Journal article
Impact of mechanical thinning on forest carbon, fuel hazard and simulated fire behaviour in Eucalyptus delegatensis forest of south-eastern Australia
L Volkova, H Bi, J Hilton, C Weston
Forest Ecology and Management | Elsevier | Published : 2017
Abstract
Forest mega-fires have become a global phenomenon in recent decades including in south-eastern Australia where large areas of forest have been fire-killed with loss of human lives and property and impacting carbon sequestration and greenhouse gas emissions. The vast extent and impact of mega-fires has induced a re-evaluation of fuel reduction methods as a key management strategy in wildfire risk mitigation in many countries. This study investigated the impact of a commercial thinning in Eucalyptus delegatensis forest on fuel hazard, fuel loads and wildfire behaviour, eight years after completion of a bay and outrow thinning operation. At the stand level, thinning reduced overstorey tree stoc..
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Funding Acknowledgements
Authors acknowledge VicForests for funding to support a master research project and information on thinning operations. Mr Mike Ryan is thanked for advice on study sites allocation and useful comments on the manuscript. Dr Andrew Sullivan, CSIRO is greatly acknowledged for continued advice on project execution and we thank Mr Fedor Torgovnikov and Miss Ekaterina Torgovnikova for field and technical assistance during project implementation.