BUSHFIRE RISK AT THE URBAN INTERFACE ESTIMATED FROM HISTORICAL WEATHER RECORDS - CONSEQUENCES FOR THE USE OF PRESCRIBED FIRE IN THE SYDNEY REGION OF SOUTH-EASTERN AUSTRALIA
Ra. Bradstock et al., BUSHFIRE RISK AT THE URBAN INTERFACE ESTIMATED FROM HISTORICAL WEATHER RECORDS - CONSEQUENCES FOR THE USE OF PRESCRIBED FIRE IN THE SYDNEY REGION OF SOUTH-EASTERN AUSTRALIA, Journal of environmental management, 52(3), 1998, pp. 259-271
The urban/bushland interface around Sydney in south-eastern Australia
is extensive. A history of destructive bushfires has led to intensive
management of fuel at this interface. Prescribed burning is the major
management technique. The rationale is to manipulate fuel so that the
intensity of unplanned fires is reduced to a level where suppression i
s possible at the urban interface, Managers are faced with many option
s in terms of where, when and how often they burn at the urban interfa
ce but the effectiveness of differing strategies in terms of protectio
n, has not been evaluated. Prescribed burning was examined in the nort
hern suburbs of Sydney in terms of its effect on the average annual ri
sk of uncontrollable fire adjacent to buildings. The potential for unc
ontrollable fire in the three predominant plant communities (shrubland
, woodland and forest) was estimated using daily (15:00 h) values of t
he McArthur Forest Fire Danger Index (FFDI) for the period 1955-1996 a
nd related fire behaviour equations. The study considered a 100 m wide
zone at the urban interface (similar to 200 km in length), and integr
ated the effects of varying aspect, topography, and vegetation (fuel)
types. Based on trends in fuels and daily weather data for 1955-1996,
large amounts of this zone (40, 34 and 27%) would need to be burnt ann
ually to achieve average risk levels of uncontrollable fire of 1, 5 an
d 10 days per annum, respectively. The risk of uncontrollable fire was
highly sensitive to the frequency and extent of prescribed burning. C
onstraints on prescribed burning, such as available resources and suit
able weather will therefore have a large effect on protection. Other c
onsequences of a range of prescribed burning scenarios are discussed.
(C) 1998 Academic Press Limited.