Articles citing this paper
The BlueSky smoke modeling framework
Narasimhan K. Larkin A E , Susan M. O’Neill B , Robert Solomon A , Sean Raffuse C , Tara Strand A , Dana C. Sullivan C , Candace Krull A , Miriam Rorig A , Janice Peterson D and Sue A. Ferguson A
+ Author Affiliations
- Author Affiliations
A AirFire Team, US Forest Service, Pacific Northwest Research Station, 400 N 34th St, Suite 201, Seattle, WA 98103, USA.
B Natural Resources Conservation Service, USDA, 1201 NE Lloyd Blvd, Suite 1000, Portland, OR 97232, USA.
C Sonoma Technology, Inc., 1455 N McDowell Blvd, Suite D, Petaluma, CA 94954, USA.
D US Forest Service, Region 6, 400 N 34th St, Suite 201, Seattle, WA 98103, USA.
E Corresponding author. Email: larkin@fs.fed.us
International Journal of Wildland Fire 18(8) 906-920 https://doi.org/10.1071/WF07086
Submitted: 28 June 2007 Accepted: 7 November 2008 Published: 9 December 2009
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Toward an integrated system for fire, smoke and air quality simulations
Kochanski Adam K.,
Jenkins Mary Ann,
Yedinak Kara,
Mandel Jan,
Beezley Jonathan, Lamb Brian
International Journal of Wildland Fire. 2016 25(5). p.534
Integration of a Coupled Fire-Atmosphere Model Into a Regional Air Quality Forecasting System for Wildfire Events
Kochanski Adam K.,
Herron-Thorpe Farren,
Mallia Derek V.,
Mandel Jan, Vaughan Joseph K.
Frontiers in Forests and Global Change. 2021 4
Wildland Fire Smoke in the United States (2022)
The wildland fire emission inventory: western United States emission estimates and an evaluation of uncertainty
Urbanski S. P.,
Hao W. M., Nordgren B.
Atmospheric Chemistry and Physics. 2011 11(24). p.12973
Estimating Fuel Moisture in Grasslands Using UAV-Mounted Infrared and Visible Light Sensors
Barber Nastassia,
Alvarado Ernesto,
Kane Van R.,
Mell William E., Moskal L. Monika
Sensors. 2021 21(19). p.6350
Evaluating potential trade‐offs among fuel treatment strategies in mixed‐conifer forests of the Sierra Nevada
Stevens Jens T.,
Collins Brandon M.,
Long Jonathan W.,
North Malcolm P.,
Prichard Susan J.,
Tarnay Leland W., White Angela M.
Ecosphere. 2016 7(9).
Methods, availability, and applications of PM2.5 exposure estimates derived from ground measurements, satellite, and atmospheric models
Diao Minghui,
Holloway Tracey,
Choi Seohyun,
O’Neill Susan M.,
Al-Hamdan Mohammad Z.,
Van Donkelaar Aaron,
Martin Randall V.,
Jin Xiaomeng,
Fiore Arlene M.,
Henze Daven K.,
Lacey Forrest,
Kinney Patrick L.,
Freedman Frank,
Larkin Narasimhan K.,
Zou Yufei,
Kelly James T., Vaidyanathan Ambarish
Journal of the Air & Waste Management Association. 2019 69(12). p.1391
Projected smoke impacts from increased prescribed fire activity in California's high wildfire risk landscape
Kramer S.J.,
Huang S.,
McClure C.D.,
Chaveste M.R., Lurmann F.
Atmospheric Environment. 2023 311 p.119993
Wildland fire emissions, carbon, and climate: Plume rise, atmospheric transport, and chemistry processes
Heilman Warren E.,
Liu Yongqiang,
Urbanski Shawn,
Kovalev Vladimir, Mickler Robert
Forest Ecology and Management. 2014 317 p.70
Experimental Design of a Prescribed Burn Instrumentation
Kochanski Adam,
Fournier Aimé, Mandel Jan
Atmosphere. 2018 9(8). p.296
Machine Learning-Based Integration of High-Resolution Wildfire Smoke Simulations and Observations for Regional Health Impact Assessment
Zou Yufei,
O’Neill Susan M.,
Larkin Narasimhan K.,
Alvarado Ernesto C.,
Solomon Robert,
Mass Clifford,
Liu Yang,
Odman M. Talat, Shen Huizhong
International Journal of Environmental Research and Public Health. 2019 16(12). p.2137
Impacts of prescribed fires and benefits from their reduction for air quality, health, and visibility in the Pacific Northwest of the United States
Ravi Vikram,
Vaughan Joseph K.,
Wolcott Michael P., Lamb Brian K.
Journal of the Air & Waste Management Association. 2019 69(3). p.289
Evaluating a fire smoke simulation algorithm in the National Air Quality Forecast Capability (NAQFC) by using multiple observation data sets during the Southeast Nexus (SENEX) field campaign
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Kim HyunCheol,
Lee Pius,
Saylor Rick,
Tang YouHua,
Tong Daniel,
Baker Barry,
Kondragunta Shobha,
Xu Chuanyu,
Ruminski Mark G.,
Chen Weiwei,
Mcqueen Jeff, Stajner Ivanka
Geoscientific Model Development. 2020 13(5). p.2169
Landscape Fire, Smoke, and Health (2023)
Quantifying how sources of uncertainty in combustible biomass propagate to prediction of wildland fire emissions
Kennedy Maureen C.,
Prichard Susan J.,
McKenzie Donald, French Nancy H. F.
International Journal of Wildland Fire. 2020 29(9). p.793
Wildland fire emissions, carbon, and climate: Emission factors
Urbanski Shawn
Forest Ecology and Management. 2014 317 p.51
Comparing the height and area of wild and prescribed fire particle plumes in south-east Australia using weather radar
Price Owen F.,
Purdam Phil J.,
Williamson Grant J., Bowman David M. J. S.
International Journal of Wildland Fire. 2018 27(8). p.525
Air quality impact of slash pile burns: Simulated geo-spatial impact assessment for Washington State
Pierobon Francesca,
Sifford Cody,
Velappan Hemalatha, Ganguly Indroneil
Science of The Total Environment. 2022 818 p.151699
Combustion efficiency and emission factors for wildfire-season fires in mixed conifer forests of the northern Rocky Mountains, US
Urbanski S. P.
Atmospheric Chemistry and Physics. 2013 13(14). p.7241
Bacterial Emission Factors: A Foundation for the Terrestrial-Atmospheric Modeling of Bacteria Aerosolized by Wildland Fires
Kobziar Leda N.,
Lampman Phinehas,
Tohidi Ali,
Kochanski Adam K.,
Cervantes Antonio,
Hudak Andrew T.,
McCarley Ryan,
Gullett Brian,
Aurell Johanna,
Moore Rachel,
Vuono David C.,
Christner Brent C.,
Watts Adam C.,
Cronan James, Ottmar Roger
Environmental Science & Technology. 2024 58(5). p.2413
Atmospheric Turbulence Observations in the Vicinity of Surface Fires in Forested Environments
Heilman Warren E.,
Bian Xindi,
Clark Kenneth L.,
Skowronski Nicholas S.,
Hom John L., Gallagher Michael R.
Journal of Applied Meteorology and Climatology. 2017 56(12). p.3133
Wildland Fires and Air Pollution (2008)
National database for calculating fuel available to wildfires
McKenzie Donald,
French Nancy H. F., Ottmar Roger D.
Eos, Transactions American Geophysical Union. 2012 93(6). p.57
Assessing the impact of shipping emissions on air pollution in the Canadian Arctic and northern regions: current and future modelled scenarios
Gong Wanmin,
Beagley Stephen R.,
Cousineau Sophie,
Sassi Mourad,
Munoz-Alpizar Rodrigo,
Ménard Sylvain,
Racine Jacinthe,
Zhang Junhua,
Chen Jack,
Morrison Heather,
Sharma Sangeeta,
Huang Lin,
Bellavance Pascal,
Ly Jim,
Izdebski Paul,
Lyons Lynn, Holt Richard
Atmospheric Chemistry and Physics. 2018 18(22). p.16653
Encyclopedia of Wildfires and Wildland-Urban Interface (WUI) Fires (2020)
Turbulence spectra measured during fire front passage
Seto Daisuke,
Clements Craig B., Heilman Warren E.
Agricultural and Forest Meteorology. 2013 169 p.195
Intercomparison of Fire Size, Fuel Loading, Fuel Consumption, and Smoke Emissions Estimates on the 2006 Tripod Fire, Washington, USA
Drury Stacy A.,
Larkin Narasimhan Sim,
Strand Tara T.,
Huang ShihMing,
Strenfel Scott J.,
Banwell Erin M.,
O’Brien Theresa E., Raffuse Sean M.
Fire Ecology. 2014 10(1). p.56
Preliminary Evaluation of a Regional Atmospheric Chemical Data Assimilation System for Environmental Surveillance
Lee Pius, Liu Yang
International Journal of Environmental Research and Public Health. 2014 11(12). p.12795
Landscape Fire, Smoke, and Health (2023)
Modeling Regional-Scale Wildland Fire Emissions with the Wildland Fire Emissions Information System*
French Nancy H. F.,
McKenzie Donald,
Erickson Tyler,
Koziol Benjamin,
Billmire Michael,
Endsley K. Arthur,
Yager Scheinerman Naomi K.,
Jenkins Liza,
Miller Mary Ellen,
Ottmar Roger, Prichard Susan
Earth Interactions. 2014 18(16). p.1
Wildland Fires and Air Pollution (2008)
The Fire and Smoke Model Evaluation Experiment—A Plan for Integrated, Large Fire–Atmosphere Field Campaigns
Prichard Susan,
Larkin N.,
Ottmar Roger,
French Nancy,
Baker Kirk,
Brown Tim,
Clements Craig,
Dickinson Matt,
Hudak Andrew,
Kochanski Adam,
Linn Rod,
Liu Yongqiang,
Potter Brian,
Mell William,
Tanzer Danielle,
Urbanski Shawn, Watts Adam
Atmosphere. 2019 10(2). p.66
Regional projections of the likelihood of very large wildland fires under a changing climate in the contiguous Western United States
Stavros E. Natasha,
Abatzoglou John T.,
McKenzie Donald, Larkin Narasimhan K.
Climatic Change. 2014 126(3-4). p.455
Improving NOAA NAQFC PM2.5 Predictions with a Bias Correction Approach
Huang Jianping,
McQueen Jeffery,
Wilczak James,
Djalalova Irina,
Stajner Ivanka,
Shafran Perry,
Allured Dave,
Lee Pius,
Pan Li,
Tong Daniel,
Huang Ho-Chun,
DiMego Geoffrey,
Upadhayay Sikchya, Delle Monache Luca
Weather and Forecasting. 2017 32(2). p.407
Photochemical model evaluation of 2013 California wild fire air quality impacts using surface, aircraft, and satellite data
Baker K.R.,
Woody M.C.,
Valin L.,
Szykman J.,
Yates E.L.,
Iraci L.T.,
Choi H.D.,
Soja A.J.,
Koplitz S.N.,
Zhou L.,
Campuzano-Jost Pedro,
Jimenez Jose L., Hair J.W.
Science of The Total Environment. 2018 637-638 p.1137
Ammonia emissions from biomass burning in the continental United States
Bray Casey D.,
Battye William,
Aneja Viney P.,
Tong Daniel Q.,
Lee Pius, Tang Youhua
Atmospheric Environment. 2018 187 p.50
Blending forest fire smoke forecasts with observed data can improve their utility for public health applications
Yuchi Weiran,
Yao Jiayun,
McLean Kathleen E.,
Stull Roland,
Pavlovic Radenko,
Davignon Didier,
Moran Michael D., Henderson Sarah B.
Atmospheric Environment. 2016 145 p.308
The contribution of duff consumption to fire emissions and air pollution of the Rough Ridge Fire
Zhao Fengjun,
Liu Yongqiang,
Goodrick Scott,
Hornsby Benjamin, Schardt Jeffrey
International Journal of Wildland Fire. 2019 28(12). p.993
An Observing System Simulation Experiment Framework for Air Quality Forecasts in Northeast Asia: A Case Study Utilizing Virtual Geostationary Environment Monitoring Spectrometer and Surface Monitored Aerosol Data
Kim Hyeon-Kook,
Lee Seunghee,
Bae Kang-Ho,
Jeon Kwonho,
Lee Myong-In, Song Chang-Keun
Remote Sensing. 2022 14(2). p.389
Assessing the Impact of Wildfires on the Use of Black Carbon as an Indicator of Traffic Exposures in Environmental Epidemiology Studies
Martenies S. E.,
Hoskovec L.,
Wilson A.,
Allshouse W. B.,
Adgate J. L.,
Dabelea D.,
Jathar S., Magzamen S.
GeoHealth. 2021 5(6).
Contributions of natural and anthropogenic sources to ambient ammonia in the Athabasca Oil Sands and north-western Canada
Whaley Cynthia H.,
Makar Paul A.,
Shephard Mark W.,
Zhang Leiming,
Zhang Junhua,
Zheng Qiong,
Akingunola Ayodeji,
Wentworth Gregory R.,
Murphy Jennifer G.,
Kharol Shailesh K., Cady-Pereira Karen E.
Atmospheric Chemistry and Physics. 2018 18(3). p.2011
Application and evaluation of a low-cost PM sensor and data fusion with CMAQ simulations to quantify the impacts of prescribed burning on air quality in Southwestern Georgia, USA
Huang Ran,
Lal Raj,
Qin Momei,
Hu Yongtao,
Russell Armistead G.,
Odman M. Talat,
Afrin Sadia,
Garcia-Menendez Fernando, O’Neill Susan M.
Journal of the Air & Waste Management Association. 2021 71(7). p.815
The Canadian Optimized Statistical Smoke Exposure Model (CanOSSEM): A machine learning approach to estimate national daily fine particulate matter (PM2.5) exposure
Paul Naman,
Yao Jiayun,
McLean Kathleen E.,
Stieb David M., Henderson Sarah B.
Science of The Total Environment. 2022 850 p.157956
Wildland Fire Smoke in the United States (2022)
Modeling Wildland Fire-Specific PM2.5 Concentrations for Uncertainty-Aware Health Impact Assessments
Jiang Xiangyu, Enki Yoo Eun-Hye
Environmental Science & Technology. 2019 53(20). p.11828
Evaluation and intercomparison of wildfire smoke forecasts from multiple modeling systems for the 2019 Williams Flats fire
Ye Xinxin,
Arab Pargoal,
Ahmadov Ravan,
James Eric,
Grell Georg A.,
Pierce Bradley,
Kumar Aditya,
Makar Paul,
Chen Jack,
Davignon Didier,
Carmichael Greg R.,
Ferrada Gonzalo,
McQueen Jeff,
Huang Jianping,
Kumar Rajesh,
Emmons Louisa,
Herron-Thorpe Farren L.,
Parrington Mark,
Engelen Richard,
Peuch Vincent-Henri,
da Silva Arlindo,
Soja Amber,
Gargulinski Emily,
Wiggins Elizabeth,
Hair Johnathan W.,
Fenn Marta,
Shingler Taylor,
Kondragunta Shobha,
Lyapustin Alexei,
Wang Yujie,
Holben Brent,
Giles David M., Saide Pablo E.
Atmospheric Chemistry and Physics. 2021 21(18). p.14427
Wildland Fire Smoke in the United States (2022)
A model for rapid PM2.5 exposure estimates in wildfire conditions using routinely available data: rapidfire v0.1.3
Raffuse Sean,
O'Neill Susan, Schmidt Rebecca
Geoscientific Model Development. 2024 17(1). p.381
Development of a Smoke Dispersion Forecast System for Korean Forest Fires
Lee Boknam,
Cho Seungwan,
Lee Seung-Kii,
Woo Choongshik, Park Joowon
Forests. 2019 10(3). p.219
Effect of Small-Scale Wildfires on the Air Parameters near the Burning Centers
Loboda Egor,
Kasymov Denis,
Agafontsev Mikhail,
Reyno Vladimir,
Gordeev Yevgeniy,
Tarakanova Veronika,
Martynov Pavel,
Loboda Yuliya,
Orlov Konstantin,
Savin Kirill, Dutov Andrey
Atmosphere. 2021 12(1). p.75
Operational Evaluation of a Wildfire Air Quality Model from a Forecaster Point of View
Ainslie Bruce,
So Rita, Chen Jack
Weather and Forecasting. 2022 37(5). p.681
Incorporating a Canopy Parameterization within a Coupled Fire-Atmosphere Model to Improve a Smoke Simulation for a Prescribed Burn
Mallia Derek V.,
Kochanski Adam K.,
Urbanski Shawn P.,
Mandel Jan,
Farguell Angel, Krueger Steven K.
Atmosphere. 2020 11(8). p.832
Verification of the NOAA Smoke Forecasting System: Model Sensitivity to the Injection Height
Stein Ariel F.,
Rolph Glenn D.,
Draxler Roland R.,
Stunder Barbara, Ruminski Mark
Weather and Forecasting. 2009 24(2). p.379
A Regression Model for Smoke Plume Rise of Prescribed Fires Using Meteorological Conditions
Liu Yongqiang
Journal of Applied Meteorology and Climatology. 2014 53(8). p.1961
Multiscale Simulation of a Prescribed Fire Event in the New Jersey Pine Barrens Using ARPS-CANOPY
Kiefer Michael T.,
Heilman Warren E.,
Zhong Shiyuan,
Charney Joseph J.,
Bian Xindi,
Skowronski Nicholas S.,
Hom John L.,
Clark Kenneth L.,
Patterson Matthew, Gallagher Michael R.
Journal of Applied Meteorology and Climatology. 2014 53(4). p.793
Evaluating Wildfire Smoke Transport Within a Coupled Fire‐Atmosphere Model Using a High‐Density Observation Network for an Episodic Smoke Event Along Utah's Wasatch Front
Mallia Derek V.,
Kochanski Adam K.,
Kelly Kerry E.,
Whitaker Ross,
Xing Wei,
Mitchell Logan E.,
Jacques Alex,
Farguell Angel,
Mandel Jan,
Gaillardon Pierre‐Emmanuel,
Becnel Tom, Krueger Steven K.
Journal of Geophysical Research: Atmospheres. 2020 125(20).
Estimating contribution of wildland fires to ambient ozone levels in National Parks in the Sierra Nevada, California
Preisler Haiganoush K.,
Zhong Shiyuan (Sharon),
Esperanza Annie,
Brown Timothy J.,
Bytnerowicz Andrzej, Tarnay Leland
Environmental Pollution. 2010 158(3). p.778
Use of hourly Geostationary Operational Environmental Satellite (GOES) fire emissions in a Community Multiscale Air Quality (CMAQ) model for improving surface particulate matter predictions
Yang Eun-Su,
Christopher Sundar A.,
Kondragunta Shobha, Zhang Xiaoyang
Journal of Geophysical Research. 2011 116(D4).
The Fire INventory from NCAR (FINN): a high resolution global model to estimate the emissions from open burning
Wiedinmyer C.,
Akagi S. K.,
Yokelson R. J.,
Emmons L. K.,
Al-Saadi J. A.,
Orlando J. J., Soja A. J.
Geoscientific Model Development. 2011 4(3). p.625
Impact of wildfires on some greenhouse gases over continental USA: A study based on satellite data
Kim Bokhwa, Sarkar Sudipta
Remote Sensing of Environment. 2017 188 p.118
Machine Learning Approach To Estimate Hourly Exposure to Fine Particulate Matter for Urban, Rural, and Remote Populations during Wildfire Seasons
Yao Jiayun,
Brauer Michael,
Raffuse Sean, Henderson Sarah B.
Environmental Science & Technology. 2018 52(22). p.13239
Climate Change, Air Pollution and Global Challenges - Understanding and Perspectives from Forest Research (2013)
Wildfire Smoke Monitoring for Agricultural Safety and Health in Rural Washington
Schollaert Claire,
Austin Elena,
Seto Edmund,
Spector June,
Waller Scott, Kasner Edward
Journal of Agromedicine. 2023 28(3). p.595
Description and Verification of the NOAA Smoke Forecasting System: The 2007 Fire Season
Rolph Glenn D.,
Draxler Roland R.,
Stein Ariel F.,
Taylor Albion,
Ruminski Mark G.,
Kondragunta Shobha,
Zeng Jian,
Huang Ho-Chun,
Manikin Geoffrey,
McQueen Jeffery T., Davidson Paula M.
Weather and Forecasting. 2009 24(2). p.361
How important is biomass burning in Canada to mercury contamination?
Fraser Annemarie,
Dastoor Ashu, Ryjkov Andrei
Atmospheric Chemistry and Physics. 2018 18(10). p.7263
A Coupled Wildfire-Emission and Dispersion Framework for Probabilistic PM2.5 Estimation
Melecio-Vázquez David,
Lautenberger Chris,
Hsieh Ho,
Amodeo Michael,
Porter Jeremy R.,
Wilson Bradley,
Pope Mariah,
Shu Evelyn,
Waeselynck Valentin, Kearns Edward J.
Fire. 2023 6(6). p.220
Development and Evaluation of a North America Ensemble Wildfire Air Quality Forecast: Initial Application to the 2020 Western United States “Gigafire”
Makkaroon P.,
Tong D. Q.,
Li Y.,
Hyer E. J.,
Xian P.,
Kondragunta S.,
Campbell P. C.,
Tang Y.,
Baker B. D.,
Cohen M. D.,
Darmenov A.,
Lyapustin A.,
Saylor R. D.,
Wang Y., Stajner I.
Journal of Geophysical Research: Atmospheres. 2023 128(22).
Assessing Landscape Vulnerability to Wildfire in the USA
Vaillant Nicole M.,
Kolden Crystal A., Smith Alistair M. S.
Current Forestry Reports. 2016 2(3). p.201
Smoke plume height measurement of prescribed burns in the south-eastern United States
Liu Yongqiang,
Goodrick Scott L.,
Achtemeier Gary L.,
Forbus Ken, Combs David
International Journal of Wildland Fire. 2013 22(2). p.130
Apportioning prescribed fire impacts on PM2.5 among individual fires through dispersion modeling
Huang Ran,
Qin Momei,
Hu Yongtao,
Russell Armistead G., Odman M. Talat
Atmospheric Environment. 2020 223 p.117260
Modeling crop residue burning experiments to evaluate smoke emissions and plume transport
Zhou Luxi,
Baker Kirk R.,
Napelenok Sergey L.,
Pouliot George,
Elleman Robert,
O'Neill Susan M.,
Urbanski Shawn P., Wong David C.
Science of The Total Environment. 2018 627 p.523
Wildfire smoke-plume rise: a simple energy balance parameterization
Moisseeva Nadya, Stull Roland
Atmospheric Chemistry and Physics. 2021 21(3). p.1407
The Weather Conditions for Desired Smoke Plumes at a FASMEE Burn Site
Liu Yongqiang,
Goodrick Scott, Achtemeier Gary
Atmosphere. 2018 9(7). p.259
Wildland Fire Smoke in the United States (2022)
Public health applications of historical smoke forecasts: An evaluation of archived BlueSky data for the coterminous United States, 2015–2018
Michael Ryan,
Mirabelli Maria C., Vaidyanathan Ambarish
Computers & Geosciences. 2023 171 p.105267
An Analysis of Prescribed Fire Activities and Emissions in the Southeastern United States from 2013 to 2020
Li Zongrun,
Maji Kamal J.,
Hu Yongtao,
Vaidyanathan Ambarish,
O’Neill Susan M.,
Odman M. Talat, Russell Armistead G.
Remote Sensing. 2023 15(11). p.2725
Summary of workshop large outdoor fires and the built environment
Manzello Samuel L.,
Blanchi Raphaele,
Gollner Michael J.,
Gorham Daniel,
McAllister Sara,
Pastor Elsa,
Planas Eulàlia,
Reszka Pedro, Suzuki Sayaka
Fire Safety Journal. 2018 100 p.76
A VIIRS direct broadcast algorithm for rapid response mapping of wildfire burned area in the western United States
Urbanski Shawn,
Nordgren Bryce,
Albury Carl,
Schwert Brenna,
Peterson David,
Quayle Brad, Hao Wei Min
Remote Sensing of Environment. 2018 219 p.271
Global impact of landscape fire emissions on surface level PM2.5 concentrations, air quality exposure and population mortality
Roberts G., Wooster M.J.
Atmospheric Environment. 2021 252 p.118210
Quantifying the smoke-related public health trade-offs of forest management
Schollaert Claire L.,
Jung Jihoon,
Wilkins Joseph,
Alvarado Ernesto,
Baumgartner Jill,
Brun Julien,
Busch Isaksen Tania,
Lydersen Jamie M.,
Marlier Miriam E.,
Marshall Julian D.,
Masuda Yuta J.,
Maxwell Charles,
Tessum Christopher W.,
Wilson Kristen N.,
Wolff Nicholas H., Spector June T.
Nature Sustainability. 2023 7(2). p.130
The Impacts of Prescribed Fire on PM2.5 Air Quality and Human Health: Application to Asthma-Related Emergency Room Visits in Georgia, USA
Huang Ran,
Hu Yongtao,
Russell Armistead G.,
Mulholland James A., Odman M. Talat
International Journal of Environmental Research and Public Health. 2019 16(13). p.2312
Using wildland fire smoke modeling data in gerontological health research (California, 2007–2018)
Koman Patricia D.,
Billmire Michael,
Baker Kirk R.,
Carter Julie M.,
Thelen Brian J.,
French Nancy H.F., Bell Sue Anne
Science of The Total Environment. 2022 838 p.156403
The Comprehensive Fire Information Reconciled Emissions (CFIRE) inventory: Wildland fire emissions developed for the 2011 and 2014 U.S. National Emissions Inventory
Larkin Narasimhan K.,
Raffuse Sean M.,
Huang ShihMing,
Pavlovic Nathan,
Lahm Peter, Rao Venkatesh
Journal of the Air & Waste Management Association. 2020 70(11). p.1165
Improving spatial resolution of PM2.5 measurements during wildfires
Ding Yifan,
Cruz Isa,
Freedman Frank, Venkatram Akula
Atmospheric Pollution Research. 2021 12(5). p.101047
The particle dry deposition component of total deposition from air
quality models: right, wrong or uncertain?
Saylor Rick D.,
Baker Barry D.,
Lee Pius,
Tong Daniel,
Pan Li, Hicks Bruce B.
Tellus B: Chemical and Physical Meteorology. 2019 71(1). p.1550324
Use of MODIS data to assess atmospheric aerosol before, during, and after community evacuations related to wildfire smoke
Krstic Nikolas, Henderson Sarah B.
Remote Sensing of Environment. 2015 166 p.1
The effects of global changes upon regional ozone pollution in the United States
Chen J.,
Avise J.,
Lamb B.,
Salathé E.,
Mass C.,
Guenther A.,
Wiedinmyer C.,
Lamarque J.-F.,
O'Neill S.,
McKenzie D., Larkin N.
Atmospheric Chemistry and Physics. 2009 9(4). p.1125
Constraining CO<sub>2</sub> emissions from open biomass burning by satellite observations of co-emitted species: a method and its application to wildfires in Siberia
Konovalov I. B.,
Berezin E. V.,
Ciais P.,
Broquet G.,
Beekmann M.,
Hadji-Lazaro J.,
Clerbaux C.,
Andreae M. O.,
Kaiser J. W., Schulze E.-D.
Atmospheric Chemistry and Physics. 2014 14(19). p.10383
Air Quality Management (2014)
Social media approaches to modeling wildfire smoke dispersion: spatiotemporal and social scientific investigations
Sachdeva Sonya,
McCaffrey Sarah, Locke Dexter
Information, Communication & Society. 2017 20(8). p.1146
Air-Quality Impacts and Intake Fraction of PM2.5 during the 2013 Rim Megafire
Navarro Kathleen M.,
Cisneros Ricardo,
O’Neill Susan M.,
Schweizer Don,
Larkin Narasimhan K., Balmes John R.
Environmental Science & Technology. 2016 50(21). p.11965
Operational bias correction for PM2.5 using the AIRPACT air quality forecast system in the Pacific Northwest
June Nicole,
Vaughan Joseph,
Lee Yunha, Lamb Brian K.
Journal of the Air & Waste Management Association. 2021 71(4). p.515
NAQFC Developmental Forecast Guidance for Fine Particulate Matter (PM2.5)
Lee Pius,
McQueen Jeffery,
Stajner Ivanka,
Huang Jianping,
Pan Li,
Tong Daniel,
Kim Hyuncheol,
Tang Youhua,
Kondragunta Shobha,
Ruminski Mark,
Lu Sarah,
Rogers Eric,
Saylor Rick,
Shafran Perry,
Huang Ho-Chun,
Gorline Jerry,
Upadhayay Sikchya, Artz Richard
Weather and Forecasting. 2017 32(1). p.343
Forest floor depths and fuel loads in upland Canadian forests
Letang D.L., de Groot W.J.
Canadian Journal of Forest Research. 2012 42(8). p.1551
Air Quality Data Approach for Defining Wildfire Influence: Impacts on PM2.5, NO2, CO, and O3 in Western Canadian Cities
Schneider Stephanie R.,
Lee Kristyn,
Santos Guadalupe, Abbatt Jonathan P. D.
Environmental Science & Technology. 2021 55(20). p.13709
An evaluation of empirical and statistically based smoke plume injection height parametrisations used within air quality models
Wilkins Joseph L.,
Pouliot George,
Pierce Thomas,
Soja Amber,
Choi Hyundeok,
Gargulinski Emily,
Gilliam Robert,
Vukovich Jeffrey, Landis Matthew S.
International Journal of Wildland Fire. 2022 31(2). p.193
Evaluation of an ARPS‐based canopy flow modeling system for use in future operational smoke prediction efforts
Kiefer M. T.,
Zhong S.,
Heilman W. E.,
Charney J. J., Bian X.
Journal of Geophysical Research: Atmospheres. 2013 118(12). p.6175
Air quality simulations of wildfires in the Pacific Northwest evaluated with surface and satellite observations during the summers of 2007 and 2008
Herron-Thorpe F. L.,
Mount G. H.,
Emmons L. K.,
Lamb B. K.,
Jaffe D. A.,
Wigder N. L.,
Chung S. H.,
Zhang R.,
Woelfle M. D., Vaughan J. K.
Atmospheric Chemistry and Physics. 2014 14(22). p.12533
Impacts of changing fire weather conditions on reconstructed trends in U.S. wildland fire activity from 1979 to 2014
Freeborn Patrick H.,
Jolly W. Matt, Cochrane Mark A.
Journal of Geophysical Research: Biogeosciences. 2016 121(11). p.2856
Multi-Year (2013–2016) PM2.5 Wildfire Pollution Exposure over North America as Determined from Operational Air Quality Forecasts
Munoz-Alpizar Rodrigo,
Pavlovic Radenko,
Moran Michael,
Chen Jack,
Gravel Sylvie,
Henderson Sarah,
Ménard Sylvain,
Racine Jacinthe,
Duhamel Annie,
Gilbert Samuel,
Beaulieu Paul-André,
Landry Hugo,
Davignon Didier,
Cousineau Sophie, Bouchet Véronique
Atmosphere. 2017 8(9). p.179
Apportioning Smoke Impacts of 2018 Wildfires on Eastern Sierra Nevada Sites
Mueller Sean,
Tarnay Leland,
O’Neill Susan, Raffuse Sean
Atmosphere. 2020 11(9). p.970
Neural network predictions of pollutant emissions from open burning of crop residues: Application to air quality forecasts in southern China
Feng Xu,
Fu Tzung-May,
Cao Hansen,
Tian Heng,
Fan Qi, Chen Xiaoyang
Atmospheric Environment. 2019 204 p.22
Wildfire Smoke Particulate Matter Concentration Measurements Using Radio Links From Cellular Communication Networks
Guyot Adrien,
Pudashine Jayaram,
Uijlenhoet Remko,
Protat Alain,
Pauwels Valentijn R. N.,
Louf Valentin, Walker Jeffrey P.
AGU Advances. 2021 2(1).
Wildfire Smoke Transport and Air Quality Impacts in Different Regions of China
Zhao Fengjun,
Liu Yongqiang,
Shu Lifu, Zhang Qi
Atmosphere. 2020 11(9). p.941
Wildland Fire Smoke in the United States (2022)
Effects of salvage logging and pile-and-burn on fuel loading, potential fire behaviour, fuel consumption and emissions
Johnson Morris C.,
Halofsky Jessica E., Peterson David L.
International Journal of Wildland Fire. 2013 22(6). p.757
Atmospheric impacts of the 2010 Russian wildfires: integrating modelling and measurements of an extreme air pollution episode in the Moscow region
Konovalov I. B.,
Beekmann M.,
Kuznetsova I. N.,
Yurova A., Zvyagintsev A. M.
Atmospheric Chemistry and Physics. 2011 11(19). p.10031
Air-Quality Challenges of Prescribed Fire in the Complex Terrain and Wildland Urban Interface Surrounding Bend, Oregon
Miller Colton,
O’Neill Susan,
Rorig Miriam, Alvarado Ernesto
Atmosphere. 2019 10(9). p.515
The Alberta smoke plume observation study
Anderson Kerry,
Pankratz Al,
Mooney Curtis, Fleetham Kelly
Earth System Science Data. 2018 10(1). p.325
Quantifying Carbon Monoxide Emissions on the Scale of Large Wildfires
Bela M. M.,
Kille N.,
McKeen S. A.,
Romero‐Alvarez J.,
Ahmadov R.,
James E.,
Pereira G.,
Schmidt C.,
Pierce R. B.,
O’Neill S. M.,
Zhang X.,
Kondragunta S.,
Wiedinmyer C., Volkamer R.
Geophysical Research Letters. 2022 49(3).
The Canadian Optimized Statistical Smoke Exposure Model (Canossem): A Machine Learning Approach to Estimate National Daily Fine Particulate Matter (Pm2.5) Exposure
Paul Naman,
Yao Jiayun,
McLean Kathleen E.,
Stieb Dave M., Henderson Sarah B.
SSRN Electronic Journal . 2022
Modeling Wildfire Smoke Feedback Mechanisms Using a Coupled Fire‐Atmosphere Model With a Radiatively Active Aerosol Scheme
Kochanski Adam K.,
Mallia Derek V.,
Fearon Matthew G.,
Mandel Jan,
Souri Amir H., Brown Tim
Journal of Geophysical Research: Atmospheres. 2019 124(16). p.9099
Inverse modeling of fire emissions constrained by smoke plume transport using HYSPLIT dispersion model and geostationary satellite observations
Kim Hyun Cheol,
Chai Tianfeng,
Stein Ariel, Kondragunta Shobha
Atmospheric Chemistry and Physics. 2020 20(17). p.10259
The validity and utility of MODIS data for simple estimation of area burned and aerosols emitted by wildfire events
Henderson Sarah B.,
Ichoku Charles,
Burkholder Benjamin J.,
Brauer Michael, Jackson Peter L.
International Journal of Wildland Fire. 2010 19(7). p.844
An Evaluation of Modeled Plume Injection Height with Satellite-Derived Observed Plume Height
Raffuse Sean M.,
Craig Kenneth J.,
Larkin Narasimhan K.,
Strand Tara T.,
Sullivan Dana Coe,
Wheeler Neil J. M., Solomon Robert
Atmosphere. 2012 3(1). p.103
The climate–wildfire–air quality system: interactions and feedbacks across spatial and temporal scales
Stavros E. Natasha,
McKenzie Donald, Larkin Narasimhan
WIREs Climate Change. 2014 5(6). p.719
Fuel layer specific pollutant emission factors for fire prone forest ecosystems of the western U.S. and Canada
Urbanski Shawn P.,
Long Russell W.,
Halliday Hannah,
Lincoln Emily N.,
Habel Andrew, Landis Matthew S.
Atmospheric Environment: X. 2022 16 p.100188
Climate and air pollution impacts of generating biopower from forest management residues in California
Fingerman Kevin R,
Qiriazi Jerome,
Barrientos Cassidy L,
Blasdel Max,
Comnick Jeffrey M,
Harris Andrew R,
Geronimo Carisse,
Hsu Chih-Wei,
Kane Jeffrey M,
Oneil Elaine,
Rios-Romero Sabrinna,
Rogers Luke W,
Severy Mark, Wright Micah C
Environmental Research Letters. 2023 18(3). p.034038
Projecting wildfire emissions over the south-eastern United States to mid-century
Shankar Uma,
Prestemon Jeffrey P.,
McKenzie Donald,
Talgo Kevin,
Xiu Aijun,
Omary Mohammad,
Baek Bok Haeng,
Yang Dongmei, Vizuete William
International Journal of Wildland Fire. 2018 27(5). p.313
Satellite Monitoring for Air Quality and Health
Holloway Tracey,
Miller Daegan,
Anenberg Susan,
Diao Minghui,
Duncan Bryan,
Fiore Arlene M.,
Henze Daven K.,
Hess Jeremy,
Kinney Patrick L.,
Liu Yang,
Neu Jessica L.,
O'Neill Susan M.,
Odman M. Talat,
Pierce R. Bradley,
Russell Armistead G.,
Tong Daniel,
West J. Jason, Zondlo Mark A.
Annual Review of Biomedical Data Science. 2021 4(1). p.417
Evaluating the impact of wildfire smoke on solar photovoltaic production
Gilletly Samuel D.,
Jackson Nicole D., Staid Andrea
Applied Energy. 2023 348 p.121303
Evaluating wildfire emissions projection methods in comparisons of simulated and observed air quality
Shankar Uma,
McKenzie Donald,
Prestemon Jeffrey P.,
Baek Bok Haeng,
Omary Mohammed,
Yang Dongmei,
Xiu Aijun,
Talgo Kevin, Vizuete William
Atmospheric Chemistry and Physics. 2019 19(23). p.15157
Model comparisons for estimating carbon emissions from North American wildland fire
French Nancy H. F.,
de Groot William J.,
Jenkins Liza K.,
Rogers Brendan M.,
Alvarado Ernesto,
Amiro Brian,
de Jong Bernardus,
Goetz Scott,
Hoy Elizabeth,
Hyer Edward,
Keane Robert,
Law B. E.,
McKenzie Donald,
McNulty Steven G.,
Ottmar Roger,
Pérez-Salicrup Diego R.,
Randerson James,
Robertson Kevin M., Turetsky Merritt
Journal of Geophysical Research. 2011 116
PM2.5 measurements in wildfire smoke plumes from fire seasons 2005–2008 in the Northwestern United States
Strand Tara,
Larkin Narasimhan,
Rorig Miriam,
Krull Candace, Moore Mark
Journal of Aerosol Science. 2011 42(3). p.143
Reconciling Assumptions in Bottom‐Up and Top‐Down Approaches for Estimating Aerosol Emission Rates From Wildland Fires Using Observations From FIREX‐AQ
Wiggins E. B.,
Anderson B. E.,
Brown M. D.,
Campuzano‐Jost P.,
Chen G.,
Crawford J.,
Crosbie E. C.,
Dibb J.,
DiGangi J. P.,
Diskin G. S.,
Fenn M.,
Gallo F.,
Gargulinski E. M.,
Guo H.,
Hair J. W.,
Halliday H. S.,
Ichoku C.,
Jimenez J. L.,
Jordan C. E.,
Katich J. M.,
Nowak J. B.,
Perring A. E.,
Robinson C. E.,
Sanchez K. J.,
Schueneman M.,
Schwarz J. P.,
Shingler T. J.,
Shook M. A.,
Soja A. J.,
Stockwell C. E.,
Thornhill K. L.,
Travis K. R.,
Warneke C.,
Winstead E. L.,
Ziemba L. D., Moore R. H.
Journal of Geophysical Research: Atmospheres. 2021 126(24).
Smoke consequences of new wildfire regimes driven by climate change
McKenzie Donald,
Shankar Uma,
Keane Robert E.,
Stavros E. Natasha,
Heilman Warren E.,
Fox Douglas G., Riebau Allen C.
Earth's Future. 2014 2(2). p.35
A comparison of smoke modelling tools used to mitigate air quality impacts from prescribed burning
Johnson Megan M., Garcia-Menendez Fernando
International Journal of Wildland Fire. 2023 32(7). p.1162
Simulating spatio-temporal dynamics of surface PM2.5 emitted from Alaskan wildfires
Chen Dong,
Billmire Michael,
Loughner Christopher P.,
Bredder Allison,
French Nancy H.F.,
Kim Hyun Cheol, Loboda Tatiana V.
Science of The Total Environment. 2023 898 p.165594
Landscape Fire, Smoke, and Health (2023)
Comparing Modeled Emissions from Wildfire and Prescribed Burning of Post-Thinning Fuel: A Case Study of the 2016 Pioneer Fire
Hyde Josh, Strand Eva K.
Fire. 2019 2(2). p.22
Wildfire and prescribed burning impacts on air quality in the United States
Jaffe Daniel A.,
O’Neill Susan M.,
Larkin Narasimhan K.,
Holder Amara L.,
Peterson David L.,
Halofsky Jessica E., Rappold Ana G.
Journal of the Air & Waste Management Association. 2020 70(6). p.583
Parallelization Strategies for Computational Fluid Dynamics Software: State of the Art Review
Afzal Asif,
Ansari Zahid,
Faizabadi Ahmed Rimaz, Ramis M. K.
Archives of Computational Methods in Engineering. 2017 24(2). p.337
Fire behaviour and smoke modelling: model improvement and measurement needs for next-generation smoke research and forecasting systems
Liu Yongqiang,
Kochanski Adam,
Baker Kirk R.,
Mell William,
Linn Rodman,
Paugam Ronan,
Mandel Jan,
Fournier Aime,
Jenkins Mary Ann,
Goodrick Scott,
Achtemeier Gary,
Zhao Fengjun,
Ottmar Roger,
French Nancy H. F.,
Larkin Narasimhan,
Brown Timothy,
Hudak Andrew,
Dickinson Matthew,
Potter Brian,
Clements Craig,
Urbanski Shawn,
Prichard Susan,
Watts Adam, McNamara Derek
International Journal of Wildland Fire. 2019 28(8). p.570
Recognizing Women Leaders in Fire Science
Smith Alistair,
Kolden Crystal,
Prichard Susan,
Gray Robert,
Hessburg Paul, Balch Jennifer
Fire. 2018 1(2). p.30
Evaluating Satellite Fire Detection Products and an Ensemble Approach for Estimating Burned Area in the United States
Marsha Amy L., Larkin Narasimhan K.
Fire. 2022 5(5). p.147
Application of a statistical emulator to fire emission modeling
Katurji Marwan,
Nikolic Jovanka,
Zhong Shiyuan,
Pratt Scott,
Yu Lejiang, Heilman Warren E.
Environmental Modelling & Software. 2015 73 p.254
The unprecedented Pacific Northwest heatwave of June 2021
White Rachel H.,
Anderson Sam,
Booth James F.,
Braich Ginni,
Draeger Christina,
Fei Cuiyi,
Harley Christopher D. G.,
Henderson Sarah B.,
Jakob Matthias,
Lau Carie-Ann,
Mareshet Admasu Lualawi,
Narinesingh Veeshan,
Rodell Christopher,
Roocroft Eliott,
Weinberger Kate R., West Greg
Nature Communications. 2023 14(1).
Analyses of BlueSky Gateway PM2.5 predictions during the 2007 southern and 2008 northern California fires
Strand Tara M.,
Larkin Narasimham,
Craig Kenneth J.,
Raffuse Sean,
Sullivan Dana,
Solomon Robert,
Rorig Miriam,
Wheeler Neil, Pryden Daniel
Journal of Geophysical Research: Atmospheres. 2012 117(D17).
A Bi-Spectral Microbolometer Sensor for Wildfire Measurement
Dufour Denis,
Le Noc Loïc,
Tremblay Bruno,
Tremblay Mathieu N.,
Généreux Francis,
Terroux Marc,
Vachon Carl,
Wheatley Melanie J.,
Johnston Joshua M.,
Wotton Mike, Topart Patrice
Sensors. 2021 21(11). p.3690
Fire Behavior, Fuel Consumption, and Turbulence and Energy Exchange during Prescribed Fires in Pitch Pine Forests
Clark Kenneth L.,
Heilman Warren E.,
Skowronski Nicholas S.,
Gallagher Michael R.,
Mueller Eric,
Hadden Rory M., Simeoni Albert
Atmosphere. 2020 11(3). p.242
Wildland fire emissions, carbon, and climate: U.S. emissions inventories
Larkin Narasimhan K.,
Raffuse Sean M., Strand Tara M.
Forest Ecology and Management. 2014 317 p.61
The FireWork air quality forecast system with near-real-time biomass burning emissions: Recent developments and evaluation of performance for the 2015 North American wildfire season
Pavlovic Radenko,
Chen Jack,
Anderson Kerry,
Moran Michael D.,
Beaulieu Paul-André,
Davignon Didier, Cousineau Sophie
Journal of the Air & Waste Management Association. 2016 66(9). p.819
Large-eddy simulation of wind-driven flame in the atmospheric boundary layer
Ong R.H.,
Patruno L.,
He Y.,
Efthekarian E.,
Zhao Y.,
Hu G., Kwok K.C.S.
International Journal of Thermal Sciences. 2022 171 p.107032
Encyclopedia of Wildfires and Wildland-Urban Interface (WUI) Fires (2019)
Prediction of air quality in Sydney, Australia as a function of forest fire load and weather using Bayesian statistics
Storey Michael Anthony,
Price Owen F., Chen Peng
PLOS ONE. 2022 17(8). p.e0272774
Study of Fuel-Smoke Dynamics in a Prescribed Fire of Boreal Black Spruce Forest through Field-Deployable Micro Sensor Systems
Huda Quamrul,
Lyder David,
Collins Marty,
Schroeder Dave,
Thompson Dan K.,
Marshall Ginny,
Leon Alberto J.,
Hidalgo Ken, Hossain Masum
Fire. 2020 3(3). p.30
The FireWork v2.0 air quality forecast system with biomass burning emissions from the Canadian Forest Fire Emissions Prediction System v2.03
Chen Jack,
Anderson Kerry,
Pavlovic Radenko,
Moran Michael D.,
Englefield Peter,
Thompson Dan K.,
Munoz-Alpizar Rodrigo, Landry Hugo
Geoscientific Model Development. 2019 12(7). p.3283
A multi-analysis approach for estimating regional health impacts from the 2017 Northern California wildfires
O’Neill Susan M.,
Diao Minghui,
Raffuse Sean,
Al-Hamdan Mohammad,
Barik Muhammad,
Jia Yiqin,
Reid Steve,
Zou Yufei,
Tong Daniel,
West J. Jason,
Wilkins Joseph,
Marsha Amy,
Freedman Frank,
Vargo Jason,
Larkin Narasimhan K.,
Alvarado Ernesto, Loesche Patti
Journal of the Air & Waste Management Association. 2021 71(7). p.791
Modelling smoke transport from wildland fires: a review
Goodrick Scott L.,
Achtemeier Gary L.,
Larkin Narasimhan K.,
Liu Yongqiang, Strand Tara M.
International Journal of Wildland Fire. 2013 22(1). p.83
Current status and future needs of the BehavePlus Fire Modeling System
Andrews Patricia L.
International Journal of Wildland Fire. 2014 23(1). p.21
Development of the User Requirements for the Canadian WildFireSat Satellite Mission
Johnston Joshua M.,
Jackson Natasha,
McFayden Colin,
Ngo Phong Linh,
Lawrence Brian,
Davignon Didier,
Wooster Martin J.,
van Mierlo Helena,
Thompson Dan K.,
Cantin Alan S.,
Johnston Daniel,
Johnston Lynn M.,
Sloane Meghan,
Ramos Rebecca, Lynham Tim J.
Sensors. 2020 20(18). p.5081
Wildfires managed for restoration enhance ecological resilience
Barros Ana M. G.,
Ager Alan A.,
Day Michelle A.,
Krawchuk Meg A., Spies Thomas A.
Ecosphere. 2018 9(3).
The influence of daily meteorology on boreal fire emissions and regional trace gas variability
Wiggins E. B.,
Veraverbeke S.,
Henderson J. M.,
Karion A.,
Miller J. B.,
Lindaas J.,
Commane R.,
Sweeney C.,
Luus K. A.,
Tosca M. G.,
Dinardo S. J.,
Wofsy S.,
Miller C. E., Randerson J. T.
Journal of Geophysical Research: Biogeosciences. 2016 121(11). p.2793
Wildland fire emission factors in North America: synthesis of existing data, measurement needs and management applications
Prichard Susan J.,
O'Neill Susan M.,
Eagle Paige,
Andreu Anne G.,
Drye Brian,
Dubowy Joel,
Urbanski Shawn, Strand Tara M.
International Journal of Wildland Fire. 2020 29(2). p.132
Cold Smoke: smoke-induced density currents cause unexpected smoke transport near large wildfires
Lareau N. P., Clements C. B.
Atmospheric Chemistry and Physics. 2015 15(20). p.11513
Mapping Modeled Exposure of Wildland Fire Smoke for Human Health Studies in California
Koman Patricia D.,
Billmire Michael,
Baker Kirk R.,
de Majo Ricardo,
Anderson Frank J.,
Hoshiko Sumi,
Thelen Brian J., French Nancy H.F.
Atmosphere. 2019 10(6). p.308
Landscape Fire, Smoke, and Health (2023)
Assessing Forest Canopy Impacts on Smoke Concentrations Using a Coupled Numerical Model
Charney Joseph J.,
Kiefer Michael T.,
Zhong Shiyuan,
Heilman Warren E.,
Nikolic Jovanka,
Bian Xindi,
Hom John L.,
Clark Kenneth L.,
Skowronski Nicholas S.,
Gallagher Michael R.,
Patterson Matthew,
Liu Yongqiang, Hawley Christie
Atmosphere. 2019 10(5). p.273
Predicting the minimum height of forest fire smoke within the atmosphere using machine learning and data from the CALIPSO satellite
Yao Jiayun,
Raffuse Sean M.,
Brauer Michael,
Williamson Grant J.,
Bowman David M.J.S.,
Johnston Fay H., Henderson Sarah B.
Remote Sensing of Environment. 2018 206 p.98
Particulate matter modelling techniques for epidemiological studies of open biomass fire smoke exposure: a review
Johnson Amanda L.,
Abramson Michael J.,
Dennekamp Martine,
Williamson Grant J., Guo Yuming
Air Quality, Atmosphere & Health. 2020 13(1). p.35
Emission of atmospheric pollutants during forest fire in boreal region of China
Guo Linfei,
Ma Yuanfan,
Tigabu Mulualem,
Guo Xinbin,
Zheng Wenxia, Guo Futao
Environmental Pollution. 2020 264 p.114709
