| human | Q5 |
| P2456 | DBLP author ID | 130/8304 |
| P496 | ORCID iD | 0000-0002-9970-5363 |
| P1053 | ResearcherID | G-6996-2015 |
| P1153 | Scopus author ID | 7003528684 |
| P69 | educated at | University of Cambridge | Q35794 |
| Colorado State University | Q1111640 | ||
| University of Manitoba | Q1191833 | ||
| P108 | employer | University of Alberta | Q640694 |
| Thompson Rivers University | Q3551501 | ||
| Canadian Forest Service | Q16967025 | ||
| P734 | family name | Flannigan | Q37530879 |
| Flannigan | Q37530879 | ||
| Flannigan | Q37530879 | ||
| P735 | given name | Mike | Q361309 |
| Mike | Q361309 | ||
| P106 | occupation | researcher | Q1650915 |
| P21 | sex or gender | male | Q6581097 |
| Q58104398 | Q58104398 |
| Q58104414 | Q58104414 |
| Q58104441 | Q58104441 |
| Q58104477 | Q58104477 |
| Q58104359 | A 229-year dendroclimatic-inferred record of forest fire activity for the Boreal Shield of Canada |
| Q58104431 | A 500 hPa synoptic wildland fire climatology for large Canadian forest fires, 1959-1996 |
| Q58104210 | A Global Index for Mapping the Exposure of Water Resources to Wildfire |
| Q108130651 | A Regional-Scale Index for Assessing the Exposure of Drinking-Water Sources to Wildfires |
| Q58104402 | A classification of landscape fire succession models: spatial simulations of fire and vegetation dynamics |
| Q57532342 | A comparison of Canadian and Russian boreal forest fire regimes |
| Q114571658 | A high-resolution reanalysis of global fire weather from 1979 to 2018 – overwintering the Drought Code |
| Q41926224 | A spatial evaluation of global wildfire-water risks to human and natural systems. |
| Q46954083 | An analysis of controls on fire activity in boreal Canada: comparing models built with different temporal resolutions |
| Q47134949 | An early warning system to forecast the close of the spring burning window from satellite-observed greenness |
| Q58647685 | Anthropogenic influence on wildfire activity in Alberta, Canada |
| Q58104280 | Assessing the response of area burned to changing climate in western boreal North America using a Multivariate Adaptive Regression Splines (MARS) approach |
| Q57202717 | Biomass offsets little or none of permafrost carbon release from soils, streams, and wildfire: an expert assessment |
| Q47852653 | Biotic and abiotic regulation of lightning fire initiation in the mixedwood boreal forest. |
| Q58650439 | Boreal fire records in Northern Hemisphere ice cores: A review |
| Q57891549 | Boreal fire records in Northern Hemisphere ice cores: a review |
| Q58003094 | Can forest management based on natural disturbances maintain ecological resilience? |
| Q58104283 | Characterization of wildfire regimes in Canadian boreal terrestrial ecosystems |
| Q58104230 | Climate change impacts on future boreal fire regimes |
| Q56699201 | Climate-induced boreal forest change: Predictions versus current observations |
| Q58104366 | Comparison of the Sensitivity of Landscape-fire-succession Models to Variation in Terrain, Fuel Pattern, Climate and Weather |
| Q58104268 | Correlations between forest fires in British Columbia, Canada, and sea surface temperature of the Pacific Ocean |
| Q58104318 | Dendroclimatic inference of wildfire activity in Quebec over the 20th century and implications for natural disturbance-based forest management at the northern limit of the commercial forest |
| Q58104343 | Editorial |
| Q58104427 | Editorial |
| Q58104287 | Effects of climate on occurrence and size of large fires in a northern hardwood landscape: historical trends, forecasts, and implications for climate change in Témiscamingue, Québec |
| Q58104251 | Erratum: Crown fire behaviour in a northern jack pine – black spruce forest |
| Q58104194 | Evaluation of the Canadian Precipitation Analysis (CaPA) to improve forest fire danger rating |
| Q58104234 | Exploring the role of fire, succession, climate, and weather on landscape dynamics using comparative modeling |
| Q57572110 | Fire activity in Portugal and its relationship to weather and the Canadian Fire Weather Index System |
| Q58104321 | Fire and the relative roles of weather, climate and landscape characteristics in the Great Lakes-St. Lawrence forest of Canada |
| Q58104333 | Fire-growth modelling using meteorological data with random and systematic perturbations |
| Q56093145 | Forest Fires and Climate Change in the 21ST Century |
| Q58104324 | Forest Fires and Climate Change in the Northwest Territories |
| Q58104272 | Forest fire occurrence and climate change in Canada |
| Q57572065 | Forest fires in a changing climate and their impacts on air quality |
| Q58654372 | Fuel moisture sensitivity to temperature and precipitation: climate change implications |
| Q58104394 | Future Area Burned in Canada |
| Q58104453 | Future fire in Canada's boreal forest: paleoecology results and general circulation model - regional climate model simulations |
| Q112784505 | Global increase in wildfire risk due to climate‐driven declines in fuel moisture |
| Q58652874 | Global patterns in fire leverage: the response of annual area burnt to previous fire |
| Q58104240 | Global wildland fire season severity in the 21st century |
| Q58104336 | Historical fire regime shifts related to climate teleconnections in the Waswanipi area, central Quebec, Canada |
| Q108380643 | Ignitions explain more than temperature or precipitation in driving Santa Ana wind fires |
| Q58104339 | Impact of climate change on area burned in Alberta's boreal forest |
| Q56057475 | Impacts of climate change from 2000 to 2050 on wildfire activity and carbonaceous aerosol concentrations in the western United States |
| Q58104294 | Impacts of climate change on fire activity and fire management in the circumboreal forest |
| Q58104297 | Implications of changing climate for global wildland fire |
| Q58650671 | Importance of fuel treatment for limiting moderate-to-high intensity fire: findings from comparative fire modelling |
| Q58654955 | Increasing frequency of extreme fire weather in Canada with climate change |
| Q58104255 | Interactive effects of vegetation, soil moisture and bulk density on depth of burning of thick organic soils |
| Q58104374 | Large forest fires in Canada and the relationship to global sea surface temperatures |
| Q58104436 | Lightning and lightning fire, central cordillera, Canada |
| Q58104490 | Lightning-ignited forest fires in northwestern Ontario |
| Q58104472 | Long-distance transport of pollen into the Arctic |
| Q58645333 | Mapping Canadian wildland fire interface areas |
| Q58104419 | Multicentury reconstruction of the Canadian Drought Code from eastern Canada and its relationship with paleoclimatic indices of atmospheric circulation |
| Q58170341 | National circumstances in the international circumboreal community |
| Q114153978 | One extreme fire weather event determines the extent and frequency of wildland fires |
| Q40480447 | Past, current and future fire frequency in the Canadian boreal forest: implications for sustainable forest management. |
| Q58104378 | Past, current, and future fire frequencies in Quebec's commercial forests: implications for the cumulative effects of harvesting and fire on age-class structure and natural disturbance-based management |
| Q58104301 | Potential changes in monthly fire risk in the eastern Canadian boreal forest under future climate change |
| Q108184212 | Preceding Fall Drought Conditions and Overwinter Precipitation Effects on Spring Wildland Fire Activity in Canada |
| Q58104305 | Predicted changes in fire weather suggest increases in lightning fire initiation and future area burned in the mixedwood boreal forest |
| Q58104381 | Predicting slow‐drying fire weather index fuel moisture codes with NOAA‐AVHRR images in Canada's northern boreal forests |
| Q58104484 | Predicting the effects of climate change on fire frequency in the southeastern Canadian boreal forest |
| Q58104260 | Prediction of Seasonal Forest Fire Severity in Canada from Large-Scale Climate Patterns |
| Q58104346 | Preface to 'Fire and Forest Meteorology' |
| Q58052173 | Projected changes in daily fire spread across Canada over the next century |
| Q58104308 | Relative importance of fuel management, ignition management and weather for area burned: evidence from five landscape–fire–succession models |
| Q58104459 | Role of vegetation and weather on fire behavior in the Canadian mixedwood boreal forest using two fire behavior prediction systems |
| Q46781550 | Scale-dependent controls on the area burned in the boreal forest of Canada, 1980-2005. |
| Q107422572 | Scientists' warning on extreme wildfire risks to water supply |
| Q91891394 | Short-interval wildfire and drought overwhelm boreal forest resilience |
| Q61227115 | Soil Bacterial and Fungal Response to Wildfires in the Canadian Boreal Forest Across a Burn Severity Gradient |
| Q96127578 | Spatial planning of fire-agency stations as a function of wildfire likelihood in Thasos, Greece |
| Q58104191 | Spatiotemporal variation in forest fire danger from 1996 to 2010 in Jilin Province, China |
| Q58104382 | Synoptic-Scale Atmospheric Circulation and Boreal Canada Summer Drought Variability of the Past Three Centuries |
| Q58104386 | Temporal variability in area burned for the province of Ontario, Canada, during the past 200 years inferred from tree rings |
| Q58104327 | The Nature and Impacts of Thunderstorms in a Northern Climate |
| Q53173902 | The Science of Firescapes: Achieving Fire-Resilient Communities. |
| Q57572099 | The impact of spatial resolution on area burned and fire occurrence projections in Portugal under climate change |
| Q39216135 | The potential and realized spread of wildfires across Canada |
| Q58054193 | The role of historical fire disturbance in the carbon dynamics of the pan-boreal region: A process-based analysis |
| Q58647684 | The spatially varying influence of humans on fire probability in North America |
| Q58654945 | Topoedaphic and Forest Controls on Post-Fire Vegetation Assemblies Are Modified by Fire History and Burn Severity in the Northwestern Canadian Boreal Forest |
| Q58104423 | Trends and periodicities in the Canadian Drought Code and their relationships with atmospheric circulation for the southern Canadian boreal forest |
| Q58104352 | Using cumulative NOAA-AVHRR spectral indices for estimating fire danger codes in northern boreal forests |
| Q58104176 | Variability and drivers of burn severity in the northwestern Canadian boreal forest |
| Q58104275 | Variation in local weather explains differences in fire regimes within a Québec south-eastern boreal forest landscape |
| Q105082383 | Vegetation fires in the Anthropocene |
| Q58104313 | Vulnerability of carbon storage in North American boreal forests to wildfires during the 21st century |
| Q58104355 | Vulnerability of land systems to fire: Interactions among humans, climate, the atmosphere, and ecosystems |
| Q56395220 | Wildfire as a major driver of recent permafrost thaw in boreal peatlands |
| Q117966572 | Wildfire evacuation patterns and syndromes across Canada's forested regions |
| Q58104219 | Wildfires in boreal ecoregions: Evaluating the power law assumption and intra-annual and interannual variations |
| Q58104390 | Wildfires threaten mercury stocks in northern soils |
| Q108543887 | Wildland fire risk research in Canada |
| Q59522768 | cffdrs: an R package for the Canadian Forest Fire Danger Rating System |
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