--- - attrs: Author: 'Nicholas, Kimberly A.; Matthews, Mark A.; Lobell, David B.; Willits, Neil H.; Field, Christopher B.' DOI: 10.1016/j.agrformet.2011.06.010 Date: 2011/12/15/ ISSN: 0168-1923 Issue: 12 Journal: Agricultural and Forest Meteorology Keywords: Climate change; Vitis vinifera; Wine; Climate sensitivity; Anthocyanins; Phenology; Temperature Pages: 1556-1567 Title: Effect of vineyard-scale climate variability on Pinot noir phenolic composition Volume: 151 Year: 2011 _record_number: 25975 _uuid: e6928875-a32d-445c-90c0-e97bce50364c reftype: Journal Article child_publication: /article/10.1016/j.agrformet.2011.06.010 href: https://data.globalchange.gov/reference/e6928875-a32d-445c-90c0-e97bce50364c.yaml identifier: e6928875-a32d-445c-90c0-e97bce50364c uri: /reference/e6928875-a32d-445c-90c0-e97bce50364c - attrs: .reference_type: 10 Author: 'Nania, Julie; Cozzetto, Karen; Gillet, Nicole; Duren, Sabre; Tapp, Anne Mariah; Eitner, Michael; Baldwin, Beth' Institution: University of Colorado Law School Pages: 204 Place Published: 'Boulder, CO' Title: Considerations for climate change and variability adaptation on the Navajo Nation URL: http://wwa.colorado.edu/publications/reports/navajo_report4_9.pdf Year: 2014 _record_number: 24985 _uuid: e7386ded-fc42-4907-b607-4ccc458dd638 reftype: Report child_publication: /report/considerations-climate-change-variability-adaptation-on-navajo-nation href: https://data.globalchange.gov/reference/e7386ded-fc42-4907-b607-4ccc458dd638.yaml identifier: e7386ded-fc42-4907-b607-4ccc458dd638 uri: /reference/e7386ded-fc42-4907-b607-4ccc458dd638 - attrs: Abstract: 'Valley fever is endemic to the southwestern United States. Humans contract this fungal disease by inhaling spores of Coccidioides spp. Changes in the environment can influence the abundance and dispersal of Coccidioides spp., causing fluctuations in valley fever incidence. We combined county‐level case records from state health agencies to create a regional valley fever database for the southwestern United States, including Arizona, California, Nevada, New Mexico, and Utah. We used this data set to explore how environmental factors influenced the spatial pattern and temporal dynamics of valley fever incidence during 2000–2015. We compiled climate and environmental geospatial data sets from multiple sources to compare with valley fever incidence. These variables included air temperature, precipitation, soil moisture, surface dust concentration, normalized difference vegetation index, and cropland area. We found that valley fever incidence was greater in areas with warmer air temperatures and drier soils. The mean annual cycle of incidence varied throughout the southwestern United States and peaked following periods of low precipitation and soil moisture. From year‐to‐year, however, autumn incidence was higher following cooler, wetter, and productive springs in the San Joaquin Valley of California. In southcentral Arizona, incidence increased significantly through time. By 2015, incidence in this region was more than double the rate in the San Joaquin Valley. Our analysis provides a framework for interpreting the influence of climate change on valley fever incidence dynamics. Our results may allow the U.S. Centers for Disease Control and Prevention to improve their estimates of the spatial pattern and intensity of valley fever endemicity.' Author: 'Gorris, M. E.; L. A. Cat; C. S. Zender; K. K. Treseder; J. T. Randerson' DOI: 10.1002/2017GH000095 Issue: 1 Journal: GeoHealth Pages: 6-24 Title: Coccidioidomycosis dynamics in relation to climate in the southwestern United States Volume: 2 Year: 2018 _record_number: 25334 _uuid: e7604efd-b24b-43f7-93b9-5046de36a18a reftype: Journal Article child_publication: /article/10.1002/2017GH000095 href: https://data.globalchange.gov/reference/e7604efd-b24b-43f7-93b9-5046de36a18a.yaml identifier: e7604efd-b24b-43f7-93b9-5046de36a18a uri: /reference/e7604efd-b24b-43f7-93b9-5046de36a18a - attrs: .reference_type: 0 Author: "Bouchama, A.\rDehbi, M.\rMohamed, G.\rMatthies, F.\rShoukri, M.\rMenne, B." DOI: 10.1001/archinte.167.20.ira70009 ISSN: 1538-3679 Issue: 20 Journal: Archives of Internal Medicine Pages: 2170-2176 Title: 'Prognostic factors in heat wave-related deaths: A meta-analysis' Volume: 167 Year: 2007 _chapter: '["Ch. 9: Human Health FINAL"]' _record_number: 1326 _uuid: e7927819-0782-42ff-a491-6e125f61600e reftype: Journal Article child_publication: /article/10.1001/archinte.167.20.ira70009 href: https://data.globalchange.gov/reference/e7927819-0782-42ff-a491-6e125f61600e.yaml identifier: e7927819-0782-42ff-a491-6e125f61600e uri: /reference/e7927819-0782-42ff-a491-6e125f61600e - attrs: .reference_type: 7 Author: 'Easterling, D.R.; J.R. Arnold; T. Knutson; K.E. Kunkel; A.N. LeGrande; L.R. Leung; R.S. Vose; D.E. Waliser; M.F. Wehner' Book Title: 'Climate Science Special Report: Fourth National Climate Assessment, Volume I' Chapter: 7 DOI: 10.7930/J0H993CC Editor: 'Wuebbles, D.J.; D.W. Fahey; K.A. Hibbard; D.J. Dokken; B.C. Stewart; T.K. Maycock' Pages: 207-230 Place Published: 'Washington, DC, USA' Publisher: U.S. Global Change Research Program Title: Precipitation Change in the United States Year: 2017 _record_number: 21565 _uuid: e8089a19-413e-4bc5-8c4a-7610399e268c reftype: Book Section child_publication: /report/climate-science-special-report/chapter/precipitation-change href: https://data.globalchange.gov/reference/e8089a19-413e-4bc5-8c4a-7610399e268c.yaml identifier: e8089a19-413e-4bc5-8c4a-7610399e268c uri: /reference/e8089a19-413e-4bc5-8c4a-7610399e268c - attrs: Author: 'Hobday, Alistair J.; Alexander, Lisa V.; Perkins, Sarah E.; Smale, Dan A.; Straub, Sandra C.; Oliver, Eric C. J.; Benthuysen, Jessica A.; Burrows, Michael T.; Donat, Markus G.; Feng, Ming; Holbrook, Neil J.; Moore, Pippa J.; Scannell, Hillary A.; Sen Gupta, Alex; Wernberg, Thomas' DOI: 10.1016/j.pocean.2015.12.014 Date: 2016/02/01/ ISSN: 0079-6611 Journal: Progress in Oceanography Pages: 227-238 Title: A hierarchical approach to defining marine heatwaves Volume: 141 Year: 2016 _record_number: 23779 _uuid: e99ced6d-a1ff-421b-af94-b6aa5ba4e57e reftype: Journal Article child_publication: /article/10.1016/j.pocean.2015.12.014 href: https://data.globalchange.gov/reference/e99ced6d-a1ff-421b-af94-b6aa5ba4e57e.yaml identifier: e99ced6d-a1ff-421b-af94-b6aa5ba4e57e uri: /reference/e99ced6d-a1ff-421b-af94-b6aa5ba4e57e - attrs: Author: 'Perry, Laura G.; Reynolds, Lindsay V.; Beechie, Timothy J.; Collins, Mathias J.; Shafroth, Patrick B.' DOI: 10.1002/eco.1645 ISSN: 1936-0592 Issue: 5 Journal: Ecohydrology Keywords: climate adaptation; global change; hydrology; ecological restoration; riparian ecosystems; river management; streamflow Pages: 863-879 Title: Incorporating climate change projections into riparian restoration planning and design Volume: 8 Year: 2015 _record_number: 23841 _uuid: e9a8c5d2-f0f1-4c11-b2f7-9a7f0d1c639c reftype: Journal Article child_publication: /article/10.1002/eco.1645 href: https://data.globalchange.gov/reference/e9a8c5d2-f0f1-4c11-b2f7-9a7f0d1c639c.yaml identifier: e9a8c5d2-f0f1-4c11-b2f7-9a7f0d1c639c uri: /reference/e9a8c5d2-f0f1-4c11-b2f7-9a7f0d1c639c - attrs: Author: 'Brand, L. Arriana; Farnsworth, Matthew L.; Meyers, Jay; Dickson, Brett G.; Grouios, Christopher; Scheib, Amanda F.; Scherer, Rick D.' DOI: 10.1016/j.biocon.2016.05.032 Date: 2016/08/01/ ISSN: 0006-3207 Journal: Biological Conservation Keywords: Utility-scale solar development; Desert tortoise (); Renewable energy; Thermoregulation; Mitigation-driven translocation; Mojave Desert Pages: 104-111 Title: 'Mitigation-driven translocation effects on temperature, condition, growth, and mortality of Mojave desert tortoise (Gopherus agassizii) in the face of solar energy development' Volume: 200 Year: 2016 _record_number: 23728 _uuid: ea30a052-6cc4-43c0-98e7-653e767a2c96 reftype: Journal Article child_publication: /article/10.1016/j.biocon.2016.05.032 href: https://data.globalchange.gov/reference/ea30a052-6cc4-43c0-98e7-653e767a2c96.yaml identifier: ea30a052-6cc4-43c0-98e7-653e767a2c96 uri: /reference/ea30a052-6cc4-43c0-98e7-653e767a2c96 - attrs: .reference_type: 16 Author: 'NOAA,' Place Published: 'Boulder, CO' Publisher: NOAA Earth System Research Laboratory Title: NOAA Climate Change Web Portal URL: https://www.esrl.noaa.gov/psd/ipcc/ Year: 2017 _record_number: 26376 _uuid: ea364386-1191-4070-b0c3-5fad624883ca reftype: Web Page child_publication: /webpage/f9a2ef85-c903-4ac5-be93-0f0104eb5b73 href: https://data.globalchange.gov/reference/ea364386-1191-4070-b0c3-5fad624883ca.yaml identifier: ea364386-1191-4070-b0c3-5fad624883ca uri: /reference/ea364386-1191-4070-b0c3-5fad624883ca - attrs: Abstract: 'Drought affects virtually every region of the world, and potential shifts in its character in a changing climate are a major concern. This article presents a synthesis of current understanding of meteorological drought, with a focus on the large-scale controls on precipitation afforded by sea surface temperature (SST) anomalies, land surface feedbacks, and radiative forcings. The synthesis is primarily based on regionally focused articles submitted to the Global Drought Information System (GDIS) collection together with new results from a suite of atmospheric general circulation model experiments intended to integrate those studies into a coherent view of drought worldwide. On interannual time scales, the preeminence of ENSO as a driver of meteorological drought throughout much of the Americas, eastern Asia, Australia, and the Maritime Continent is now well established, whereas in other regions (e.g., Europe, Africa, and India), the response to ENSO is more ephemeral or nonexistent. Northern Eurasia, central Europe, and central and eastern Canada stand out as regions with few SST-forced impacts on precipitation on interannual time scales. Decadal changes in SST appear to be a major factor in the occurrence of long-term drought, as highlighted by apparent impacts on precipitation of the late 1990s “climate shifts” in the Pacific and Atlantic SST. Key remaining research challenges include (i) better quantification of unforced and forced atmospheric variability as well as land–atmosphere feedbacks, (ii) better understanding of the physical basis for the leading modes of climate variability and their predictability, and (iii) quantification of the relative contributions of internal decadal SST variability and forced climate change to long-term drought.' Author: 'Schubert, Siegfried D.; Ronald E. Stewart; Hailan Wang; Mathew Barlow; Ernesto H. Berbery; Wenju Cai; Martin P. Hoerling; Krishna K. Kanikicharla; Randal D. Koster; Bradfield Lyon; Annarita Mariotti; Carlos R. Mechoso; Omar V. Müller; Belen Rodriguez-Fonseca; Richard Seager; Sonia I. Seneviratne; Lixia Zhang; Tianjun Zhou' DOI: 10.1175/jcli-d-15-0452.1 Issue: 11 Journal: Journal of Climate Keywords: 'Atm/Ocean Structure/ Phenomena,Drought,Precipitation,Sea surface temperature,Variability,Climate variability,Decadal variability,Interannual variability' Pages: 3989-4019 Title: 'Global meteorological drought: A synthesis of current understanding with a focus on SST drivers of precipitation deficits' Volume: 29 Year: 2016 _record_number: 26349 _uuid: ea3751db-694e-4a40-b005-b98bede9c812 reftype: Journal Article child_publication: /article/10.1175/jcli-d-15-0452.1 href: https://data.globalchange.gov/reference/ea3751db-694e-4a40-b005-b98bede9c812.yaml identifier: ea3751db-694e-4a40-b005-b98bede9c812 uri: /reference/ea3751db-694e-4a40-b005-b98bede9c812 - attrs: .reference_type: 0 Author: 'Saha, Michael V.; Davis, Robert E.; Hondula, David M.' DOI: 10.1093/aje/kwt264 ISSN: 1476-6256 Issue: 4 Journal: American Journal of Epidemiology Pages: 467-474 Title: Mortality displacement as a function of heat event strength in 7 US cities Volume: 179 Year: 2014 _chapter: Ch2 _record_number: 19131 _uuid: eaabcdba-02ea-478b-899b-d0924862128b reftype: Journal Article child_publication: /article/10.1093/aje/kwt264 href: https://data.globalchange.gov/reference/eaabcdba-02ea-478b-899b-d0924862128b.yaml identifier: eaabcdba-02ea-478b-899b-d0924862128b uri: /reference/eaabcdba-02ea-478b-899b-d0924862128b - attrs: Author: 'Harpold, Adrian A.; Michael Dettinger; Seshadri Rajagopal ' DOI: 10.1029/2017EO068775 Journal: Eos Title: Defining snow drought and why it matters Volume: 98 Year: 2017 _record_number: 26364 _uuid: ec22582a-b534-47c5-b116-5c8b22a4d2b6 reftype: Journal Article child_publication: /article/10.1029/2017EO068775 href: https://data.globalchange.gov/reference/ec22582a-b534-47c5-b116-5c8b22a4d2b6.yaml identifier: ec22582a-b534-47c5-b116-5c8b22a4d2b6 uri: /reference/ec22582a-b534-47c5-b116-5c8b22a4d2b6 - attrs: Abstract: 'The area burned annually by wildfires is expected to increase worldwide due to climate change. Burned areas increase soil erosion rates within watersheds, which can increase sedimentation in downstream rivers and reservoirs. However, which watersheds will be impacted by future wildfires is largely unknown. Using an ensemble of climate, fire, and erosion models, we show that postfire sedimentation is projected to increase for nearly nine tenths of watersheds by >10% and for more than one third of watersheds by >100% by the 2041 to 2050 decade in the western USA. The projected increases are statistically significant for more than eight tenths of the watersheds. In the western USA, many human communities rely on water from rivers and reservoirs that originates in watersheds where sedimentation is projected to increase. Increased sedimentation could negatively impact water supply and quality for some communities, in addition to affecting stream channel stability and aquatic ecosystems.' Author: 'Sankey, Joel B.; Kreitler, Jason; Hawbaker, Todd J.; McVay, Jason L.; Miller, Mary Ellen; Mueller, Erich R.; Vaillant, Nicole M.; Lowe, Scott E.; Sankey, Temuulen T.' DOI: 10.1002/2017GL073979 Issue: 17 Journal: Geophysical Research Letters Pages: 8884-8892 Title: 'Climate, wildfire, and erosion ensemble foretells more sediment in western USA watersheds' Volume: 44 Year: 2017 _record_number: 25980 _uuid: ecb17415-90a9-421c-8e49-620b2f1a71b6 reftype: Journal Article child_publication: /article/10.1002/2017GL073979 href: https://data.globalchange.gov/reference/ecb17415-90a9-421c-8e49-620b2f1a71b6.yaml identifier: ecb17415-90a9-421c-8e49-620b2f1a71b6 uri: /reference/ecb17415-90a9-421c-8e49-620b2f1a71b6 - attrs: Author: 'Yurok Wildland Fire Crew,' Issue: June Journal: 'Yorok Today: The Voice of the Yurok People' Pages: 2-4 Title: Fire council ignites long term burn plan URL: http://www.yuroktribe.org/documents/2014_june.pdf Year: 2014 _record_number: 23892 _uuid: ecd94324-df90-4ee6-a2a3-d58edcc95d35 reftype: Journal Article child_publication: /generic/8a62b4e4-eec2-4ea3-9677-3af29f7f323f href: https://data.globalchange.gov/reference/ecd94324-df90-4ee6-a2a3-d58edcc95d35.yaml identifier: ecd94324-df90-4ee6-a2a3-d58edcc95d35 uri: /reference/ecd94324-df90-4ee6-a2a3-d58edcc95d35 - attrs: .reference_type: 0 Abstract: 'In the Southwest and Central Plains of Western North America, climate change is expected to increase drought severity in the coming decades. These regions nevertheless experienced extended Medieval-era droughts that were more persistent than any historical event, providing crucial targets in the paleoclimate record for benchmarking the severity of future drought risks. We use an empirical drought reconstruction and three soil moisture metrics from 17 state-of-the-art general circulation models to show that these models project significantly drier conditions in the later half of the 21st century compared to the 20th century and earlier paleoclimatic intervals. This desiccation is consistent across most of the models and moisture balance variables, indicating a coherent and robust drying response to warming despite the diversity of models and metrics analyzed. Notably, future drought risk will likely exceed even the driest centuries of the Medieval Climate Anomaly (1100–1300 CE) in both moderate (RCP 4.5) and high (RCP 8.5) future emissions scenarios, leading to unprecedented drought conditions during the last millennium.' Author: 'Cook, Benjamin I.; Ault, Toby R.; Smerdon, Jason E.' DOI: 10.1126/sciadv.1400082 Issue: 1 Journal: Science Advances Pages: e1400082 Title: Unprecedented 21st century drought risk in the American Southwest and Central Plains Volume: 1 Year: 2015 _record_number: 20415 _uuid: ed70fd44-147d-4ffa-ab1b-68451bd1d335 reftype: Journal Article child_publication: /article/10.1126/sciadv.1400082 href: https://data.globalchange.gov/reference/ed70fd44-147d-4ffa-ab1b-68451bd1d335.yaml identifier: ed70fd44-147d-4ffa-ab1b-68451bd1d335 uri: /reference/ed70fd44-147d-4ffa-ab1b-68451bd1d335 - attrs: Author: 'Coats, Sloan; Smerdon, Jason E.; Seager, Richard; Griffin, Daniel; Cook, Benjamin I.' DOI: 10.1002/2015JD023085 ISSN: 2169-8996 Issue: 16 Journal: Journal of Geophysical Research Atmospheres Keywords: paleoclimate; North American monsoon; teleconnection; 0429 Climate dynamics; 1854 Precipitation; 3344 Paleoclimatology; 3335 North Amercan Monsoon; 4522 ENSO Pages: 8052-8064 Title: 'Winter-to-summer precipitation phasing in southwestern North America: A multicentury perspective from paleoclimatic model-data comparisons' Volume: 120 Year: 2015 _record_number: 23746 _uuid: edb441b8-5b84-4476-9406-3e4ca7c6bc87 reftype: Journal Article child_publication: /article/10.1002/2015JD023085 href: https://data.globalchange.gov/reference/edb441b8-5b84-4476-9406-3e4ca7c6bc87.yaml identifier: edb441b8-5b84-4476-9406-3e4ca7c6bc87 uri: /reference/edb441b8-5b84-4476-9406-3e4ca7c6bc87 - attrs: .reference_type: 10 Author: IPCC DOI: 10.1017/CBO9781107415324 Pages: 1535 Place Published: 'Cambridge, UK and New York, NY' Publisher: Cambridge University Press Secondary Author: 'Stocker, T.F.; Qin, D.; Plattner, G.-K.; Tignor, M.; Allen, S.K.; Boschung, J.; Nauels, A.; Xia, Y.; Bex, V.; Midgley, P.M.' Title: 'Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change' URL: http://www.climatechange2013.org/report/ Year: 2013 _record_number: 16456 _uuid: f03117be-ccfe-4f88-b70a-ffd4351b8190 reftype: Report child_publication: /report/ipcc-ar5-wg1 href: https://data.globalchange.gov/reference/f03117be-ccfe-4f88-b70a-ffd4351b8190.yaml identifier: f03117be-ccfe-4f88-b70a-ffd4351b8190 uri: /reference/f03117be-ccfe-4f88-b70a-ffd4351b8190 - attrs: .reference_type: 10 Author: 'van Riper, Charles, III; James R. Hatten; J. Tom Giermakowski; David Mattson; Jennifer A. Holmes; Matthew J. Johnson; Erika M. Nowak; Kirsten Ironside; Michael Peters; Paul Heinrich; K. L. Cole; C. Truettner; Cecil R. Schwalbe' DOI: 10.3133/ofr20141050 Institution: U.S. Geological Survey Pages: 100 Place Published: 'Reston, VA' Series Volume: Open-File Report 2014–1050 Title: Projecting Climate Effects on Birds and Reptiles of the Southwestern United States Year: 2014 _record_number: 23902 _uuid: f0366470-ff07-4d4f-b785-8bea5f8e54c2 reftype: Report child_publication: /report/projecting-climate-effects-on-birds-reptiles-southwestern-united-states href: https://data.globalchange.gov/reference/f0366470-ff07-4d4f-b785-8bea5f8e54c2.yaml identifier: f0366470-ff07-4d4f-b785-8bea5f8e54c2 uri: /reference/f0366470-ff07-4d4f-b785-8bea5f8e54c2 - attrs: .reference_type: 0 Author: 'Lavers, David A.; Ralph, F. Martin; Waliser, Duane E.; Gershunov, Alexander; Dettinger, Michael D.' DOI: 10.1002/2015GL064672 ISSN: 1944-8007 Issue: 13 Journal: Geophysical Research Letters Keywords: water vapor transport; CMIP5; climate change; 1616 Climate variability; 1627 Coupled models of the climate system; 3305 Climate change and variability Pages: 5617-5625 Title: Climate change intensification of horizontal water vapor transport in CMIP5 Volume: 42 Year: 2015 _record_number: 20580 _uuid: f0a98dc9-f5c5-4fa0-a90c-7791e2809744 reftype: Journal Article child_publication: /article/10.1002/2015GL064672 href: https://data.globalchange.gov/reference/f0a98dc9-f5c5-4fa0-a90c-7791e2809744.yaml identifier: f0a98dc9-f5c5-4fa0-a90c-7791e2809744 uri: /reference/f0a98dc9-f5c5-4fa0-a90c-7791e2809744 - attrs: Author: 'Jeon, S.; Prabhat,; Byna, S.; Gu, J.; Collins, W. D.; Wehner, M. F.' DOI: 10.5194/ascmo-1-45-2015 ISSN: 2364-3587 Issue: 1 Journal: 'Advances in Statistical Climatology, Meteorology and Oceanography' Notes: ASCMO Pages: 45-57 Publisher: Copernicus Publications Title: Characterization of extreme precipitation within atmospheric river events over California Volume: 1 Year: 2015 _record_number: 23795 _uuid: f0d25167-e8ea-435d-838b-44d0f8be9dc9 reftype: Journal Article child_publication: /article/10.5194/ascmo-1-45-2015 href: https://data.globalchange.gov/reference/f0d25167-e8ea-435d-838b-44d0f8be9dc9.yaml identifier: f0d25167-e8ea-435d-838b-44d0f8be9dc9 uri: /reference/f0d25167-e8ea-435d-838b-44d0f8be9dc9 - attrs: .reference_type: 9 Author: USGCRP DOI: 10.7930/J0R49NQX Number of Pages: 312 Place Published: 'Washington, DC' Publisher: U.S. Global Change Research Program Title: 'The Impacts of Climate Change on Human Health in the United States: A Scientific Assessment' Year: 2016 _record_number: 19368 _uuid: f1e633d5-070a-4a7d-935b-a2281a0c9cb6 reftype: Book child_publication: /report/usgcrp-climate-human-health-assessment-2016 href: https://data.globalchange.gov/reference/f1e633d5-070a-4a7d-935b-a2281a0c9cb6.yaml identifier: f1e633d5-070a-4a7d-935b-a2281a0c9cb6 uri: /reference/f1e633d5-070a-4a7d-935b-a2281a0c9cb6 - attrs: Author: 'Hornor, Gail' DOI: 10.1016/j.pedhc.2016.09.005 Date: 2017/05/01/ ISSN: 0891-5245 Issue: 3 Journal: Journal of Pediatric Health Care Keywords: Trauma; resilience; stress Pages: 384-390 Title: Resilience Volume: 31 Year: 2017 _record_number: 23784 _uuid: f3814030-383d-4915-8615-d1e00db524aa reftype: Journal Article child_publication: /article/10.1016/j.pedhc.2016.09.005 href: https://data.globalchange.gov/reference/f3814030-383d-4915-8615-d1e00db524aa.yaml identifier: f3814030-383d-4915-8615-d1e00db524aa uri: /reference/f3814030-383d-4915-8615-d1e00db524aa - attrs: Author: 'Talati, Shuchi; Zhai, Haibo; Kyle, G. Page; Morgan, M. Granger; Patel, Pralit; Liu, Lu' DOI: 10.1021/acs.est.6b01389 Date: 2016/11/15 ISSN: 0013-936X Issue: 22 Journal: Environmental Science & Technology Pages: 12095-12104 Publisher: American Chemical Society Title: 'Consumptive water use from electricity generation in the Southwest under alternative climate, technology, and policy futures' Volume: 50 Year: 2016 _record_number: 23868 _uuid: f3b04c41-c83d-49dc-b7f7-69fb527b0a4f reftype: Journal Article child_publication: /article/10.1021/acs.est.6b01389 href: https://data.globalchange.gov/reference/f3b04c41-c83d-49dc-b7f7-69fb527b0a4f.yaml identifier: f3b04c41-c83d-49dc-b7f7-69fb527b0a4f uri: /reference/f3b04c41-c83d-49dc-b7f7-69fb527b0a4f - attrs: .reference_type: 10 Author: 'Nakashima, D.J.; Galloway McLean, K.; Thulstrup, H.D.; Ramos Castillo, A.; Rubis, J.T.' Pages: 120 Publisher: 'UNESCO, Paris and UNU, Darwin' Title: 'Weathering Uncertainty: Traditional Knowledge for Climate Change Assessment and Adaptation' URL: http://unesdoc.unesco.org/images/0021/002166/216613E.pdf Year: 2012 _record_number: 19124 _uuid: f459e358-3071-4fe5-a934-86ad4b007b57 reftype: Report child_publication: /report/unesco-unu-adaptation-2012 href: https://data.globalchange.gov/reference/f459e358-3071-4fe5-a934-86ad4b007b57.yaml identifier: f459e358-3071-4fe5-a934-86ad4b007b57 uri: /reference/f459e358-3071-4fe5-a934-86ad4b007b57 - attrs: Abstract: 'Global climate change drives sea-level rise, increasing the frequency of coastal flooding. In most coastal regions, the amount of sea-level rise occurring over years to decades is significantly smaller than normal ocean-level fluctuations caused by tides, waves, and storm surge. However, even gradual sea-level rise can rapidly increase the frequency and severity of coastal flooding. So far, global-scale estimates of increased coastal flooding due to sea-level rise have not considered elevated water levels due to waves, and thus underestimate the potential impact. Here we use extreme value theory to combine sea-level projections with wave, tide, and storm surge models to estimate increases in coastal flooding on a continuous global scale. We find that regions with limited water-level variability, i.e., short-tailed flood-level distributions, located mainly in the Tropics, will experience the largest increases in flooding frequency. The 10 to 20 cm of sea-level rise expected no later than 2050 will more than double the frequency of extreme water-level events in the Tropics, impairing the developing economies of equatorial coastal cities and the habitability of low-lying Pacific island nations.' Author: 'Vitousek, Sean; Barnard, Patrick L.; Fletcher, Charles H.; Frazer, Neil; Erikson, Li; Storlazzi, Curt D.' DOI: 10.1038/s41598-017-01362-7 Database Provider: www.nature.com Date: 2017/05/18/ ISSN: 2045-2322 Issue: 1 Journal: Scientific Reports Language: En Pages: 1399 Title: Doubling of coastal flooding frequency within decades due to sea-level rise Volume: 7 Year: 2017 _record_number: 22533 _uuid: f4859f1b-a4d7-4e21-a05b-70204fd6df59 reftype: Journal Article child_publication: /article/10.1038/s41598-017-01362-7 href: https://data.globalchange.gov/reference/f4859f1b-a4d7-4e21-a05b-70204fd6df59.yaml identifier: f4859f1b-a4d7-4e21-a05b-70204fd6df59 uri: /reference/f4859f1b-a4d7-4e21-a05b-70204fd6df59