uri,href,identifier,attrs.Abstract,attrs.Author,attrs.DOI,attrs.Date,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/c649aa60-e3b5-47a4-8a40-0d7ef5cf98d8,https://data.globalchange.gov/reference/c649aa60-e3b5-47a4-8a40-0d7ef5cf98d8,c649aa60-e3b5-47a4-8a40-0d7ef5cf98d8,"Independent lines of research on urbanization, urban areas, and carbon have advanced our understanding of some of the processes through which energy and land uses affect carbon. This synthesis integrates some of these diverse viewpoints as a first step toward a coproduced, integrated framework for understanding urbanization, urban areas, and their relationships to carbon. It suggests the need for approaches that complement and combine the plethora of existing insights into interdisciplinary explorations of how different urbanization processes, and socio-ecological and technological components of urban areas, affect the spatial and temporal patterns of carbon emissions, differentially over time and within and across cities. It also calls for a more holistic approach to examining the carbon implications of urbanization and urban areas, based not only on demographics or income but also on other interconnected features of urban development pathways such as urban form, economic function, economic-growth policies, and other governance arrangements. It points to a wide array of uncertainties around the urbanization processes, their interactions with urban socio-institutional and built environment systems, and how these impact the exchange of carbon flows within and outside urban areas. We must also understand in turn how carbon feedbacks, including carbon impacts and potential impacts of climate change, can affect urbanization processes. Finally, the paper explores options, barriers, and limits to transitioning cities to low-carbon trajectories, and suggests the development of an end-to-end, coproduced and integrated scientific understanding that can more effectively inform the navigation of transitional journeys and the avoidance of obstacles along the way.","Romero-Lankao, P.; Gurney, K. R.; Seto, K. C.; Chester, M.; Duren, R. M.; Hughes, S.; Hutyra, L. R.; Marcotullio, P.; Baker, L.; Grimm, N. B.; Kennedy, C.; Larson, E.; Pincetl, S.; Runfola, D.; Sanchez, L.; Shrestha, G.; Feddema, J.; Sarzynski, A.; Sperling, J.; Stokes, E.",10.1002/2014ef000258,Oct,2328-4277,10,"Earth's Future","Urban; carbon cycle; Urbanization; Mitigation",515-532,"A critical knowledge pathway to low-carbon, sustainable futures: Integrated understanding of urbanization, urban areas, and carbon",2,2014,22829,c649aa60-e3b5-47a4-8a40-0d7ef5cf98d8,"Journal Article",/article/10.1002/2014ef000258
/reference/c7cf4329-2e96-4f23-8ec1-40fd8e71261e,https://data.globalchange.gov/reference/c7cf4329-2e96-4f23-8ec1-40fd8e71261e,c7cf4329-2e96-4f23-8ec1-40fd8e71261e,,"NOAA,",,,,,,,,"Storm Events Database: Drought in San Joaquin Valley, California",,2015,25649,c7cf4329-2e96-4f23-8ec1-40fd8e71261e,"Web Page",/webpage/f077ce48-5f59-47eb-ae48-03def7c9d4de
/reference/c83c98ff-ea0e-47c9-9e83-55261c8ca24f,https://data.globalchange.gov/reference/c83c98ff-ea0e-47c9-9e83-55261c8ca24f,c83c98ff-ea0e-47c9-9e83-55261c8ca24f,,"Newport Restoration Foundation,",,,,,,,39,"Keeping 74 Bridge Street Above Water: Lessons from the City of Newport and the Point Neighborhood on Protecting Historic Structures and Neighborhoods from the Impacts of Climate Change [exhibition booklet]",,2016,25650,c83c98ff-ea0e-47c9-9e83-55261c8ca24f,Report,/report/keeping-74-bridge-street-above-water-lessons-city-newport-point-neighborhood-on-protecting-historic-structures-neighborhoods-impacts-climate-change-exhibition-booklet
/reference/c8a2bcc1-87dc-4937-97fd-557f09dd82a0,https://data.globalchange.gov/reference/c8a2bcc1-87dc-4937-97fd-557f09dd82a0,c8a2bcc1-87dc-4937-97fd-557f09dd82a0,"Arthropod-borne viruses (arboviruses) cause many diseases worldwide and their transmission is likely to change with land use and climate changes. La Crosse virus (LACV) is historically transmitted by the native mosquito Aedes triseriatus (Say) in the upper Midwestern US, but the invasive congeners Aedes albopictus (Skuse) and A. japonicus (Theobald), which co-occur with A. triseriatus in water-holding containers, may be important accessory vectors in the Appalachian region where La Crosse encephalitis is an emerging disease. This review focuses on evidence for how climate, land use, and biological invasions may have direct abiotic and indirect community-level impacts on immature developmental stages (eggs and larvae) of Aedes mosquitoes. Because vector-borne diseases usually vary in space and time and are related to the ecology of the vector species, we propose that the ecology of its mosquito vectors, particularly at their immature stages, has played an important role in the emergence of La Crosse encephalitis in the Appalachian region and represents a model for investigating the effects of environmental changes on other vector-borne diseases. We summarize the health effects of LACV and associated socioeconomic costs that make it the most important native mosquito-borne disease in the US. We review of the transmission of LACV, and present evidence for the impacts of climate, land use, and biological invasions on Aedes mosquito communities. Finally, we discuss important questions about the ecology of LACV mosquito vectors that may improve our understanding of the impacts of environmental changes on LACV and other arboviruses.","Leisnham, Paul T.; Juliano, Steven A.",10.1007/s10393-012-0773-7,"June 01",1612-9210,2,EcoHealth,,217-228,"Impacts of climate, land use, and biological invasion on the ecology of immature Aedes mosquitoes: Implications for La Crosse emergence",9,2012,23033,c8a2bcc1-87dc-4937-97fd-557f09dd82a0,"Journal Article",/article/10.1007/s10393-012-0773-7
/reference/c93d153d-e8f5-41b1-83ad-a2b84d967349,https://data.globalchange.gov/reference/c93d153d-e8f5-41b1-83ad-a2b84d967349,c93d153d-e8f5-41b1-83ad-a2b84d967349,,"Clark, Greg; Clark, Greg",,,,,,,66,"Nations and The Wealth of Cities: A New Phase In Public Policy",,2014,23199,c93d153d-e8f5-41b1-83ad-a2b84d967349,Report,/report/nations-wealth-cities-new-phase-public-policy
/reference/c9635569-e7c7-4820-b287-d12db9529476,https://data.globalchange.gov/reference/c9635569-e7c7-4820-b287-d12db9529476,c9635569-e7c7-4820-b287-d12db9529476,,"Pavao-Zuckerman, Mitchell A.",10.1111/j.1526-100X.2008.00486.x,,,,"Restoration Ecology","added by ERG",642-649,"The nature of urban soils and their role in ecological restoration in cities",16,2008,23069,c9635569-e7c7-4820-b287-d12db9529476,"Journal Article",/article/10.1111/j.1526-100X.2008.00486.x
/reference/c9bda474-d322-478c-8574-21d8dc7a4f5c,https://data.globalchange.gov/reference/c9bda474-d322-478c-8574-21d8dc7a4f5c,c9bda474-d322-478c-8574-21d8dc7a4f5c,,"Walker, Renee E.; Keane, Christopher R.; Burke, Jessica G.",10.1016/j.healthplace.2010.04.013,,,,"Health & Place","added by ERG",876-884,"Disparities and access to healthy food in the United States: A review of food deserts literature",16,2010,22984,c9bda474-d322-478c-8574-21d8dc7a4f5c,"Journal Article",/article/10.1016/j.healthplace.2010.04.013
/reference/cb667add-afc5-472b-a8bc-6c688712b9c8,https://data.globalchange.gov/reference/cb667add-afc5-472b-a8bc-6c688712b9c8,cb667add-afc5-472b-a8bc-6c688712b9c8,,"National Academies of Sciences, Engineering, and Medicine,",10.17226/21852,,,,,"added by ERG",,"Attribution of Extreme Weather Events in the Context of Climate Change",,2016,22915,cb667add-afc5-472b-a8bc-6c688712b9c8,Book,/report/nas-attribution-extreme-weather-2016
/reference/ce2db20d-ff1b-407c-873e-fde134a7929c,https://data.globalchange.gov/reference/ce2db20d-ff1b-407c-873e-fde134a7929c,ce2db20d-ff1b-407c-873e-fde134a7929c,,"Urban Climate Change Research Network,",,,,,,"urban; climate change",,"Climate Change and Cities. Second Assessment Report of the Urban Climate Change Research Network. Summary for City Leaders",,2015,22864,ce2db20d-ff1b-407c-873e-fde134a7929c,Report,/report/arc32-summary-city-leaders
/reference/ce92fa43-b6a4-4f47-8a54-8d5d85212ab1,https://data.globalchange.gov/reference/ce92fa43-b6a4-4f47-8a54-8d5d85212ab1,ce92fa43-b6a4-4f47-8a54-8d5d85212ab1,,"EIG,",,,,,,"added by ERG",50,"The 2017 Distressed Communities Index: An Analysis of Community Well-Being Across the United States",,2017,22888,ce92fa43-b6a4-4f47-8a54-8d5d85212ab1,Report,/report/2017-distressed-communities-index-an-analysis-community-well-being-across-united-states
/reference/ce94342b-96f1-45a7-bace-f12353f56c31,https://data.globalchange.gov/reference/ce94342b-96f1-45a7-bace-f12353f56c31,ce94342b-96f1-45a7-bace-f12353f56c31,,"Marjanac, Sophie; Patton, Lindene; Thornton, James",10.1038/ngeo3019,08/28/online,,,"Nature Geoscience",,616-619,"Acts of God, human influence and litigation",10,2017,25620,ce94342b-96f1-45a7-bace-f12353f56c31,"Journal Article",/article/10.1038/ngeo3019
/reference/cf0c1f2a-489a-4ced-9b60-e7be6fd165f3,https://data.globalchange.gov/reference/cf0c1f2a-489a-4ced-9b60-e7be6fd165f3,cf0c1f2a-489a-4ced-9b60-e7be6fd165f3,,"Task Force on Climate-Related Financial Disclosures,",,,,,,"added by ERG",82,"Implementing the Recommendations of the Task Force on Climate-Related Financial Disclosures",,2016,23038,cf0c1f2a-489a-4ced-9b60-e7be6fd165f3,Report,/report/implementing-recommendations-task-force-on-climate-related-financial-disclosures
/reference/d1181a6c-8e64-42b5-b520-9f5e51bccf76,https://data.globalchange.gov/reference/d1181a6c-8e64-42b5-b520-9f5e51bccf76,d1181a6c-8e64-42b5-b520-9f5e51bccf76,,"Lloyd’s of London,",,,,,,"added by ERG",33,"Stranded Assets: The transition to a low carbon economy. Overview for the insurance industry",,2017,23114,d1181a6c-8e64-42b5-b520-9f5e51bccf76,Report,/report/stranded-assets-transition-low-carbon-economy-overview-insurance-industry
/reference/d17cda01-8ed2-4513-bca4-4fc5a3015f3c,https://data.globalchange.gov/reference/d17cda01-8ed2-4513-bca4-4fc5a3015f3c,d17cda01-8ed2-4513-bca4-4fc5a3015f3c,,"U.S. Census Bureau American FactFinder,",,,,,,,,"Annual Estimates of the Resident Population: April 1, 2010 to July 1, 2016",,2017,23179,d17cda01-8ed2-4513-bca4-4fc5a3015f3c,"Web Page",/webpage/78a19de7-26f8-4c00-967e-321cc6952862
/reference/d1d4c1c1-da80-49ee-ab2d-a87c4d32d431,https://data.globalchange.gov/reference/d1d4c1c1-da80-49ee-ab2d-a87c4d32d431,d1d4c1c1-da80-49ee-ab2d-a87c4d32d431,,"Carroll, Christina M.; Evans, J. Randolph; Patton, Lindene Elise; Zimolzak, Joanne Lydia",,,,,,"added by ERG",,"Climate Change and Insurance",,2012,22944,d1d4c1c1-da80-49ee-ab2d-a87c4d32d431,Book,/book/climate-change-insurance
/reference/d2f3853a-5f20-4132-92c8-57da1b4d95fc,https://data.globalchange.gov/reference/d2f3853a-5f20-4132-92c8-57da1b4d95fc,d2f3853a-5f20-4132-92c8-57da1b4d95fc,,,,,,,,,,"Climate Change and Infrastructure, Urban Systems, and Vulnerabilities",,2014,21390,d2f3853a-5f20-4132-92c8-57da1b4d95fc,"Edited Book",/book/climate-change-infrastructure-urban-systems-vulnerabilities
/reference/d3552928-8618-407a-8451-7817a9649fbd,https://data.globalchange.gov/reference/d3552928-8618-407a-8451-7817a9649fbd,d3552928-8618-407a-8451-7817a9649fbd,"Climate change poses serious threats to the protection and preservation of cultural heritage and resources. Despite a high level of scholarly interest in climate change impacts on natural and socio-economic systems, a comprehensive understanding of the impacts of climate change on cultural heritage and resources across various continents and disciplines is noticeably absent from the literature. To address this gap, we conducted a systematic literature review methodology to identify and characterize the state of knowledge and how the cultural heritage and resources at risk from climate change are being explored globally. Results from 124 reviewed publications show that scholarly interest in the topic is increasing, employs a wide range of research methods, and represents diverse natural and social science disciplines. Despite such increasing and diverse interest in climate change and cultural heritage and resources, the geographic scope of research is limited (predominantly European focused). Additionally, we identified the need for future studies that not only focuses on efficient, sustainable adaptation planning options but also documents if, and how, the implementation of cultural heritage and resources adaptation or preservation is taking place. This systematic literature review can help direct scholarly research in climate change and cultural heritage and resource area. Ultimately, we hope these new directions can influence policy-making for preservation and adaptation of cultural heritage and cultural resources globally.","Fatorić, Sandra; Seekamp, Erin",10.1007/s10584-017-1929-9,"May 01",1573-1480,1,"Climatic Change",,227-254,"Are cultural heritage and resources threatened by climate change? A systematic literature review",142,2017,25612,d3552928-8618-407a-8451-7817a9649fbd,"Journal Article",/article/10.1007/s10584-017-1929-9
/reference/d3a3ca44-1e49-41ee-9063-dc1be22dec3c,https://data.globalchange.gov/reference/d3a3ca44-1e49-41ee-9063-dc1be22dec3c,d3a3ca44-1e49-41ee-9063-dc1be22dec3c,,"Stone, Brian Jr.; Vargo, Jason; Liu, Peng; Habeeb, Dana; DeLucia, Anthony; Trail, Marcus; Hu, Yongtao; Russell, Armistead",10.1371/journal.pone.0100852,,1932-6203,6,"PLoS ONE",,e100852,"Avoided heat-related mortality through climate adaptation strategies in three US cities",9,2014,19132,d3a3ca44-1e49-41ee-9063-dc1be22dec3c,"Journal Article",/article/10.1371/journal.pone.0100852
/reference/d49de54d-2995-48f2-b874-12d25ae61f40,https://data.globalchange.gov/reference/d49de54d-2995-48f2-b874-12d25ae61f40,d49de54d-2995-48f2-b874-12d25ae61f40,"We estimate the first cross-sectional index of transaction-based land values for every U.S. metropolitan area. The index accounts for geographic selection and incorporates novel shrinkage methods using a prior belief based on urban economic theory. Land values at the city center increase with city size, as do land-value gradients; both are highly variable across cities. Urban land values are estimated at more than two times GDP in 2006. These estimates are higher and less volatile than estimates from residual (total - structure) methods. Five urban agglomerations account for 48 percent of all urban land value in the United States. JEL Codes: C43, R1, R3","Albouy, David; Gabriel Ehrlich; Minchul Shin",10.1162/REST_a_00710,,,3,"The Review of Economics and Statistics",,454-466,"Metropolitan land values",100,2017,25599,d49de54d-2995-48f2-b874-12d25ae61f40,"Journal Article",/article/10.1162/REST_a_00710
/reference/d505cee1-e247-4ebc-a51a-88209666d77f,https://data.globalchange.gov/reference/d505cee1-e247-4ebc-a51a-88209666d77f,d505cee1-e247-4ebc-a51a-88209666d77f,,"Cunningham, J. Chris",10.21916/mlr.2015.35,,,,,"added by ERG",15,"Measuring wage inequality within and across US metropolitan areas, 2003-2013",,2015,23059,d505cee1-e247-4ebc-a51a-88209666d77f,"Book Section",/article/10.21916/mlr.2015.35
/reference/d51156cc-0034-4afc-b2b7-1ad99efde458,https://data.globalchange.gov/reference/d51156cc-0034-4afc-b2b7-1ad99efde458,d51156cc-0034-4afc-b2b7-1ad99efde458,,"Brown, M.E.; J.M. Antle; P. Backlund; E.R. Carr; W.E. Easterling; M.K. Walsh; C. Ammann; W. Attavanich; C.B. Barrett; M.F. Bellemare; V. Dancheck; C. Funk; K. Grace; J.S.I. Ingram; H. Jiang; H. Maletta; T. Mata; A. Murray; M. Ngugi; D. Ojima; B. O’Neill; C. Tebaldi",10.7930/J0862DC7,,,,,,146,"Climate Change, Global Food Security, and the U.S. Food System",,2015,23655,d51156cc-0034-4afc-b2b7-1ad99efde458,Report,/report/usda-climate-change-global-food-security-us-food-system-2015
/reference/d6397bc1-e245-41fa-9e42-6f1744e59282,https://data.globalchange.gov/reference/d6397bc1-e245-41fa-9e42-6f1744e59282,d6397bc1-e245-41fa-9e42-6f1744e59282,,"Dannenberg, Andrew L.; Frumkin, Howard; Jackson, Richard J.",,,,,,"added by ERG",,"Making Healthy Places: Designing and Building for Health, Well-Being, and Sustainability",,2011,23054,d6397bc1-e245-41fa-9e42-6f1744e59282,Book,/book/making-healthy-places-designing-building-health-well-being-sustainability
/reference/d707f6f9-107d-4170-bd0b-c14d7a66b395,https://data.globalchange.gov/reference/d707f6f9-107d-4170-bd0b-c14d7a66b395,d707f6f9-107d-4170-bd0b-c14d7a66b395,,"DOE,",,,,,,,489,"An Assessment of Energy Technologies and Research Opportunities: Quadrennial Technology Review",,2015,21347,d707f6f9-107d-4170-bd0b-c14d7a66b395,Report,/report/an-assessment-energy-technologies-research-opportunities-quadrennial-technology-review
/reference/d72623f9-1bb8-4f30-b89e-c5322edab9ff,https://data.globalchange.gov/reference/d72623f9-1bb8-4f30-b89e-c5322edab9ff,d72623f9-1bb8-4f30-b89e-c5322edab9ff,"Rising global temperature is causing major physical, chemical, and ecological changes across the planet. There is wide consensus among scientific organizations and climatologists that these broad effects, known as climate change, are the result of contemporary human activity. Climate change poses threats to human health, safety, and security. Children are uniquely vulnerable to these threats. The effects of climate change on child health include physical and psychological sequelae of weather disasters, increased heat stress, decreased air quality, altered disease patterns of some climate-sensitive infections, and food, water, and nutrient insecurity in vulnerable regions. Prompt implementation of mitigation and adaptation strategies will protect children against worsening of the problem and its associated health effects. This technical report reviews the nature of climate change and its associated child health effects and supports the recommendations in the accompanying policy statement on climate change and children’s health.","Ahdoot, Samantha; Pacheco, Susan E.",10.1542/peds.2015-3233,,,5,Pediatrics,,e1-e17,"Global climate change and children’s health",136,2015,25598,d72623f9-1bb8-4f30-b89e-c5322edab9ff,"Journal Article",/article/10.1542/peds.2015-3233