References Brotak EA, Reifsnyder WE (1977) An investigation of the synoptic situations associated with major wildland fires. Journal of Applied Meteorology 16, 867–870. Byram GM (1954) ‘Atmospheric conditions related to blowup fires.’ USDA Forest Service, Southeastern Forest Experiment Station, Station Paper 35. (Asheville, NC) [Reprinted as: National Fire Equipment System Publication, NFES 2239 by the National Wildfire Coordinating Group. (Boise, ID)] Charney JJ, Bian X, Potter BE, Heilman WE (2003) Mesoscale simulations during the Double Trouble State Park wildfire in east-central New Jersey on June 2, 2002. In ‘Preprints of the tenth conference on mesoscale processes.’ (American Meteorological Society: Boston, MA) Chen F, Dudhia J (2001) Coupling an advanced land surface–hydrology model with the Penn State–NCAR MM5 modeling system. Part I: model implementation and sensitivity. Monthly Weather Review 129, 569–585. Davis RT (1969) Atmospheric stability forecast and fire control. Fire Control Notes 30, 3–4, 15. Fahnstock GR (1965) ‘Texas forest fires in relation to weather and other factors.’ USDA Forest Service, Southeastern Forest Experiment Station, SO-16. (Asheville, NC) Grell GA, Dudhia J, Stauffer DR (1995) ‘A description of the fifth-generation Penn State/NCAR Mesoscale Model (MM5).’ NCAR Technical Note, NCAR/TN398+STR. (Boulder, CO) Hardy CC, Ottmar RD, Peterson JL, Core JE, Seamon P (2001) ‘Smoke management guide for prescribed and wildland fire.’ National Wildfire Coordinating Group, PMS 420-2, NFES 1279. (Boise, ID) Heilman WE, Potter BE, Charney JJ, Bian X (2003) National Fire Plan—Eastern Area Modeling Consortium: research, product development, and partnerships. In ‘Preprints of the fifth symposium on fire and forest meteorology.’ (American Meteorological Society: Boston, MA) Janjić ZI (1990) The step-mountain coordinate: physical package. Monthly Weather Review 118, 1429–1443. Kain JS, Fritsch JM (1990) A one-dimensional entraining/detraining plume model and its application in convective parameterization. Journal of the Atmospheric Sciences 47, 2784–2802. Kaplan ML, Huang C, Lin Y-L, Charney JJ (2008) The development of extremely dry surface air due to vertical exchanges under the exit region of a jet streak. Meteorology and Atmospheric Physics 99, submitted. Keetch JJ, Byram GM (1968) ‘A drought index for forest fire control.’ USDA Forest Service, Southeastern Forest Experiment Station, SE-38. (Asheville, NC) Lansing L (1939) Weather preceding forest fires in New Hampshire. Bulletin of the American Meteorological Society 20, 10–26. Mesinger F, DiMego G, Kalnay E, Mitchell K, Shafran PC, Ebisuzaki W, Jović D, Woollen J, Rodgers E, Berbery EH, Ek MB, Fan Y, Grumbine R, Higgins W, Li H, Lin Y, Manikin G, Parrish D, Shi W (2006) North American Regional Reanalysis. Bulletin of the American Meteorological Society 87, 343–360. 1 Mills GA (2005a) A re-examination of the synoptic and mesoscale meteorology of Ash Wednesday 1983. Australian Meteorological Magazine 54, 35–55. Mills GA (2005b) On the subsynoptic-scale meteorology of two extreme fire weather days during the eastern Australian fires of January 2003. Australian Meteorological Magazine 54, 265–290. Mills GA, Pendlebury S (2003) Processes leading to a severe wind-shear incident at Hobart Airport. Australian Meteorological Magazine 52, 171–188. Mlawer EJ, Taubman SJ, Brown PD, Iacono MJ, Clough SA (1997) Radiative transfer for inhomogeneous atmospheres: RRTM, a validated correlated-k model for the longwave. Journal of Geophysical Research 102, 16663–16682. New Jersey Forest Fire Service (2003) ‘Division forest firewardens report of large fire and problem fire analysis: Jakes Branch wildfire.’ New Jersey Forest Fire Service, B06-02-02. (New Lisbon, NJ) Reisner J, Rasmussen RM, Bruintjes RT (1998) Explicit forecasting of supercooled liquid water in winter storms using the MM5 mesoscale model. Quarterly Journal of the Royal Meteorological Society 124, 1071–1107. Simard AJ, Eenigenburg JE, Hobrla SL (1987) Predicting extreme fire potential. In ‘Proceedings of the ninth conference on fire and forest meteorology.’ (American Meteorological Society: Boston, MA) Zhong S, In H-J, Bian X, Charney J, Heilman W, Potter B (2005) Evaluation of real-time high-resolution MM5 predictions over the Great Lakes region. Weather and Forecasting 20, 63–81. Zimet T, Martin JE, Potter BE (2007) The influence of an upper-level frontal zone on the Mack Lake wildfire environment. Meteorological Applications 14, 131–147. 2