uri,href,identifier,attrs.Author,attrs.DOI,attrs.Date,attrs.ISSN,attrs.Journal,attrs.Keywords,attrs.Pages,attrs.Title,attrs.Volume,attrs.Year,attrs._record_number,attrs._uuid,attrs.reftype,child_publication
/reference/00d193af-455c-4c08-9a6f-a3ada2072ece,https://data.globalchange.gov/reference/00d193af-455c-4c08-9a6f-a3ada2072ece,00d193af-455c-4c08-9a6f-a3ada2072ece,"Binita, K-C; Shepherd, J. Marshall; Gaither, Cassandra Johnson",10.1016/j.apgeog.2015.04.007,2015/08/01/,0143-6228,"Applied Geography","Climate change; Biophysical and social vulnerabilities; Climate extremes; Georgia",62-74,"Climate change vulnerability assessment in Georgia",62,2015,24042,00d193af-455c-4c08-9a6f-a3ada2072ece,"Journal Article",/article/10.1016/j.apgeog.2015.04.007
/reference/00e98394-26f1-45da-a5a3-e79b2b1a356f,https://data.globalchange.gov/reference/00e98394-26f1-45da-a5a3-e79b2b1a356f,00e98394-26f1-45da-a5a3-e79b2b1a356f,"Neumann, J. E.; Price, J.; Chinowsky, P.; Wright, L.; Ludwig, L.; Streeter, R.; Jones, R.; Smith, J. B.; Perkins, W.; Jantarasami, L.; Martinich, J.",10.1007/s10584-013-1037-4,Jul,0165-0009,"Climatic Change","Infrastructure; Urban; Climate change; Transportation; Projection",97-109,"Climate change risks to US infrastructure: Impacts on roads, bridges, coastal development, and urban drainage",131,2015,22805,00e98394-26f1-45da-a5a3-e79b2b1a356f,"Journal Article",/article/10.1007/s10584-013-1037-4
/reference/01b0f914-7423-4f14-8ba9-84eb40e00ab9,https://data.globalchange.gov/reference/01b0f914-7423-4f14-8ba9-84eb40e00ab9,01b0f914-7423-4f14-8ba9-84eb40e00ab9,"Sakai, Akira; Larcher, Walter ",10.1007/978-3-642-71745-1,,,,,,"Frost Survival of Plants: Responses and Adaptation to Freezing Stress",,1987,24374,01b0f914-7423-4f14-8ba9-84eb40e00ab9,Book,/book/frost-survival-plants-responses-adaptation-freezing-stress
/reference/03b93c14-307e-4128-b0c9-304092f5031f,https://data.globalchange.gov/reference/03b93c14-307e-4128-b0c9-304092f5031f,03b93c14-307e-4128-b0c9-304092f5031f,"Morton, Julia F.",10.1007/bf02907927,"October 01",1874-9364,"Economic Botany",,353-359,"Brazilian pepper—Its impact on people, animals and the environment",32,1978,24360,03b93c14-307e-4128-b0c9-304092f5031f,"Journal Article",/article/10.1007/bf02907927
/reference/03e51664-273d-40e5-8af0-ab885436ac8e,https://data.globalchange.gov/reference/03e51664-273d-40e5-8af0-ab885436ac8e,03e51664-273d-40e5-8af0-ab885436ac8e,"Moftakhari, Hamed R.; AghaKouchak, Amir; Sanders, Brett F.; Feldman, David L.; Sweet, William; Matthew, Richard A.; Luke, Adam",10.1002/2015GL066072,,1944-8007,"Geophysical Research Letters","nuisance flooding; sea level rise; coastal region; climate change impacts; socio-economic threat; 1821 Floods; 4217 Coastal processes; 4215 Climate and interannual variability; 4304 Oceanic; 4556 Sea level: variations and mean",9846-9852,"Increased nuisance flooding along the coasts of the United States due to sea level rise: Past and future",42,2015,19963,03e51664-273d-40e5-8af0-ab885436ac8e,"Journal Article",/article/10.1002/2015GL066072
/reference/048006a1-a72d-44a1-bdab-fff317c842f7,https://data.globalchange.gov/reference/048006a1-a72d-44a1-bdab-fff317c842f7,048006a1-a72d-44a1-bdab-fff317c842f7,"Sweet, W. V.; J. J. Marra",,,,,,5,"2015 State of U.S. Nuisance Tidal Flooding. Supplement to State of the Climate: National Overview for May 2016",,2016,20609,048006a1-a72d-44a1-bdab-fff317c842f7,Report,/report/state-us-nuisance-tidal-flooding-supplement-state-climate-national-overview-may-2016
/reference/04aa6da1-18ac-435a-b31d-f4f65da727df,https://data.globalchange.gov/reference/04aa6da1-18ac-435a-b31d-f4f65da727df,04aa6da1-18ac-435a-b31d-f4f65da727df,"NOAA NCEI,",,,,,,,"Billion-Dollar Weather and Climate Disasters [web page]",,2018,21310,04aa6da1-18ac-435a-b31d-f4f65da727df,"Web Page",/webpage/0e668d96-b03f-403d-9e60-a816c99c6ac4
/reference/04bcac75-caf7-452a-b1c8-de49f216c240,https://data.globalchange.gov/reference/04bcac75-caf7-452a-b1c8-de49f216c240,04bcac75-caf7-452a-b1c8-de49f216c240,"Bentz, Barbara J.; Jönsson, Anna Maria",10.1016/B978-0-12-417156-5.00013-7,,,,"bark beetles; climate change; Dendroctonus; development time; global warming; Hylobius; Hypothenemus; Ips; model; temperature",533-553,"Chapter 13 : Modeling bark beetle responses to climate change",,2015,24293,04bcac75-caf7-452a-b1c8-de49f216c240,"Book Section",/book/917119e1-871d-4e6d-aecd-d1b7d97342fa
/reference/05fe67d5-19d2-4d60-a223-99d1e41c928f,https://data.globalchange.gov/reference/05fe67d5-19d2-4d60-a223-99d1e41c928f,05fe67d5-19d2-4d60-a223-99d1e41c928f,"NASS,",,,,,,11,"Farm labor methodology and quality measures",,2017,26334,05fe67d5-19d2-4d60-a223-99d1e41c928f,Report,/report/farm-labor-methodology-quality-measures
/reference/0685a072-6516-4a47-80ad-cbbd75fd4dcc,https://data.globalchange.gov/reference/0685a072-6516-4a47-80ad-cbbd75fd4dcc,0685a072-6516-4a47-80ad-cbbd75fd4dcc,"Perica, Sanja; Deborah Martin; Sandra Pavlovic; Ishani Roy; Michael St. Laurent; Carl Trypaluk; Dale Unruh; Michael Yekta; Geoffrey Bonnin ",,,,,,various,"Precipitation-Frequency Atlas of the United States. Volume 9 Version 2.0:  Southeastern States (Alabama, Arkansas, Florida, Georgia, Louisiana, Mississippi) ",,2013,24406,0685a072-6516-4a47-80ad-cbbd75fd4dcc,Report,/report/precipitation-frequency-atlas-united-states-volume-9-version-20-southeastern-states-alabama-arkansas-florida-georgia-louisiana-mississippi
/reference/08609205-aa10-4dd1-b383-3528ffdb7db9,https://data.globalchange.gov/reference/08609205-aa10-4dd1-b383-3528ffdb7db9,08609205-aa10-4dd1-b383-3528ffdb7db9,"Starr, G.; Staudhammer, C. L.; Loescher, H. W.; Mitchell, R.; Whelan, A.; Hiers, J. K.; O’Brien, J. J.",10.1007/s11056-014-9447-3,"January 01",1573-5095,"New Forests",,63-90,"Time series analysis of forest carbon dynamics: Recovery of Pinus palustris physiology following a prescribed fire",46,2015,26299,08609205-aa10-4dd1-b383-3528ffdb7db9,"Journal Article",/article/10.1007/s11056-014-9447-3
/reference/09848305-b2eb-4468-bab9-036dd20b9c2e,https://data.globalchange.gov/reference/09848305-b2eb-4468-bab9-036dd20b9c2e,09848305-b2eb-4468-bab9-036dd20b9c2e,"Liu, Yongqiang
Stanturf, John
Goodrick, Scott",10.1016/j.foreco.2009.09.002,"Feb 5",0378-1127,"Forest Ecology and Management",,685-697,"Trends in global wildfire potential in a changing climate",259,2010,1695,09848305-b2eb-4468-bab9-036dd20b9c2e,"Journal Article",/article/10.1016/j.foreco.2009.09.002
/reference/0a8508df-df59-4080-89a2-52bfeaca47e0,https://data.globalchange.gov/reference/0a8508df-df59-4080-89a2-52bfeaca47e0,0a8508df-df59-4080-89a2-52bfeaca47e0,"Lauren E. Parker; John T. Abatzoglou",10.1088/1748-9326/11/3/034001,,1748-9326,"Environmental Research Letters",,034001,"Projected changes in cold hardiness zones and suitable overwinter ranges of perennial crops over the United States",11,2016,19787,0a8508df-df59-4080-89a2-52bfeaca47e0,"Journal Article",/article/10.1088/1748-9326/11/3/034001
/reference/0b24a8b0-fa60-4ddd-9536-8ddb2a1cd11e,https://data.globalchange.gov/reference/0b24a8b0-fa60-4ddd-9536-8ddb2a1cd11e,0b24a8b0-fa60-4ddd-9536-8ddb2a1cd11e,"Simmons, Kevin M.; Czajkowski, Jeffrey; Done, James","10.2139/ssrn.2963244 ",,,,,64,"Economic effectiveness of implementing a statewide building code: The case of Florida",,2017,26310,0b24a8b0-fa60-4ddd-9536-8ddb2a1cd11e,Report,/report/economic-effectiveness-implementing-statewide-building-code-case-florida
/reference/0b30f1ab-e4c4-4837-aa8b-0e19faccdb94,https://data.globalchange.gov/reference/0b30f1ab-e4c4-4837-aa8b-0e19faccdb94,0b30f1ab-e4c4-4837-aa8b-0e19faccdb94,"EPA,",,,,,,271,"Multi-model Framework for Quantitative Sectoral Impacts Analysis: A Technical Report for the Fourth National Climate Assessment",,2017,21365,0b30f1ab-e4c4-4837-aa8b-0e19faccdb94,Report,/report/epa-multi-model-framework-for-quantitative-sectoral-impacts-analysis-2017
/reference/0b46c942-55d2-4926-86d3-7afe04a29825,https://data.globalchange.gov/reference/0b46c942-55d2-4926-86d3-7afe04a29825,0b46c942-55d2-4926-86d3-7afe04a29825,"Duke, Norman C.; Kovacs, John M.; Griffiths, Anthony D.; Preece, Luke; Hill, Duncan J. E.; van Oosterzee, Penny; Mackenzie, Jock; Morning, Hailey S.; Burrows, Damien",10.1071/MF16322,,,"Marine & Freshwater Research","mangrove forests, plant–climate interactions, tidal wetlands.",1816-1829,"Large-scale dieback of mangroves in Australia’s Gulf of Carpentaria: A severe ecosystem response, coincidental with an unusually extreme weather event",68,2017,24282,0b46c942-55d2-4926-86d3-7afe04a29825,"Journal Article",/article/10.1071/MF16322
/reference/0beba6aa-bd6f-4681-a8cf-efb333c00cb3,https://data.globalchange.gov/reference/0beba6aa-bd6f-4681-a8cf-efb333c00cb3,0beba6aa-bd6f-4681-a8cf-efb333c00cb3,"Guo, Hongyu; Weaver, Carolyn; Charles, Sean P.; Whitt, Ashley; Dastidar, Sayantani; D'Odorico, Paolo; Fuentes, Jose D.; Kominoski, John S.; Armitage, Anna R.; Pennings, Steven C.",10.1002/ecy.1698,,1939-9170,Ecology,"coastal ecosystem; ecosystem function; foundation species; mangrove; regime shift; salt marsh",762-772,"Coastal regime shifts: Rapid responses of coastal wetlands to changes in mangrove cover",98,2017,24323,0beba6aa-bd6f-4681-a8cf-efb333c00cb3,"Journal Article",/article/10.1002/ecy.1698
/reference/0c253c19-ed18-488b-b8aa-b1f6a8cd9e2b,https://data.globalchange.gov/reference/0c253c19-ed18-488b-b8aa-b1f6a8cd9e2b,0c253c19-ed18-488b-b8aa-b1f6a8cd9e2b,"Saha, Amartya K.; Saha, Sonali; Sadle, Jimi; Jiang, Jiang; Ross, Michael S.; Price, René M.; Sternberg, Leonel S. L. O.; Wendelberger, Kristie S.",10.1007/s10584-011-0082-0,"July 01",1573-1480,"Climatic Change",,81-108,"Sea level rise and South Florida coastal forests",107,2011,24373,0c253c19-ed18-488b-b8aa-b1f6a8cd9e2b,"Journal Article",/article/10.1007/s10584-011-0082-0
/reference/0ce923ae-039c-4fe4-bbcf-a4c634266e18,https://data.globalchange.gov/reference/0ce923ae-039c-4fe4-bbcf-a4c634266e18,0ce923ae-039c-4fe4-bbcf-a4c634266e18,"Yando, Erik S.; Osland, Michael J.; Willis, Jonathan M.; Day, Richard H.; Krauss, Ken W.; Hester, Mark W.",10.1111/1365-2745.12571,,1365-2745,"Journal of Ecology","carbon storage; climate change; ecotone; forest development; mangrove forest; plant–soil (below-ground) interactions; range expansion; salt marsh; soil development; woody plant encroachment",1020-1031,"Salt marsh-mangrove ecotones: Using structural gradients to investigate the effects of woody plant encroachment on plant–soil interactions and ecosystem carbon pools",104,2016,24395,0ce923ae-039c-4fe4-bbcf-a4c634266e18,"Journal Article",/article/10.1111/1365-2745.12571
/reference/0d082d03-16a8-44b2-989a-cfd1be8ad8b2,https://data.globalchange.gov/reference/0d082d03-16a8-44b2-989a-cfd1be8ad8b2,0d082d03-16a8-44b2-989a-cfd1be8ad8b2,"Williams, John W.; Shuman, Bryan N.; Webb, Thompson; Bartlein, Patrick J.; Leduc, Phillip L.",10.1890/02-4045,,1557-7015,"Ecological Monographs","biome maps; biome reconstruction, pollen-based; fossil pollen data; North America, vegetation history; paleoecology; plant functional types; Quaternary; vegetation dynamics; vegetation history",309-334,"Late-quaternary vegetation dynamics in North America: Scaling from taxa to biomes",74,2004,24391,0d082d03-16a8-44b2-989a-cfd1be8ad8b2,"Journal Article",/article/10.1890/02-4045
/reference/0f9545b2-e0ff-42fb-a5df-7237a2e9d494,https://data.globalchange.gov/reference/0f9545b2-e0ff-42fb-a5df-7237a2e9d494,0f9545b2-e0ff-42fb-a5df-7237a2e9d494,"Rosenzweig, C.; Solecki, W.; Romero-Lankao, P.; Mehrotra, S.; Dhakal, S.; Bowman, T.; Ali Ibrahim, S.",,,,,"added by ERG",,"ARC3.2 Summary for City Leaders",,2015,22907,0f9545b2-e0ff-42fb-a5df-7237a2e9d494,Report,/report/arc32-summary-city-leaders
/reference/102550e4-9c8d-4799-813b-844c0f04a14b,https://data.globalchange.gov/reference/102550e4-9c8d-4799-813b-844c0f04a14b,102550e4-9c8d-4799-813b-844c0f04a14b,"Mercer, D. Evan; Prestemon, Jeffrey P.; Butry, David T.; Pye, John M.",10.1111/j.1467-8276.2007.00963.x,,0002-9092,"American Journal of Agricultural Economics",,63-77,"Evaluating alternative prescribed burning policies to reduce net economic damages from wildfire",89,2007,24356,102550e4-9c8d-4799-813b-844c0f04a14b,"Journal Article",/article/10.1111/j.1467-8276.2007.00963.x
/reference/104c4cb8-4724-410e-871d-b22428ccdfdd,https://data.globalchange.gov/reference/104c4cb8-4724-410e-871d-b22428ccdfdd,104c4cb8-4724-410e-871d-b22428ccdfdd,"Mazzotti, Frank J.; Cherkiss, Michael S.; Parry, Mark; Beauchamp, Jeff; Rochford, Mike; Smith, Brian; Hart, Kristen; Brandt, Laura A.",10.1002/ecs2.1439,,2150-8925,Ecosphere,"American alligator; American crocodile; Burmese pythons; Everglades; mortality; record cold spell; Special Feature: Extreme Cold Spells",e01439,"Large reptiles and cold temperatures: Do extreme cold spells set distributional limits for tropical reptiles in Florida?",7,2016,24352,104c4cb8-4724-410e-871d-b22428ccdfdd,"Journal Article",/article/10.1002/ecs2.1439
/reference/132133f3-1705-42ed-b505-8ccbaa497968,https://data.globalchange.gov/reference/132133f3-1705-42ed-b505-8ccbaa497968,132133f3-1705-42ed-b505-8ccbaa497968,"Harrigan, Ryan J.; Thomassen, Henri A.; Buermann, Wolfgang; Smith, Thomas B.",10.1111/gcb.12534,,1365-2486,"Global Change Biology",,2417-2425,"A continental risk assessment of West Nile virus under climate change",20,2014,16126,132133f3-1705-42ed-b505-8ccbaa497968,"Journal Article",/article/10.1111/gcb.12534