@article{ref1,
title="Corrigendum to: Interdependencies between flame length and fireline intensity in predicting crown fire initiation and crown scorch height",
journal="International journal of wildland fire",
year="2017",
author="Alexander, Martin E. and Cruz, Miguel G.",
volume="26",
number="4",
pages="345-345",
abstract="This state-of-knowledge review examines some of the underlying assumptions and limitations associated with the inter-relationships among four widely used descriptors of surface fire behaviour and post-fire impacts in wildland fire science and management, namely Byram's fireline intensity, flame length, stem-bark char height and crown scorch height. More specifically, the following topical areas are critically examined based on a comprehensive review of the pertinent literature: (i) estimating fireline intensity from flame length; (ii) substituting flame length for fireline intensity in Van Wagner's crown fire initiation model; (iii) the validity of linkages between the Rothermel surface fire behaviour and Van Wagner's crown scorch height models; (iv) estimating flame height from post-fire observations of stem-bark char height; and (v) estimating fireline intensity from post-fire observations of crown scorch height. There has been an overwhelming tendency within the wildland fire community to regard Byram's flame length-fireline intensity and Van Wagner's crown scorch height-fireline intensity models as universal in nature. However, research has subsequently shown that such linkages among fire behaviour and post-fire impact characteristics are in fact strongly influenced by fuelbed structure, thereby necessitating consideration of fuel complex specific-type models of such relationships.<p /> <p>Language: en</p>",
language="en",
issn="1049-8001",
doi="10.1071/wf11001_co",
url="http://dx.doi.org/10.1071/wf11001_co"
}