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| Registros recuperados: 123 | |
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| Elmhagen, Bodil; Stockholm University, Department of Zoology; bodil.elmhagen@zoologi.su.se; Destouni, Georgia; Stockholm University, Department of Physical Geography; Stockholm University, Bert Bolin Centre for Climate Research; georgia.destouni@natgeo.su.se; Boyd, Emily; Stockholm University, Stockholm Resilience Centre; University of Reading, School of Archaeology, Geography and Environmental Sciences; emily.boyd@reading.ac.uk; Cousins, Sara A. O.; Stockholm University, Department of Physical Geography; sara.cousins@natgeo.su.se; Ermold, Matti; Stockholm University, Department of Physical Geography; matti.ermold@natgeo.su.se; Hedlund, Johanna; Stockholm University, Department of Zoology; johanna.hedlund@zoologi.su.se; Hylander, Kristoffer; Stockholm University, Department of Ecology, Environment and Plant Sciences; kristoffer.hylander@su.se; Jaramillo, Fernando; Stockholm University, Department of Physical Geography; fernando.jaramillo@natgeo.su.se; Lagerholm, Vendela K; Stockholm University, Department of Zoology; Swedish Museum of Natural History, Department of Bioinformatics and Genetics; vendela.kempe@nrm.se; Lyon, Steve W; Stockholm University, Department of Physical Geography; Stockholm University, Bert Bolin Centre for Climate Research; steve.lyon@natgeo.su.se; Moor, Helen; Stockholm University, Stockholm Resilience Centre; helen.moor@stockholmresilience.su.se; Pasanen-Mortensen, Marianne; Stockholm University, Department of Zoology; marianne.mortensen@zoologi.su.se; Plue, Jan; Stockholm University, Department of Physical Geography; jan.plue@natgeo.su.se; Prieto, Carmen; Stockholm University, Department of Physical Geography; carmen.prieto@natgeo.su.se; van der Velde, Ype; Stockholm University, Department of Physical Geography; Wageningen University, Department of Soil Geography and Landscape; ype.vandervelde@wur.nl; Lindborg, Regina; Stockholm University, Department of Physical Geography; regina.lindborg@natgeo.su.se. |
| Tipo: Peer-Reviewed Insight |
Palavras-chave: Governance; Historical ecology; Landscape management; Scale mismatch; Social-ecological systems. |
| Ano: 2015 |
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| Perez, Irene; Center for Behavior, Institutions and the Environment, Arizona State University; iperezib@asu.edu; Yu, David J; Center for Behavior, Institutions and the Environment, Arizona State University; Lyles School of Civil Engineering, Purdue University; Department of Political Science, Purdue University; davidjae@asu.edu; Janssen, Marco A; Center for Behavior, Institutions and the Environment, Arizona State University; School of Sustainability, Arizona State University; Marco.Janssen@asu.edu; Anderies, John M; Center for Behavior, Institutions and the Environment, Arizona State University; School of Sustainability, Arizona State University; School of Human Evolution and Social Change, Arizona State University; m.anderies@asu.edu. |
| Social roles are thought to play an important role in determining the capacity for collective action in a community regarding the use of shared resources. Here we report on the results of a study using a behavioral experimental approach regarding the relationship between social roles and the performance of social-ecological systems. The computer-based irrigation experiment that was the basis of this study mimics the decisions faced by farmers in small-scale irrigation systems. In each of 20 rounds, which are analogous to growing seasons, participants face a two-stage commons dilemma. First they must decide how much to invest in the public infrastructure, e.g., canals and water diversion structures. Second, they must decide how much to extract from the... |
| Tipo: Peer-Reviewed Reports |
Palavras-chave: Behavioral experiments; Communication; Irrigation systems; Lab experiments; Qualitative comparative analysis; Social-ecological networks; Social-ecological systems; Social roles. |
| Ano: 2015 |
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| Ban, Natalie C.; School of Environmental Studies, University of Victoria; nban@uvic.ca; Boyd, Emily; School of Archaeology, Geography and Environmental Sciences, University of Reading; Stockholm Resilience Centre, Stockholm University.; emily.boyd@reading.ac.uk; Cox, Michael; Environmental Studies Program, Dartmouth College; michael.e.cox@dartmouth.edu; Meek, Chanda L.; Department of Political Science, University of Alaska Fairbanks; clmeek@alaska.edu; Schoon, Michael; School of Sustainability, Arizona State University; michael.schoon@asu.edu; Villamayor-Tomas, Sergio; Division of Resource Economics, Humboldt University; villamayortomas@gmail.com. |
| There is an increasing demand in higher education institutions for training in complex environmental problems. Such training requires a careful mix of conventional methods and innovative solutions, a task not always easy to accomplish. In this paper we review literature on this theme, highlight relevant advances in the pedagogical literature, and report on some examples resulting from our recent efforts to teach complex environmental issues. The examples range from full credit courses in sustainable development and research methods to project-based and in-class activity units. A consensus from the literature is that lectures are not sufficient to fully engage students in these issues. A conclusion from the review of examples is that problem-based and... |
| Tipo: Peer-Reviewed Insight |
Palavras-chave: Complex systems; Interdisciplinarity; Pedagogy; Problem-based learning; Project-based learning; Social-ecological resilience; Social-ecological systems; Teaching. |
| Ano: 2015 |
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| The Galapagos Islands are among the most renowned natural sites in the world. Unlike other oceanic archipelagos, the ecological and evolutionary processes characteristic of Galapagos have been minimally affected by human activities, and the archipelago still retains most of its original, unique biodiversity. However, several recent reports suggest that the development model has turned unsustainable and that the unique values of the archipelago might be seriously at risk. In response to international concern, UNESCO added Galapagos to the list of World Heritage in Danger in 2007. Our goal was to provide new insights into the origins of the present-day crisis and suggest possible management alternatives. To this end, we re-examined the Galapagos situation... |
| Tipo: Peer-Reviewed Insight |
Palavras-chave: Adaptive co-management; Adaptive cycle; Biodiversity conservation; Galapagos Islands; Resilience; Social-ecological systems; Sustainability science. |
| Ano: 2008 |
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| Knapp, Corrine N.; Department of Environment and Sustainability, Western State Colorado University; corrieknapp@yahoo.com; Chapin III, F. Stuart; Institute of Arctic Biology, University of Alaska Fairbanks, USA; terry.chapin@alaska.edu; Kofinas, Gary P.; Institute of Arctic Biology, University of Alaska Fairbanks, USA; gpkofinas@alaska.edu; Fresco, Nancy; Scenarios Network for Alaska and Arctic Planning, University of Alaska Fairbanks, USA; nlfresco@alaska.edu; Carothers, Courtney; School of Fisheries and Ocean Sciences, University of Alaska Fairbanks, USA; clcarothers@alaska.edu; Craver, Amy; Denali National Park and Preserve; amy_craver@nps.gov. |
| Climate change challenges the traditional goals and conservation strategies of protected areas, necessitating adaptation to changing conditions. Denali National Park and Preserve (Denali) in south central Alaska, USA, is a vast landscape that is responding to climate change in ways that will impact both ecological resources and local communities. Local observations help to inform understanding of climate change and adaptation planning, but whose knowledge is most important to consider? For this project we interviewed long-term Denali staff, scientists, subsistence community members, bus drivers, and business owners to assess what types of observations each can contribute, how climate change is impacting each, and what they think the National Park Service... |
| Tipo: Peer-Reviewed Reports |
Palavras-chave: Conservation; Climate change; Local knowledge; National Park; Resilience; Social-ecological systems. |
| Ano: 2014 |
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| Adams, Megan S.; Department of Geography, University of Victoria; Raincoast Conservation Foundation; Hakai Beach Institute; megan.s.adams@gmail.com; Carpenter, Jennifer; Heiltsuk Integrated Resource Management Department; jcarpenter2@heiltsuknation.ca; Housty, Jess A.; Qqs Projects Society;; Neasloss, Douglass; Kitasoo/Xai-Xais Integrated Resource Authority; Spirit Bear Research Foundation;; Paquet, Paul C.; Department of Geography, University of Victoria; Raincoast Conservation Foundation; ppaquet@baudoux.ca; Service, Christina; Department of Geography, University of Victoria; Spirit Bear Research Foundation; Hakai Beach Institute; christina.service@gmail.com; Walkus, Jennifer; Wuikinuxv Nation Fisheries;; Darimont, Chris T.; Department of Geography, University of Victoria; Raincoast Conservation Foundation; Hakai Beach Institute; darimont@uvic.ca. |
| Ecological research, especially work related to conservation and resource management, increasingly involves social dimensions. Concurrently, social systems, composed of human communities that have direct cultural connections to local ecology and place, may draw upon environmental research as a component of knowledge. Such research can corroborate local and traditional ecological knowledge and empower its application. Indigenous communities and their interactions with and management of resources in their traditional territories can provide a model of such social-ecological systems. As decision-making agency is shifted increasingly to indigenous governments in Canada, abundant opportunities exist for applied ecological research at the community level.... |
| Tipo: Peer-Reviewed Synthesis |
Palavras-chave: Aboriginal; Collaborative research; Community engagement; Ecology; First Nations; Indigenous communities; Natural science; Resource management; Social-ecological systems; Trust. |
| Ano: 2014 |
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| Webster, D.G.; Dartmouth College; D.G.Webster@Dartmouth.Edu. |
| There is a growing consensus that environmental governance is a wicked problem that requires understanding of the many linkages and feedbacks between human and natural systems. Here, I propose an action cycle/structural context (AC/SC) framework that is based on the concept of responsive governance, in which individuals and decision makers respond to problems rather than working to prevent them. By linking agency and structure, the AC/SC framework points out two key problems in the realm of environmental governance: the profit disconnect, whereby economic signals of environmental harm are dampened by endogenous or exogenous forces, and the power disconnect, whereby those who feel the costs of harm are politically marginalized and so have little influence... |
| Tipo: Peer-Reviewed Synthesis |
Palavras-chave: Complexity; Environmental governance; Fisheries; Social-ecological systems. |
| Ano: 2015 |
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| Folke, Carl; Stockholm Resilience Centre, Stockholm University; Beijer Institute of Ecological Economics, Royal Swedish Academy of Sciences; carl.folke@beijer.kva.se; Carpenter, Stephen R; Center for Limnology, University of Wisconsin; srcarpen@wisc.edu; Walker, Brian; CSIRO Sustainable Ecosystems; Stockholm Resilience Centre, Stockholm University; Brian.Walker@csiro.au; Scheffer, Marten; Aquatic Ecology and Water Quality Management Group, Wageningen Agricultural University; Marten.Scheffer@wur.nl; Chapin, Terry; Institute of Arctic Biology, University of Alaska Fairbanks; fschapiniii@alaska.edu. |
| Resilience thinking addresses the dynamics and development of complex social–ecological systems (SES). Three aspects are central: resilience, adaptability and transformability. These aspects interrelate across multiple scales. Resilience in this context is the capacity of a SES to continually change and adapt yet remain within critical thresholds. Adaptability is part of resilience. It represents the capacity to adjust responses to changing external drivers and internal processes and thereby allow for development along the current trajectory (stability domain). Transformability is the capacity to cross thresholds into new development trajectories. Transformational change at smaller scales enables resilience at larger scales. The capacity to... |
| Tipo: Peer-Reviewed Insight |
Palavras-chave: Adaptability; Adaptation; Resilience; Social-ecological systems; Transformability; Transformation. |
| Ano: 2010 |
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| Robins, Garry; Melbourne School of Psychological Sciences, University of Melbourne; garrylr@unimelb.edu.au; McAllister, Ryan R. J.; CSIRO; ryan.mcallister@csiro.au; Guerrero, Angela M.; Australian Research Council Centre of Excellence for Environmental Decisions, University of Queensland; School of Biological Sciences, University of Queensland; a.guerrero@uq.edu.au; Crona, Beatrice; Global Economic Dynamics and the Biosphere, Royal Swedish Academy of Sciences; Stockholm Resilience Centre, Stockholm University; beatrice.crona@su.se; Lubell, Mark; Department of Environmental Science and Policy, University of California at Davis; mnlubell@ucdavis.edu. |
| When environmental processes cut across socioeconomic boundaries, traditional top-down government approaches struggle to effectively manage and conserve ecosystems. In such cases, governance arrangements that foster multiactor collaboration are needed. The effectiveness of such arrangements, however, depends on how well any ecological interdependencies across governed ecosystems are aligned with patterns of collaboration. This inherent interdisciplinary and complex problem has impeded progress in developing a better understanding of how to govern ecosystems for conservation in an increasingly interconnected world. We argue for the development of empirically informed theories, which are not only able to transcend disciplinary boundaries, but are also... |
| Tipo: Peer-Reviewed Reports |
Palavras-chave: Collaborative governance; Connectivity; Exponential random graph models (ERGM); Interdisciplinary; Networks; Social-ecological fit; Social-ecological networks; Social-ecological systems. |
| Ano: 2016 |
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| Duer-Balkind, Marshall; Department of the Environment, Washington, DC; School of Forestry and Environmental Studies, Yale University, New Haven, CT, USA; marshall@aya.yale.edu; Jacobs, Kasey R.; NOAA Coastal Management Fellow at the Puerto Rico Coastal Zone Management Program, San Juan, PR; School of Forestry and Environmental Studies, Yale University, New Haven, CT, USA; kasey.jacobs@aya.yale.edu; Basurto, Xavier; Duke Marine Lab, Nicholas School of the Environment, Duke University, Beaufort, NC, USA; xavier.basurto@duke.edu. |
| Social-ecological resilience is an increasingly central paradigm for understanding sustainable resource management. In this study, we aimed to better understand the effect of environmental variability on the resilience of fishery systems, and the important role that social institutions and biophysical constraints play. To explore these issues, we built a dynamic model of the pen shell fishery of the indigenous Seri people in the Gulf of California, Mexico. This model included the dynamics of the two dominant species in the fishery (Atrina tuberculosa and Pinna rugosa), several institutional rules that the Seri use, and a number of ecological constraints, including key stochastic variables derived from empirical data. We found that modeling with multiple... |
| Tipo: Peer-Reviewed Reports |
Palavras-chave: Artisanal fisheries; Common-pool resources; Environmental variability; Gulf of California Mexico; Multi-species; Resilience; Social-ecological systems; Stochasticity; System dynamics. |
| Ano: 2013 |
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| Folke, Carl; Stockholm Resilience Centre, Stockholm University, Stockholm, Sweden; Beijer Institute, Royal Swedish Academy of Sciences, Stockholm, Sweden; carl.folke@beijer.kva.se; Biggs, Reinette; Centre for Complex Systems in Transition, University of Stellenbosch, South Africa; Stockholm Resilience Centre, Stockholm University, Stockholm, Sweden; oonsie.biggs@su.se; Reyers, Belinda; Stockholm Resilience Centre, Stockholm University, Stockholm, Sweden; belinda.reyers@su.se. |
| Humanity has emerged as a major force in the operation of the biosphere. The focus is shifting from the environment as externality to the biosphere as precondition for social justice, economic development, and sustainability. In this article, we exemplify the intertwined nature of social-ecological systems and emphasize that they operate within, and as embedded parts of the biosphere and as such coevolve with and depend on it. We regard social-ecological systems as complex adaptive systems and use a social-ecological resilience approach as a lens to address and understand their dynamics. We raise the challenge of stewardship of development in concert with the biosphere for people in diverse contexts and places as critical for long-term sustainability and... |
| Tipo: Peer-Reviewed Synthesis |
Palavras-chave: Anthropocene; Biosphere stewardship; Natural capital; Resilience; Social-ecological systems; Sustainability science. |
| Ano: 2016 |
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| A growing body of work has emphasized the importance of residential areas to the overall green infrastructure of cities and recognizes that outcomes related to these areas are best studied using a social-ecological approach. We conducted vegetation surveys to evaluate yard practices that relate to the state of the yard vegetation, including species diversity and abundance, vegetation structure, and the percent of green area of yards versus paved areas, at the Río Piedras watershed within the San Juan metropolitan area. We used concomitant social household surveys to evaluate the association of social-economic and demographic factors at the household scale with these vegetation characteristics, as well as with landscape-level characteristics... |
| Tipo: Peer-Reviewed Reports |
Palavras-chave: Biodiversity; Green infrastructure; Residential yards; Social-ecological systems; Socioeconomic; Sustainability; Tropical; Urban. |
| Ano: 2014 |
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| Registros recuperados: 123 | |
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