uri,href,identifier,attrs.Abstract,attrs.Author,attrs.DOI,attrs.Issue,attrs.Journal,attrs.Pages,attrs.Publisher,attrs.Title,attrs.Volume,attrs.Year,attrs._record_number,attrs._uuid,attrs.reftype,child_publication
/reference/87664884-f938-4d71-82a3-e918a98673e2,https://data.globalchange.gov/reference/87664884-f938-4d71-82a3-e918a98673e2,87664884-f938-4d71-82a3-e918a98673e2,"Zika and chikungunya viruses are transmitted by Aedes mosquitoes, including Ae. albopictus, which is abundant in many temperate cities. While disease risk is lower in temperate regions where viral amplification cannot build across years, there is significant potential for localized disease outbreaks in urban populations. We use a model informed by field data to assess the conditions likely to facilitate local transmission of virus from an infected traveler to Ae. albopictus and then to other humans in USA cities with variable human densities and seasonality. The model demonstrates that up to 50% of infectious travelers returning to the U.S. could initiate local transmission in temperate cities if are infectious and are exposed to high mosquito densities. This work highlights the need for high-resolution spatial data on Ae. albopictus density, biting behavior, and seasonality to better understand, predict and manage arboviral transmission risk in temperate cities.","Manore, Carrie A.; Ostfeld, Richard S.; Agusto, Folashade B.; Gaff, Holly; LaDeau, Shannon L.",10.1371/journal.pntd.0005255,1,"PLOS Neglected Tropical Diseases",e0005255,"Public Library of Science","Defining the risk of zika and chikungunya virus transmission in human population centers of the eastern United States",11,2017,25619,87664884-f938-4d71-82a3-e918a98673e2,"Journal Article",/article/10.1371/journal.pntd.0005255
/reference/87a21f64-2fec-4057-afa4-30bb29e09104,https://data.globalchange.gov/reference/87a21f64-2fec-4057-afa4-30bb29e09104,87a21f64-2fec-4057-afa4-30bb29e09104,,"Gomez, J. Alfredo",,,,40,,"Climate Change: Improved Federal Coordination Could Facilitate Use of Forward-Looking Climate Information in Design Standards, Building Codes, and Certifications",,2016,22955,87a21f64-2fec-4057-afa4-30bb29e09104,Report,/report/climate-change-improved-federal-coordination-could-facilitate-use-forward-looking-climate-information-design-standards-building-codes-certifications
/reference/87cfc4e1-f44b-4fb0-ae65-cbeec57ebfac,https://data.globalchange.gov/reference/87cfc4e1-f44b-4fb0-ae65-cbeec57ebfac,87cfc4e1-f44b-4fb0-ae65-cbeec57ebfac,"While recent research has recognized the importance of considering social vulnerability, the changing patterns of social vulnerability within cities and the climate adaptation challenges these shifts pose have yet to receive much attention. In this article, we evaluate the changing patterns of social vulnerability in three coastal cities (Houston, New Orleans, and Tampa) over a thirty-year time period (1980–2010) and integrate neighborhood change theories with theories of social vulnerability to explain those patterns. Through this analysis, we highlight emerging dimensions of vulnerability that warrant attention in the future adaptation efforts of these cities.","Kashem, Shakil Bin; Bev Wilson; Van Zandt, Shannon",10.1177/0739456x16645167,3,"Journal of Planning Education and Research",304-318,,"Planning for climate adaptation: Evaluating the changing patterns of social vulnerability and adaptation challenges in three coastal cities",36,2016,23074,87cfc4e1-f44b-4fb0-ae65-cbeec57ebfac,"Journal Article",/article/10.1177/0739456x16645167
/reference/8a4248ca-3d8c-4bdb-a28d-292a149733ba,https://data.globalchange.gov/reference/8a4248ca-3d8c-4bdb-a28d-292a149733ba,8a4248ca-3d8c-4bdb-a28d-292a149733ba,"The 2015 United Nations Climate Change Conference in Paris (COP21) highlighted the importance of cities to climate action, as well as the unjust burdens borne by the world's most disadvantaged peoples in addressing climate impacts. Few studies have documented the barriers to redressing the drivers of social vulnerability as part of urban local climate change adaptation efforts, or evaluated how emerging adaptation plans impact marginalized groups. Here, we present a roadmap to reorient research on the social dimensions of urban climate adaptation around four issues of equity and justice: (1) broadening participation in adaptation planning; (2) expanding adaptation to rapidly growing cities and those with low financial or institutional capacity; (3) adopting a multilevel and multi-scalar approach to adaptation planning; and (4) integrating justice into infrastructure and urban design processes. Responding to these empirical and theoretical research needs is the first step towards identifying pathways to more transformative adaptation policies.","Shi, L. D.; Chu, E.; Anguelovski, I.; Aylett, A.; Debats, J.; Goh, K.; Schenk, T.; Seto, K. C.; Dodman, D.; Roberts, D.; Roberts, J. T.; VanDeveer, S. D.",10.1038/nclimate2841,2,"Nature Climate Change",131-137,,"Roadmap towards justice in urban climate adaptation research",6,2016,22846,8a4248ca-3d8c-4bdb-a28d-292a149733ba,"Journal Article",/article/10.1038/nclimate2841
/reference/8b1d0928-f216-4d11-8a06-b710ff7f2eae,https://data.globalchange.gov/reference/8b1d0928-f216-4d11-8a06-b710ff7f2eae,8b1d0928-f216-4d11-8a06-b710ff7f2eae,"Modeling results incorporating several distinct urban expansion futures for the United States in 2100 show that, in the absence of any adaptive urban design, megapolitan expansion, alone and separate from greenhouse gas-induced forcing, can be expected to raise near-surface temperatures 1-2 degrees C not just at the scale of individual cities but over large regional swaths of the country. This warming is a significant fraction of the 21st century greenhouse gas-induced climate change simulated by global climate models. Using a suite of regional climate simulations, we assessed the efficacy of commonly proposed urban adaptation strategies, such as green, cool roof, and hybrid approaches, to ameliorate the warming. Our results quantify how judicious choices in urban planning and design cannot only counteract the climatological impacts of the urban expansion itself but also, can, in fact, even offset a significant percentage of future greenhouse warming over large scales. Our results also reveal tradeoffs among different adaptation options for some regions, showing the need for geographically appropriate strategies rather than one size fits all solutions.","Georgescu, M.; Morefield, P. E.; Bierwagen, B. G.; Weaver, C. P.",10.1073/pnas.1322280111,8,"Proceedings of the National Academy of Sciences of the United States of America",2909-2914,,"Urban adaptation can roll back warming of emerging megapolitan regions",111,2014,22733,8b1d0928-f216-4d11-8a06-b710ff7f2eae,"Journal Article",/article/10.1073/pnas.1322280111
/reference/8be634e3-a62f-44d2-9cde-dd7010cdad04,https://data.globalchange.gov/reference/8be634e3-a62f-44d2-9cde-dd7010cdad04,8be634e3-a62f-44d2-9cde-dd7010cdad04,"Climate extremes have profound implications for urban infrastructure and human society, but studies of observed changes in climate extremes over the global urban areas are few, even though more than half of the global population now resides in urban areas. Here, using observed station data for 217 urban areas across the globe, we show that these urban areas have experienced significant increases ( p -value <0.05) in the number of heat waves during the period 1973–2012, while the frequency of cold waves has declined. Almost half of the urban areas experienced significant increases in the number of extreme hot days, while almost 2/3 showed significant increases in the frequency of extreme hot nights. Extreme windy days declined substantially during the last four decades with statistically significant declines in about 60% in the urban areas. Significant increases ( p -value <0.05) in the frequency of daily precipitation extremes and in annual maximum precipitation occurred at smaller fractions (17 and 10% respectively) of the total urban areas, with about half as many urban areas showing statistically significant downtrends as uptrends. Changes in temperature and wind extremes, estimated as the result of a 40 year linear trend, differed for urban and non-urban pairs, while changes in indices of extreme precipitation showed no clear differentiation for urban and selected non-urban stations.","Mishra, Vimal; Auroop R. Ganguly; Bart Nijssen; Dennis P. Lettenmaier",10.1088/1748-9326/10/2/024005,2,"Environmental Research Letters",024005,,"Changes in observed climate extremes in global urban areas",10,2015,23176,8be634e3-a62f-44d2-9cde-dd7010cdad04,"Journal Article",/article/10.1088/1748-9326/10/2/024005
/reference/8e907a2b-0c10-4d4d-a216-723bc39da41c,https://data.globalchange.gov/reference/8e907a2b-0c10-4d4d-a216-723bc39da41c,8e907a2b-0c10-4d4d-a216-723bc39da41c,"Heat vulnerability of urban populations is becoming a major issue of concern with climate change, particularly in the cities of the Southwest United States. In this article we discuss the importance of understanding coupled social and technical systems, how they constitute one another, and how they form the conditions and circumstances in which people experience heat. We discuss the particular situation of Los Angeles and Maricopa Counties, their urban form and the electric grid. We show how vulnerable populations are created by virtue of the age and construction of buildings, the morphology of roads and distribution of buildings on the landscape. Further, the regulatory infrastructure of electricity generation and distribution also contributes to creating differential vulnerability. We contribute to a better understanding of the importance of sociotechnical systems. Social infrastructure includes codes, conventions, rules and regulations; technical systems are the hard systems of pipes, wires, buildings, roads, and power plants. These interact to create lock-in that is an obstacle to addressing issues such as urban heat stress in a novel and equitable manner.","Pincetl, S.; Chester, M.; Eisenman, D.",10.3390/su8090842,9,Sustainability,,,"Urban heat stress vulnerability in the US Southwest: The role of sociotechnical systems",8,2016,22821,8e907a2b-0c10-4d4d-a216-723bc39da41c,"Journal Article",/article/10.3390/su8090842
/reference/9115ee8c-84a2-43a3-96dc-09b6fcacc03f,https://data.globalchange.gov/reference/9115ee8c-84a2-43a3-96dc-09b6fcacc03f,9115ee8c-84a2-43a3-96dc-09b6fcacc03f,,"American Society of Civil Engineers (ASCE),",,,,110,,"2017 Infrastructure Report Card:  A Comprehensive Assessment of America’s Infrastructure",,2017,25600,9115ee8c-84a2-43a3-96dc-09b6fcacc03f,Report,/report/2017-infrastructure-report-card-comprehensive-assessment-americas-infrastructure
/reference/917f65f2-6868-4f60-b499-c8560716f5fc,https://data.globalchange.gov/reference/917f65f2-6868-4f60-b499-c8560716f5fc,917f65f2-6868-4f60-b499-c8560716f5fc,"Cities are particularly prone to the effects of climate change. One way for cities to adapt is by enhancing their green infrastructure (GI) to mitigate the impacts of heat waves and flooding. While alternative GI design options exist, there are many unknowns regarding public support for the various options. This study aims to fill this gap by performing a socio-cultural valuation of urban GI for climate adaptation that encompasses multiple dimensions: people’s notion of and concerns about climate impacts, the degree to which people acknowledge the benefits of GI to alleviate such impacts, and people’s preferences for different GI measures, including their willingness to pay (WTP). Data were collected through photo-assisted face-to-face surveys (n = 200) with residents in Rotterdam, the Netherlands, and linked to GI GIS data. Respondents had a notion of and concerns about climate impacts, but did not necessarily acknowledge that GI may help tackle these issues. Yet, when residents were informed about the adaptation capacity of different GI measures, their preferences shifted towards the most effective options. There was no information effect, however, on people’s WTP for GI, which was mostly related to income and ethnicity. Our study shows that economic valuation alone would miss nuances that socio-cultural valuation as applied in this paper can reveal. The method revealed preferences for particular adaptation designs, and assists in detecting why policy for climate adaptation may be hampered. Understanding people’s views on climate impacts and adaptation options is crucial for prioritizing effective policy responses in the face of climate change.","Derkzen, Marthe L.; van Teeffelen, Astrid J. A.; Verburg, Peter H.",10.1016/j.landurbplan.2016.05.027,,"Landscape and Urban Planning",106-130,,"Green infrastructure for urban climate adaptation: How do residents’ views on climate impacts and green infrastructure shape adaptation preferences?",157,2017,22725,917f65f2-6868-4f60-b499-c8560716f5fc,"Journal Article",/article/10.1016/j.landurbplan.2016.05.027
/reference/91fcdcf9-a731-4ab0-9f46-3eb4ac0eb53d,https://data.globalchange.gov/reference/91fcdcf9-a731-4ab0-9f46-3eb4ac0eb53d,91fcdcf9-a731-4ab0-9f46-3eb4ac0eb53d,,"Chan, Alisha Y.; Hopkins, Kristina G.",10.1061/JSWBAY.0000827,3,"Journal of Sustainable Water in the Built Environment",05017002,,"Associations between sociodemographics and green infrastructure placement in Portland, Oregon",3,2017,22716,91fcdcf9-a731-4ab0-9f46-3eb4ac0eb53d,"Journal Article",/article/10.1061/JSWBAY.0000827
/reference/9282c7de-31fd-4123-96ca-69df571b1cd3,https://data.globalchange.gov/reference/9282c7de-31fd-4123-96ca-69df571b1cd3,9282c7de-31fd-4123-96ca-69df571b1cd3,,"City of Chicago,",,,,57,,"City of Chicago Climate Action Plan: Our City. Our Future",2008,2008,242,9282c7de-31fd-4123-96ca-69df571b1cd3,Report,/report/citychicago-cap-2008
/reference/92d52175-98b2-40ab-9ca7-4196f3c5e8e0,https://data.globalchange.gov/reference/92d52175-98b2-40ab-9ca7-4196f3c5e8e0,92d52175-98b2-40ab-9ca7-4196f3c5e8e0,"Three hundred and fifty municipalities across five continents participated in the Urban Climate Change Governance Survey (UCGS). Conducted at MIT in partnership with ICLEI – Local Governments for Sustainability, the UCGS provides a first of its kind look at the governance networks that municipalities are creating to address climate change. Drawing from these results, this paper analyses the institutional governance structures that surround local government work on climate change adaptation. Results show an integration of adaptation and mitigation planning, and a mainstreaming of adaptation planning into other long-range and sectoral plans. Seventy-three percent of respondents stated that their local government’s are engaging with both adaptation and mitigation, and 75% are integrating adaptation into long-range or sectoral plans. However, many critical municipal agencies – including those responsible for water, waste water, health, and building codes – remain on the margins of urban adaptation efforts. Internal institutional networks of governance are inextricably linked to efforts to address a problem like adaptation, which does not fit neatly into individual institutional silos. The results of the UCGS show where these networks have so far been made, how they have been created, and which local government actors have yet to be effectively engaged.","Aylett, Alexander",10.1016/j.uclim.2015.06.005,,"Urban Climate",4-16,,"Institutionalizing the urban governance of climate change adaptation: Results of an international survey","14, Part 1",2015,22696,92d52175-98b2-40ab-9ca7-4196f3c5e8e0,"Journal Article",/article/10.1016/j.uclim.2015.06.005
/reference/950d41c8-5b08-4435-a208-62385bbe64ef,https://data.globalchange.gov/reference/950d41c8-5b08-4435-a208-62385bbe64ef,950d41c8-5b08-4435-a208-62385bbe64ef,,"City of Pittsburgh,",,,,117,,"ONE PGH: Pittsburgh’s Resilience Strategy",,2017,25630,950d41c8-5b08-4435-a208-62385bbe64ef,Report,/report/one-pgh-pittsburghs-resilience-strategy
/reference/95598d88-7aeb-43df-9e75-22aaed95747b,https://data.globalchange.gov/reference/95598d88-7aeb-43df-9e75-22aaed95747b,95598d88-7aeb-43df-9e75-22aaed95747b,"We examined landscape exposure to wildfire potential, insects and disease risk, and urban and exurban development for the conterminous US (CONUS). Our analysis relied on spatial data used by federal agencies to evaluate these stressors nationally. We combined stressor data with a climate change exposure metric to identify when temperature is likely to depart from historical conditions and become ""unprecedented."" We used a neighborhood analysis procedure based on key stressor thresholds within a geographic information system to examine the extent of landscape exposure to our set of individual and coinciding stressors. Our focus is on identifying large contiguous areas of stress exposure which would be of national concern to identify potential locations most vulnerable to resulting ecological and social disruption. The arrival of record-setting temperatures may be both rapid and widespread within the CONUS under RCP8.5. By 2060, 91 % of the CONUS could depart from the climate of the last century. While much of the CONUS may be impacted by at least one of the landscape stressors we examined, multiple coinciding stressors occurred for less than 9 % of the CONUS. The two most prevalent coinciding stressors were (1) wildfire potential combined with insects and disease risk, and (2) climate departure combined with urban and exurban development. Combined exposure to three or more stressors was rare, but we did identify several localized high-population areas that may be vulnerable to future change. Additional assessment and research for these areas may provide early and proactive approaches to mitigating multiple stressor exposure.","Kerns, B. K.; Kim, J. B.; Kline, J. D.; Day, M. A.",10.1007/s10113-016-0934-2,7,"Regional Environmental Change",2129-2140,,"US exposure to multiple landscape stressors and climate change",16,2016,22764,95598d88-7aeb-43df-9e75-22aaed95747b,"Journal Article",/article/10.1007/s10113-016-0934-2
/reference/95f74b48-a288-42e6-865e-6d39b6463493,https://data.globalchange.gov/reference/95f74b48-a288-42e6-865e-6d39b6463493,95f74b48-a288-42e6-865e-6d39b6463493,"Problem, research strategy, and findings: Cities are increasingly experiencing the effects of climate change and taking steps to adapt to current and future natural hazard risks. Research on these efforts has identified numerous barriers to climate adaptation planning, but has not yet systematically evaluated the relative importance of different constraints for a large number of diverse cities. We draw on responses from 156 U.S. cities that participated in a 2011 global survey on local adaptation planning, 60% of which are planning for climate change. We use logistic regression analysis to assess the significance of 13 indicators measuring political leadership, fiscal and administrative resources, ability to obtain and communicate climate information, and state policies in predicting the status of adaptation planning. In keeping with the literature, we find that greater local elected officials? commitment, higher municipal expenditures per capita, and an awareness that the climate is already changing are associated with cities engaging in adaptation planning. The presence of state policies on climate adaptation is surprisingly not a statistically significant predictor, suggesting that current policies are not yet strong enough to increase local adaptation planning. However, the model's sampling bias toward larger and more environmentally progressive cities may mask the predictive power of state policies and other indicators.Takeaway for practice: State governments have an opportunity to increase local political commitment by integrating requirements for climate-risk evaluations into existing funding streams and investment plans. Regional planning entities also can help overcome the lack of local fiscal capacity and political support by facilitating the exchange of information, pooling and channeling resources, and providing technical assistance to local planners.","Shi, Linda; Chu, Eric; Debats, Jessica",10.1080/01944363.2015.1074526,3,"Journal of the American Planning Association",191-202,Routledge,"Explaining progress in climate adaptation planning across 156 U.S. municipalities",81,2015,22845,95f74b48-a288-42e6-865e-6d39b6463493,"Journal Article",/article/10.1080/01944363.2015.1074526
/reference/964da67b-9191-46aa-9840-1bf3d4f87df8,https://data.globalchange.gov/reference/964da67b-9191-46aa-9840-1bf3d4f87df8,964da67b-9191-46aa-9840-1bf3d4f87df8,,"Gerrard, Michael B.",,3,"GP Solo - American Bar Association",28-31,,"Preparing clients for climate change",33,2016,23082,964da67b-9191-46aa-9840-1bf3d4f87df8,"Journal Article",/article/preparing-clients-climate-change
/reference/9681bb6b-eda0-4d8b-8034-e7104987c644,https://data.globalchange.gov/reference/9681bb6b-eda0-4d8b-8034-e7104987c644,9681bb6b-eda0-4d8b-8034-e7104987c644,,"Moser, Susanne C.; Coffee, Joyce; Seville, Aleka",,,,105,,"Rising to the Challenge, together: A Review and Critical Assessment of the State of the US Climate Adaptation Field",,2017,25646,9681bb6b-eda0-4d8b-8034-e7104987c644,Report,/report/rising-challenge-together-review-critical-assessment-state-us-climate-adaptation-field
/reference/96e490f5-dbd3-4be4-963f-e1f42bf30240,https://data.globalchange.gov/reference/96e490f5-dbd3-4be4-963f-e1f42bf30240,96e490f5-dbd3-4be4-963f-e1f42bf30240,,"Venkateswaran, Kanmani; Karen MacClune; Sierra Gladfelter; Michael Szönyi",,,,45,,"Risk nexus: What can be learned from the Columbia and Charleston floods 2015?",,2015,23095,96e490f5-dbd3-4be4-963f-e1f42bf30240,Report,/report/risk-nexus-what-can-be-learned-columbia-charleston-floods-2015
/reference/96fca595-cfc0-4364-b138-51bd2cceb1b3,https://data.globalchange.gov/reference/96fca595-cfc0-4364-b138-51bd2cceb1b3,96fca595-cfc0-4364-b138-51bd2cceb1b3,,"U.S. Census Bureau,",,,,,"U.S. Census Bureau","Measuring America: Our Changing Landscape [Infographic]",,2016,23056,96fca595-cfc0-4364-b138-51bd2cceb1b3,"Web Page",/webpage/90baa9e3-e783-4ae1-807f-a438d8ab5b21
/reference/9715fdad-2824-404b-b7bc-57077f1ad28d,https://data.globalchange.gov/reference/9715fdad-2824-404b-b7bc-57077f1ad28d,9715fdad-2824-404b-b7bc-57077f1ad28d,,"Evans, Peter C.; Fox-Penner, Peter",,5,"Solutions Journal",48-54,,"Resilient and sustainable infrastructure for urban energy systems",5,2014,23091,9715fdad-2824-404b-b7bc-57077f1ad28d,"Journal Article",/article/resilient-sustainable-infrastructure-urban-energy-systems
/reference/97a6fbbb-6f2c-4074-9261-fa64126776c4,https://data.globalchange.gov/reference/97a6fbbb-6f2c-4074-9261-fa64126776c4,97a6fbbb-6f2c-4074-9261-fa64126776c4,,"California Assembly,",,,,,,"Climate Change: Infrastructure Planning",,2016,22956,97a6fbbb-6f2c-4074-9261-fa64126776c4,"Legal Rule or Regulation",/generic/af0a4dfc-1424-423e-a3cc-75f4c5a75cae
/reference/97e24319-c8e0-4103-a191-7b8a4047297a,https://data.globalchange.gov/reference/97e24319-c8e0-4103-a191-7b8a4047297a,97e24319-c8e0-4103-a191-7b8a4047297a,,"Stanke, Carla; Kerac, Marko; Prudhomme, Christel; Medlock, Jolyon; Murray, Virginia",10.1371/currents.dis.7a2cee9e980f91ad7697b570bcc4b004,,"PLoS Currents: Disasters",,,"Health effects of drought: A systematic review of the evidence",,2013,23016,97e24319-c8e0-4103-a191-7b8a4047297a,"Journal Article",/article/10.1371/currents.dis.7a2cee9e980f91ad7697b570bcc4b004
/reference/98a171ed-c572-4c28-a49b-03110f1cac10,https://data.globalchange.gov/reference/98a171ed-c572-4c28-a49b-03110f1cac10,98a171ed-c572-4c28-a49b-03110f1cac10,"Climate change and extreme weather events are expected to increase in frequency and intensity in the United States. The social factors that drive cities to adapt to and/or prepare for these impacts are largely unknown. Sixty-five qualitative interviews were conducted with multi-sectoral decision-makers to assess factors driving adaptation in six cities across the United States: Tucson, Arizona; Tampa, Florida; Raleigh, North Carolina; Boston, Massachusetts; Portland, Oregon; and Los Angeles, California. We find that there are three type of factors that affect adaptation: (1) swing characteristics of or events within localities that can lead toward or away from action; (2) inhibitors ways of thinking and framing climate change available to decision-makers that slow, but do not necessarily stop change; and (3) resource catalysts types of information and moral grounding that provide a rationale for change. These factors often intersect such that swing factors are only influential in cities with some political acceptance of climate change. In cities where public acceptance of climate change is slowly shifting, resource catalysts are more influential. This is the first qualitative study of climate change adaptation in American cities. (C) 2015 Elsevier Ltd. All rights reserved.","Carlson, K.; McCormick, S.",10.1016/j.gloenvcha.2015.09.015,,"Global Environmental Change",360-367,,"American adaptation: Social factors affecting new developments to address climate change",35,2015,22713,98a171ed-c572-4c28-a49b-03110f1cac10,"Journal Article",/article/10.1016/j.gloenvcha.2015.09.015
/reference/993dacc4-2fe3-4fdb-a822-70538be4da25,https://data.globalchange.gov/reference/993dacc4-2fe3-4fdb-a822-70538be4da25,993dacc4-2fe3-4fdb-a822-70538be4da25,,"Aerts, Jeroen C. J. H.; Botzen, W. J. Wouter; Emanuel, Kerry; Lin, Ning; de Moel, Hans; Michel-Kerjan, Erwann O.",10.1126/science.1248222,6183,Science,473-475,,"Evaluating flood resilience strategies for coastal megacities",344,2014,22688,993dacc4-2fe3-4fdb-a822-70538be4da25,"Journal Article",/article/10.1126/science.1248222