uri,href,identifier,attrs.Author,attrs.DOI,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/a0905615-ac31-42ba-a70f-592a5729fdf7,https://data.globalchange.gov/reference/a0905615-ac31-42ba-a70f-592a5729fdf7,a0905615-ac31-42ba-a70f-592a5729fdf7,"Slater, Louise J.; Villarini, Gabriele",10.1002/2016GL071199,1944-8007,24,"Geophysical Research Letters","flood; stage; precipitation; water storage; basin wetness; risk; 1821 Floods; 1833 Hydroclimatology; 1854 Precipitation; 4313 Extreme events; 4328 Risk; 8488 Volcanic hazards and risks","12,428-12,436","Recent trends in U.S. flood risk",43,2016,23578,a0905615-ac31-42ba-a70f-592a5729fdf7,"Journal Article",/article/10.1002/2016GL071199
/reference/a135e44f-ac84-4613-9c06-e2457e7083ca,https://data.globalchange.gov/reference/a135e44f-ac84-4613-9c06-e2457e7083ca,a135e44f-ac84-4613-9c06-e2457e7083ca,"Hallström, E.; Carlsson-Kanyama, A.; Börjesson, P.",10.1016/j.jclepro.2014.12.008,0959-6526,,"Journal of Cleaner Production","Review; LCA; Diet; Scenario; Climate; Land use",1-11,"Environmental impact of dietary change: A systematic review",91,2015,25565,a135e44f-ac84-4613-9c06-e2457e7083ca,"Journal Article",/article/10.1016/j.jclepro.2014.12.008
/reference/a1a77335-94af-4990-86b9-57f5764448f8,https://data.globalchange.gov/reference/a1a77335-94af-4990-86b9-57f5764448f8,a1a77335-94af-4990-86b9-57f5764448f8,"Pimentel, David; Burgess, Michael",10.3390/agriculture3030443,2077-0472,3,Agriculture,,443-463,"Soil erosion threatens food production",3,2013,23569,a1a77335-94af-4990-86b9-57f5764448f8,"Journal Article",/article/10.3390/agriculture3030443
/reference/a1b71240-d505-46e0-9db7-9147b8855af6,https://data.globalchange.gov/reference/a1b71240-d505-46e0-9db7-9147b8855af6,a1b71240-d505-46e0-9db7-9147b8855af6,"Thornton, P.K.",10.1098/rstb.2010.0134,0962-8436,1554,"Philosophical Transactions of the Royal Society B: Biological Sciences",,2853-2867,"Livestock production: Recent trends, future prospects",365,2010,15622,a1b71240-d505-46e0-9db7-9147b8855af6,"Journal Article",/article/10.1098/rstb.2010.0134
/reference/a2704ef3-5be4-41ee-8dfa-4c82e416a292,https://data.globalchange.gov/reference/a2704ef3-5be4-41ee-8dfa-4c82e416a292,a2704ef3-5be4-41ee-8dfa-4c82e416a292,"Hatfield, J. L.
Boote, K. J.
Kimball, B. A.
Ziska, L. H.
Izaurralde, R. C.
Ort, D.
Thomson, A. M.
Wolfe, D.",10.2134/agronj2010.0303,1435-0645,2,"Agronomy Journal","air co2 enrichment; atmospheric carbon-dioxide; water-use efficiency; phaseolus-vulgaris l.; solanum-tuberosum l.; rottboellia-cochinchinensis interference; endosperm cell-division; high-temperature stress; soybean glycine-max; long-term exposure",351-370,"Climate impacts on agriculture: Implications for crop production",103,2011,361,a2704ef3-5be4-41ee-8dfa-4c82e416a292,"Journal Article",/article/10.2134/agronj2010.0303
/reference/a29b612b-8c28-4c93-9c18-19314babce89,https://data.globalchange.gov/reference/a29b612b-8c28-4c93-9c18-19314babce89,a29b612b-8c28-4c93-9c18-19314babce89,"Wehner, M.F.; J.R. Arnold; T. Knutson; K.E. Kunkel; A.N. LeGrande",10.7930/J0CJ8BNN,,,,,231-256,"Droughts, Floods, and Wildfires",,2017,21566,a29b612b-8c28-4c93-9c18-19314babce89,"Book Section",/report/climate-science-special-report/chapter/drought-floods-hydrology
/reference/a2a02512-dacf-46f0-8f9f-9cb51892a884,https://data.globalchange.gov/reference/a2a02512-dacf-46f0-8f9f-9cb51892a884,a2a02512-dacf-46f0-8f9f-9cb51892a884,"Farrigan, Tracey; Parker, Timothy",,,December,,,,"The concentration of poverty is a growing rural problem",,2012,23609,a2a02512-dacf-46f0-8f9f-9cb51892a884,"Electronic Article",/generic/83d540f2-7603-4be1-8d22-81ebafc6a270
/reference/a2b2aa19-07d5-4feb-9f29-b3cfd32d2ef8,https://data.globalchange.gov/reference/a2b2aa19-07d5-4feb-9f29-b3cfd32d2ef8,a2b2aa19-07d5-4feb-9f29-b3cfd32d2ef8,"Steenwerth, Kerri L.; Hodson, Amanda K.; Bloom, Arnold J.; Carter, Michael R.; Cattaneo, Andrea; Chartres, Colin J.; Hatfield, Jerry L.; Henry, Kevin; Hopmans, Jan W.; Horwath, William R.; Jenkins, Bryan M.; Kebreab, Ermias; Leemans, Rik; Lipper, Leslie; Lubell, Mark N.; Msangi, Siwa; Prabhu, Ravi; Reynolds, Matthew P.; Sandoval Solis, Samuel; Sischo, William M.; Springborn, Michael; Tittonell, Pablo; Wheeler, Stephen M.; Vermeulen, Sonja J.; Wollenberg, Eva K.; Jarvis, Lovell S.; Jackson, Louise E.",10.1186/2048-7010-3-11,2048-7010,1,"Agriculture & Food Security",,11,"Climate-smart agriculture global research agenda: Scientific basis for action",3,2014,23580,a2b2aa19-07d5-4feb-9f29-b3cfd32d2ef8,"Journal Article",/article/10.1186/2048-7010-3-11
/reference/a2ccdea7-17d6-459b-b908-f48df4eccd0c,https://data.globalchange.gov/reference/a2ccdea7-17d6-459b-b908-f48df4eccd0c,a2ccdea7-17d6-459b-b908-f48df4eccd0c,"Pragna, Prathap; P.R. Archana; Joy Aleena; Veerasamy Sejian; Govindan Krishnan; Madiajagan Bagath; A. Manimaran; V. Beena; E.K. Kurien; Girish Varma; Raghavendra Bhatta",10.3923/ijds.2017.1.11,,1,"International Journal of Dairy Science",,1-11,"Heat stress and dairy cow: Impact on both milk yield and composition",12,2017,23570,a2ccdea7-17d6-459b-b908-f48df4eccd0c,"Journal Article",/article/10.3923/ijds.2017.1.11
/reference/a3db13d8-8d86-4e23-86fc-e82355c496cb,https://data.globalchange.gov/reference/a3db13d8-8d86-4e23-86fc-e82355c496cb,a3db13d8-8d86-4e23-86fc-e82355c496cb,"O’Shaughnessy, Susan A.; Colaizzi, Paul D.",10.3390/agronomy7040068,2073-4395,4,Agronomy,,68,"Performance of precision mobile drip irrigation in the Texas High Plains region",7,2017,25542,a3db13d8-8d86-4e23-86fc-e82355c496cb,"Journal Article",/article/10.3390/agronomy7040068
/reference/a4383ca4-be00-434c-a0d9-78e7bec564f7,https://data.globalchange.gov/reference/a4383ca4-be00-434c-a0d9-78e7bec564f7,a4383ca4-be00-434c-a0d9-78e7bec564f7,"Renaudeau, D.; Collin, A.; Yahav, S.; de Basilio, V.; Gourdine, J. L.; Collier, R. J.",10.1017/S1751731111002448,1751-7311,5,Animal,"livestock animals; heat stress; nutrition; cooling; genetic",707-728,"Adaptation to hot climate and strategies to alleviate heat stress in livestock production",6,2011,23573,a4383ca4-be00-434c-a0d9-78e7bec564f7,"Journal Article",/article/10.1017/S1751731111002448
/reference/a4c2aa51-8e45-47c2-a948-2e6988a06dcd,https://data.globalchange.gov/reference/a4c2aa51-8e45-47c2-a948-2e6988a06dcd,a4c2aa51-8e45-47c2-a948-2e6988a06dcd,"Zhao, Jin; Xue, Qingwu; Jessup, Kirk E.; Hao, Baozhen; Hou, Xiaobo; Marek, Thomas H.; Xu, Wenwei; Evett, Steven R.; O’Shaughnessy, Susan A.; Brauer, David K.",10.1016/j.fcr.2017.11.001,0378-4290,,"Field Crops Research","Drought-tolerant hybrid; Soil water extraction; Deficit irrigation; Evapotranspiration",1-9,"Yield and water use of drought-tolerant maize hybrids in a semiarid environment",216,2018,25529,a4c2aa51-8e45-47c2-a948-2e6988a06dcd,"Journal Article",/article/10.1016/j.fcr.2017.11.001
/reference/a4d81109-2631-4662-a567-950e485cb33c,https://data.globalchange.gov/reference/a4d81109-2631-4662-a567-950e485cb33c,a4d81109-2631-4662-a567-950e485cb33c,"Pitesky, Maurice; Gunasekara, Amrith; Cook, Carolyn; Mitloehner, Frank",10.1007/s40518-014-0006-5,2196-3010,2,"Current Sustainable/Renewable Energy Reports",,43-50,"Adaptation of agricultural and food systems to a changing climate and increasing urbanization",1,2014,23568,a4d81109-2631-4662-a567-950e485cb33c,"Journal Article",/article/10.1007/s40518-014-0006-5
/reference/a5604aed-9a6f-468e-acf4-f4a0bb574d3e,https://data.globalchange.gov/reference/a5604aed-9a6f-468e-acf4-f4a0bb574d3e,a5604aed-9a6f-468e-acf4-f4a0bb574d3e,"Margolis, E. Q.; Woodhouse, C. A.; Swetnam, T. W.",10.1007/s10584-017-1958-4,1573-1480,3,"Climatic Change",,433-446,"Drought, multi-seasonal climate, and wildfire in northern New Mexico",142,2017,23557,a5604aed-9a6f-468e-acf4-f4a0bb574d3e,"Journal Article",/article/10.1007/s10584-017-1958-4
/reference/a56403f7-94cd-4e15-bcb4-267da7214768,https://data.globalchange.gov/reference/a56403f7-94cd-4e15-bcb4-267da7214768,a56403f7-94cd-4e15-bcb4-267da7214768,"Irmak, Suat; Rees, Jennifer M.; Zoubek, Gary L.; van DeWalle, Brandy S.; Rathje, William R.; DeBuhr, Rodney; Leininger, Dan; Siekman, Darrel D.; Schneider, James W.; Christiansen, Andrew P.",10.13031/2013.32066,0883-8542,4,"Applied Engineering in Agriculture","Water conservation; Irrigation management; Reference evapotranspiration; Crop evapotranspiration; Soil moisture",599-613,"Nebraska Agricultural Water Management Demonstration Network (NAWMDN): Integrating research and extension/outreach",26,2010,23538,a56403f7-94cd-4e15-bcb4-267da7214768,"Journal Article",/article/10.13031/2013.32066
/reference/a5d430bc-5756-42d1-924f-3dbc927e69c4,https://data.globalchange.gov/reference/a5d430bc-5756-42d1-924f-3dbc927e69c4,a5d430bc-5756-42d1-924f-3dbc927e69c4,"Oleson, K. W.; Anderson, G. B.; Jones, B.; McGinnis, S. A.; Sanderson, B.",10.1007/s10584-015-1504-1,1573-1480,,"Climatic Change",,,"Avoided climate impacts of urban and rural heat and cold waves over the U.S. using large climate model ensembles for RCP8.5 and RCP4.5",,2015,23564,a5d430bc-5756-42d1-924f-3dbc927e69c4,"Journal Article",/article/10.1007/s10584-015-1504-1
/reference/a6714dce-b324-4324-a88e-d31d31fa2d95,https://data.globalchange.gov/reference/a6714dce-b324-4324-a88e-d31d31fa2d95,a6714dce-b324-4324-a88e-d31d31fa2d95,"Anderson, G.B.
Bell, M.L.",10.1289/ehp.1002313,1552-9924,2,"Environmental Health Perspectives",,210-218,"Heat waves in the United States: Mortality risk during heat waves and effect modification by heat wave characteristics in 43 U.S. communities",119,2011,837,a6714dce-b324-4324-a88e-d31d31fa2d95,"Journal Article",/article/10.1289/ehp.1002313
/reference/a6768848-84dd-4d43-b3fd-83a4ea5e8c2c,https://data.globalchange.gov/reference/a6768848-84dd-4d43-b3fd-83a4ea5e8c2c,a6768848-84dd-4d43-b3fd-83a4ea5e8c2c,"Mann, Michael E.; Gleick, Peter H.",10.1073/pnas.1503667112,,13,"Proceedings of the National Academy of Sciences of the United States of America",,3858-3859,"Climate change and California drought in the 21st century",112,2015,19784,a6768848-84dd-4d43-b3fd-83a4ea5e8c2c,"Journal Article",/article/10.1073/pnas.1503667112
/reference/a6a312ba-6fd1-4006-9a60-45112db52190,https://data.globalchange.gov/reference/a6a312ba-6fd1-4006-9a60-45112db52190,a6a312ba-6fd1-4006-9a60-45112db52190,"Walsh, John
Wuebbles, Donald
Hayhoe, Katharine
Kossin, James
Kunkel, Kenneth
Stephens, Graeme
Thorne, Peter
Vose, Russell
Wehner, Michael
Willis, Josh
Anderson, David
Doney, Scott
Feely, Richard
Hennon, Paula
Kharin, Viatcheslav
Knutson, Thomas
Landerer, Felix
Lenton, Tim
Kennedy, John
Somerville, Richard",10.7930/J0KW5CXT,,,,,19-67,"Ch. 2: Our Changing Climate",,2014,4713,a6a312ba-6fd1-4006-9a60-45112db52190,"Book Section",/report/nca3/chapter/our-changing-climate
/reference/a72ad8b0-77de-44f6-94f6-430dacc1bd69,https://data.globalchange.gov/reference/a72ad8b0-77de-44f6-94f6-430dacc1bd69,a72ad8b0-77de-44f6-94f6-430dacc1bd69,"Kassel, Kathleen; Alex Melton; Rosanna Mentzer Morrison",,,,,,27,"Selected charts from Ag and Food Statistics: Charting the Essentials",,2017,25555,a72ad8b0-77de-44f6-94f6-430dacc1bd69,Report,/report/selected-charts-ag-food-statistics-charting-essentials
/reference/a7f65acb-6a76-40fc-8d42-e90119259f42,https://data.globalchange.gov/reference/a7f65acb-6a76-40fc-8d42-e90119259f42,a7f65acb-6a76-40fc-8d42-e90119259f42,"State of California,",,,,,,,"Sustainable Groundwater Management",,2016,23638,a7f65acb-6a76-40fc-8d42-e90119259f42,"Web Page",/webpage/29115a9a-6f59-45ec-88d4-8e6a812f7522
/reference/a9708eb3-aa48-4434-919d-ccac9f56ee34,https://data.globalchange.gov/reference/a9708eb3-aa48-4434-919d-ccac9f56ee34,a9708eb3-aa48-4434-919d-ccac9f56ee34,"Díaz, Robert J.; Rosenberg, Rutger",10.1080/07900627.2010.531379,0790-0627,1,"International Journal of Water Resources Development",,71-82,"Introduction to environmental and economic consequences of hypoxia",27,2011,25574,a9708eb3-aa48-4434-919d-ccac9f56ee34,"Journal Article",/article/10.1080/07900627.2010.531379
/reference/aa176a1e-7be0-4a50-9099-3656f2bb7d42,https://data.globalchange.gov/reference/aa176a1e-7be0-4a50-9099-3656f2bb7d42,aa176a1e-7be0-4a50-9099-3656f2bb7d42,"Baenziger, P. Stephen ; Rita Mumm; Rex Bernardo; E. Charles Brummer; Peter Langridge; Philipp Simon; Stephen Smith",,,,,,24,"Plant Breeding and Genetics. A Paper in the Series on The Need for Agricultural Innovation to Sustainably Feed the World by 2050",,2017,23602,aa176a1e-7be0-4a50-9099-3656f2bb7d42,Report,/report/plant-breeding-genetics-paper-series-on-need-agricultural-innovation-sustainably-feed-world-by-2050
/reference/aa5c6ab0-74a3-40c4-83a3-0093480b9603,https://data.globalchange.gov/reference/aa5c6ab0-74a3-40c4-83a3-0093480b9603,aa5c6ab0-74a3-40c4-83a3-0093480b9603,"Hallström, Elinor; Gee, Quentin; Scarborough, Peter; Cleveland, David A.",10.1007/s10584-017-1912-5,1573-1480,1,"Climatic Change",,199-212,"A healthier US diet could reduce greenhouse gas emissions from both the food and health care systems",142,2017,23526,aa5c6ab0-74a3-40c4-83a3-0093480b9603,"Journal Article",/article/10.1007/s10584-017-1912-5
/reference/aa7e61cd-e4b5-47d8-96eb-6ef0dfc4e2ae,https://data.globalchange.gov/reference/aa7e61cd-e4b5-47d8-96eb-6ef0dfc4e2ae,aa7e61cd-e4b5-47d8-96eb-6ef0dfc4e2ae,"Key, Nigel; Stacy Sneeringer; David Marquardt",,,,,,45,"Climate Change, Heat Stress, and U.S. Dairy Production",,2014,23623,aa7e61cd-e4b5-47d8-96eb-6ef0dfc4e2ae,Report,/report/climate-change-heat-stress-us-dairy-production