---
- attrs:
    .reference_type: 0
    Abstract: 'Seasonal changes in the climatic potential for very large wildfires (VLWF ≥ 50,000 ac ~ 20,234 ha) across the western contiguous United States are projected over the 21st century using generalized linear models and downscaled climate projections for two representative concentration pathways (RCPs). Significant (p ≤ 0.05) increases in VLWF probability for climate of the mid-21st century (2031–2060) relative to contemporary climate are found, for both RCP 4.5 and 8.5. The largest differences are in the Eastern Great Basin, Northern Rockies, Pacific Northwest, Rocky Mountains, and Southwest. Changes in seasonality and frequency of VLWFs d7epend on changes in the future climate space. For example, flammability-limited areas such as the Pacific Northwest show that (with high model agreement) the frequency of weeks with VLWFs in a given year is 2–2.7 more likely. However, frequency of weeks with at least one VLWF in fuel-limited systems like the Western Great Basin is 1.3 times more likely (with low model agreement). Thus, areas where fire is directly associated with hot and dry climate, as opposed to experiencing lagged effects from previous years, experience more change in the likelihood of VLWF in future projections. The results provide a quantitative foundation for management to mitigate the effects of VLWFs.'
    Author: 'Stavros, E. Natasha; Abatzoglou, John T.; McKenzie, Donald; Larkin, Narasimhan K.'
    DOI: 10.1007/s10584-014-1229-6
    ISSN: 1573-1480
    Issue: 3
    Journal: Climatic Change
    Pages: 455-468
    Title: Regional projections of the likelihood of very large wildland fires under a changing climate in the contiguous Western United States
    Volume: 126
    Year: 2014
    _record_number: 20972
    _uuid: 139442ad-69f8-452f-9c46-0dc9438ec5fb
    reftype: Journal Article
  child_publication: /article/10.1007/s10584-014-1229-6
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  identifier: 139442ad-69f8-452f-9c46-0dc9438ec5fb
  uri: /reference/139442ad-69f8-452f-9c46-0dc9438ec5fb
- attrs:
    .publisher: Copernicus Publications
    .reference_type: 0
    Author: 'Yue, X.; Mickley, L. J.; Logan, J. A.; Hudman, R. C.; Martin, M. V.; Yantosca, R. M.'
    DOI: 10.5194/acp-15-10033-2015
    ISSN: 1680-7324
    Issue: 17
    Journal: Atmospheric Chemistry and Physics
    Pages: 10033-10055
    Title: 'Impact of 2050 climate change on North American wildfire: Consequences for ozone air quality	'
    Volume: 15
    Year: 2015
    _record_number: 20753
    _uuid: 39a8b555-de10-4244-b292-52d0b202531d
    reftype: Journal Article
  child_publication: /article/10.5194/acp-15-10033-2015
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  identifier: 39a8b555-de10-4244-b292-52d0b202531d
  uri: /reference/39a8b555-de10-4244-b292-52d0b202531d
- attrs:
    Author: 'Wiedinmyer, Christine; Hurteau, Matthew D.'
    DOI: 10.1021/es902455e
    Date: 2010/03/15
    ISSN: 0013-936X
    Issue: 6
    Journal: Environmental Science & Technology
    Pages: 1926-1932
    Publisher: American Chemical Society
    Title: Prescribed fire as a means of reducing forest carbon emissions in the western United States
    Volume: 44
    Year: 2010
    _record_number: 24224
    _uuid: 415d7f4d-4e24-4cff-a9aa-c76f30dbeb42
    reftype: Journal Article
  child_publication: /article/10.1021/es902455e
  href: https://data.globalchange.gov/reference/415d7f4d-4e24-4cff-a9aa-c76f30dbeb42.yaml
  identifier: 415d7f4d-4e24-4cff-a9aa-c76f30dbeb42
  uri: /reference/415d7f4d-4e24-4cff-a9aa-c76f30dbeb42
- attrs:
    Author: 'Mitchell, Robert J.; Liu, Yongqiang; O’Brien, Joseph J.; Elliott, Katherine J.; Starr, Gregory; Miniat, Chelcy Ford; Hiers, J. Kevin'
    DOI: 10.1016/j.foreco.2013.12.003
    Date: 2014/09/01/
    ISSN: 0378-1127
    Journal: Forest Ecology and Management
    Keywords: Biodiversity; Carbon sequestration; Climate change; Ecological services; Prescribed fire; Wildland fire
    Pages: 316-326
    Title: Future climate and fire interactions in the southeastern region of the United States
    Volume: 327
    Year: 2014
    _record_number: 24249
    _uuid: 52b8c0e6-00b2-42aa-9df5-6d46fe600b7d
    reftype: Journal Article
  child_publication: /article/10.1016/j.foreco.2013.12.003
  href: https://data.globalchange.gov/reference/52b8c0e6-00b2-42aa-9df5-6d46fe600b7d.yaml
  identifier: 52b8c0e6-00b2-42aa-9df5-6d46fe600b7d
  uri: /reference/52b8c0e6-00b2-42aa-9df5-6d46fe600b7d
- attrs:
    .reference_type: 7
    Author: 'Fann, Neal; Brennan, Terry; Dolwick, Patrick; Gamble, Janet L.; Ilacqua, Vito; Kolb, Laura; Nolte, Christopher G.; Spero, Tanya L.; Ziska, Lewis'
    Book Title: 'The Impacts of Climate Change on Human Health in the United States: A Scientific Assessment'
    DOI: 10.7930/J0GQ6VP6
    Pages: 69–98
    Place Published: 'Washington, DC'
    Publisher: U.S. Global Change Research Program
    Title: 'Ch. 3: Air quality impacts'
    Year: 2016
    _record_number: 19375
    _uuid: 5ec155e5-8b77-438f-afa9-fbcac4d27690
    reftype: Book Section
  child_publication: /report/usgcrp-climate-human-health-assessment-2016/chapter/air-quality-impacts
  href: https://data.globalchange.gov/reference/5ec155e5-8b77-438f-afa9-fbcac4d27690.yaml
  identifier: 5ec155e5-8b77-438f-afa9-fbcac4d27690
  uri: /reference/5ec155e5-8b77-438f-afa9-fbcac4d27690
- attrs:
    Author: 'Cascio, Wayne E.'
    DOI: 10.1016/j.scitotenv.2017.12.086
    Date: 2018/05/15/
    ISSN: 0048-9697
    Journal: Science of The Total Environment
    Keywords: 'Wildfire emissions; Smoke; Health effects; Air pollution; Particulate matter, PM'
    Pages: 586-595
    Title: Wildland fire smoke and human health
    Volume: 624
    Year: 2018
    _record_number: 25898
    _uuid: 9a222c75-5ff9-408e-9694-b7bd90a2a0ca
    reftype: Journal Article
  child_publication: /article/10.1016/j.scitotenv.2017.12.086
  href: https://data.globalchange.gov/reference/9a222c75-5ff9-408e-9694-b7bd90a2a0ca.yaml
  identifier: 9a222c75-5ff9-408e-9694-b7bd90a2a0ca
  uri: /reference/9a222c75-5ff9-408e-9694-b7bd90a2a0ca
- attrs:
    .reference_type: 7
    Author: 'Wehner, M.F.; J.R. Arnold; T. Knutson; K.E. Kunkel; A.N. LeGrande'
    Book Title: 'Climate Science Special Report: Fourth National Climate Assessment, Volume I'
    DOI: 10.7930/J0CJ8BNN
    Editor: 'Wuebbles, D.J.; D.W. Fahey; K.A. Hibbard; D.J. Dokken; B.C. Stewart; T.K. Maycock'
    Pages: 231-256
    Place Published: 'Washington, DC, USA'
    Publisher: U.S. Global Change Research Program
    Title: 'Droughts, Floods, and Wildfires'
    Year: 2017
    _record_number: 21566
    _uuid: a29b612b-8c28-4c93-9c18-19314babce89
    reftype: Book Section
  child_publication: /report/climate-science-special-report/chapter/drought-floods-hydrology
  href: https://data.globalchange.gov/reference/a29b612b-8c28-4c93-9c18-19314babce89.yaml
  identifier: a29b612b-8c28-4c93-9c18-19314babce89
  uri: /reference/a29b612b-8c28-4c93-9c18-19314babce89
- attrs:
    .publisher: Copernicus GmbH
    .reference_type: 0
    Author: 'Val Martin, M.; Heald, C. L.; Lamarque, J. F.; Tilmes, S.; Emmons, L. K.; Schichtel, B. A.'
    DOI: 10.5194/acp-15-2805-2015
    ISSN: 1680-7324
    Issue: 5
    Journal: Atmospheric Chemistry and Physics
    Language: English
    Pages: 2805-2823
    Title: 'How emissions, climate, and land use change will impact mid-century air quality over the United States: A focus on effects at National Parks'
    Volume: 15
    Year: 2015
    _record_number: 18929
    _uuid: a92b6912-a92c-482b-a8e7-f43d324947e3
    reftype: Journal Article
  child_publication: /article/10.5194/acp-15-2805-2015
  href: https://data.globalchange.gov/reference/a92b6912-a92c-482b-a8e7-f43d324947e3.yaml
  identifier: a92b6912-a92c-482b-a8e7-f43d324947e3
  uri: /reference/a92b6912-a92c-482b-a8e7-f43d324947e3
- attrs:
    .reference_type: 0
    Abstract: 'Climate change is likely to alter wildfire regimes, but the magnitude and timing of potential climate-driven changes in regional fire regimes are not well understood. We considered how the occurrence, size, and spatial location of large fires might respond to climate projections in the Greater Yellowstone ecosystem (GYE) (Wyoming), a large wildland ecosystem dominated by conifer forests and characterized by infrequent, high-severity fire. We developed a suite of statistical models that related monthly climate data (1972–1999) to the occurrence and size of fires >200 ha in the northern Rocky Mountains; these models were cross-validated and then used with downscaled (∼12 km × 12 km) climate projections from three global climate models to predict fire occurrence and area burned in the GYE through 2099. All models predicted substantial increases in fire by midcentury, with fire rotation (the time to burn an area equal to the landscape area) reduced to <30 y from the historical 100–300 y for most of the GYE. Years without large fires were common historically but are expected to become rare as annual area burned and the frequency of regionally synchronous fires increase. Our findings suggest a shift to novel fire–climate–vegetation relationships in Greater Yellowstone by midcentury because fire frequency and extent would be inconsistent with persistence of the current suite of conifer species. The predicted new fire regime would transform the flora, fauna, and ecosystem processes in this landscape and may indicate similar changes for other subalpine forests.'
    Author: "Westerling, Anthony L.\rTurner, Monica G.\rSmithwick, Erica A. H.\rRomme, William H.\rRyan, Michael G."
    DOI: 10.1073/pnas.1110199108
    Date: 'July 25, 2011'
    ISSN: 1091-6490
    Issue: 32
    Journal: Proceedings of the National Academy of Sciences of the United States of America
    Pages: 13165-13170
    Title: Continued warming could transform Greater Yellowstone fire regimes by mid-21st century
    URL: http://www.pnas.org/content/early/2011/07/20/1110199108.abstract; http://www.pnas.org/content/108/32/13165.full.pdf
    Volume: 108
    Year: 2011
    _chapter: '["Ch. 9: Human Health FINAL","RF 10","Ch. 8: Ecosystems FINAL","Overview","Ch. 7: Forests FINAL"]'
    _record_number: 3398
    _uuid: b95e9226-076c-4eb5-9367-472499624084
    reftype: Journal Article
  child_publication: /article/10.1073/pnas.1110199108
  href: https://data.globalchange.gov/reference/b95e9226-076c-4eb5-9367-472499624084.yaml
  identifier: b95e9226-076c-4eb5-9367-472499624084
  uri: /reference/b95e9226-076c-4eb5-9367-472499624084
- attrs:
    .reference_type: 0
    Author: 'Dennison, Philip E.; Brewer, Simon C.; Arnold, James D.; Moritz, Max A.'
    DOI: 10.1002/2014GL059576
    ISSN: 1944-8007
    Issue: 8
    Journal: Geophysical Research Letters
    Keywords: wildfire; climate variability; remote sensing; 0468 Natural hazards; 0480 Remote sensing; 1616 Climate variability; 1632 Land cover change; 1637 Regional climate change
    Pages: 2928-2933
    Title: 'Large wildfire trends in the western United States, 1984–2011'
    Volume: 41
    Year: 2014
    _record_number: 20912
    _uuid: bcc07e69-1ffb-4630-b203-1d4e1bbfa04e
    reftype: Journal Article
  child_publication: /article/10.1002/2014GL059576
  href: https://data.globalchange.gov/reference/bcc07e69-1ffb-4630-b203-1d4e1bbfa04e.yaml
  identifier: bcc07e69-1ffb-4630-b203-1d4e1bbfa04e
  uri: /reference/bcc07e69-1ffb-4630-b203-1d4e1bbfa04e
- attrs:
    Author: 'Hurteau, Matthew D.; Westerling, Anthony L.; Wiedinmyer, Christine; Bryant, Benjamin P.'
    DOI: 10.1021/es4050133
    Date: 2014/02/18
    ISSN: 0013-936X
    Issue: 4
    Journal: Environmental Science & Technology
    Pages: 2298-2304
    Publisher: American Chemical Society
    Title: Projected effects of climate and development on California wildfire emissions through 2100
    Volume: 48
    Year: 2014
    _record_number: 24260
    _uuid: c0fc95a5-870b-4c25-a63f-81716351c81f
    reftype: Journal Article
  child_publication: /article/10.1021/es4050133
  href: https://data.globalchange.gov/reference/c0fc95a5-870b-4c25-a63f-81716351c81f.yaml
  identifier: c0fc95a5-870b-4c25-a63f-81716351c81f
  uri: /reference/c0fc95a5-870b-4c25-a63f-81716351c81f
- attrs:
    .reference_type: 0
    Author: "Spracklen, D.V.\rMickley, L.J.\rLogan, J.A.\rHudman, R.C.\rYevich, R.\rFlannigan, M.D.\rWesterling, A.L."
    DOI: 10.1029/2008JD010966
    Issue: D20
    Journal: Journal of Geophysical Research
    Pages: D20301
    Title: Impacts of climate change from 2000 to 2050 on wildfire activity and carbonaceous aerosol concentrations in the western United States
    Volume: 114
    Year: 2009
    _chapter: '["Appendix 3: Climate Science FINAL"]'
    _record_number: 2914
    _uuid: c644739f-2708-4c5b-ba4d-a9dd0a50d3dc
    reftype: Journal Article
  child_publication: /article/10.1029/2008JD010966
  href: https://data.globalchange.gov/reference/c644739f-2708-4c5b-ba4d-a9dd0a50d3dc.yaml
  identifier: c644739f-2708-4c5b-ba4d-a9dd0a50d3dc
  uri: /reference/c644739f-2708-4c5b-ba4d-a9dd0a50d3dc
- attrs:
    Abstract: 'Very large-fires (VLFs) have widespread impacts on ecosystems, air quality, fire suppression resources, and in many regions account for a majority of total area burned. Empirical generalized linear models of the largest fires (>5000 ha) across the contiguous United States (US) were developed at ∼60 km spatial and weekly temporal resolutions using solely atmospheric predictors. Climate−fire relationships on interannual timescales were evident, with wetter conditions than normal in the previous growing season enhancing VLFs probability in rangeland systems and with concurrent long-term drought enhancing VLFs probability in forested systems. Information at sub-seasonal timescales further refined these relationships, with short-term fire weather being a significant predictor in rangelands and fire danger indices linked to dead fuel moisture being a significant predictor in forested lands. Models demonstrated agreement in capturing the observed spatial and temporal variability including the interannual variability of VLF occurrences within most ecoregions. Furthermore the model captured the observed increase in VLF occurrences across parts of the southwestern and southeastern US from 1984 to 2010 suggesting that, irrespective of changes in fuels and land management, climatic factors have become more favorable for VLF occurrence over the past three decades in some regions. Our modeling framework provides a basis for simulations of future VLF occurrences from climate projections.'
    Author: 'Barbero, R.; J. T. Abatzoglou; E. A. Steel; Narasimhan K. Larkin'
    DOI: 10.1088/1748-9326/9/12/124009
    ISSN: 1748-9326
    Issue: 12
    Journal: Environmental Research Letters
    Pages: 124009
    Title: Modeling very large-fire occurrences over the continental United States from weather and climate forcing
    Volume: 9
    Year: 2014
    _record_number: 24275
    _uuid: d96a729a-a5db-4318-8f52-78f6031b42fd
    reftype: Journal Article
  child_publication: /article/10.1088/1748-9326/9/12/124009
  href: https://data.globalchange.gov/reference/d96a729a-a5db-4318-8f52-78f6031b42fd.yaml
  identifier: d96a729a-a5db-4318-8f52-78f6031b42fd
  uri: /reference/d96a729a-a5db-4318-8f52-78f6031b42fd
- attrs:
    .reference_type: 0
    Abstract: 'Increased forest fire activity across the western continental United States (US) in recent decades has likely been enabled by a number of factors, including the legacy of fire suppression and human settlement, natural climate variability, and human-caused climate change. We use modeled climate projections to estimate the contribution of anthropogenic climate change to observed increases in eight fuel aridity metrics and forest fire area across the western United States. Anthropogenic increases in temperature and vapor pressure deficit significantly enhanced fuel aridity across western US forests over the past several decades and, during 2000–2015, contributed to 75% more forested area experiencing high (>1 σ) fire-season fuel aridity and an average of nine additional days per year of high fire potential. Anthropogenic climate change accounted for ∼55% of observed increases in fuel aridity from 1979 to 2015 across western US forests, highlighting both anthropogenic climate change and natural climate variability as important contributors to increased wildfire potential in recent decades. We estimate that human-caused climate change contributed to an additional 4.2 million ha of forest fire area during 1984–2015, nearly doubling the forest fire area expected in its absence. Natural climate variability will continue to alternate between modulating and compounding anthropogenic increases in fuel aridity, but anthropogenic climate change has emerged as a driver of increased forest fire activity and should continue to do so while fuels are not limiting.'
    Author: 'Abatzoglou, John T.; Williams, A. Park'
    DOI: 10.1073/pnas.1607171113
    Date: 'October 18, 2016'
    Issue: 42
    Journal: Proceedings of the National Academy of Sciences of the United States of America
    Pages: 11770-11775
    Title: Impact of anthropogenic climate change on wildfire across western US forests
    Volume: 113
    Year: 2016
    _record_number: 20416
    _uuid: de4a77df-03ba-4319-a13f-7fdefbb353a5
    reftype: Journal Article
  child_publication: /article/10.1073/pnas.1607171113
  href: https://data.globalchange.gov/reference/de4a77df-03ba-4319-a13f-7fdefbb353a5.yaml
  identifier: de4a77df-03ba-4319-a13f-7fdefbb353a5
  uri: /reference/de4a77df-03ba-4319-a13f-7fdefbb353a5
- attrs:
    .reference_type: 0
    Abstract: 'Western United States forest wildfire activity is widely thought to have increased in recent decades, yet neither the extent of recent changes nor the degree to which climate may be driving regional changes in wildfire has been systematically documented. Much of the public and scientific discussion of changes in western United States wildfire has focused instead on the effects of 19th- and 20th-century land-use history. We compiled a comprehensive database of large wildfires in western United States forests since 1970 and compared it with hydroclimatic and land-surface data. Here, we show that large wildfire activity increased suddenly and markedly in the mid-1980s, with higher large-wildfire frequency, longer wildfire durations, and longer wildfire seasons. The greatest increases occurred in mid-elevation, Northern Rockies forests, where land-use histories have relatively little effect on fire risks and are strongly associated with increased spring and summer temperatures and an earlier spring snowmelt.'
    Accession Number: '294, 458'
    Author: "Westerling, A.L.\rHidalgo, H.G.\rCayan, D.R.\rSwetnam, T.W."
    Author Address: 'Westerling, AL (reprint author), Univ Calif San Diego, Scripps Inst Oceanog, La Jolla, CA 92093 USA; Univ Calif San Diego, Scripps Inst Oceanog, La Jolla, CA 92093 USA; Univ Calif, Merced, CA 95344 USA; US Geol Survey, La Jolla, CA 92093 USA; Univ Arizona, Tree Ring Res Lab, Tucson, AZ 85721 USA'
    DOI: 10.1126/science.1128834
    Date: AUG 18 2006
    ISSN: 0036-8075
    Issue: 5789
    Journal: Science
    Keywords: PONDEROSA PINE FORESTS; UNITED-STATES; VEGETATION DISTRIBUTION; CLIMATE-CHANGE; FIRE REGIMES; VARIABILITY; PERSPECTIVE; ECOSYSTEMS; ENSO
    Language: English
    Pages: 940-943
    Title: Warming and earlier spring increase western U.S. forest wildfire activity
    Volume: 313
    Year: 2006
    _chapter: '["Ch. 20: Southwest FINAL","Ch. 9: Human Health FINAL","RG 9 Rural","Ch. 14: Rural Communities FINAL","Ch. 13: Land Use and Land Cover Change FINAL","RF 10","Ch. 8: Ecosystems FINAL","Overview","RG 5 Southwest","Appendix 3: Climate Science FINAL","Ch. 21: Northwest FINAL"]'
    _record_number: 3397
    _uuid: e1e1f3a0-9fea-4ad2-a3af-575716f9849e
    reftype: Journal Article
  child_publication: /article/10.1126/science.1128834
  href: https://data.globalchange.gov/reference/e1e1f3a0-9fea-4ad2-a3af-575716f9849e.yaml
  identifier: e1e1f3a0-9fea-4ad2-a3af-575716f9849e
  uri: /reference/e1e1f3a0-9fea-4ad2-a3af-575716f9849e
- attrs:
    Abstract: 'The economic and ecological costs of wildfire in the United States have risen substantially in recent decades. Although climate change has likely enabled a portion of the increase in wildfire activity, the direct role of people in increasing wildfire activity has been largely overlooked. We evaluate over 1.5 million government records of wildfires that had to be extinguished or managed by state or federal agencies from 1992 to 2012, and examined geographic and seasonal extents of human-ignited wildfires relative to lightning-ignited wildfires. Humans have vastly expanded the spatial and seasonal “fire niche” in the coterminous United States, accounting for 84% of all wildfires and 44% of total area burned. During the 21-y time period, the human-caused fire season was three times longer than the lightning-caused fire season and added an average of 40,000 wildfires per year across the United States. Human-started wildfires disproportionally occurred where fuel moisture was higher than lightning-started fires, thereby helping expand the geographic and seasonal niche of wildfire. Human-started wildfires were dominant (>80% of ignitions) in over 5.1 million km2, the vast majority of the United States, whereas lightning-started fires were dominant in only 0.7 million km2, primarily in sparsely populated areas of the mountainous western United States. Ignitions caused by human activities are a substantial driver of overall fire risk to ecosystems and economies. Actions to raise awareness and increase management in regions prone to human-started wildfires should be a focus of United States policy to reduce fire risk and associated hazards.'
    Author: 'Balch, Jennifer K.; Bradley, Bethany A.; Abatzoglou, John T.; Nagy, R. Chelsea; Fusco, Emily J.; Mahood, Adam L.'
    DOI: 10.1073/pnas.1617394114
    Date: 'March 14, 2017'
    Issue: 11
    Journal: Proceedings of the National Academy of Sciences of the United States of America
    Pages: 2946-2951
    Title: Human-started wildfires expand the fire niche across the United States
    Volume: 114
    Year: 2017
    _record_number: 22012
    _uuid: ea8d831c-6b6b-4f8c-9b60-f17bab43660e
    reftype: Journal Article
  child_publication: /article/10.1073/pnas.1617394114
  href: https://data.globalchange.gov/reference/ea8d831c-6b6b-4f8c-9b60-f17bab43660e.yaml
  identifier: ea8d831c-6b6b-4f8c-9b60-f17bab43660e
  uri: /reference/ea8d831c-6b6b-4f8c-9b60-f17bab43660e
- attrs:
    .reference_type: 0
    Abstract: "Fire has a role in ecosystem services; naturally produced wildfires are important for the sustainability of many terrestrial biomes and fire is one of nature's primary carbon-cycling mechanisms. Under a warming climate, it is likely that fire frequency and severity will increase. There is some evidence that fire activity may already be increasing in Western U.S. forests and recent exceptionally intense fire events, such as the Australian Black Saturday fires in 2009 and Russian fires in 2010, highlight the devastation of fires associated with extreme weather. The impacts of emissions from fires on global atmospheric chemistry, and on the atmospheric burden of greenhouse gases and aerosols are recognized although gaps remain in our scientific understanding of the processes involved and the environmental consequences of fires. While significant uncertainty remains in the long-term impacts of forest fires on climate, new sophisticated tools have recently become available (observational and modeling). These tools provide insight into changing wildfires and intentional biomass burning activity in the Anthropocene era that is marked by humans’ impact on Earth. The understanding of the impact of wildfires and intentional biomass burning emissions on the present and future climate is reviewed. Presently, fires and their emissions are controlled under fire management and emission reduction schemes. Under future climate conditions, significantly more effective controls on these fires seem necessary. Continued and improved monitoring to support and to demonstrate the effectiveness of the adopted measures, and further deepening of knowledge on the mechanistic and sociological factors that influence fires and their environmental impacts is highly needed. Wildfires and biomass burning are important for a range of international and domestic policies, including air pollution, climate, poverty, security, food supply, and biodiversity. Climate change will make the need to coherently address fires based on scientifically sound measurements and modeling even more pertinent"
    Author: 'Keywood, Melita; Kanakidou, Maria; Stohl, Andreas; Dentener, Frank; Grassi, Giacomo; Meyer, C. P.; Torseth, Kjetil; Edwards, David; Thompson, Anne M.; Lohmann, Ulrike; Burrows, John'
    DOI: 10.1080/10643389.2011.604248
    ISSN: 1547-6537
    Issue: 1
    Journal: Critical Reviews in Environmental Science and Technology
    Pages: 40-83
    Title: 'Fire in the air: Biomass burning impacts in a changing climate'
    Volume: 43
    Year: 2013
    _record_number: 18904
    _uuid: f4daa36c-4b3f-449a-8d03-94cdd39fe1eb
    reftype: Journal Article
  child_publication: /article/10.1080/10643389.2011.604248
  href: https://data.globalchange.gov/reference/f4daa36c-4b3f-449a-8d03-94cdd39fe1eb.yaml
  identifier: f4daa36c-4b3f-449a-8d03-94cdd39fe1eb
  uri: /reference/f4daa36c-4b3f-449a-8d03-94cdd39fe1eb
- attrs:
    Author: 'Williams, A Park; Abatzoglou, John T'
    DOI: 10.1007/s40641-016-0031-0
    ISSN: 2198-6061
    Issue: 1
    Journal: Current Climate Change Reports
    Pages: 1-14
    Title: Recent advances and remaining uncertainties in resolving past and future climate effects on global fire activity
    Volume: 2
    Year: 2016
    _record_number: 22662
    _uuid: f680e49e-d58f-45c2-8ad6-a7bc97c12ca0
    reftype: Journal Article
  child_publication: /article/10.1007/s40641-016-0031-0
  href: https://data.globalchange.gov/reference/f680e49e-d58f-45c2-8ad6-a7bc97c12ca0.yaml
  identifier: f680e49e-d58f-45c2-8ad6-a7bc97c12ca0
  uri: /reference/f680e49e-d58f-45c2-8ad6-a7bc97c12ca0