uri,href,identifier,attrs.Author,attrs.DOI,attrs.Date,attrs.Journal,attrs.Pages,attrs.Publisher,attrs.Title,"attrs.Type of Article",attrs.Volume,attrs.Year,attrs._record_number,attrs._uuid,attrs.reftype,child_publication
/reference/5e24bc5b-9bbc-4c3b-b990-bf22e3359c7f,https://data.globalchange.gov/reference/5e24bc5b-9bbc-4c3b-b990-bf22e3359c7f,5e24bc5b-9bbc-4c3b-b990-bf22e3359c7f,"Paustian, Keith; Lehmann, Johannes; Ogle, Stephen; Reay, David; Robertson, G. Philip; Smith, Pete",10.1038/nature17174,04/06/online,Nature,49-57,"Nature Publishing Group, a division of Macmillan Publishers Limited. All Rights Reserved.","Climate-smart soils",Perspective,532,2016,23567,5e24bc5b-9bbc-4c3b-b990-bf22e3359c7f,"Journal Article",/article/10.1038/nature17174
/reference/5e5f73a6-3e08-4f6f-8e36-e3eeefd225af,https://data.globalchange.gov/reference/5e5f73a6-3e08-4f6f-8e36-e3eeefd225af,5e5f73a6-3e08-4f6f-8e36-e3eeefd225af,"Basso, Bruno; Kendall, Anthony D.; Hyndman, David W.",10.1002/2013EF000107,,"Earth's Future",39-41,"Wiley Periodicals, Inc.","The future of agriculture over the Ogallala Aquifer: Solutions to grow crops more efficiently with limited water",,1,2013,23498,5e5f73a6-3e08-4f6f-8e36-e3eeefd225af,"Journal Article",/article/10.1002/2013EF000107
/reference/5ec155e5-8b77-438f-afa9-fbcac4d27690,https://data.globalchange.gov/reference/5ec155e5-8b77-438f-afa9-fbcac4d27690,5ec155e5-8b77-438f-afa9-fbcac4d27690,"Fann, Neal; Brennan, Terry; Dolwick, Patrick; Gamble, Janet L.; Ilacqua, Vito; Kolb, Laura; Nolte, Christopher G.; Spero, Tanya L.; Ziska, Lewis",10.7930/J0GQ6VP6,,,"69–98","U.S. Global Change Research Program","Ch. 3: Air quality impacts",,,2016,19375,5ec155e5-8b77-438f-afa9-fbcac4d27690,"Book Section",/report/usgcrp-climate-human-health-assessment-2016/chapter/air-quality-impacts
/reference/5efee6e4-446c-4242-a52d-e00f09323e76,https://data.globalchange.gov/reference/5efee6e4-446c-4242-a52d-e00f09323e76,5efee6e4-446c-4242-a52d-e00f09323e76,"Eyshi Rezaei, Ehsan; Webber, Heidi; Gaiser, Thomas; Naab, Jesse; Ewert, Frank",10.1016/j.eja.2014.10.003,2015/03/01/,"European Journal of Agronomy",98-113,,"Heat stress in cereals: Mechanisms and modelling",,64,2015,23518,5efee6e4-446c-4242-a52d-e00f09323e76,"Journal Article",/article/10.1016/j.eja.2014.10.003
/reference/5f9f9d47-4e3b-486f-ac1c-9cb10354ba42,https://data.globalchange.gov/reference/5f9f9d47-4e3b-486f-ac1c-9cb10354ba42,5f9f9d47-4e3b-486f-ac1c-9cb10354ba42,"Yorgey, Georgine G.; Hall, Sonia A.; Allen, Elizabeth R.; Whitefield, Elizabeth M.; Embertson, Nichole M.; Jones, Vincent P.; Saari, Brooke R.; Rajagopalan, Kirti; Roesch-McNally, Gabrielle E.; Van Horne, Beatrice; Abatzoglou, John T.; Collins, Harold P.; Houston, Laurie L.; Ewing, Timothy W.; Kruger, Chad E.",10.3389/fenvs.2017.00052,2017-August-31,"Frontiers in Environmental Science",52,,"Northwest U.S. agriculture in a changing climate: Collaboratively defined research and extension priorities",Review,5,2017,23649,5f9f9d47-4e3b-486f-ac1c-9cb10354ba42,"Journal Article",/article/10.3389/fenvs.2017.00052
/reference/604251b9-8cc1-4971-80cc-ea973e16fd48,https://data.globalchange.gov/reference/604251b9-8cc1-4971-80cc-ea973e16fd48,604251b9-8cc1-4971-80cc-ea973e16fd48,"Korres, Nicholas E.; Norsworthy, Jason K.; Tehranchian, Parsa; Gitsopoulos, Thomas K.; Loka, Dimitra A.; Oosterhuis, Derrick M.; Gealy, David R.; Moss, Stephen R.; Burgos, Nilda R.; Miller, M. Ryan; Palhano, Matheus",10.1007/s13593-016-0350-5,"February 18","Agronomy for Sustainable Development",12,,"Cultivars to face climate change effects on crops and weeds: A review","journal article",36,2016,23549,604251b9-8cc1-4971-80cc-ea973e16fd48,"Journal Article",/article/10.1007/s13593-016-0350-5
/reference/6068acd3-15de-48bb-9e87-c0b9868040ce,https://data.globalchange.gov/reference/6068acd3-15de-48bb-9e87-c0b9868040ce,6068acd3-15de-48bb-9e87-c0b9868040ce,"Johnson, Jane M. F.; Novak, Jeff M.; Varvel, Gary E.; Stott, Diane E.; Osborne, Shannon L.; Karlen, Douglas L.; Lamb, John A.; Baker, John; Adler, Paul R.",10.1007/s12155-013-9402-8,"June 01","BioEnergy Research",481-490,,"Crop residue mass needed to maintain soil organic carbon levels: Can it be determined?","journal article",7,2014,25557,6068acd3-15de-48bb-9e87-c0b9868040ce,"Journal Article",/article/10.1007/s12155-013-9402-8
/reference/611d5fd8-8410-485d-a27d-7b9f961778d9,https://data.globalchange.gov/reference/611d5fd8-8410-485d-a27d-7b9f961778d9,611d5fd8-8410-485d-a27d-7b9f961778d9,"Engle, Nathan L.",10.1016/j.gloenvcha.2011.01.019,,"Global Environmental Change",647-656,,"Adaptive capacity and its assessment",,21,2011,19323,611d5fd8-8410-485d-a27d-7b9f961778d9,"Journal Article",/article/10.1016/j.gloenvcha.2011.01.019
/reference/61f9a80b-d48e-4b6a-88fd-8f0e527d0bbb,https://data.globalchange.gov/reference/61f9a80b-d48e-4b6a-88fd-8f0e527d0bbb,61f9a80b-d48e-4b6a-88fd-8f0e527d0bbb,"U.N. Department of Economic and Social Affairs Population Division,",,,,46,,"World Population Prospects: The 2017 Revision. Key Findings and Advance Tables ",,,2017,23651,61f9a80b-d48e-4b6a-88fd-8f0e527d0bbb,Report,/report/world-population-prospects-2017-revision-key-findings-advance-tables
/reference/6393ec63-0139-465b-9835-fc665681bb6a,https://data.globalchange.gov/reference/6393ec63-0139-465b-9835-fc665681bb6a,6393ec63-0139-465b-9835-fc665681bb6a,,10.1007/978-1-4612-3322-0,,,,Springer,"Soil Degradation",,,1990,23626,6393ec63-0139-465b-9835-fc665681bb6a,"Edited Book",/book/soil-degradation
/reference/63a0e798-02db-4bea-914c-f3ce0fb2f75d,https://data.globalchange.gov/reference/63a0e798-02db-4bea-914c-f3ce0fb2f75d,63a0e798-02db-4bea-914c-f3ce0fb2f75d,"Winder, Monika; Sommer, Ulrich",10.1007/s10750-012-1149-2,"November 01",Hydrobiologia,5-16,,"Phytoplankton response to a changing climate","journal article",698,2012,25531,63a0e798-02db-4bea-914c-f3ce0fb2f75d,"Journal Article",/article/10.1007/s10750-012-1149-2
/reference/63db2021-16af-4542-a6ca-c8c35406118d,https://data.globalchange.gov/reference/63db2021-16af-4542-a6ca-c8c35406118d,63db2021-16af-4542-a6ca-c8c35406118d,"Gammans, Matthew; Pierre Mérel; Ariel Ortiz-Bobea",10.1088/1748-9326/aa6b0c,,"Environmental Research Letters",054007,,"Negative impacts of climate change on cereal yields: Statistical evidence from France",,12,2017,23522,63db2021-16af-4542-a6ca-c8c35406118d,"Journal Article",/article/10.1088/1748-9326/aa6b0c
/reference/646126e1-2c39-4498-891f-a7d36d902899,https://data.globalchange.gov/reference/646126e1-2c39-4498-891f-a7d36d902899,646126e1-2c39-4498-891f-a7d36d902899,"Myers, Samuel S.; Matthew R. Smith; Sarah Guth; Christopher D. Golden; Bapu Vaitla; Nathaniel D. Mueller; Alan D. Dangour; Peter Huybers",10.1146/annurev-publhealth-031816-044356,,"Annual Review of Public Health",259-277,,"Climate change and global food systems: Potential impacts on food security and undernutrition",,38,2017,23236,646126e1-2c39-4498-891f-a7d36d902899,"Journal Article",/article/10.1146/annurev-publhealth-031816-044356
/reference/676460b0-0aba-4f86-9de6-7a5c2ec510ce,https://data.globalchange.gov/reference/676460b0-0aba-4f86-9de6-7a5c2ec510ce,676460b0-0aba-4f86-9de6-7a5c2ec510ce,"Giridhar, Kandalam; Samireddypalle, Anandan",10.1007/978-81-322-2265-1_7,,,97-112,"Springer India","Impact of climate change on forage availability for livestock",,,2015,23523,676460b0-0aba-4f86-9de6-7a5c2ec510ce,"Book Section",/book/450ecae7-e1f5-46fc-88ed-382165034bb6
/reference/68ae490c-ab1d-4cf6-9e49-1d55448c154a,https://data.globalchange.gov/reference/68ae490c-ab1d-4cf6-9e49-1d55448c154a,68ae490c-ab1d-4cf6-9e49-1d55448c154a,"Liu, Bing; Asseng, Senthold; Müller, Christoph; Ewert, Frank; Elliott, Joshua; Lobell, David B; Martre, Pierre; Ruane, Alex C; Wallach, Daniel; Jones, James W; Rosenzweig, Cynthia; Aggarwal, Pramod K; Alderman, Phillip D; Anothai, Jakarat; Basso, Bruno; Biernath, Christian; Cammarano, Davide; Challinor, Andy; Deryng, Delphine; Sanctis, Giacomo De; Doltra, Jordi; Fereres, Elias; Folberth, Christian; Garcia-Vila, Margarita; Gayler, Sebastian; Hoogenboom, Gerrit; Hunt, Leslie A; Izaurralde, Roberto C; Jabloun, Mohamed; Jones, Curtis D; Kersebaum, Kurt C; Kimball, Bruce A; Koehler, Ann-Kristin; Kumar, Soora Naresh; Nendel, Claas; O’Leary, Garry J; Olesen, Jørgen E; Ottman, Michael J; Palosuo, Taru; Prasad, P.  V  Vara; Priesack, Eckart; Pugh, Thomas A  M; Reynolds, Matthew; Rezaei, Ehsan E; Rötter, Reimund P; Schmid, Erwin; Semenov, Mikhail A; Shcherbak, Iurii; Stehfest, Elke; Stöckle, Claudio O; Stratonovitch, Pierre; Streck, Thilo; Supit, Iwan; Tao, Fulu; Thorburn, Peter; Waha, Katharina; Wall, Gerard W; Wang, Enli; White, Jeffrey W; Wolf, Joost; Zhao, Zhigan; Zhu, Yan",10.1038/nclimate3115,09/12/online,"Nature Climate Change",1130-1136,"Nature Publishing Group","Similar estimates of temperature impacts on global wheat yield by three independent methods",Article,6,2016,23554,68ae490c-ab1d-4cf6-9e49-1d55448c154a,"Journal Article",/article/10.1038/nclimate3115
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/reference/6a1bc03d-a204-4f8c-9779-73ee5c44e413,https://data.globalchange.gov/reference/6a1bc03d-a204-4f8c-9779-73ee5c44e413,6a1bc03d-a204-4f8c-9779-73ee5c44e413,"Mader, T. L.; Johnson, L. J.; Gaughan, J. B.",10.2527/jas.2009-2586,,"Journal of Animal Science",2153-2165,,"A comprehensive index for assessing environmental stress in animals",,88,2010,21227,6a1bc03d-a204-4f8c-9779-73ee5c44e413,"Journal Article",/article/10.2527/jas.2009-2586
/reference/6a85cf26-c057-4c91-b60e-9d9e58bbc41a,https://data.globalchange.gov/reference/6a85cf26-c057-4c91-b60e-9d9e58bbc41a,6a85cf26-c057-4c91-b60e-9d9e58bbc41a,"Fischer, E. M.; Knutti, R.",10.1038/nclimate3110,11//print,"Nature Climate Change",986-991,,"Observed heavy precipitation increase confirms theory and early models",,6,2016,21055,6a85cf26-c057-4c91-b60e-9d9e58bbc41a,"Journal Article",/article/10.1038/nclimate3110
/reference/6afea23b-6196-4f63-8c69-59d8d538aeaf,https://data.globalchange.gov/reference/6afea23b-6196-4f63-8c69-59d8d538aeaf,6afea23b-6196-4f63-8c69-59d8d538aeaf,"Otkin, Jason A.; Mark Svoboda; Eric D. Hunt; Trent W. Ford; Martha C. Anderson; Christopher Hain; Jeffrey B. Basara",10.1175/bams-d-17-0149.1,,"Bulletin of the American Meteorological Society",911-919,,"Flash droughts: A review and assessment of the challenges imposed by rapid onset droughts in the United States",,99,2018,25541,6afea23b-6196-4f63-8c69-59d8d538aeaf,"Journal Article",/article/10.1175/bams-d-17-0149.1
/reference/6d4637d5-5eb3-43c9-bb36-050b0ef08df5,https://data.globalchange.gov/reference/6d4637d5-5eb3-43c9-bb36-050b0ef08df5,6d4637d5-5eb3-43c9-bb36-050b0ef08df5,"McGuire, Virginia L.",10.3133/sir20175040,,,24,,"Water-level and recoverable water in storage changes, High Plains aquifer, predevelopment to 2015 and 2013–15",,,2017,23630,6d4637d5-5eb3-43c9-bb36-050b0ef08df5,Report,/report/water-level-recoverable-water-storage-changes-high-plains-aquifer-predevelopment-2015-201315
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/reference/71715436-ea0a-4497-8f82-dc376bb4e5d3,https://data.globalchange.gov/reference/71715436-ea0a-4497-8f82-dc376bb4e5d3,71715436-ea0a-4497-8f82-dc376bb4e5d3,"Hagy, James D.; Boynton, Walter R.; Keefe, Carolyn W.; Wood, Kathryn V.",10.1007/bf02907650,"August 01",Estuaries,634-658,,"Hypoxia in Chesapeake Bay, 1950–2001: Long-term change in relation to nutrient loading and river flow","journal article",27,2004,25566,71715436-ea0a-4497-8f82-dc376bb4e5d3,"Journal Article",/article/10.1007/bf02907650
/reference/7266e04a-9ec1-49cd-9e71-6b9502733ec0,https://data.globalchange.gov/reference/7266e04a-9ec1-49cd-9e71-6b9502733ec0,7266e04a-9ec1-49cd-9e71-6b9502733ec0,"Burke, Marshall; Emerick, Kyle",10.1257/pol.20130025,,"American Economic Journal: Economic Policy",106-40,,"Adaptation to climate change: Evidence from US agriculture",,8,2016,23508,7266e04a-9ec1-49cd-9e71-6b9502733ec0,"Journal Article",/article/10.1257/pol.20130025
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/reference/75a1f815-6b15-4597-abb5-859d8be2d4f1,https://data.globalchange.gov/reference/75a1f815-6b15-4597-abb5-859d8be2d4f1,75a1f815-6b15-4597-abb5-859d8be2d4f1,"Rojas-Downing, M. Melissa; Nejadhashemi, A. Pouyan; Harrigan, Timothy; Woznicki, Sean A.",10.1016/j.crm.2017.02.001,2017/01/01/,"Climate Risk Management",145-163,,"Climate change and livestock: Impacts, adaptation, and mitigation",,16,2017,23574,75a1f815-6b15-4597-abb5-859d8be2d4f1,"Journal Article",/article/10.1016/j.crm.2017.02.001
/reference/75cf1c0b-cc62-4ca4-96a7-082afdfe2ab1,https://data.globalchange.gov/reference/75cf1c0b-cc62-4ca4-96a7-082afdfe2ab1,75cf1c0b-cc62-4ca4-96a7-082afdfe2ab1,USGCRP,10.7930/J0J964J6,,,470,"U.S. Global Change Research Program","Climate Science Special Report: Fourth National Climate Assessment, Volume I",,,2017,21557,75cf1c0b-cc62-4ca4-96a7-082afdfe2ab1,Report,/report/climate-science-special-report
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/reference/76e90b6b-7c3e-465a-a0e1-b1322c415295,https://data.globalchange.gov/reference/76e90b6b-7c3e-465a-a0e1-b1322c415295,76e90b6b-7c3e-465a-a0e1-b1322c415295,"Delgado, Jorge A.; Gantzer, Clark J.",10.2489/jswc.70.6.142A,"November 1, 2015","Journal of Soil and Water Conservation",142A-145A,,"The 4Rs for cover crops and other advances in cover crop management for environmental quality",,70,2015,25576,76e90b6b-7c3e-465a-a0e1-b1322c415295,"Journal Article",/article/10.2489/jswc.70.6.142A
/reference/77718bdb-b632-4762-b8a5-d4151785f65b,https://data.globalchange.gov/reference/77718bdb-b632-4762-b8a5-d4151785f65b,77718bdb-b632-4762-b8a5-d4151785f65b,"Mueller, B.
S.I. Seneviratne",10.1073/pnas.1204330109,,"Proceedings of the National Academy of Sciences of the United States of America",12398-12403,,"Hot days induced by precipitation deficits at the global scale",,109,2012,2121,77718bdb-b632-4762-b8a5-d4151785f65b,"Journal Article",/article/10.1073/pnas.1204330109
/reference/780e0eeb-2c8e-4d64-a1c2-d3a0c8eafdf0,https://data.globalchange.gov/reference/780e0eeb-2c8e-4d64-a1c2-d3a0c8eafdf0,780e0eeb-2c8e-4d64-a1c2-d3a0c8eafdf0,"Brown, Jesslyn F.; Pervez, Md Shahriar",10.1016/j.agsy.2014.01.004,2014/05/01/,"Agricultural Systems",28-40,,"Merging remote sensing data and national agricultural statistics to model change in irrigated agriculture",,127,2014,25453,780e0eeb-2c8e-4d64-a1c2-d3a0c8eafdf0,"Journal Article",/article/10.1016/j.agsy.2014.01.004
/reference/79853924-784a-4bc1-8c47-551d3e6d9bc1,https://data.globalchange.gov/reference/79853924-784a-4bc1-8c47-551d3e6d9bc1,79853924-784a-4bc1-8c47-551d3e6d9bc1,"Zhao, Chuang; Liu, Bing; Piao, Shilong; Wang, Xuhui; Lobell, David B.; Huang, Yao; Huang, Mengtian; Yao, Yitong; Bassu, Simona; Ciais, Philippe; Durand, Jean-Louis; Elliott, Joshua; Ewert, Frank; Janssens, Ivan A.; Li, Tao; Lin, Erda; Liu, Qiang; Martre, Pierre; Müller, Christoph; Peng, Shushi; Peñuelas, Josep; Ruane, Alex C.; Wallach, Daniel; Wang, Tao; Wu, Donghai; Liu, Zhuo; Zhu, Yan; Zhu, Zaichun; Asseng, Senthold",10.1073/pnas.1701762114,"August 29, 2017","Proceedings of the National Academy of Sciences of the United States of America",9326-9331,,"Temperature increase reduces global yields of major crops in four independent estimates",,114,2017,23596,79853924-784a-4bc1-8c47-551d3e6d9bc1,"Journal Article",/article/10.1073/pnas.1701762114
/reference/79a8b35d-8f50-44c3-ba7d-a8c76f407620,https://data.globalchange.gov/reference/79a8b35d-8f50-44c3-ba7d-a8c76f407620,79a8b35d-8f50-44c3-ba7d-a8c76f407620,"CDC,",,"Jun 20","MMWR: Morbidity and Mortality Weekly Report",649-653,,"Heat-related deaths among crop workers—United States, 1992–2006",,57,2008,16418,79a8b35d-8f50-44c3-ba7d-a8c76f407620,"Journal Article",/article/pmid-18566563
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