Publications: Carbon, biomass and coarse woody debris

Carbon, biomass and coarse woody debris

Beaulieu, F. (2004). The role of decaying wood in maintaining biodiversity: the case of predatory mites (Acari: Mesostigmata). Preliminary data from a wet sclerophyll forest in Tasmania. Forestry Tasmania, Hobart.

Browning, B.J. (2006). Cryptogamic diversity on coarse woody debris. Honours thesis, University of Tasmania, Hobart.

Dean, C. & Roxburgh,S. (2006) Improving Visualisation of Mature, High-Carbon-Sequestering Forests. Forest Biometry, Modelling and Information Sciences, 1: 48-69.

Grove, S.J. & Bashford, R. (2003). Beetle assemblages from the Warra log decay project: insights from the first year of sampling. Tasforests 14: 117-129.

Grove, S.J. & Meggs, J. (2003). Coarse woody debris biodiversity and management: a review with particular reference to Tasmanian wet eucalypt forests. Australian Forestry 66: 258-272.

Grove, S.J. (2007). Mudguts. The Tasmanian Naturalist 129: 2-7.

Grove, S.J. (2009). A decade of deadwoodology at Warra. The Tasmanian Naturalist 131: 25-35.

Grove, S.J., Meggs, J., & Goodwin, A. (2002). A review of biodiversity conservation issues relating to coarse woody debris management in the wet eucalypt production forests of Tasmania. Forestry Tasmania, Hobart.

Grove, S.J., Stamm, L. and Barry, C. (2009). Log decomposition rates in Tasmanian Eucalyptus obliqua determined using an indirect chronosequence approach. Forest Ecology and Management 258: 389-397.

Grove, S., Bashford, R. & Yee, M. (2009). A long-term experimental study of saproxylic beetle (Coleoptera) succession in Tasmanian Eucalyptus obliqua logs: findings from the first five years. Chapter 6 in: Fattorini, S. (Ed.), Insect Ecology and Conservation. Research Signpost, Kerala, India, pp. 71-114.

Harrison, K. (2007). Saproxylic beetles associated with habitat features in Eucalyptus obliqua trees in the southern forests of Tasmania. Doctoral thesis, Department of Zoology, University of Tasmania, Hobart.

Hilbig, E. (2009). Coarse woody debris and its function as a carbon pool: a case study from the tall wet Eucalyptus obliqua (L'Hérit.) forests of Tasmania. Diploma thesis, Albert-Ludwigs University, Freiburg, Germany.

Hopkins, A.J.M., Harrison, K.S., Grove, S.J., Wardlaw, T.J., & Mohammed, C.L. (2005). Wood decay fungi and beetle assemblages associated with living Eucalyptus obliqua trees: early results from studies at the Warra LTER Site, Tasmania. Tasforests 16: 111-126.

Marsden-Smedley, J. & Slijepcevic, A. (2001). Fuel characteristics and low intensity burning in Eucalyptus obliqua wet forest at the Warra LTER site. Tasforests 13: 261-280.

Meggs, J.M. (1996). Pilot study of the effects of modern logging practices on the decaying-log habitat in wet eucalypt forest in South-East Tasmania: report to the Tasmanian RFA Environment and Heritage Technical Committee Forestry Tasmania, Hobart, Tasmania, Australia.

Mesibov, R. (1988). Log Invertebrate Project Forestry Tasmania, Hobart, Tasmania, Australia.

Peacock, R. (2009). A private native forestry metric to assess forest structural change. RIRDC Report 09/019: 35 pp. Rural Industries Research and Development Corporation, Canberra.

Raison, R.J., Kirschbaum, M.U.F., McCormack, R.J., Attiwill, P.M., & Richardson, A.M.M. (2002). Review of the science relevant to the sustainable use of native and plantation forest-harvesting residues for energy production in Tasmania. CSIRO Forestry and Forest Products, Canberra.

Slijepcevic, A. (2001). Loss of carbon during controlled regeneration burns in Eucalyptus obliqua forest. Tasforests 13: 281-290.

Stamm, L. (2007). Decomposition in Tasmanian Eucalyptus obliqua coarse woody debris. Honours thesis, University of Tasmania, Hobart.

Tedersoo, L., Gates, G., Dunk, C.W., Lebel, T., May, T.W., Koljalg, U. & Jairus, T. (2009). Establishment of ectomycorrhizal fungal community on isolated Nothofagus cunninghamii seedlings regenerating on dead wood in Australian wet temperate forests: does fruit-body type matter? Mycorrhiza 19: 403-416.

Trang, T.T. (2007). Resistance screening to fungal diseases for plantation eucalypts in Vietnam: molecular tools to assist fungal detection and identification. Masters Thesis, University of Tasmania, Hobart.

Woldendorp, G. & Keenan, R.J. (2005). Coarse woody debris in Australian forest ecosystems: a review. Austral Ecology 30: 834-843.

Woldendorp, G., Spencer, R.D., Keenan, R.J., & Barry, S. (2002). An analysis of sampling methods for coarse woody debris in Australian forest ecosystems. Bureau of Rural Sciences, Canberra.

Woldendorp, G., Keenan, R.J., Barry, S., & Spencer, R.D. (2004). Analysis of sampling methods for coarse woody debris. Forest Ecology and Management 198: 133-148.

Yee, M. (2005). The ecology and habitat requirements of saproxylic beetles native to Tasmanian wet eucalypt forests: potential impacts of commercial forestry practices. PhD, University of Tasmania, Hobart.

Yee, M., Yuan, Z.-Q., & Mohammed, C. (2001). Not just waste wood: decaying logs as key habitats in Tasmania's wet sclerophyll Eucalyptus obliqua production forests: the ecology of large and small logs compared. Tasforests 13: 119-128.

Yee, M., S. J. Grove, A. Richardson, & C. Mohammed. (2006). Brown rot in inner heartwood: why large logs support characteristic saproxylic beetle assemblages of conservation concern. Pages 42-56 in S. J. Grove, and J. L. Hanula, editors. Insect biodiversity and dead wood. .Proceedings of a symposium at the International Congress of Entomology, Brisbane, Australia, August 2004. Asheville, NC: U.S. Department of Agriculture, Forest Service, Southern Research Station, Athens.

Yuan, Z.-Q. (2000). Long term monitoring of log decay in old growth forest at Warra (a summary report on intial establishment of the study). University of Tasmania, Hobart.