Fire behavior of ground surface fuels in Pinus koraiensis and quercus mongolica mixed forest under no wind and zero slope condition: a prediction with extended Rothermel model

Zhang, Ji-Li; Liu, Bo-Fei; Chu, Teng-Fei; Di, Xue-Ying; Jin, Sen

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Fire behavior of ground surface fuels in Pinus koraiensis and quercus mongolica mixed forest under no wind and zero slope condition: a prediction with extended Rothermel model
Citation	Zhang JL, Liu BF, Chu TF, Di XY, Jin S. Ying Yong Sheng Tai Xue Bao 2012; 23(6): 1495-1502.
Affiliation	College of Forestry, Northeast Forestry University, Harbin, China.
Copyright	(Copyright © 2012, Ying yong sheng tai xue bao bian ji wei yuan hui)
DOI	unavailable
PMID	22937636
Abstract	A laboratory burning experiment was conducted to measure the fire spread speed, residual time, reaction intensity, fireline intensity, and flame length of the ground surface fuels collected from a Korean pine (Pinus koraiensis) and Mongolian oak (Quercus mongolica) mixed stand in Maoer Mountains of Northeast China under the conditions of no wind, zero slope, and different moisture content, load, and mixture ratio of the fuels. The results measured were compared with those predicted by the extended Rothermel model to test the performance of the model, especially for the effects of two different weighting methods on the fire behavior modeling of the mixed fuels. With the prediction of the model, the mean absolute errors of the fire spread speed and reaction intensity of the fuels were 0.04 m X min(-1) and 77 kW X m(-2), their mean relative errors were 16% and 22%, while the mean absolute errors of residual time, fireline intensity and flame length were 15.5 s, 17.3 kW X m(-1), and 9.7 cm, and their mean relative errors were 55.5%, 48.7%, and 24%, respectively, indicating that the predicted values of residual time, fireline intensity, and flame length were lower than the observed ones. These errors could be regarded as the lower limits for the application of the extended Rothermel model in predicting the fire behavior of similar fuel types, and provide valuable information for using the model to predict the fire behavior under the similar field conditions. As a whole, the two different weighting methods did not show significant difference in predicting the fire behavior of the mixed fuels by extended Rothermel model. When the proportion of Korean pine fuels was lower, the predicted values of spread speed and reaction intensity obtained by surface area weighting method and those of fireline intensity and flame length obtained by load weighting method were higher; when the proportion of Korean pine needles was higher, the contrary results were obtained. Language: zh