4Catchpole E A,Calchpole W R,Viney N R,et al.Estimating fuel response time and predicting fuel moisture content from field data[J].International Journal of Wildland Fire, 2001,10(2):215-222.
6Van WagnerC E. Development and Structure of the Canadian Forest Fire Weather Index System. Technical Report. Canadian-Forestry Service,Petawawa National Forestry Institute,Chalk River,Ontario, Canada, 1987,35-37.
7Nelson R M.A method for describing equilibrium moisture content of forest fuels[J].Canadian Journal of Forest Research, 1984, 14:597-600.
8[1]Anderson H E. Schuetle R D. Mutch R W. Tintelag and equilibrium moisture content of Ponderosa pine needles. Odgen, USDA Intermt For and Range Exp Stn, 1978, 8~14
9Neil R V.A review of fine fuel moisture modelling[J].International Journal of Wildland Fire,1991,1(4):215-234.
10Van Wagner C E.Development and structure of the Canadian forest fire weather index system[R].Ottawa:Canadian Forestry Service,1987:35-37.
6Anderson H E. 1964. Mechanisms of fire spread, research progress report No. 1. United States Department of Agriculture, Forest Service, Research Paper INT-8. Intermountain Research Station, Ogden, Utah ,20.
7Anderson H E, Schuetle R D, Mutch R W. 1978. Timelag and equilibrium maistare content of ponder pine needles. Ogden: USDA Internt For and Range Exe Stn, 8 - 14.
8Anderson H E. 1990. Moisture diffusivity and response time in fine forest fuels. Canadian Journal of Forest Research, 20 : 315 - 325.
9Catchpole E A, Catchpole W R, Viney N R. 2001. Estimating fuel response time and predicting fuel moisture content from field data. International Journal of Wildland Fire, 10:215 - 222.
10Chuvieco E P, Aguado I P, Dimitrakopoulos A P. 2004. Conversion of fuel moisture content values to ignition potential for integrated fire danger assessment. Canadian Journal of Forest Research, 34 ( 11 ) : 2284 - 2293.