uri,href,identifier,attrs.Abstract,attrs.Author,attrs.DOI,"attrs.Database Provider","attrs.EPub Date",attrs.ISSN,attrs.Issue,attrs.Journal,"attrs.Name of Database",attrs.Pages,attrs.Publisher,attrs.Title,attrs.Volume,attrs.Year,attrs._record_number,attrs._uuid,attrs.reftype,child_publication
/reference/00bd7498-9679-4ce9-a11f-51b11c927fe0,https://data.globalchange.gov/reference/00bd7498-9679-4ce9-a11f-51b11c927fe0,00bd7498-9679-4ce9-a11f-51b11c927fe0,"There is no integrated regime governing efforts to limit the extent of climate change. Instead, there is a regime complex: a loosely-coupled set of specific regimes. We describe the regime complex for climate change and seek to explain it, using interest-based, functional, and organizational arguments. This institutional form is likely to persist; efforts to build a comprehensive regime are unlikely to succeed, but experiments abound with narrower institutions focused on particular aspects of the climate change problem. Building on this analysis, we argue that a climate change regime complex, if it meets specified criteria, has advantages over any politically feasible comprehensive regime. Adaptability and flexibility are particularly important in a setting—such as climate change policy—in which the most demanding international commitments are interdependent yet governments vary widely in their interest and ability to implement them. Yet in view of the serious political constraints, both domestic and international, there is little reason for optimism that the climate regime complex that is emerging will lead to reductions in emissions rapid enough to meet widely discussed goals, such as stopping global warming at two degrees above pre-industrial levels.","Keohane, Robert O.; Victor, David G.",10.1017/S1537592710004068,"Cambridge University Press",2011/03/15,1537-5927,1,"Perspectives on Politics","Cambridge Core",7-23,"Cambridge University Press","The regime complex for climate change",9,2011,25876,00bd7498-9679-4ce9-a11f-51b11c927fe0,"Journal Article",/article/10.1017/S1537592710004068
/reference/03284ebf-9c07-421c-a8e7-71707dcf44e4,https://data.globalchange.gov/reference/03284ebf-9c07-421c-a8e7-71707dcf44e4,03284ebf-9c07-421c-a8e7-71707dcf44e4,"Communities have the potential to function effectively and adapt successfully in the aftermath of disasters. Drawing upon literatures in several disciplines, we present a theory of resilience that encompasses contemporary understandings of stress, adaptation, wellness, and resource dynamics. Community resilience is a process linking a network of adaptive capacities (resources with dynamic attributes) to adaptation after a disturbance or adversity. Community adaptation is manifest in population wellness, defined as high and non-disparate levels of mental and behavioral health, functioning, and quality of life. Community resilience emerges from four primary sets of adaptive capacities—Economic Development, Social Capital, Information and Communication, and Community Competence—that together provide a strategy for disaster readiness. To build collective resilience, communities must reduce risk and resource inequities, engage local people in mitigation, create organizational linkages, boost and protect social supports, and plan for not having a plan, which requires flexibility, decision-making skills, and trusted sources of information that function in the face of unknowns.","Norris, Fran H.; Stevens, Susan P.; Pfefferbaum, Betty; Wyche, Karen F.; Pfefferbaum, Rose L.",10.1007/s10464-007-9156-6,,,,1-2,"American Journal of Community Psychology",,127-150,,"Community resilience as a metaphor, theory, set of capacities, and strategy for disaster readiness",41,2008,26461,03284ebf-9c07-421c-a8e7-71707dcf44e4,"Journal Article",/article/10.1007/s10464-007-9156-6
/reference/05a7d719-3318-4fcd-835d-ed52150f40de,https://data.globalchange.gov/reference/05a7d719-3318-4fcd-835d-ed52150f40de,05a7d719-3318-4fcd-835d-ed52150f40de,"Adaptation to a changing climate is unavoidable. Mainstreaming climate adaptation objectives into existing policies, as opposed to developing dedicated adaptation policy, is widely advocated for public action. However, knowledge on what makes mainstreaming effective is scarce and fragmented. Against this background, this paper takes stock of peer-reviewed empirical analyses of climate adaptation mainstreaming, in order to assess current achievements and identify the critical factors that render mainstreaming effective. The results show that although in most cases adaptation policy outputs are identified, only in a minority of cases this translates into policy outcomes. This “implementation gap” is most strongly seen in developing countries. However, when it comes to the effectiveness of outcomes, we found no difference across countries. We conclude that more explicit definitions and unified frameworks for adaptation mainstreaming research are required to allow for future research syntheses and well-informed policy recommendations.","Runhaar, Hens; Wilk, Bettina; Persson, Åsa; Uittenbroek, Caroline; Wamsler, Christine",10.1007/s10113-017-1259-5,,,1436-378X,4,"Regional Environmental Change",,1201-1210,,"Mainstreaming climate adaptation: Taking stock about “what works” from empirical research worldwide",18,2018,26474,05a7d719-3318-4fcd-835d-ed52150f40de,"Journal Article",/article/10.1007/s10113-017-1259-5
/reference/05c2211c-03c5-4632-8037-0f12f5e1fee1,https://data.globalchange.gov/reference/05c2211c-03c5-4632-8037-0f12f5e1fee1,05c2211c-03c5-4632-8037-0f12f5e1fee1,,"Rauken, Trude; Mydske, Per Kristen; Winsvold, Marte",10.1080/13549839.2014.880412,,,1354-9839,4,"Local Environment",,408-423,Routledge,"Mainstreaming climate change adaptation at the local level",20,2015,26473,05c2211c-03c5-4632-8037-0f12f5e1fee1,"Journal Article",/article/10.1080/13549839.2014.880412
/reference/0615b4ff-d185-4e14-9d4d-5bea1ce6ca51,https://data.globalchange.gov/reference/0615b4ff-d185-4e14-9d4d-5bea1ce6ca51,0615b4ff-d185-4e14-9d4d-5bea1ce6ca51,,"Fahey, D.W.; S. Doherty; K.A. Hibbard; A. Romanou; P.C. Taylor",10.7930/J0513WCR,,,,,,,73-113,"U.S. Global Change Research Program","Physical Drivers of Climate Change",,2017,21560,0615b4ff-d185-4e14-9d4d-5bea1ce6ca51,"Book Section",/report/climate-science-special-report/chapter/scientific-basis
/reference/0725eae6-7458-4ec2-8f66-880d88118148,https://data.globalchange.gov/reference/0725eae6-7458-4ec2-8f66-880d88118148,0725eae6-7458-4ec2-8f66-880d88118148,,"Knutson, T.; J.P. Kossin; C. Mears; J. Perlwitz; M.F. Wehner",10.7930/J01834ND,,,,,,,114-132,"U.S. Global Change Research Program","Detection and Attribution of Climate Change",,2017,21561,0725eae6-7458-4ec2-8f66-880d88118148,"Book Section",/report/climate-science-special-report/chapter/detection-attribution
/reference/078f5398-3d8e-455e-aa39-891c9f37dfac,https://data.globalchange.gov/reference/078f5398-3d8e-455e-aa39-891c9f37dfac,078f5398-3d8e-455e-aa39-891c9f37dfac,,"Hallegatte, Stéphane",10.1016/j.gloenvcha.2008.12.003,,,0959-3780,2,"Global Environmental Change",,240-247,,"Strategies to adapt to an uncertain climate change",19,2009,24182,078f5398-3d8e-455e-aa39-891c9f37dfac,"Journal Article",/article/10.1016/j.gloenvcha.2008.12.003
/reference/089d8050-f4c8-4d07-bc35-25bf61691be3,https://data.globalchange.gov/reference/089d8050-f4c8-4d07-bc35-25bf61691be3,089d8050-f4c8-4d07-bc35-25bf61691be3,,"IPCC,",,,,,,,,,"Cambridge University Press","Managing the Risks of Extreme Events and Disasters to Advance Climate Change Adaptation. A Special Report of Working Groups I and II of the Intergovernmental Panel on Climate Change",,2012,1579,089d8050-f4c8-4d07-bc35-25bf61691be3,Book,/report/ipcc-srex
/reference/0a49fd25-8d5a-42da-b901-5922b5190772,https://data.globalchange.gov/reference/0a49fd25-8d5a-42da-b901-5922b5190772,0a49fd25-8d5a-42da-b901-5922b5190772,,"Hallegatte, Stéphane
Ankur Shah
Robert Lempert
Casey Brown
Stuart Gill",10.1596/1813-9450-6193,,,,,,,,,"Investment Decision Making Under Deep Uncertainty: Application to Climate Change",,2012,4053,0a49fd25-8d5a-42da-b901-5922b5190772,Report,/report/worldbank-investment-2012
/reference/0b30f1ab-e4c4-4837-aa8b-0e19faccdb94,https://data.globalchange.gov/reference/0b30f1ab-e4c4-4837-aa8b-0e19faccdb94,0b30f1ab-e4c4-4837-aa8b-0e19faccdb94,,"EPA,",,,,,,,,271,,"Multi-model Framework for Quantitative Sectoral Impacts Analysis: A Technical Report for the Fourth National Climate Assessment",,2017,21365,0b30f1ab-e4c4-4837-aa8b-0e19faccdb94,Report,/report/epa-multi-model-framework-for-quantitative-sectoral-impacts-analysis-2017
/reference/0facac45-4ec1-4f5a-8e9a-f16c33f05cff,https://data.globalchange.gov/reference/0facac45-4ec1-4f5a-8e9a-f16c33f05cff,0facac45-4ec1-4f5a-8e9a-f16c33f05cff,,"Toman, Michael",,,,,,,,17,,"The Need for Multiple Types of Information to Inform Climate Change Assessment",,2014,24161,0facac45-4ec1-4f5a-8e9a-f16c33f05cff,Report,/report/need-multiple-types-information-inform-climate-change-assessment
/reference/14abc4e6-e419-4686-880f-cd2f3e28e11c,https://data.globalchange.gov/reference/14abc4e6-e419-4686-880f-cd2f3e28e11c,14abc4e6-e419-4686-880f-cd2f3e28e11c,,"Stein, Bruce; Patty Glick; Naomi Edelson; Amanda Staudt",,,,,,,,262,,"Climate-Smart Conservation: Putting Adaptation Principles into Practice",,2014,24169,14abc4e6-e419-4686-880f-cd2f3e28e11c,Report,/report/climate-smart-conservation-putting-adaptation-principles-into-practice
/reference/15cfa9a5-ed10-4448-a1ed-04b3758bc46c,https://data.globalchange.gov/reference/15cfa9a5-ed10-4448-a1ed-04b3758bc46c,15cfa9a5-ed10-4448-a1ed-04b3758bc46c,,"Toloo, Ghasem; Hu, Wenbiao; FitzGerald, Gerry; Aitken, Peter; Tong, Shilu",10.1038/srep12860,,,,,"Scientific Reports",,12860,"The Author(s)","Projecting excess emergency department visits and associated costs in Brisbane, Australia, under population growth and climate change scenarios",5,2015,26475,15cfa9a5-ed10-4448-a1ed-04b3758bc46c,"Journal Article",/article/10.1038/srep12860
/reference/17fabab4-9ab6-4e6f-a158-006c0ca0e58e,https://data.globalchange.gov/reference/17fabab4-9ab6-4e6f-a158-006c0ca0e58e,17fabab4-9ab6-4e6f-a158-006c0ca0e58e,"During the last twenty years, more than forty-five publications have sought to measure and evaluate the quality of plans using content analysis methods. We examine reasons for this growth in the literature and its contributions and limitations. We also examine whether the research methods described in these publications conform to recommended practices in the methodological literature on content analysis to determine whether plan quality researchers are likely to be generating reliable and reproducible plan quality data. We provide seven recommendations plan quality researchers can follow to address these weaknesses and improve the reliability and reproducibility of their data.","Lyles, Ward; Stevens, Mark",10.1177/0739456x14549752,,,,4,"Journal of Planning Education and Research",,433-450,,"Plan quality evaluation 1994–2012: Growth and contributions, limitations, and new directions",34,2014,26472,17fabab4-9ab6-4e6f-a158-006c0ca0e58e,"Journal Article",/article/10.1177/0739456x14549752
/reference/180e747e-ff7c-4097-8a67-0a2236701e54,https://data.globalchange.gov/reference/180e747e-ff7c-4097-8a67-0a2236701e54,180e747e-ff7c-4097-8a67-0a2236701e54,"The need to reduce risks from coastal storms and climate change in coastal areas has given rise to efforts to make greater use of integrated ecosystem-based approaches. Assessment of the role and cost efficiency of adaptation measures is increasingly demanded. Applying the Economics of Climate Adaptation framework in the US Gulf Coast, we compare nature-based defenses, artificial defenses, and policy measures for adaptation and risk reduction and quantify their costs and benefits under a variety of economic growth and climate change scenarios. Our analyses are spatially explicit and all models, tools and information are open source. The framework includes (i) a probabilistic assessment of hazards, (ii) estimation of damages and (iii) assessment of adaptation and risk reduction measures. We perform sensitivity analyses to understand the parameters that created the most variation in risk assessment and most influenced estimates of cost effectiveness. We find that high rates of economic growth and coastal development are likely to create greater risks in the near term than climate change, due to the increase in exposed assets. Nature-based solutions such as oyster reef and marsh restoration are particularly cost effective, but their cost-effectiveness is highly dependent on where these measures are used. As decision-makers look for the most cost effective group of measures for adaptation and risk reduction, these approaches and results should be particularly useful for informing management priorities.","Reguero, Borja G; Bresch, David N; Beck, Mike; Calil, Juliano; Meliane, Imen",10.9753/icce.v34.management.25,,2015-01-26,2156-1028,34,"Coastal Engineering Proceedings",,,,"Coastal risks, nature-based defenses and the economics of adaptation: An application in the Gulf of Mexico, USA",,2014,25880,180e747e-ff7c-4097-8a67-0a2236701e54,"Journal Article",/article/10.9753/icce.v34.management.25
/reference/19a4d709-1ec6-4e02-ba94-0d4abb4b3820,https://data.globalchange.gov/reference/19a4d709-1ec6-4e02-ba94-0d4abb4b3820,19a4d709-1ec6-4e02-ba94-0d4abb4b3820,,"Galloway, Gerald E.",10.1111/j.1752-1688.2011.00550.x,,,1752-1688,3,"JAWRA Journal of the American Water Resources Association",,563-570,"Blackwell Publishing Ltd","If stationarity is dead, what do we do now?",47,2011,24184,19a4d709-1ec6-4e02-ba94-0d4abb4b3820,"Journal Article",/article/10.1111/j.1752-1688.2011.00550.x
/reference/19bc2dd3-6c09-4427-82e0-81858eda7c0e,https://data.globalchange.gov/reference/19bc2dd3-6c09-4427-82e0-81858eda7c0e,19bc2dd3-6c09-4427-82e0-81858eda7c0e,,"Cutter, Susan L.; Barnes, Lindsey; Berry, Melissa; Burton, Christopher; Evans, Elijah; Tate, Eric; Webb, Jennifer",10.1016/j.gloenvcha.2008.07.013,,,1872-9495,4,"Global Environmental Change",,598-606,,"A place-based model for understanding community resilience to natural disasters",18,2008,19297,19bc2dd3-6c09-4427-82e0-81858eda7c0e,"Journal Article",/article/10.1016/j.gloenvcha.2008.07.013
/reference/1abfee7f-2909-450b-a5a7-90c9cc1272b8,https://data.globalchange.gov/reference/1abfee7f-2909-450b-a5a7-90c9cc1272b8,1abfee7f-2909-450b-a5a7-90c9cc1272b8,,"Chen, Guangcheng; Azkab, Muhammad Husni; Chmura, Gail L.; Chen, Shunyang; Sastrosuwondo, Pramudji; Ma, Zhiyuan; Dharmawan, I. Wayan Eka; Yin, Xijie; Chen, Bin",10.1038/srep42406,,,,,"Scientific Reports",,42406,"The Author(s)","Mangroves as a major source of soil carbon storage in adjacent seagrass meadows",7,2017,26471,1abfee7f-2909-450b-a5a7-90c9cc1272b8,"Journal Article",/article/10.1038/srep42406
/reference/1bdf70ea-f989-4c3c-a96e-8124c4850747,https://data.globalchange.gov/reference/1bdf70ea-f989-4c3c-a96e-8124c4850747,1bdf70ea-f989-4c3c-a96e-8124c4850747,,"Brody, Samuel D.; Highfield, Wesley E.",10.1080/01944360508976690,,,0194-4363,2,"Journal of the American Planning Association",,159-175,Routledge,"Does planning work? Testing the implementation of local environmental planning in Florida",71,2005,24188,1bdf70ea-f989-4c3c-a96e-8124c4850747,"Journal Article",/article/10.1080/01944360508976690
/reference/1d1b91bb-773a-441f-be97-b77ba38ea1ce,https://data.globalchange.gov/reference/1d1b91bb-773a-441f-be97-b77ba38ea1ce,1d1b91bb-773a-441f-be97-b77ba38ea1ce,,"Arcadis US,; CallisonRTKL,; Wageningen University,",,,,,,,,72,,"Mission Creek sea level risk adaptation study: Waterfront strategies for Long-Term urban resiliency",,2016,24195,1d1b91bb-773a-441f-be97-b77ba38ea1ce,Report,/report/mission-creek-sea-level-risk-adaptation-study-waterfront-strategies-long-term-urban-resiliency