--- - attrs: Author: 'Binita, K-C; Shepherd, J. Marshall; Gaither, Cassandra Johnson' DOI: 10.1016/j.apgeog.2015.04.007 Date: 2015/08/01/ ISSN: 0143-6228 Journal: Applied Geography Keywords: Climate change; Biophysical and social vulnerabilities; Climate extremes; Georgia Pages: 62-74 Title: Climate change vulnerability assessment in Georgia Volume: 62 Year: 2015 _record_number: 24042 _uuid: 00d193af-455c-4c08-9a6f-a3ada2072ece reftype: Journal Article child_publication: /article/10.1016/j.apgeog.2015.04.007 href: https://data.globalchange.gov/reference/00d193af-455c-4c08-9a6f-a3ada2072ece.yaml identifier: 00d193af-455c-4c08-9a6f-a3ada2072ece uri: /reference/00d193af-455c-4c08-9a6f-a3ada2072ece - attrs: Abstract: 'Changes in temperature, precipitation, sea level, and coastal storms will likely increase the vulnerability of infrastructure across the United States. Using four models that analyze vulnerability, impacts, and adaptation, this paper estimates impacts to roads, bridges, coastal properties, and urban drainage infrastructure and investigates sensitivity to varying greenhouse gas emission scenarios, climate sensitivities, and global climate models. The results suggest that the impacts of climate change in this sector could be large, especially in the second half of the 21st century as sea-level rises, temperature increases, and precipitation patterns become more extreme and affect the sustainability of long-lived infrastructure. Further, when considering sea-level rise, scenarios which incorporate dynamic ice sheet melting yield impact model results in coastal areas that are roughly 70 to 80 % higher than results that do not incorporate dynamic ice sheet melting. The potential for substantial economic impacts across all infrastructure sectors modeled, however, can be reduced by cost-effective adaptation measures. Mitigation policies also show potential to reduce impacts in the infrastructure sector - a more aggressive mitigation policy reduces impacts by 25 to 35 %, and a somewhat less aggressive policy reduces impacts by 19 to 30 %. The existing suite of models suitable for estimating these damages nonetheless covers only a small portion of expected infrastructure sector effects from climate change, so much work remains to better understand impacts on electric and telecommunications networks, rail, and air transportation systems. In addition, the effects of climate-induced extreme events are likely to be important, but are incompletely understood and remain an emerging area for research.' Author: 'Neumann, J. E.; Price, J.; Chinowsky, P.; Wright, L.; Ludwig, L.; Streeter, R.; Jones, R.; Smith, J. B.; Perkins, W.; Jantarasami, L.; Martinich, J.' DOI: 10.1007/s10584-013-1037-4 Date: Jul ISSN: 0165-0009 Issue: 1 Journal: Climatic Change Keywords: Infrastructure; Urban; Climate change; Transportation; Projection Pages: 97-109 Title: 'Climate change risks to US infrastructure: Impacts on roads, bridges, coastal development, and urban drainage' Volume: 131 Year: 2015 _record_number: 22805 _uuid: 00e98394-26f1-45da-a5a3-e79b2b1a356f reftype: Journal Article child_publication: /article/10.1007/s10584-013-1037-4 href: https://data.globalchange.gov/reference/00e98394-26f1-45da-a5a3-e79b2b1a356f.yaml identifier: 00e98394-26f1-45da-a5a3-e79b2b1a356f uri: /reference/00e98394-26f1-45da-a5a3-e79b2b1a356f - attrs: .reference_type: 9 Author: 'Sakai, Akira; Larcher, Walter ' DOI: 10.1007/978-3-642-71745-1 ISBN: "978-3-642-71745-1\r978-3-642-71747-5" Series Volume: Ecological Studies 62 Title: 'Frost Survival of Plants: Responses and Adaptation to Freezing Stress' Year: 1987 _record_number: 24374 _uuid: 01b0f914-7423-4f14-8ba9-84eb40e00ab9 reftype: Book child_publication: /book/frost-survival-plants-responses-adaptation-freezing-stress href: https://data.globalchange.gov/reference/01b0f914-7423-4f14-8ba9-84eb40e00ab9.yaml identifier: 01b0f914-7423-4f14-8ba9-84eb40e00ab9 uri: /reference/01b0f914-7423-4f14-8ba9-84eb40e00ab9 - attrs: Abstract: 'Native to Brazil,Schinus terebinthifolius Raddi, of the family Anacardiaceae, has been commonly cultivated in Florida for over 50 years as a dooryard ornamental. Use of its sprays of showy red fruits for Christmas decoration gave rise to the popular misnomer “Florida holly.” Too late it was found to become a large, spreading tree; aggressive seedlings began springing up near and far. Jungles ofSchinus have crowded out native vegetation over vast areas of Florida and the Bahamas, as in all the islands of Hawaii. When in bloom, the tree is a major source of respiratory difficulty and dermatitis; the fruits, in quantity, intoxicate birds and cause fatal trauma in four-footed animals. The abundant nectar yields a spicy commercial honey and beekeepers are opposed to eradication programs.' Author: 'Morton, Julia F.' DOI: 10.1007/bf02907927 Date: October 01 ISSN: 1874-9364 Issue: 4 Journal: Economic Botany Pages: 353-359 Title: 'Brazilian pepper—Its impact on people, animals and the environment' Type of Article: journal article Volume: 32 Year: 1978 _record_number: 24360 _uuid: 03b93c14-307e-4128-b0c9-304092f5031f reftype: Journal Article child_publication: /article/10.1007/bf02907927 href: https://data.globalchange.gov/reference/03b93c14-307e-4128-b0c9-304092f5031f.yaml identifier: 03b93c14-307e-4128-b0c9-304092f5031f uri: /reference/03b93c14-307e-4128-b0c9-304092f5031f - attrs: .reference_type: 0 Author: 'Moftakhari, Hamed R.; AghaKouchak, Amir; Sanders, Brett F.; Feldman, David L.; Sweet, William; Matthew, Richard A.; Luke, Adam' DOI: 10.1002/2015GL066072 ISSN: 1944-8007 Issue: 22 Journal: Geophysical Research Letters Keywords: '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' Pages: 9846-9852 Title: 'Increased nuisance flooding along the coasts of the United States due to sea level rise: Past and future' Volume: 42 Year: 2015 _record_number: 19963 _uuid: 03e51664-273d-40e5-8af0-ab885436ac8e reftype: Journal Article child_publication: /article/10.1002/2015GL066072 href: https://data.globalchange.gov/reference/03e51664-273d-40e5-8af0-ab885436ac8e.yaml identifier: 03e51664-273d-40e5-8af0-ab885436ac8e uri: /reference/03e51664-273d-40e5-8af0-ab885436ac8e - attrs: .reference_type: 10 Author: 'Sweet, W. V.; J. J. Marra' Pages: 5 Publisher: 'National Oceanic and Atmospheric Administration, National Centers for Environmental Information' Title: '2015 State of U.S. Nuisance Tidal Flooding. Supplement to State of the Climate: National Overview for May 2016' URL: http://www.ncdc.noaa.gov/monitoring-content/sotc/national/2016/may/sweet-marra-nuisance-flooding-2015.pdf Year: 2016 _record_number: 20609 _uuid: 048006a1-a72d-44a1-bdab-fff317c842f7 reftype: Report child_publication: /report/state-us-nuisance-tidal-flooding-supplement-state-climate-national-overview-may-2016 href: https://data.globalchange.gov/reference/048006a1-a72d-44a1-bdab-fff317c842f7.yaml identifier: 048006a1-a72d-44a1-bdab-fff317c842f7 uri: /reference/048006a1-a72d-44a1-bdab-fff317c842f7 - attrs: .reference_type: 16 Author: 'NOAA NCEI,' Place Published: 'Asheville, NC' Publisher: NOAA National Centers for Environmental Information Title: 'Billion-Dollar Weather and Climate Disasters [web page]' URL: https://www.ncdc.noaa.gov/billions/events/US/1980-2017 Year: 2018 _record_number: 21310 _uuid: 04aa6da1-18ac-435a-b31d-f4f65da727df reftype: Web Page child_publication: /webpage/0e668d96-b03f-403d-9e60-a816c99c6ac4 href: https://data.globalchange.gov/reference/04aa6da1-18ac-435a-b31d-f4f65da727df.yaml identifier: 04aa6da1-18ac-435a-b31d-f4f65da727df uri: /reference/04aa6da1-18ac-435a-b31d-f4f65da727df - attrs: .reference_type: 7 Author: 'Bentz, Barbara J.; Jönsson, Anna Maria' Book Title: 'Bark Beetles: Biology and Ecology of Native and Invasive Species' DOI: 10.1016/B978-0-12-417156-5.00013-7 Editor: 'Hofstetter, Richard W.' ISBN: 978-0-12-417156-5 Keywords: bark beetles; climate change; Dendroctonus; development time; global warming; Hylobius; Hypothenemus; Ips; model; temperature Pages: 533-553 Place Published: San Diego Publisher: Academic Press Title: 'Chapter 13 : Modeling bark beetle responses to climate change' Year: 2015 _record_number: 24293 _uuid: 04bcac75-caf7-452a-b1c8-de49f216c240 reftype: Book Section child_publication: /book/917119e1-871d-4e6d-aecd-d1b7d97342fa href: https://data.globalchange.gov/reference/04bcac75-caf7-452a-b1c8-de49f216c240.yaml identifier: 04bcac75-caf7-452a-b1c8-de49f216c240 uri: /reference/04bcac75-caf7-452a-b1c8-de49f216c240 - attrs: .reference_type: 10 Author: 'NASS,' Institution: USDA National Agricultural Statistics Service (NASS) Pages: 11 Place Published: 'Washington, DC' Title: Farm labor methodology and quality measures URL: https://www.nass.usda.gov/Publications/Methodology_and_Data_Quality/Farm_Labor/11_2017/Quality%20Measures%20and%20Methodology Year: 2017 _record_number: 26334 _uuid: 05fe67d5-19d2-4d60-a223-99d1e41c928f reftype: Report child_publication: /report/farm-labor-methodology-quality-measures href: https://data.globalchange.gov/reference/05fe67d5-19d2-4d60-a223-99d1e41c928f.yaml identifier: 05fe67d5-19d2-4d60-a223-99d1e41c928f uri: /reference/05fe67d5-19d2-4d60-a223-99d1e41c928f - attrs: .reference_type: 10 Author: 'Perica, Sanja; Deborah Martin; Sandra Pavlovic; Ishani Roy; Michael St. Laurent; Carl Trypaluk; Dale Unruh; Michael Yekta; Geoffrey Bonnin ' Institution: NOAA National Weather Service Pages: various Place Published: 'Silver Spring, MD' Series Volume: NOAA Atlas 14 Volume 9 Title: 'Precipitation-Frequency Atlas of the United States. Volume 9 Version 2.0: Southeastern States (Alabama, Arkansas, Florida, Georgia, Louisiana, Mississippi) ' URL: http://www.nws.noaa.gov/oh/hdsc/PF_documents/Atlas14_Volume9.pdf Year: 2013 _record_number: 24406 _uuid: 0685a072-6516-4a47-80ad-cbbd75fd4dcc reftype: Report child_publication: /report/precipitation-frequency-atlas-united-states-volume-9-version-20-southeastern-states-alabama-arkansas-florida-georgia-louisiana-mississippi href: https://data.globalchange.gov/reference/0685a072-6516-4a47-80ad-cbbd75fd4dcc.yaml identifier: 0685a072-6516-4a47-80ad-cbbd75fd4dcc uri: /reference/0685a072-6516-4a47-80ad-cbbd75fd4dcc - attrs: Abstract: 'Frequency and intensity of fire determines the structure and regulates the function of savanna ecosystems worldwide, yet our understanding of prescribed fire impacts on carbon in these systems is rudimentary. We combined eddy covariance (EC) techniques and fuel consumption plots to examine the short-term response of longleaf pine forest carbon dynamics to one prescribed fire at the ends of an edaphic gradient (mesic and xeric sites). We also introduce novel (to the EC research community) statistical time-series approaches to quantify the drivers of carbon dynamics in these systems. We determined that our mesic site was a moderate sink of carbon (−157.7 ± 25.1 g C m−2 year−1), while the xeric site was carbon neutral (5.9 ± 32.8 g C m−2 year−1) during the study. The fire released 408 and 153 g C m−2 year−1 for the mesic and xeric sites, respectively. When loss associated with fire was combined with net ecosystem exchange rates, both sites became moderate carbon sources for the year. Analyses of assimilation and respiration parameters (e.g., maximum photosynthesis, quantum efficiency, and daytime ecosystem respiration) showed a positive trend over time pre-fire and a negative trend over time post-fire for maximum ecosystem CO2 uptake rates, and the opposite relationship for daytime ecosystem respiration rates. Within 30 days following fire, ecosystem physiological activity was statistically similar to pre-fire and appeared to be driven by the pine canopy. Our results suggest that prescribed fire (low intensity, high frequency) maintains the existing structure and function (in this case, carbon flux rates) because longleaf pine ecosystems have evolved with fire. This study, 1 year in length, provides a foundational understanding of the complex interaction between fire and carbon dynamics for longleaf pine ecosystems. Moreover, it provides a case study for applying time series analysis methods to EC data where there are complex relationships between ecosystem physiological activity and environmental drivers. However, to elicit a broader understanding of the complex interaction occurring between fire and carbon dynamics long- term studies are needed.' Author: 'Starr, G.; Staudhammer, C. L.; Loescher, H. W.; Mitchell, R.; Whelan, A.; Hiers, J. K.; O’Brien, J. J.' DOI: 10.1007/s11056-014-9447-3 Date: January 01 ISSN: 1573-5095 Issue: 1 Journal: New Forests Pages: 63-90 Title: 'Time series analysis of forest carbon dynamics: Recovery of Pinus palustris physiology following a prescribed fire' Type of Article: journal article Volume: 46 Year: 2015 _record_number: 26299 _uuid: 08609205-aa10-4dd1-b383-3528ffdb7db9 reftype: Journal Article child_publication: /article/10.1007/s11056-014-9447-3 href: https://data.globalchange.gov/reference/08609205-aa10-4dd1-b383-3528ffdb7db9.yaml identifier: 08609205-aa10-4dd1-b383-3528ffdb7db9 uri: /reference/08609205-aa10-4dd1-b383-3528ffdb7db9 - attrs: .reference_type: 0 Abstract: 'The trend in global wildfire potential under the climate change due to the greenhouse effect is investigated. Fire potential is measured by the Keetch-Byram Drought Index (KBDI), which is calculated using the observed maximum temperature and precipitation and projected changes at the end of this century (2070-2100) by general circulation models (GCMs) for present and future climate conditions, respectively. It is shown that future wildfire potential increases significantly in the United States, South America, central Asia, southern Europe, southern Africa, and Australia. Fire potential moves up by one level in these regions, from currently low to future moderate potential or from moderate to high potential. Relative changes are the largest and smallest in southern Europe and Australia, respectively. The period with the KBDI greater than 400 (a simple definition for fire season in this study) becomes a few months longer. The increased fire potential is mainly caused by warming in the U.S., South America, and Australia and by the combination of warming and drying in the other regions. Sensitivity analysis shows that future fire potential depends on many factors such as climate model and emission scenario used for climate change projection. The results suggest dramatic increases in wildfire potential that will require increased future resources and management efforts for disaster prevention and recovery. Published by Elsevier B.V.' Author: "Liu, Yongqiang\rStanturf, John\rGoodrick, Scott" DOI: 10.1016/j.foreco.2009.09.002 Date: Feb 5 ISSN: 0378-1127 Issue: 4 Journal: Forest Ecology and Management Notes: 'Times Cited: 4; Si; Conference on Adaptation of Forests and Forest Management to Changing Climate with Emphasis on Forest Health; Aug 25-28, 2008; Umea, SWEDEN' Pages: 685-697 Title: Trends in global wildfire potential in a changing climate Volume: 259 Year: 2010 _chapter: '["Ch. 18: Midwest FINAL"]' _record_number: 1695 _uuid: 09848305-b2eb-4468-bab9-036dd20b9c2e reftype: Journal Article child_publication: /article/10.1016/j.foreco.2009.09.002 href: https://data.globalchange.gov/reference/09848305-b2eb-4468-bab9-036dd20b9c2e.yaml identifier: 09848305-b2eb-4468-bab9-036dd20b9c2e uri: /reference/09848305-b2eb-4468-bab9-036dd20b9c2e - attrs: .reference_type: 0 Abstract: 'Average annual absolute minimum temperatures (TN n ) provide a means of delineating agriculturally relevant climate zones and are used to define cold hardiness zones (CHZ) by the United States Department of Agriculture. Projected changes in TN n , mean winter minimum temperatures, and CHZs over the conterminous United States (CONUS) were assessed using an ensemble of statistically downscaled daily climate model output through the mid 21st century (2041–2070). Warming of TN n is on average ∼40% greater than that of mean winter minimum temperatures across CONUS with an average climate velocity of 21.4 km decade −1 resulting in widespread shifts in CHZs. These changes enable a geographic expansion of thermally suitable areas for the cultivation of cold-intolerant perennial agriculture including almond, kiwi, and orange crops. Beyond these crops, warming of TN n has broad implications for food security and biotic interactions.' Author: Lauren E. Parker; John T. Abatzoglou DOI: 10.1088/1748-9326/11/3/034001 ISSN: 1748-9326 Issue: 3 Journal: Environmental Research Letters Pages: 034001 Title: Projected changes in cold hardiness zones and suitable overwinter ranges of perennial crops over the United States Volume: 11 Year: 2016 _record_number: 19787 _uuid: 0a8508df-df59-4080-89a2-52bfeaca47e0 reftype: Journal Article child_publication: /article/10.1088/1748-9326/11/3/034001 href: https://data.globalchange.gov/reference/0a8508df-df59-4080-89a2-52bfeaca47e0.yaml identifier: 0a8508df-df59-4080-89a2-52bfeaca47e0 uri: /reference/0a8508df-df59-4080-89a2-52bfeaca47e0 - attrs: .reference_type: 10 Author: 'Simmons, Kevin M.; Czajkowski, Jeffrey; Done, James' DOI: '10.2139/ssrn.2963244 ' Institution: SSRN Pages: 64 Title: 'Economic effectiveness of implementing a statewide building code: The case of Florida' Year: 2017 _record_number: 26310 _uuid: 0b24a8b0-fa60-4ddd-9536-8ddb2a1cd11e reftype: Report child_publication: /report/economic-effectiveness-implementing-statewide-building-code-case-florida href: https://data.globalchange.gov/reference/0b24a8b0-fa60-4ddd-9536-8ddb2a1cd11e.yaml identifier: 0b24a8b0-fa60-4ddd-9536-8ddb2a1cd11e uri: /reference/0b24a8b0-fa60-4ddd-9536-8ddb2a1cd11e - attrs: .reference_type: 10 Author: 'EPA,' Institution: U.S. Environmental Protection Agency (EPA) Pages: 271 Place Published: 'Washington, DC' Series Volume: EPA 430‐R‐17‐001 Title: 'Multi-model Framework for Quantitative Sectoral Impacts Analysis: A Technical Report for the Fourth National Climate Assessment' URL: https://cfpub.epa.gov/si/si_public_record_Report.cfm?dirEntryId=335095 Year: 2017 _record_number: 21365 _uuid: 0b30f1ab-e4c4-4837-aa8b-0e19faccdb94 reftype: Report child_publication: /report/epa-multi-model-framework-for-quantitative-sectoral-impacts-analysis-2017 href: https://data.globalchange.gov/reference/0b30f1ab-e4c4-4837-aa8b-0e19faccdb94.yaml identifier: 0b30f1ab-e4c4-4837-aa8b-0e19faccdb94 uri: /reference/0b30f1ab-e4c4-4837-aa8b-0e19faccdb94 - attrs: Abstract: 'This study records and documents the most severe and notable instance ever reported of sudden and widespread dieback of mangrove vegetation. Between late 2015 and early 2016, extensive areas of mangrove tidal wetland vegetation died back along 1000 km of the shoreline of Australia’s remote Gulf of Carpentaria. The cause is not fully explained, but the timing was coincident with an extreme weather event; notably one of high temperatures and low precipitation lacking storm winds. The dieback was severe and widespread, affecting more than 7400 ha or 6% of mangrove vegetation in the affected area from Roper River estuary in the Northern Territory, east to Karumba in Queensland. At the time, there was an unusually lengthy period of severe drought conditions, unprecedented high temperatures and a temporary drop in sea level. Although consequential moisture stress appears to have contributed to the cause, this occurrence was further coincidental with heat-stressed coral bleaching. This article describes the effect and diagnostic features of this severe dieback event in the Gulf, and considers potential causal factors.' Author: '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' DOI: 10.1071/MF16322 Issue: 10 Journal: Marine & Freshwater Research Keywords: 'mangrove forests, plant–climate interactions, tidal wetlands.' Pages: 1816-1829 Title: 'Large-scale dieback of mangroves in Australia’s Gulf of Carpentaria: A severe ecosystem response, coincidental with an unusually extreme weather event' Volume: 68 Year: 2017 _record_number: 24282 _uuid: 0b46c942-55d2-4926-86d3-7afe04a29825 reftype: Journal Article child_publication: /article/10.1071/MF16322 href: https://data.globalchange.gov/reference/0b46c942-55d2-4926-86d3-7afe04a29825.yaml identifier: 0b46c942-55d2-4926-86d3-7afe04a29825 uri: /reference/0b46c942-55d2-4926-86d3-7afe04a29825 - attrs: Author: "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." DOI: 10.1002/ecy.1698 ISSN: 1939-9170 Issue: 3 Journal: Ecology Keywords: coastal ecosystem; ecosystem function; foundation species; mangrove; regime shift; salt marsh Pages: 762-772 Title: 'Coastal regime shifts: Rapid responses of coastal wetlands to changes in mangrove cover' Volume: 98 Year: 2017 _record_number: 24323 _uuid: 0beba6aa-bd6f-4681-a8cf-efb333c00cb3 reftype: Journal Article child_publication: /article/10.1002/ecy.1698 href: https://data.globalchange.gov/reference/0beba6aa-bd6f-4681-a8cf-efb333c00cb3.yaml identifier: 0beba6aa-bd6f-4681-a8cf-efb333c00cb3 uri: /reference/0beba6aa-bd6f-4681-a8cf-efb333c00cb3 - attrs: Abstract: 'Coastal ecosystems lie at the forefront of sea level rise. We posit that before the onset of actual inundation, sea level rise will influence the species composition of coastal hardwood hammocks and buttonwood (Conocarpus erectus L.) forests of the Everglades National Park based on tolerance to drought and salinity. Precipitation is the major water source in coastal hammocks and is stored in the soil vadose zone, but vadose water will diminish with the rising water table as a consequence of sea level rise, thereby subjecting plants to salt water stress. A model is used to demonstrate that the constraining effect of salinity on transpiration limits the distribution of freshwater-dependent communities. Field data collected in hardwood hammocks and coastal buttonwood forests over 11 years show that halophytes have replaced glycophytes. We establish that sea level rise threatens 21 rare coastal species in Everglades National Park and estimate the relative risk to each species using basic life history and population traits. We review salinity conditions in the estuarine region over 1999–2009 and associate wide variability in the extent of the annual seawater intrusion to variation in freshwater inflows and precipitation. We also examine species composition in coastal and inland hammocks in connection with distance from the coast, depth to water table, and groundwater salinity. Though this study focuses on coastal forests and rare species of South Florida, it has implications for coastal forests threatened by saltwater intrusion across the globe.' Author: 'Saha, Amartya K.; Saha, Sonali; Sadle, Jimi; Jiang, Jiang; Ross, Michael S.; Price, René M.; Sternberg, Leonel S. L. O.; Wendelberger, Kristie S.' DOI: 10.1007/s10584-011-0082-0 Date: July 01 ISSN: 1573-1480 Issue: 1 Journal: Climatic Change Pages: 81-108 Title: Sea level rise and South Florida coastal forests Type of Article: journal article Volume: 107 Year: 2011 _record_number: 24373 _uuid: 0c253c19-ed18-488b-b8aa-b1f6a8cd9e2b reftype: Journal Article child_publication: /article/10.1007/s10584-011-0082-0 href: https://data.globalchange.gov/reference/0c253c19-ed18-488b-b8aa-b1f6a8cd9e2b.yaml identifier: 0c253c19-ed18-488b-b8aa-b1f6a8cd9e2b uri: /reference/0c253c19-ed18-488b-b8aa-b1f6a8cd9e2b - attrs: Author: 'Yando, Erik S.; Osland, Michael J.; Willis, Jonathan M.; Day, Richard H.; Krauss, Ken W.; Hester, Mark W.' DOI: 10.1111/1365-2745.12571 ISSN: 1365-2745 Issue: 4 Journal: Journal of Ecology Keywords: carbon storage; climate change; ecotone; forest development; mangrove forest; plant–soil (below-ground) interactions; range expansion; salt marsh; soil development; woody plant encroachment Pages: 1020-1031 Title: 'Salt marsh-mangrove ecotones: Using structural gradients to investigate the effects of woody plant encroachment on plant–soil interactions and ecosystem carbon pools' Volume: 104 Year: 2016 _record_number: 24395 _uuid: 0ce923ae-039c-4fe4-bbcf-a4c634266e18 reftype: Journal Article child_publication: /article/10.1111/1365-2745.12571 href: https://data.globalchange.gov/reference/0ce923ae-039c-4fe4-bbcf-a4c634266e18.yaml identifier: 0ce923ae-039c-4fe4-bbcf-a4c634266e18 uri: /reference/0ce923ae-039c-4fe4-bbcf-a4c634266e18 - attrs: Author: 'Williams, John W.; Shuman, Bryan N.; Webb, Thompson; Bartlein, Patrick J.; Leduc, Phillip L.' DOI: 10.1890/02-4045 ISSN: 1557-7015 Issue: 2 Journal: Ecological Monographs Keywords: 'biome maps; biome reconstruction, pollen-based; fossil pollen data; North America, vegetation history; paleoecology; plant functional types; Quaternary; vegetation dynamics; vegetation history' Pages: 309-334 Publisher: Ecological Society of America Title: 'Late-quaternary vegetation dynamics in North America: Scaling from taxa to biomes' Volume: 74 Year: 2004 _record_number: 24391 _uuid: 0d082d03-16a8-44b2-989a-cfd1be8ad8b2 reftype: Journal Article child_publication: /article/10.1890/02-4045 href: https://data.globalchange.gov/reference/0d082d03-16a8-44b2-989a-cfd1be8ad8b2.yaml identifier: 0d082d03-16a8-44b2-989a-cfd1be8ad8b2 uri: /reference/0d082d03-16a8-44b2-989a-cfd1be8ad8b2