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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/reference/7be68f4e-1a0a-4d76-8441-2c2cc6cf2988,https://data.globalchange.gov/reference/7be68f4e-1a0a-4d76-8441-2c2cc6cf2988,7be68f4e-1a0a-4d76-8441-2c2cc6cf2988,"MRLC,",,,,,"Multi-Resolution Land Characteristics (MRLC) Consortium","National Land Cover Database 2011 (NLCD 2011) ",,,[2017],23631,7be68f4e-1a0a-4d76-8441-2c2cc6cf2988,"Web Page",/webpage/b3a748a6-c045-4eb9-a7fe-039b09f5078a
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/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,Mar-Apr,"Agronomy Journal",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
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/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,,"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
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Bell, M.L.",10.1289/ehp.1002313,,"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
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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,"U.S. Global Change Research Program","Ch. 2: Our Changing Climate",,,2014,4713,a6a312ba-6fd1-4006-9a60-45112db52190,"Book Section",/report/nca3/chapter/our-changing-climate
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/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,"May 01","Climatic Change",199-212,,"A healthier US diet could reduce greenhouse gas emissions from both the food and health care systems","journal article",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