uri,href,identifier,attrs.Author,attrs.ISSN,attrs.Issue,attrs.Journal,attrs.Keywords,attrs.Pages,attrs.Title,attrs.Volume,attrs.Year,attrs._record_number,attrs._uuid,attrs.reftype,child_publication
/reference/00aa37c2-798b-4ad5-b52d-5cae5fe69088,https://data.globalchange.gov/reference/00aa37c2-798b-4ad5-b52d-5cae5fe69088,00aa37c2-798b-4ad5-b52d-5cae5fe69088,"Melton, Paula",1938-3274,10,"Environmental Building News","added by ERG",1-10,"Designing for the next century's weather",22,2013,22979,00aa37c2-798b-4ad5-b52d-5cae5fe69088,"Journal Article",/article/designing-next-centurys-weather
/reference/00e98394-26f1-45da-a5a3-e79b2b1a356f,https://data.globalchange.gov/reference/00e98394-26f1-45da-a5a3-e79b2b1a356f,00e98394-26f1-45da-a5a3-e79b2b1a356f,"Neumann, J. E.; Price, J.; Chinowsky, P.; Wright, L.; Ludwig, L.; Streeter, R.; Jones, R.; Smith, J. B.; Perkins, W.; Jantarasami, L.; Martinich, J.",0165-0009,1,"Climatic Change","Infrastructure; Urban; Climate change; Transportation; Projection",97-109,"Climate change risks to US infrastructure: Impacts on roads, bridges, coastal development, and urban drainage",131,2015,22805,00e98394-26f1-45da-a5a3-e79b2b1a356f,"Journal Article",/article/10.1007/s10584-013-1037-4
/reference/0186249c-deba-4daf-98c9-8267f7fdc3e4,https://data.globalchange.gov/reference/0186249c-deba-4daf-98c9-8267f7fdc3e4,0186249c-deba-4daf-98c9-8267f7fdc3e4,"Romero-Lankao, Patricia; McPhearson, Timon; Davidson, Debra J.",,,"Nature Climate Change",,233-235,"The food-energy-water nexus and urban complexity",7,2017,25625,0186249c-deba-4daf-98c9-8267f7fdc3e4,"Journal Article",/article/10.1038/nclimate3260
/reference/01f7ce10-a162-4d03-be16-f780e5c1c88b,https://data.globalchange.gov/reference/01f7ce10-a162-4d03-be16-f780e5c1c88b,01f7ce10-a162-4d03-be16-f780e5c1c88b,"Simonovic, Slobodan P.; Schardong, Andre; Sandink, Dan; Srivastav, Roshan",1364-8152,,"Environmental Modelling & Software","Intensity-duration-frequency curve; Climate change; Decision support system; Canada",136-153,"A web-based tool for the development of Intensity Duration Frequency curves under changing climate",81,2016,25626,01f7ce10-a162-4d03-be16-f780e5c1c88b,"Journal Article",/article/10.1016/j.envsoft.2016.03.016
/reference/0ab7f834-85a7-4e1f-8628-8c8dc765ae5b,https://data.globalchange.gov/reference/0ab7f834-85a7-4e1f-8628-8c8dc765ae5b,0ab7f834-85a7-4e1f-8628-8c8dc765ae5b,"Willis, H.H.; Loa, K.",,,,"added by ERG",,"Measuring the Resilience of Energy Distribution Systems",38,2015,23058,0ab7f834-85a7-4e1f-8628-8c8dc765ae5b,Report,/report/measuring-resilience-energy-distribution-systems
/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/0b3b1cc7-c58a-4141-9064-c0ecb1740086,https://data.globalchange.gov/reference/0b3b1cc7-c58a-4141-9064-c0ecb1740086,0b3b1cc7-c58a-4141-9064-c0ecb1740086,"ASLA,",,,,,,"Statement on Climate Change",,2008,23207,0b3b1cc7-c58a-4141-9064-c0ecb1740086,"Press Release",/generic/eb03515e-a37d-4d08-ad9b-954a705b5202
/reference/0bf999f3-8291-493a-bf19-525a26af5125,https://data.globalchange.gov/reference/0bf999f3-8291-493a-bf19-525a26af5125,0bf999f3-8291-493a-bf19-525a26af5125,"Rosenzweig, Cynthia; Nigel W. Arnell; Kristie L. Ebi; Hermann Lotze-Campen; Frank Raes; Chris Rapley; Mark Stafford Smith; Wolfgang Cramer; Katja Frieler; Christopher P. O. Reyer; Jacob Schewe; van Vuuren, Detlef; Lila Warszawski",1748-9326,1,"Environmental Research Letters",,010301,"Assessing inter-sectoral climate change risks: The role of ISIMIP",12,2017,21406,0bf999f3-8291-493a-bf19-525a26af5125,"Journal Article",/article/10.1088/1748-9326/12/1/010301
/reference/0d591fe5-6e77-46fe-9ec9-4c4932fe8729,https://data.globalchange.gov/reference/0d591fe5-6e77-46fe-9ec9-4c4932fe8729,0d591fe5-6e77-46fe-9ec9-4c4932fe8729,"Koh, Jay; Emilie Mazzacurati; Chiara Trabacchi",,,,,13,"An Investor Guide to Physical Climate Risk & Resilience: An Introduction",,2017,25642,0d591fe5-6e77-46fe-9ec9-4c4932fe8729,Report,/report/an-investor-guide-physical-climate-risk-resilience-an-introduction
/reference/0d9c1352-071a-4794-a468-8e01bf0876f1,https://data.globalchange.gov/reference/0d9c1352-071a-4794-a468-8e01bf0876f1,0d9c1352-071a-4794-a468-8e01bf0876f1,"Sampson, Robert J.",,34,"Proceedings of the National Academy of Sciences of the United States of America","added by ERG",8957-8962,"Urban sustainability in an age of enduring inequalities: Advancing theory and ecometrics for the 21st-century city",114,2017,23150,0d9c1352-071a-4794-a468-8e01bf0876f1,"Journal Article",/article/10.1073/pnas.1614433114
/reference/0e0dc028-aefb-4130-8045-f6cdf4388afc,https://data.globalchange.gov/reference/0e0dc028-aefb-4130-8045-f6cdf4388afc,0e0dc028-aefb-4130-8045-f6cdf4388afc,"National Academies of Sciences, Engineering, and Medicine,",,,,"added by ERG",,"Airport Climate Adaptation and Resilience",,2012,22901,0e0dc028-aefb-4130-8045-f6cdf4388afc,Book,/book/airport-climate-adaptation-resilience
/reference/0e78d3f1-bb6c-4e89-9d68-7a97b5332f5d,https://data.globalchange.gov/reference/0e78d3f1-bb6c-4e89-9d68-7a97b5332f5d,0e78d3f1-bb6c-4e89-9d68-7a97b5332f5d,"Ayyub, Bilal M.; Wright, Richard N.",,2,"Journal of Geography & Natural Disasters",,e118,"Adaptive climate risk control of sustainability and resilience for infrastructure systems",6,2016,25603,0e78d3f1-bb6c-4e89-9d68-7a97b5332f5d,"Journal Article",/article/10.4172/2167-0587.1000e118
/reference/0f9545b2-e0ff-42fb-a5df-7237a2e9d494,https://data.globalchange.gov/reference/0f9545b2-e0ff-42fb-a5df-7237a2e9d494,0f9545b2-e0ff-42fb-a5df-7237a2e9d494,"Rosenzweig, C.; Solecki, W.; Romero-Lankao, P.; Mehrotra, S.; Dhakal, S.; Bowman, T.; Ali Ibrahim, S.",,,,"added by ERG",,"ARC3.2 Summary for City Leaders",,2015,22907,0f9545b2-e0ff-42fb-a5df-7237a2e9d494,Report,/report/arc32-summary-city-leaders
/reference/10ee76ca-2db3-429c-baf1-2ff5d1043407,https://data.globalchange.gov/reference/10ee76ca-2db3-429c-baf1-2ff5d1043407,10ee76ca-2db3-429c-baf1-2ff5d1043407,"Zhao, Lei; Lee, Xuhui; Smith, Ronald B.; Oleson, Keith",0028-0836,7508,Nature,,216-219,"Strong contributions of local background climate to urban heat islands",511,2014,19795,10ee76ca-2db3-429c-baf1-2ff5d1043407,"Journal Article",/article/10.1038/nature13462
/reference/12518f8a-2ea7-4fff-b683-6f958bd306e7,https://data.globalchange.gov/reference/12518f8a-2ea7-4fff-b683-6f958bd306e7,12518f8a-2ea7-4fff-b683-6f958bd306e7,"Koh, Jay; Mazzacurati, Emilie; Swann, Stacy",,,,,65,"Bridging the Adaptation Gap: Approaches to Measurement of Physical Climate Risk and Examples of Investment in Climate Adaptation and Resilience",,2016,25641,12518f8a-2ea7-4fff-b683-6f958bd306e7,Report,/report/bridging-adaptation-gap-approaches-measurement-physical-climate-risk-examples-investment-climate-adaptation-resilience
/reference/133d9f9c-e1fd-4c50-b349-67eef6048291,https://data.globalchange.gov/reference/133d9f9c-e1fd-4c50-b349-67eef6048291,133d9f9c-e1fd-4c50-b349-67eef6048291,"Milan, B. F.; Creutzig, F.",1877-3435,,"Current Opinion in Environmental Sustainability","Urban; Heat; Health; Vulnerability",221-231,"Reducing urban heat wave risk in the 21st century",14,2015,22794,133d9f9c-e1fd-4c50-b349-67eef6048291,"Journal Article",/article/10.1016/j.cosust.2015.08.002
/reference/136620f5-ef32-4f23-a697-fa5a80447cd7,https://data.globalchange.gov/reference/136620f5-ef32-4f23-a697-fa5a80447cd7,136620f5-ef32-4f23-a697-fa5a80447cd7,"Doherty, Meghan; Klima, Kelly; Hellmann, Jessica J.",1462-9011,,"Environmental Science & Policy","Urban adaptation; Climate change",310-313,"Climate change in the urban environment: Advancing, measuring and achieving resiliency",66,2016,25609,136620f5-ef32-4f23-a697-fa5a80447cd7,"Journal Article",/article/10.1016/j.envsci.2016.09.001
/reference/141e9979-d5fa-4148-b5af-54df3864b2e9,https://data.globalchange.gov/reference/141e9979-d5fa-4148-b5af-54df3864b2e9,141e9979-d5fa-4148-b5af-54df3864b2e9,"Forest Service,",,,,,24,"Urban nature for human health and well-being: A research summary for communicating the health benefits of urban trees and green space",,2018,25656,141e9979-d5fa-4148-b5af-54df3864b2e9,Report,/report/urban-nature-human-health-well-being-research-summary-communicating-health-benefits-urban-trees-green-space
/reference/1536895c-080f-4958-9984-8200a89467a3,https://data.globalchange.gov/reference/1536895c-080f-4958-9984-8200a89467a3,1536895c-080f-4958-9984-8200a89467a3,"McCarty, Joshua; Kaza, Nikhil",0169-2046,,"Landscape and Urban Planning","Landscape metrics; Air quality; Urban morphology",168-179,"Urban form and air quality in the United States",139,2015,23141,1536895c-080f-4958-9984-8200a89467a3,"Journal Article",/article/10.1016/j.landurbplan.2015.03.008
/reference/15c8ad4d-f96a-4bfb-8944-63d220e42f3b,https://data.globalchange.gov/reference/15c8ad4d-f96a-4bfb-8944-63d220e42f3b,15c8ad4d-f96a-4bfb-8944-63d220e42f3b,"C40 Cities,; Arup,",,,,,127,"Climate Action in Megacities 3.0",,2015,22695,15c8ad4d-f96a-4bfb-8944-63d220e42f3b,Report,/report/climate-action-megacities-30
/reference/16fc0eef-5efa-4b07-bdad-0d60d7b48af6,https://data.globalchange.gov/reference/16fc0eef-5efa-4b07-bdad-0d60d7b48af6,16fc0eef-5efa-4b07-bdad-0d60d7b48af6,"U.S. Federal Government,",,,,"added by ERG",,"U.S. Climate Resilience Toolkit: Environment and Natural Resources [web page]",,2016,23160,16fc0eef-5efa-4b07-bdad-0d60d7b48af6,"Web Page",/webpage/2a177c51-b456-4067-9eb2-8c2130031cd1
/reference/17d21069-8371-489d-b7b9-1c38eb443a92,https://data.globalchange.gov/reference/17d21069-8371-489d-b7b9-1c38eb443a92,17d21069-8371-489d-b7b9-1c38eb443a92,"Holmes, Seth H.; Reinhart, Christoph F.",,,,"added by ERG",2522-2529,"Climate change risks from a building owner's perspective: Assessing future climate and energy price scenarios",,2011,22951,17d21069-8371-489d-b7b9-1c38eb443a92,"Conference Paper",/generic/f23270b6-b618-491f-ab36-c97c480d8e15
/reference/1a7ca660-2759-4db6-bc41-74a3dd9d7cc4,https://data.globalchange.gov/reference/1a7ca660-2759-4db6-bc41-74a3dd9d7cc4,1a7ca660-2759-4db6-bc41-74a3dd9d7cc4,EPA,,,,,various,"Updates to the Demographic and Spatial Allocation Models to Produce Integrated Climate and Land Use Scenarios (ICLUS) Version 2",,2017,22557,1a7ca660-2759-4db6-bc41-74a3dd9d7cc4,Report,/report/updates-demographic-spatial-allocation-models-produce-integrated-climate-land-use-scenarios-iclus-version-2
/reference/1aca1900-c64c-4624-a696-3aab59ba6673,https://data.globalchange.gov/reference/1aca1900-c64c-4624-a696-3aab59ba6673,1aca1900-c64c-4624-a696-3aab59ba6673,"Uejio, C.K.
Wilhelmi, O.V.
Golden, J.S.
Mills, D.M.
Gulino, S.P.
Samenow, J.P.",1353-8292,2,"Health & Place",,498-507,"Intra-urban societal vulnerability to extreme heat: The role of heat exposure and the built environment, socioeconomics, and neighborhood stability",17,2011,3183,1aca1900-c64c-4624-a696-3aab59ba6673,"Journal Article",/article/10.1016/j.healthplace.2010.12.005