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"Extreme Wildfire Events and Disasters: Root Causes and New Management Strategies highlights the urgent need for new methods to prepare and mitigate the effects of these events. Using a multidisciplinary, socio-ecological approach, the book discusses the roots of the problem, presenting a new, innovative approach to wildfire mitigation based on the operational concept of Fire Smart Territory (FST). Under the guidance of its expert editors, the book highlights new ways to prevent and respond to extreme wildfire events and disasters through sustainable development, thus revealing better management methods and increasing protection of both the natural environment and the vulnerable communities within it"--

Wildfires. --- Wildfire risk. --- Risk, Wildfire --- Bush fires --- Bushfires --- Wild fires --- Wildland fires --- Fires

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Federal funding for wildfire management (WFM) is provided in the annual Interior, Environment, and Related Agencies appropriations bill. It funds wildfire management at the Forest Service and the Department of the Interior, which are the two principal entities tasked with federal wildfire management. Federal wildfire response activities involve preparedness, suppression, fuel reduction, site rehabilitation, and more. This book discusses the federal assistance for wildfire and response and recovery, as well as federal funding and related statistics of wildfire management.

Wildfires. --- Droughts. --- Drought --- Drouth --- Drouths --- Weather --- Bush fires --- Bushfires --- Wild fires --- Wildland fires --- Fires

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Developed to provide a systematic method for assessing fuel hazard and predicting potential fire behaviour in dry eucalypt forest.

Forest fires --- Eucalyptus.

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The latest information from CSIRO on the behaviour and spread of fires in grasslands.

Grassland fires --- Fire weather --- Forest fires --- Forest meteorology --- Weather --- Grass fires --- Prairie fires --- Ground cover fires --- Forecasting.

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Crown fires in forest ecosystems can pose a major threat to life and property due to their high intensities and rapid rates of spread. However, research into the prediction of crown fire dynamics in the Eucalyptus forests of Australia is limited. Previous studies have focused on coarse temporal scales, utilised low resolution weather based predictors, and disregard the spatial nature of crown fires. Our study aimed to use observations from large wildfires in eucalypt forests to develop an empirical model to predict the likelihood of crown fire events using environmental predictors at an hourly scale. Our study was conducted in south-eastern Australia using data from fifteen large wildfires that occurred between 2009 and 2015. Fire severity maps were created for each fire at a 30 m resolution using Landsat imagery from which we calculated the proportion of 30m pixels experiencing crown fire within a 150 x 150 m window (2.25 ha). Predictor variables were chosen to represent the four key environmental drivers of fire behaviour, namely fuel moisture (i.e. live and dead fuel),fuel load and structure (i.e. surface, elevated and bark fuels, tree height), fire weather (i.e. vapour-pressure deficit, wind speed, relative wind direction) and topography (i.e. slope and ruggedness). Random Forests were used to model the effect of environmental drivers on the proportion of crown fire. Fuel moisture content variables were the best predictors of probability of crown consumption. Topographic variables and fire weather had only an intermediate influence and fuel load and structure had the lowest influence. Crown fire runs largely occurred when thresholds in vapour-pressure deficit (<4 kPa) and dead fuel moisture content(<7%) were exceeded. Predictions from the model showed a high degree of agreement with the raw fire severity maps. The proposed models have the potential to provide guidance on the likelihood of crown fire during fire events.

Greece --- 2018 --- forest fires --- Portugal