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References
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This page contains all scientific references cited throughout the documentation
and source code.

Fire Spread Models
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Rothermel Model
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.. [Rothermel1972] Rothermel, R.C. (1972). A mathematical model for predicting 
   fire spread in wildland fuels. USDA Forest Service Research Paper INT-115.

.. [Rothermel1983] Rothermel, R.C. (1983). How to predict the spread and 
   intensity of forest and range fires. Gen. Tech. Rep. INT-143. 
   USDA Forest Service.

.. [Anderson1982] Anderson, H.E. (1982). Aids to determining fuel models for 
   estimating fire behavior. USDA Forest Service Research Note INT-328.

FARSITE & Elliptical Models
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.. [Finney1998] Finney, M.A. (1998). FARSITE: Fire Area Simulator — Model 
   development and evaluation. USDA Forest Service Research Paper RMRS-RP-4.

.. [Finney2004] Finney, M.A. (2004). FARSITE: Fire Area Simulator — Model 
   development and evaluation. USDA Forest Service Research Paper RMRS-RP-4 
   Revised.

.. [Richards1990] Richards, G.D. (1990). An elliptical growth model of forest 
   fire fronts and its numerical solution. International Journal of Numerical 
   Methods in Engineering, 30(6):1163-1179.

.. [Anderson1983] Anderson, H.E. (1983). Predicting wind-driven wildland fire 
   size and shape. USDA Forest Service Research Paper INT-305.

Alternative Spread Models
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.. [Balbi2009] Balbi, J.H., et al. (2009). A physical model for wildland fires. 
   Combustion and Flame, 156(12):2217-2230.

.. [CheneyGould1995] Cheney, N.P., Gould, J.S., & Catchpole, W.R. (1998). 
   Prediction of fire spread in grasslands. International Journal of Wildland 
   Fire, 8(1):1-13.

.. [CruzCrown2005] Cruz, M.G., Alexander, M.E., & Wakimoto, R.H. (2005). 
   Development and testing of models for predicting crown fire rate of spread 
   in conifer forest stands. Canadian Journal of Forest Research, 35(7):1626-1639.

.. [Lautenberger2013] Lautenberger, C. (2013). Wildland fire modeling with an 
   Eulerian level set method and automated calibration. Fire Safety Journal, 
   62:289-298.

Crown Fire Models
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.. [VanWagner1977] Van Wagner, C.E. (1977). Conditions for the start and spread 
   of crown fire. Canadian Journal of Forest Research, 7(1):23-34.

.. [Rothermel1991] Rothermel, R.C. (1991). Predicting behavior and size of crown 
   fires in the northern Rocky Mountains. USDA Forest Service Research Paper 
   INT-438.

Fuel Moisture
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.. [Nelson2000] Nelson, R.M. Jr. (2000). Prediction of diurnal change in 10-h 
   fuel stick moisture content. Canadian Journal of Forest Research, 
   30(7):1071-1087.

.. [Simard1968] Simard, A.J. (1968). The moisture content of forest fuels. 
   Forestry Branch Info. Rep. FF-X-14, Dept. of Forestry, Canada.

.. [Frandsen1997] Frandsen, W.H. (1997). Ignition probability of organic soils. 
   Canadian Journal of Forest Research, 27(9):1471-1477.

.. [Anderson1969] Anderson, H.E. (1969). Heat transfer and fire spread. 
   USDA Research Paper INT-69.

.. [Deeming1977] Deeming, J.E., et al. (1977). The National Fire-Danger Rating 
   System—1978. USDA GTR INT-39.

.. [Scott2001] Scott, J.H., & Reinhardt, E.D. (2001). Assessing crown fire 
   potential by linking models of surface and crown fire behavior. 
   USDA RMRS-RP-29.

.. [Thomas1963] Thomas, P.H. (1963). The size of flames from natural fires. 
   Combustion Symposium, 9(1):844-859.

.. [Urbanski2014] Urbanski, S.P. (2014). Wildfire emissions, carbon, and climate: 
   Emission factors. Forest Ecology and Management, 317:1-8.

.. [McArthur1967] McArthur, A.G. (1967). Fire behaviour in eucalypt forests. 
   Forestry & Timber Bureau, Canberra, Australia.

.. [KeetchByram1968] Keetch, J.J., & Byram, G.M. (1968). A drought index for 
   forest fire control. USDA Forest Service Research Paper SE-38.

.. [Janis2002] Janis, M.J., Johnson, M.B., & Forthun, G. (2002). Near-real time 
   mapping of Keetch-Byram Drought Index in the south-eastern United States. 
   International Journal of Wildland Fire, 11(4):281-289.

.. [Haines1988] Haines, D.A. (1988). A lower atmosphere severity index for 
   wildland fires. National Weather Digest, 13:23-27.

.. [Werth1993] Werth, P.A., & Ochoa, R. (1993). The evaluation of Idaho wildfire 
   growth using the Haines Index. Weather and Forecasting, 8(2):223-234.

.. [MillsMcCaw2010] Mills, G.A., & McCaw, L. (2010). Atmospheric stability 
   environments and fire weather in Australia — extending the Haines Index. 
   CAWCR Technical Report No. 20, Centre for Australian Weather and Climate 
   Research.

.. [Noble1980] Noble, I.R., Bary, G.A.V., & Gill, A.M. (1980). McArthur's 
   fire-danger meters expressed as equations. Australian Journal of Ecology, 
   5(2):201-203.

Phenology & Live Fuel Moisture
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.. [Jolly2005] Jolly, W.M., et al. (2005). A generalized, bioclimatic index to 
   predict foliar phenology in response to climate. Global Change Biology, 
   11(4):619-632.

.. [Dennison2008] Dennison, P.E., et al. (2008). Use of normalized difference 
   water index for monitoring live fuel moisture. International Journal of 
   Remote Sensing, 29(8):2369-2375.

.. [Pimont2019] Pimont, F., et al. (2019). Prediction of regional wildfire 
   activity in the probabilistic Bayesian framework of Firelihood. Ecological 
   Applications, 29(5):e01905.

.. [RescoDeDios2015] Resco de Dios, V., et al. (2015). Woody clockworks: 
   circadian regulation of night-time water use in Eucalyptus globulus. 
   New Phytologist, 200(3):789-798.

Wind Models
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Wind Adjustment & Terrain Interaction
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.. [Andrews2018] Andrews, P.L. (2018). The Rothermel surface fire spread model 
   and associated developments: A comprehensive explanation. 
   RMRS-GTR-371. USDA Forest Service.

.. [AlbiniBaughman1979] Albini, F.A., & Baughman, R.G. (1979). Estimating 
   windspeeds for predicting wildland fire behavior. USDA Forest Service 
   Research Paper INT-221.

.. [Viegas2004] Viegas, D.X. (2004). A mathematical model for forest fires 
   blowup. Combustion Science and Technology, 177(1):27-51.

.. [Wilson1985] Wilson, N.R. (1985). A mathematical model for estimating 
   surface-layer wind speeds in a vegetative canopy. Agricultural and Forest 
   Meteorology, 34(2-3):191-208.

Turbulent Wind
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.. [UhlenbeckOrnstein1930] Uhlenbeck, G.E. & Ornstein, L.S. (1930). On the 
   theory of the Brownian motion. Physical Review, 36(5):823-841.

.. [Kraichnan1970] Kraichnan, R.H. (1970). Diffusion by a random velocity field. 
   Physics of Fluids, 13(1):22-31.

.. [Finney2015] Finney, M.A., et al. (2015). A study of flame spread in 
   engineered cardboard fuelbeds: Part II - fire behavior model. 
   Canadian Journal of Forest Research, 45(10):1331-1340.

.. [Linn2012] Linn, R.R., et al. (2012). Using periodic line fires to gain a 
   new perspective on multi-dimensional aspects of forward ROS. 
   Agricultural and Forest Meteorology, 157:60-76.

Spotting & Firebrands
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.. [Albini1983] Albini, F.A. (1983). Potential spotting distance from wind-driven 
   surface fires. USDA Forest Service Research Paper INT-309.

.. [Albini1979] Albini, F.A. (1979). Spot fire distance from burning trees — 
   a predictive model. USDA Forest Service Research Paper INT-56.

.. [Sardoy2007] Sardoy, N., Consalvi, J.L., Porterie, B., & Fernandez-Pello, A.C. 
   (2007). Modeling transport and combustion of firebrands from burning trees. 
   Combustion and Flame, 150(3):151-169.

.. [Koo2010] Koo, E., et al. (2010). Modelling firebrand transport in wildfires 
   using HIGRAD/FIRETEC. International Journal of Wildland Fire, 19(2):200-213.

.. [Ellis2000] Ellis, P.F.M. (2000). The aerodynamic and combustion 
   characteristics of eucalypt bark — a firebrand study. PhD thesis, 
   Australian National University.

.. [WeiseBiging1996] Weise, D.R., & Biging, G.S. (1996). Effects of wind 
   velocity and slope on flame properties. Canadian Journal of Forest Research, 
   26(10):1849-1858.

Radiation & Flame Models
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.. [Anderson1968] Anderson, H.E. (1968). Sundance fire: An analysis of fire 
   phenomena. USDA Forest Service Research Paper INT-56.

.. [Butler2004] Butler, B.W., et al. (2004). A method for evaluating the 
   effectiveness of firefighter escape routes. In: Fire Safety Science — 
   Proceedings of the Seventh International Symposium, pp. 1435-1446.

.. [Weber1991] Weber, R.O. (1991). Toward a comprehensive wildfire spread model. 
   International Journal of Wildland Fire, 1(4):245-248.

.. [Byram1959] Byram, G.M. (1959). Combustion of forest fuels. In: Forest Fire: 
   Control and Use (K.P. Davis, ed.), McGraw-Hill, New York, pp. 61-89.

Fire Ecology & Emissions
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.. [Briggs1965] Briggs, G.A. (1965). A plume rise model compared with 
   observations. Journal of the Air Pollution Control Association, 15(9):433-438.

.. [Briggs1969] Briggs, G.A. (1969). Plume rise. USAEC Critical Review Series, 
   TID-25075.

Fuel Models & Databases
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.. [Anderson1982FM] Anderson, H.E. (1982). Aids to determining fuel models for 
   estimating fire behavior. USDA Forest Service Gen. Tech. Rep. INT-122.

.. [ScottBurgan2005] Scott, J.H., & Burgan, R.E. (2005). Standard fire behavior 
   fuel models: A comprehensive set for use with Rothermel's surface fire spread 
   model. USDA Forest Service Gen. Tech. Rep. RMRS-GTR-153.

Canadian FBP System
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.. [Forestry1992] Forestry Canada Fire Danger Group (1992). Development and 
   structure of the Canadian Forest Fire Behavior Prediction System. 
   Forestry Canada, Science and Sustainable Development Directorate, 
   Information Report ST-X-3.

.. [Tymstra2010] Tymstra, C., et al. (2010). Development and structure of 
   Prometheus: the Canadian wildland fire growth simulation model. 
   Natural Resources Canada, Canadian Forest Service, Northern Forestry Centre, 
   Information Report NOR-X-417.

Grass Curing & Phenology
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.. [LukeMcArthur1978] Luke, R.H. & McArthur, A.G. (1978). "Bushfires in Australia."
   Australian Government Publishing Service, Canberra.

.. [CheneySullivan2008] Cheney, N.P. & Sullivan, A.L. (2008). "Grassfires: Fuel, 
   Weather and Fire Behaviour." CSIRO Publishing, Melbourne.

Diurnal Weather & Meteorology
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.. [Lawson1996] Lawson, B.D., Frandsen, W.H., Hawkes, B.C., & Dalrymple, G.N. (1996).
   "Probability of sustained ignition as a function of nature of the ignition source."
   International Journal of Wildland Fire, 6(1):29-36.

.. [Simard1968] Simard, A.J. (1968). "The moisture content of forest fuels: A review
   of the basic concepts." Forestry Branch, Department of Forestry and Rural
   Development, Publication 1288.

Atmospheric Lapse Rates
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.. [Wallace2006] Wallace, J.M. & Hobbs, P.V. (2006). "Atmospheric Science: An 
   Introductory Survey." 2nd edition, Academic Press.

NFDRS Fire Danger Indices
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.. [Deeming1977] Deeming, J.E., Burgan, R.E., & Cohen, J.D. (1977). "The National
   Fire-Danger Rating System—1978." USDA Forest Service General Technical Report
   INT-39.

.. [Bradshaw1984] Bradshaw, L.S., Deeming, J.E., Burgan, R.E., & Cohen, J.D. (1984).
   "The 1978 National Fire-Danger Rating System: Technical documentation."
   USDA Forest Service General Technical Report INT-169.

Chandler Burning Index
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.. [Chandler1983] Chandler, C., Cheney, P., Thomas, P., Trabaud, L., & Williams, D.
   (1983). "Fire in Forestry, Volume I: Forest Fire Behavior and Effects."
   John Wiley & Sons, New York.

.. [Schroeder1970] Schroeder, M.J. & Buck, C.C. (1970). "Fire Weather: A Guide for
   Application of Meteorological Information to Forest Fire Control Operations."
   USDA Forest Service Agriculture Handbook 360.

.. [Fosberg1978] Fosberg, M.A. (1978). "Weather in wildland fire management: the
   fire weather index." Proceedings Conference Sierra Nevada Meteorology, pp. 1-4.

Solar Radiation & Shading
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.. [Spencer1971] Spencer, J.W. (1971). Fourier series representation of the 
   position of the sun. Search, 2(5):172.

Numerical Methods
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.. [Osher1988] Osher, S., & Sethian, J.A. (1988). Fronts propagating with 
   curvature-dependent speed: Algorithms based on Hamilton-Jacobi formulations. 
   Journal of Computational Physics, 79(1):12-49.

.. [Sethian1999] Sethian, J.A. (1999). Level Set Methods and Fast Marching 
   Methods: Evolving Interfaces in Computational Geometry, Fluid Mechanics, 
   Computer Vision, and Materials Science. Cambridge University Press.

Software & Tools
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.. [AMReX] Zhang, W., et al. (2019). AMReX: A framework for block-structured 
   adaptive mesh refinement. Journal of Open Source Software, 4(37):1370.

Related Fire Simulation Systems
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.. [WRFFire] Mandel, J., et al. (2011). Coupled atmosphere-wildland fire 
   modeling with WRF 3.3 and SFIRE 2011. Geoscientific Model Development, 
   4(3):591-610.

.. [FlamMap] Finney, M.A. (2006). An overview of FlamMap fire modeling 
   capabilities. In: Fuels Management — How to Measure Success: Conference 
   Proceedings. USDA Forest Service Proceedings RMRS-P-41, pp. 213-220.

.. [FSPro] Finney, M.A., et al. (2011). A simulation of probabilistic wildfire 
   risk components for the continental United States. Stochastic Environmental 
   Research and Risk Assessment, 25(7):973-1000.

Online Resources
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**FARSITE Documentation**
   https://www.firelab.org/project/farsite

**BehavePlus Fire Modeling System**
   https://www.frames.gov/behaveplus/

**WindNinja**
   https://www.firelab.org/project/windninja

**AMReX Framework**
   https://amrex-codes.github.io/

**LANDFIRE Fuel Data**
   https://landfire.gov/

**FIRMS Fire Information**
   https://firms.modaps.eosdis.nasa.gov/

**GOES-R Series Satellites**
   https://www.goes-r.gov/

**VIIRS Active Fire Data**
   https://earthdata.nasa.gov/earth-observation-data/near-real-time/firms

Citation Format
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When citing this software in publications, please use:

.. code-block:: text

   Gopalan, H., et al. (2024). Wildfire-AMR: An AMReX-based wildfire front 
   propagation framework. https://github.com/hgopalan/wildfire_levelset

BibTeX:

.. code-block:: bibtex

   @software{wildfire_amr,
     author = {Gopalan, Hariswaran and contributors},
     title = {Wildfire-AMR: An AMReX-based wildfire front propagation framework},
     year = {2024},
     url = {https://github.com/hgopalan/wildfire_levelset}
   }