Understanding and calculating fire behaviour in various fuel types is essential for effective fire management, including wildfire suppression and fuels management. Fire spread in grassland fuel is affected by the curing level, the amount of dead fuel expressed as a percentage of the total (live and dead fuel combined). The influence of live fuel is included in various fire models in different ways. U.S. fire behavior prediction systems are based on Rothermel's fire spread model, which uses the load of live and dead fuel and the moisture content of each. Dynamic fuel models include a transfer of fuel load from the live to dead class as a function of live fuel moisture. Australian and New Zealand grassland fire behavior models rely heavily on the curing level as a major determinant of the ability for a fire to develop and spread, and place greater direct emphasis on both the proportion and moisture content of the dead fine fuels. A joint Australian and New Zealand study under the Australian Bushfire Cooperative Research Centre (CRC) is addressing various methods of assessing curing levels in grasslands. Data from that study are used to evaluate the dynamic fuel load transfer function used in fuel models developed for the Rothermel spread model. Results showed that live fuel moisture is not an indicator of level of curing. A significant difference is demonstrated in calculated rate of spread using the load transfer model versus direct entry of live fuel moisture and level of curing.