uri,href,identifier,attrs.Abstract,attrs.Author,attrs.DOI,"attrs.Database Provider",attrs.Date,attrs.ISSN,attrs.Issue,attrs.Journal,attrs.Keywords,attrs.Language,attrs.Pages,attrs.Title,attrs.Volume,attrs.Year,attrs._record_number,attrs._uuid,attrs.reftype,child_publication
/reference/6b60f34d-c84f-4bdd-84a8-78ff37ea2b2e,https://data.globalchange.gov/reference/6b60f34d-c84f-4bdd-84a8-78ff37ea2b2e,6b60f34d-c84f-4bdd-84a8-78ff37ea2b2e,"Mangrove forests are highly productive tidal saline wetland ecosystems found along sheltered tropical and subtropical coasts. Ecologists have long assumed that climatic drivers (i.e., temperature and rainfall regimes) govern the global distribution, structure, and function of mangrove forests. However, data constraints have hindered the quantification of direct climate–mangrove linkages in many parts of the world. Recently, the quality and availability of global-scale climate and mangrove data have been improving. Here, we used these data to better understand the influence of air temperature and rainfall regimes upon the distribution, abundance, and species richness of mangrove forests. Although our analyses identify global-scale relationships and thresholds, we show that the influence of climatic drivers is best characterized via regional range-limit-specific analyses. We quantified climatic controls across targeted gradients in temperature and/or rainfall within 14 mangrove distributional range limits. Climatic thresholds for mangrove presence, abundance, and species richness differed among the 14 studied range limits. We identified minimum temperature-based thresholds for range limits in eastern North America, eastern Australia, New Zealand, eastern Asia, eastern South America, and southeast Africa. We identified rainfall-based thresholds for range limits in western North America, western Gulf of Mexico, western South America, western Australia, Middle East, northwest Africa, east central Africa, and west-central Africa. Our results show that in certain range limits (e.g., eastern North America, western Gulf of Mexico, eastern Asia), winter air temperature extremes play an especially important role. We conclude that rainfall and temperature regimes are both important in western North America, western Gulf of Mexico, and western Australia. With climate change, alterations in temperature and rainfall regimes will affect the global distribution, abundance, and diversity of mangrove forests. In general, warmer winter temperatures are expected to allow mangroves to expand poleward at the expense of salt marshes. However, dispersal and habitat availability constraints may hinder expansion near certain range limits. Along arid and semiarid coasts, decreases or increases in rainfall are expected to lead to mangrove contraction or expansion, respectively. Collectively, our analyses quantify climate–mangrove linkages and improve our understanding of the expected global- and regional-scale effects of climate change upon mangrove forests.","Osland, Michael J.; Feher, Laura C.; Griffith, Kereen T.; Cavanaugh, Kyle C.; Enwright, Nicholas M.; Day, Richard H.; Stagg, Camille L.; Krauss, Ken W.; Howard, Rebecca J.; Grace, James B.; Rogers, Kerrylee",10.1002/ecm.1248,"Wiley Online Library",2017/05/01/,1557-7015,2,"Ecological Monographs","Rainfall; Temperature; climate change; distribution; abundance; climate gradients; climatic drivers; climatic thresholds; ecological thresholds; mangrove forests; range limit; species richness",en,341-359,"Climatic controls on the global distribution, abundance, and species richness of mangrove forests",87,2017,22491,6b60f34d-c84f-4bdd-84a8-78ff37ea2b2e,"Journal Article",/article/10.1002/ecm.1248
/reference/6bc8de0f-c4f3-4394-b139-7c4dd90c52a3,https://data.globalchange.gov/reference/6bc8de0f-c4f3-4394-b139-7c4dd90c52a3,6bc8de0f-c4f3-4394-b139-7c4dd90c52a3,,"Biloxi Mississippi Code of Ordinances,",,,,,,,,,,"Flood damage prevention: Specific standards",,2017,26342,6bc8de0f-c4f3-4394-b139-7c4dd90c52a3,"Legal Rule or Regulation",/generic/26d32ee7-e495-4cc7-acf8-22f488819517
/reference/6c5f197a-cfe5-4433-9bce-2c53a1939f2d,https://data.globalchange.gov/reference/6c5f197a-cfe5-4433-9bce-2c53a1939f2d,6c5f197a-cfe5-4433-9bce-2c53a1939f2d,,"Doyle, Thomas W.; Bogdan Chivoiu; Nicholas M. Enwright",10.3133/pp1815,,,,,,,,76,"Sea-level rise modeling handbook: Resource guide for coastal land managers, engineers, and scientists",,2015,24428,6c5f197a-cfe5-4433-9bce-2c53a1939f2d,Report,/report/sea-level-rise-modeling-handbook-resource-guide-coastal-land-managers-engineers-scientists
/reference/6f87b47f-1149-4e5c-aeef-4fa70789755e,https://data.globalchange.gov/reference/6f87b47f-1149-4e5c-aeef-4fa70789755e,6f87b47f-1149-4e5c-aeef-4fa70789755e,,"Mitchell, Robert J.; Kirkman, L. Katherine; Pecot, Stephen D.; Wilson, Carlos A.; Palik, Brian J.; Boring, Lindsay R.",10.1139/x99-051,,1999/06/01,0045-5067,6,"Canadian Journal of Forest Research",,,743-751,"Patterns and controls of ecosystem function in longleaf pine-wiregrass savannas. I. Aboveground net primary productivity",29,1999,26326,6f87b47f-1149-4e5c-aeef-4fa70789755e,"Journal Article",/article/10.1139/x99-051
/reference/6f8b234a-206a-498c-af9d-fb4b9b355d0a,https://data.globalchange.gov/reference/6f8b234a-206a-498c-af9d-fb4b9b355d0a,6f8b234a-206a-498c-af9d-fb4b9b355d0a,,"Jurjonas, Matthew; Seekamp, Erin",10.1016/j.ocecoaman.2017.10.010,,2018/08/01/,0964-5691,,"Ocean & Coastal Management","Adaptive capacity; Sea level rise; Saltwater intrusion; Natural hazards; Flooding",,137-150,"Rural coastal community resilience: Assessing a framework in eastern North Carolina",162,2018,26316,6f8b234a-206a-498c-af9d-fb4b9b355d0a,"Journal Article",/article/10.1016/j.ocecoaman.2017.10.010
/reference/70b9fb1f-c611-4bb7-ad28-ea752489a5de,https://data.globalchange.gov/reference/70b9fb1f-c611-4bb7-ad28-ea752489a5de,70b9fb1f-c611-4bb7-ad28-ea752489a5de,,"Boon, John D.",10.2112/JCOASTRES-D-12-00102.1,,2012/11/01,0749-0208,,"Journal of Coastal Research",,,1437-1445,"Evidence of sea level acceleration at U.S. and Canadian tide stations, Atlantic Coast, North America",28,2012,20765,70b9fb1f-c611-4bb7-ad28-ea752489a5de,"Journal Article",/article/10.2112/JCOASTRES-D-12-00102.1
/reference/70be67ff-723c-4ae4-9df3-16d178c36a48,https://data.globalchange.gov/reference/70be67ff-723c-4ae4-9df3-16d178c36a48,70be67ff-723c-4ae4-9df3-16d178c36a48,,,,,,,,,,,,"Which Baton Rouge ZIP codes were hit hardest? New data lends scope to flooding devastation",,2016,24417,70be67ff-723c-4ae4-9df3-16d178c36a48,"Newspaper Article",/generic/5b707932-693b-4102-aa15-15d56dc9013d
/reference/72f04195-1a4e-441a-9dee-56cd9ec6de94,https://data.globalchange.gov/reference/72f04195-1a4e-441a-9dee-56cd9ec6de94,72f04195-1a4e-441a-9dee-56cd9ec6de94,,"Burkett, Maxine; Verchick, Robert R.M.; Flores, David",,,,,,,,,43," Reaching higher ground: Avenues to secure and manage new land for communities displaced by climate change",,2017,26323,72f04195-1a4e-441a-9dee-56cd9ec6de94,Report,/report/reaching-higher-ground-avenues-secure-manage-new-land-communities-displaced-by-climate-change
/reference/738c9d34-efbc-4759-b302-f40c5a14a50a,https://data.globalchange.gov/reference/738c9d34-efbc-4759-b302-f40c5a14a50a,738c9d34-efbc-4759-b302-f40c5a14a50a,,"Butterworth, Melinda K.; Cory W. Morin; Andrew C. Comrie",10.1289/EHP218,,,,,"Environmental Health Perspectives",,,579-585,"An analysis of the potential impact of climate change on dengue transmission in the southeastern United States",125,2017,23242,738c9d34-efbc-4759-b302-f40c5a14a50a,"Journal Article",/article/10.1289/EHP218
/reference/73bad947-c8c6-4df4-8f02-068100992a1c,https://data.globalchange.gov/reference/73bad947-c8c6-4df4-8f02-068100992a1c,73bad947-c8c6-4df4-8f02-068100992a1c,,"Kreye, Jesse K.; Varner, J. Morgan; Hiers, J. Kevin; Mola, John",10.1890/13-0503.1,,,1939-5582,8,"Ecological Applications","Acer rubrum; ecological restoration; fire exclusion; fuel moisture; leaf traits; positive feedbacks",,1976-1986,"Toward a mechanism for eastern North American forest mesophication: Differential litter drying across 17 species",23,2013,24342,73bad947-c8c6-4df4-8f02-068100992a1c,"Journal Article",/article/10.1890/13-0503.1
/reference/74025166-1115-4d44-b809-23372f2e8ea6,https://data.globalchange.gov/reference/74025166-1115-4d44-b809-23372f2e8ea6,74025166-1115-4d44-b809-23372f2e8ea6,,"Batker, David; de la Torre, Isabel; Robert Costanza; Paula Swedeen; John Day; Roelof Boumans; Kenneth Bagstad",,,,,,,,,98,"Gaining Ground: Wetlands, Hurricanes and the Economy: The Value of Restoring the Mississippi River Delta",,2010,24436,74025166-1115-4d44-b809-23372f2e8ea6,Report,/report/gaining-ground-wetlands-hurricanes-economy-value-restoring-mississippi-river-delta
/reference/7412897c-55e6-4c14-9254-1d35cca6b493,https://data.globalchange.gov/reference/7412897c-55e6-4c14-9254-1d35cca6b493,7412897c-55e6-4c14-9254-1d35cca6b493,,,,,,,,,,,,"S.C. Governor declares state of emergency as Hurricane Irma’s forecast path shifts",,2017,26306,7412897c-55e6-4c14-9254-1d35cca6b493,"Newspaper Article",/generic/a4077d8a-4643-4556-9142-d213cd104489
/reference/747e6b30-6afc-4520-af4b-660389e167ba,https://data.globalchange.gov/reference/747e6b30-6afc-4520-af4b-660389e167ba,747e6b30-6afc-4520-af4b-660389e167ba,,"Ernst, Kathleen M.; Preston, Benjamin L.",10.1016/j.envsci.2017.01.001,,4//,1462-9011,,"Environmental Science & Policy","Climate change; Energy; Water; Adaptation; Decision-making; Scale",,38-45,"Adaptation opportunities and constraints in coupled systems: Evidence from the U.S. energy-water nexus",70,2017,21444,747e6b30-6afc-4520-af4b-660389e167ba,"Journal Article",/article/10.1016/j.envsci.2017.01.001
/reference/75a38932-a8a4-4eeb-b94c-bbb65b580efe,https://data.globalchange.gov/reference/75a38932-a8a4-4eeb-b94c-bbb65b580efe,75a38932-a8a4-4eeb-b94c-bbb65b580efe,,"Lal, P.
Alavalapati, J.R.R.
Mercer, E.D.",10.1007/s11027-011-9295-9,,,1381-2386,7,"Mitigation and Adaptation Strategies for Global Change",,,819-844,"Socio-economic impacts of climate change on rural United States",16,2011,1557,75a38932-a8a4-4eeb-b94c-bbb65b580efe,"Journal Article",/article/10.1007/s11027-011-9295-9
/reference/77518d3d-0483-46e5-a6d6-8a57cd7b9969,https://data.globalchange.gov/reference/77518d3d-0483-46e5-a6d6-8a57cd7b9969,77518d3d-0483-46e5-a6d6-8a57cd7b9969,,"McKee, Karen L.; Mendelssohn, Irving A.; D. Materne, Michael",10.1111/j.1466-882X.2004.00075.x,,,1466-8238,1,"Global Ecology and Biogeography","Climate change; disturbance; Louisiana; pyrite; salinity; sea-level; soil acidification; Spartina; USA; wetland",,65-73,"Acute salt marsh dieback in the Mississippi River deltaic plain: A drought-induced phenomenon?",13,2004,24354,77518d3d-0483-46e5-a6d6-8a57cd7b9969,"Journal Article",/article/10.1111/j.1466-882X.2004.00075.x
/reference/78e5de17-2746-4800-8c79-082715ff4e37,https://data.globalchange.gov/reference/78e5de17-2746-4800-8c79-082715ff4e37,78e5de17-2746-4800-8c79-082715ff4e37,,"Manzello, Derek P.",10.1038/srep16762,,11/16/online,,,"Scientific Reports",,,"Article 16762","Rapid recent warming of coral reefs in the Florida Keys",5,2015,24349,78e5de17-2746-4800-8c79-082715ff4e37,"Journal Article",/article/10.1038/srep16762
/reference/790cdc1b-1fb4-4194-91ee-fd3ff614d5da,https://data.globalchange.gov/reference/790cdc1b-1fb4-4194-91ee-fd3ff614d5da,790cdc1b-1fb4-4194-91ee-fd3ff614d5da,"Tree taxa shifted latitude or elevation range in response to changes in Quaternary climate. Because many modern trees display adaptive differentiation in relation to latitude or elevation, it is likely that ancient trees were also so differentiated, with environmental sensitivities of populations throughout the range evolving in conjunction with migrations. Rapid climate changes challenge this process by imposing stronger selection and by distancing populations from environments to which they are adapted. The unprecedented rates of climate changes anticipated to occur in the future, coupled with land use changes that impede gene flow, can be expected to disrupt the interplay of adaptation and migration, likely affecting productivity and threatening the persistence of many species.","Davis, Margaret B.; Shaw, Ruth G.",10.1126/science.292.5517.673,,,,5517,Science,,,673-679,"Range shifts and adaptive responses to quaternary climate change",292,2001,24305,790cdc1b-1fb4-4194-91ee-fd3ff614d5da,"Journal Article",/article/10.1126/science.292.5517.673
/reference/7918b586-7dff-4c60-9075-b362ff0c1c31,https://data.globalchange.gov/reference/7918b586-7dff-4c60-9075-b362ff0c1c31,7918b586-7dff-4c60-9075-b362ff0c1c31,,"Costanza, Jennifer; Scott Beck; Milo Pyne; Adam Terando; Matthew J. Rubino; Rickie White; Jaime Collazo ",10.3133/ofr20161073,,,,,,,,278,"Assessing climate-sensitive ecosystems in the Southeastern United States",,2016,24432,7918b586-7dff-4c60-9075-b362ff0c1c31,Report,/report/assessing-climate-sensitive-ecosystems-southeastern-united-states
/reference/79a38ee0-fa95-411e-bb5d-48d0e34554cb,https://data.globalchange.gov/reference/79a38ee0-fa95-411e-bb5d-48d0e34554cb,79a38ee0-fa95-411e-bb5d-48d0e34554cb,,"Doyle, T.W.
Krauss, K.W.
Conner, W.H.
From, A.S.",10.1016/j.foreco.2009.10.023,,,0378-1127,4,"Forest Ecology and Management",,,770-777,"Predicting the retreat and migration of tidal forests along the northern Gulf of Mexico under sea-level rise",259,2010,1308,79a38ee0-fa95-411e-bb5d-48d0e34554cb,"Journal Article",/article/10.1016/j.foreco.2009.10.023
/reference/7a2f62de-a38c-46dc-94ed-656cbf3e625d,https://data.globalchange.gov/reference/7a2f62de-a38c-46dc-94ed-656cbf3e625d,7a2f62de-a38c-46dc-94ed-656cbf3e625d,,"Gubernot, Diane M.; Anderson, G. Brooke; Hunting, Katherine L.",10.1002/ajim.22381,,,1097-0274,2,"American Journal of Industrial Medicine","heat exposure; occupational health; workplace; health and safety; climate change",,203-211,"Characterizing occupational heat-related mortality in the United States, 2000–2010: An analysis using the census of fatal occupational injuries database",58,2015,24322,7a2f62de-a38c-46dc-94ed-656cbf3e625d,"Journal Article",/article/10.1002/ajim.22381
/reference/7ab1d9e1-75a1-48c5-8d85-02258496f919,https://data.globalchange.gov/reference/7ab1d9e1-75a1-48c5-8d85-02258496f919,7ab1d9e1-75a1-48c5-8d85-02258496f919,,"Doney, S.C.
V.J. Fabry
R.A. Feely
J.A. Kleypas",10.1146/annurev.marine.010908.163834,,,"1941-1405, 1941-0611",1,"Annual Review of Marine Science",,,169-192,"Ocean acidification: The other CO2 problem",1,2009,1207,7ab1d9e1-75a1-48c5-8d85-02258496f919,"Journal Article",/article/10.1146/annurev.marine.010908.163834
/reference/7b60c739-2b34-4762-bbc9-b3c6893d1ee4,https://data.globalchange.gov/reference/7b60c739-2b34-4762-bbc9-b3c6893d1ee4,7b60c739-2b34-4762-bbc9-b3c6893d1ee4,,"Osland, Michael J.; Day, Richard H.; Hall, Courtney T.; Brumfield, Marisa D.; Dugas, Jason L.; Jones, William R.",10.1002/ecy.1625,,,1939-9170,1,Ecology,"Avicennia germinans; climate change; climate extremes; coastal wetland; ecological threshold; freeze events; Louisiana; mangrove; range contraction; range expansion; range limit; temperature",,125-137,"Mangrove expansion and contraction at a poleward range limit: Climate extremes and land-ocean temperature gradients",98,2017,24366,7b60c739-2b34-4762-bbc9-b3c6893d1ee4,"Journal Article",/article/10.1002/ecy.1625
/reference/7bdd9d20-6e83-40ab-8d50-68272c2b3dc9,https://data.globalchange.gov/reference/7bdd9d20-6e83-40ab-8d50-68272c2b3dc9,7bdd9d20-6e83-40ab-8d50-68272c2b3dc9,,"Carter, Lynne M.
Jones, James W.
Berry, Leonard
Burkett, Virginia
Murley, James F.
Obeysekera, Jayantha
Schramm, Paul J.
Wear, David",10.7930/J0NP22CB,,,,,,,,396-417,"Ch. 17: Southeast and the Caribbean",,2014,4727,7bdd9d20-6e83-40ab-8d50-68272c2b3dc9,"Book Section",/report/nca3/chapter/southeast
/reference/7c0f8d0b-a61d-401e-9944-59e56ed508c4,https://data.globalchange.gov/reference/7c0f8d0b-a61d-401e-9944-59e56ed508c4,7c0f8d0b-a61d-401e-9944-59e56ed508c4,,"Moberg, Fredrik; Folke, Carl",10.1016/S0921-8009(99)00009-9,,1999/05/01/,0921-8009,2,"Ecological Economics","Coral reefs; Ecological services; Management; Biodiversity; Resilience; Valuation",,215-233,"Ecological goods and services of coral reef ecosystems",29,1999,24357,7c0f8d0b-a61d-401e-9944-59e56ed508c4,"Journal Article",/article/10.1016/S0921-8009(99)00009-9
/reference/7e402cf5-8017-47f6-9f1c-c6d4f98ff2f7,https://data.globalchange.gov/reference/7e402cf5-8017-47f6-9f1c-c6d4f98ff2f7,7e402cf5-8017-47f6-9f1c-c6d4f98ff2f7,,"Williams, Kimberlyn; Pinzon, Z. S.; Stumpf, R. P.; Raabe, E. A.",,,,,,,,English,various,"Sea-level rise and coastal forests on the Gulf of Mexico",,1999,24399,7e402cf5-8017-47f6-9f1c-c6d4f98ff2f7,Report,/report/sea-level-rise-coastal-forests-on-gulf-mexico