynamics and attributes than any one of these terms implies. While SES theory draws on a range of discipline-specific theories, such as

island biogeography Insular biogeography or island biogeography is a field within biogeography that examines the factors that affect the species richness and diversification of isolated natural communities. The theory was originally developed to explain the pattern of ...

, optimal foraging theory, and

microeconomic theory Microeconomics is a branch of mainstream economics that studies the behavior of individuals and firms in making decisions regarding the allocation of scarce resources and the interactions among these individuals and firms. Microeconomics foc ...

, it is much broader than any of these individual theories alone. SES theory emerged from a combination of disciplines and the notion of

developed through the work of many scholars, including the Santa Fe Institute (2002). Due to the social context in which SES research was placed, and the possibility of SES research translating into recommendations that may affect real people, SES research was seen as more "self-conscious" and "pluralistic" in its perspectives than complexity theory. Studying SESs from a

complex system A complex system is a system composed of many components which may interact with each other. Examples of complex systems are Earth's global climate, organisms, the human brain, infrastructure such as power grid, transportation or communication s ...

perspective attempts to link different disciplines into a body of knowledge that is applicable to serious environmental problems. Management processes in the

complex systems A complex system is a system composed of many components which may interact with each other. Examples of complex systems are Earth's global climate, organisms, the human brain, infrastructure such as power grid, transportation or communication sy ...

can be improved by making them adaptive and flexible, able to deal with uncertainty and surprise, and by building capacity to adapt to change. SESs are both

and adaptive, meaning that they require continuous testing, learning about, and developing knowledge and understanding in order to cope with change and uncertainty.Carpenter, S. R., and Gunderson, L. H. (2001) Coping with collapse: ecological and social dynamics in ecosystem management. BioScience, Vol.51, pp. 451–457. A

differs from a simple system in that it has a number of attributes that cannot be observed in simple systems, such as nonlinearity, uncertainty, emergence, scale, and

self-organisation Self-organization, also called spontaneous order in the social sciences, is a process where some form of overall order arises from local interactions between parts of an initially disordered system. The process can be spontaneous when suffic ...

Nonlinearity

Nonlinearity is related to fundamental uncertainty. It generates

path dependency Path dependence is a concept in economics and the social sciences, referring to processes where past events or decisions constrain later events or decisions. It can be used to refer to outcomes at a single point in time or to long-run equilibria ...

, which refers to local rules of interaction that change as the system evolves and develops. A consequence of path dependency is the existence of multiple basins of attraction in ecosystem development and the potential for threshold behaviour and qualitative shifts in system dynamics under changing environmental influences.Levin, S. A. (1998) Ecosystems and the biosphere as complex adaptive systems. Ecosystems Vol.1, pp. 431–436. An example for non-linearity in socio-ecological systems is illustrated by the figure on "Conceptual Model of Socioecological Drivers of Change".Aravindakshan, S., Krupnik, T.J., Groot, J.C., Speelman, E.N., Amjath-Babu, T.S. and Tittonell, P., 2020. Multi-level socioecological drivers of agrarian change: Longitudinal evidence from mixed rice-livestock-aquaculture farming systems of Bangladesh. Agricultural Systems, 177, p.102695. https://doi.org/10.1016/j.agsy.2019.102695 Conceptual Model Socioecological Drivers of Change

Conceptual Model Socioecological Drivers of Change

Emergence

Emergence is the appearance of behaviour that could not be anticipated from knowledge of the parts of the system alone.Centre for Complex Systems Science (2011), Complexity in Socio-ecological systems. ebsite Available from: ssessed: 15 May 2011

Scale

Scale is important when dealing with

. In a complex system many subsystems can be distinguished; and since many complex systems are hierarchic, each subsystem is nested in a larger subsystem etc.Allen T.F.H. and Starr T.B. (1982). Hierarchy: Perspectives for Ecological Complexity. University of Chicago Press, Chicago. For example, a small watershed may be considered an ecosystem, but it is a part of a larger watershed that can also be considered an ecosystem and a larger one that encompasses all the smaller watersheds. Phenomena at each level of the scale tend to have their own emergent properties, and different levels may be coupled through feedback relationships. Therefore, complex systems should always be analysed or managed simultaneously at different scales.

Self organisation

Self organisation is one of the defining properties of

. The basic idea is that open systems will reorganise at critical points of instability. Holling's adaptive renewal cycle is an illustration of reorganisation that takes place within the cycles of growth and renewal. The self-organisation principle, operationalised through feedback mechanisms, applies to many

biological systems A biological system is a complex network which connects several biologically relevant entities. Biological organization spans several scales and are determined based different structures depending on what the system is. Examples of biological syst ...

, social systems and even to mixture of simple chemicals. High speed computers and nonlinear mathematical techniques help simulate self-organisation by yielding complex results and yet strangely ordered effects. The direction of self-organisation will depend on such things as the system's history; it is path dependent and difficult to predict.

Examples of conceptual framework for analysis

There are several conceptual frameworks developed in relation to the resilience approach. * A framework that focuses on knowledge and understanding of ecosystem dynamics, how to navigate it through management practices, institutions, organisations and social networks and how they relate to drivers of change (Picture A). * Alternative conceptual model illustrates how it is meaningful to consider a wide range of socio-ecological system properties potentially influencing agricultural intensification, rather than singling out macro-drivers such as population pressure as the primary metric of agrarian change and intensification
Picture B
. * A conceptual model in relation to the robustness of social-ecological systems. There resource could be water or a fishery and the resource users could be farmers irrigating or inshore fishermen. Public infrastructure providers involve, for example, local users associations and government bureaus and public infrastructure include institutional rules and engineering works. The number refer to links between the entities and are exemplified in the source of the figure (Picture C).Andeies, J.M., Janssen, M.A., Ostrom, E. (2004). A framework to analyze the robustness of social-ecological systems from an institutional perspective. Ecology and Society, Vol.9 (1), p.18, available from: . * MuSIASEM or Multi-Scale Integrated Analysis of Societal and Ecosystem Metabolism. This is a method of accounting used to analyse social-ecosystems and to simulate possible patterns of development.Giampietro M, Mayumi K (2000). Multiple-Scale Integrated Assessment of Societal Metabolism: Introducing the Approach. Population and the Environment 22.2:109-153.Giampietro M, Mayumi K (2000). Multiple-Scale Integrated Assessments of Societal Metabolism: Integrating Biophysical and Economic Representations Across Scales. Population and the Environment 22.2:155-210.Giampietro, M., Mayumi, K. and Bukkens, S.G.F. 2001. Multiple-scale integrated assessment of societal metabolism: an analytical tool to study development and sustainability. Environment, Development and Sustainability 3 (4): 275-307.Madrid-Lopez C. And Giampietro M. 2015 TheWater Metabolism of Socio-Ecological Systems Reflections and a Conceptual Framework Journal of Industrial Ecology 19(5): 853-865.

Role of traditional knowledge in SES

Berkes and colleagues distinguish four sets of elements which can be used to describe social-ecological system characteristics and linkages: # Ecosystems # Local knowledge # People and technology # Property rights institutions Knowledge acquisition of SESs is an ongoing, dynamic learning process, and such knowledge often emerges with people's institutions and organisations. To remain effective it requires institutional framework and social networks to be nested across scales. It is thus the communities which interact with ecosystems on the daily basis and over long periods of time that possess the most relevant knowledge of resource and ecosystem dynamics, together with associated management practices.Berkes, F., Colding, J., and Folke, C. (2000) Rediscovery of traditional ecological knowledge as

adaptive management Adaptive management, also known as adaptive resource management or adaptive environmental assessment and management, is a structured, iterative process of robust decision making in the face of uncertainty, with an aim to reducing uncertainty over ...

. Ecological Applications, Vol.10, pp.1251–1262.Fabricius, C., and Koch, E. (2004). Rights, resources and rural development: community-based natural resource management in Southern Africa. Earthscan, London, UK. Some scholars have suggested that management and governance of SESs may benefit from combination of different knowledge systems;McLain, R., and R. Lee. (1996) Adaptive management: promises and pitfalls. Journal of Environmental Management, Vol. 20, pp.437–448.Johannes, R. E. (1998) The case of data-less marine resource management: examples from tropical nearshore finfisheries. Trends in Ecology and Evolution, Vol. 13, pp. 243–246.Ludwig, D., Mangel, M., and Haddad, B. (2001) Ecology, conservation, and public policy. Annual Review of Ecology and Systematics, Vol. 32, pp. 481–517. others have attempted to import such knowledge into the scientific knowledge fieldMackinson, S., and Nottestad, L.( 1998) Combining local and scientific knowledge. Reviews in Fish Biology and Fisheries, Vol. 8, pp.481–490. There also those who have argued that it would be difficult to separate these knowledge systems from their institutional and cultural contexts,Berkes, F. (1999) Sacred ecology: traditional ecological knowledge and management systems. Taylor & Francis, Philadelphia and London, UK. and those who have questioned the role of traditional and local knowledge systems in the current situation of pervasive environmental change and globalised societies.Krupnik, I., and Jolly, D. (2002) The Earth is faster now: indigenous observation on Arctic environmental change. Arcus, Fairbanks, Alaska, USA.du Toit, J. T., Walker, B. H., and Campbell, B. M. (2004) Conserving tropical nature: current challenges for ecologists. Trends in Ecology and Evolution, Vol.19, pp.12–17. Other scholars have claimed that valuable lessons can be extracted from such systems for

management; lessons that also need to account for interactions across temporal and spatial scales and organisational and institutional levels,Barrett, C. B., Brandon, K., Gibson, C., and Gjertsen, H. (2001) Conserving tropical biodiversity amid weak institutions. BioScience , Vol. 51, pp. 497–502.Pretty, J., and Ward, H. (2001) Social capital and the environment. World Development, Vol. 29, pp. 209–227. and in particular during periods of rapid change, uncertainty and system reorganisation.Berkes, F., and Folke, C.. 2002. Back to the future: ecosystem dynamics and local knowledge. Pages 121–146 in L. H. Gunderson and C. S. Holling, editors. Panarchy: understanding transformations in human and natural systems. Island Press, Washington, D.C., USA.

Adaptive cycle

The adaptive cycle, originally conceptualised by Holling (1986) interprets the dynamics of complex ecosystems in response to disturbance and change. In terms of its dynamics, the adaptive cycle has been described as moving slowly from exploitation (r) to conservation (K), maintaining and developing very rapidly from K to release (Omega), continuing rapidly to reorganisation (alpha) and back to exploitation (r). Depending on the particular configuration of the system, it can then begin a new adaptive cycle or alternatively it may transform into a new configuration, shown as an exit arrow. The adaptive cycle is one of the five heuristics used to understand social-ecological system behaviour.Walker, B. H., Gunderson L. H., Kinzig, A. P., Folke, C., Carpenter, S. R., and. Schultz, L (2006) A handful of heuristics and some propositions for understanding resilience in social-ecological systems. Ecology and Society 11(1): 13. ebsiteAvailable from: ssessed: 12 May 2011 The other four heuristics are: resilience, panarchy, transformability, and

adaptability Adaptability ( la, adaptō "fit to, adjust") is a feature of a system or of a process. This word has been put to use as a specialised term in different disciplines and in business operations. Word definitions of adaptability as a specialised term d ...

, are of considerable conceptual appeal, and it is claimed to be generally applicable to ecological and social systems as well as to coupled social-ecological systems. Adaptability is the capacity of a social-ecological system to learn and adjust to both internal and external processes. Transformability is the capacity of a system to transform into a completely new system, when ecological, economic, or social structures make the current system unsustainable. Adaptability and transformability are prerequisites for resilience. The two main dimensions that determine changes in an adaptive cycle are connectedness and potential. The connectedness dimension is the visual depiction of a cycle and stands for the ability to internally control its own destiny.Holling, C. S. (2001) Understanding the complexity of economic, ecological, and social systems, Ecosystems, Vol.4(5), pp.390-405. It "reflects the strength of internal connections that mediate and regulate the influences between inside processes and the outside world" (p. 50). The potential dimension is represented by the vertical axis, and stands for the “inherent potential of a system that is available for change" (p. 393). Social or cultural potential can be characterised by the "accumulated networks of relationships-friendship, mutual respect, and trust among people and between people and institutions of governance" (p. 49). According to the adaptive cycle heuristic, the levels of both dimensions differ during the course of the cycle along the four phases. The adaptive cycle thus predicts that the four phases of the cycle can be distinguished based on distinct combinations of high or low potential and connectedness. The notion of panarchy and adaptive cycles has become an important theoretical lens to describe the resilience of

ecological system An ecosystem (or ecological system) consists of all the organisms and the physical environment with which they interact. These biotic and abiotic components are linked together through nutrient cycles and energy flows. Energy enters the syste ...

s and, more recently, social-ecological systems. Although panarchy theory originates in ecology, it has found widespread applications in other disciplines. For example, in management, Wieland (2021) describes a panarchy that represents the planetary, political-economic, and supply chain levels.Wieland, A. (2021). Dancing the Supply Chain: Toward Transformative Supply Chain Management. Journal of Supply Chain Management, 57 (1), 58–73. https://doi.org/10.1111/jscm.12248 Hereby, the panarchical understanding of the supply chain leads to a social-ecological interpretation of supply chain resilience.

Adaptive governance and SES

The resilience of social-ecological systems is related to the degree of the shock that the system can absorb and remain within a given state.Evans, J. (2011). Environmental Governance, Rutledge, London. The concept of resilience is a promising tool for analysing adaptive change towards sustainability because it provides a way for analysing how to manipulate stability in the face of change. In order to emphasise the key requirements of a social-ecological system for successful adaptive governance, Folke and colleaguesFolke, C., Carpenter, S., Elmqvist, T., Gunderson, L. Holling, C. and Walker, B. (2002) Resilience and sustainable development: building adaptive capacity in a world of transformations, Ambio, Vol.31, pp. 437-440. contrasted case studies from the Florida Everglades and the

Grand Canyon The Grand Canyon (, yuf-x-yav, Wi:kaʼi:la, , Southern Paiute language: Paxa’uipi, ) is a steep-sided canyon carved by the Colorado River in Arizona, United States. The Grand Canyon is long, up to wide and attains a depth of over a mi ...

. Both are complex social-ecological systems that have experiences unwanted degradation of their

ecosystem services Ecosystem services are the many and varied benefits to humans provided by the natural environment and healthy ecosystems. Such ecosystems include, for example, agroecosystems, forest ecosystem, grassland ecosystems, and aquatic ecosystems. ...

, but differ substantially in terms of their institutional make-up. The governance structure in the Everglades is dominated by the interests of agriculture and environmentalists who have been in conflict over the need to conserve the habitat at the expense of agricultural productivity throughout history. Here, a few feedbacks between the ecological system and the social system exist, and the SES is unable to innovate and adapt (the α-phase of reorganisation and growth) In contrast, different stakeholders have formed an adaptive management workgroup in the case of Grand Canyon, using planned management interventions and monitoring to learn about changes occurring in the ecosystem including the best ways to subsequently manage them. Such an arrangement in governance creates the opportunity for institutional learning to take place, allowing for a successful period of reorganisation and growth. Such an approach to institutional learning is becoming more common as NGOs, scientist and communities collaborate to manage ecosystems.

Links to sustainable development

The concept of social-ecological systems has been developed in order to provide both a promising scientific gain as well as impact on problems of sustainable development. A close conceptual and methodological relation exists between the analysis of social-ecological systems,

research, and

transdisciplinarity Transdisciplinarity connotes a research strategy that crosses many disciplinary boundaries to create a holistic approach. It applies to research efforts focused on problems that cross the boundaries of two or more disciplines, such as research o ...

. These three research concepts are based on similar ideas and models of reasoning. Moreover, the research on social-ecological systems almost always uses transdisciplinary mode of operation in order to achieve an adequate problem orientation and to ensure integrative results.Jahn, T., Becker, E., Keil, F., and Schramm. E., (2009), Understanding Social-Ecological Systems: Frontier Research for Sustainable Development. Implications for European Research Policy. Institute for Social-Ecological Research (ISOE), Frankfurt/Main, Germany. Problems of sustainable development are intrinsically tied to the social-ecological system defined to tackle them. This means that scientists from the relevant scientific disciplines or field of research as well as the involved societal stakeholders have to be regarded as elements of the social-ecological system in question.

References

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