Publications: Ecological processes

Ecological processes

Alcorn, P.J., Dingle, J.K., & Hickey, J.E. (2001). Age and stand structure in a multi-aged wet eucalypt forest at the Warra silvicultural systems trial.Tasforests 13: 245-260.

Allen, K. (2001). The potential for dendroclimatology in the Warra LTER Site, Tasmania.Tasforests 13: 77-86.

Baker, S.C., Barmuta, L.A., (2006). Evaluating spatial autocorrelation and depletion in pitfall-trap studies of environmental gradients.>Journal of Insect Conservation 10: 269-276.

Barker, P.B. (1998). A design for long-term quadrats to sample and monitor vegetation change along the altitudinal gradient at Warra LTER site. Forestry Tasmania, Hobart.

Clapcott, J.E. (2007). The metabolic signature of small headwater streams: natural variability and the response to forestry. Doctoral thesis, University of Tasmania.

Davies, P., Cook, L., Risdon, M., & Walker, R. (2001). Stream biological research at Warra. Tasforests 13: 101-108.

Doran, N., Balmer, J., Driessen, M., Bashford, D., Grove, S.J., Richardson, A.M.M., Griggs, J., & Ziegeler, D. (2003). Moving with the times: baseline data to gauge future shifts in vegetation and invertebrate altitudinal assemblages due to environmental change. Organisms, Diversity and Evolution 3(2): 127-149.

Duncan, D. & Dalton, P.J. (1982). Recolonisation by bryophytes following fire. Journal of Bryology 12: 53-63.

Gates, G.M. & Ratkowsky, D.A. (2009). Comparing indigenous and European-based concepts of seasonality for predicting macrofungal fruiting activity in Tasmania. Australasian Mycologist 28: 36-42.

Gates, G.M. (2009). Coarse woody debris, macrofungal assemblages, and sustainable forest management in a Eucalyptus obliqua forest of southern Tasmania. Doctoral thesis, University of Tasmania, Hobart.

Gates, G.M., Ratkowsky, D.A., & Grove, S.J. (2005). A comparison of macrofungi in young silvicultural regeneration and mature forest at the Warra LTER site in the Southern Forests of Tasmania. Tasforests 16: 127-152.

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. & Neyland, M.G. (2005). How ‘natural’ is the response of biodiversity to clearfelling and to alternative silvicultural systems in Tasmanian wet eucalypt forest? International Forestry Review 7: 325.

Grove, S.J. (2004). Ecological research coverage at the Warra LTER site, Tasmania: a gap analysis based on a conceptual ecological model. Tasforests 15: 43-54.

Grove, S.J. (2004). Warra - Mount Weld altitudinal transect ecotonal and baseline altitudinal monitoring plots (BAMPs): establishment report. Technical Report no 17/2004. Forestry Tasmania, Hobart.

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.

Hickey, J.E., Su, W., Rowe, P., Brown, M.J., & Edwards, L. (1999). Fire history of the tall eucalypt forests of the Warra ecological research site, Tasmania. Australian Forestry 62: 66-71.

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.

Hodge, D.A., Pharo, E.J., Dalton, P.J. and Turner, P.A.M. (2009). Successional patterns of terrestrial bryophytes along a wildfire chronosequence in the wet eucalypt forests of southern Tasmania. Tasforests 18: 67-76.

Hopkins, A. (2006). The taxonomy and ecology of wood decay fungi in Eucalyptus obliqua trees and logs in the wet sclerophyll forests of southern Tasmania. Doctoral thesis, University of Tasmania, Hobart.

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.

Mesibov, R. (1997). Land snails, landhoppers, millipedes and carabid beetles in mature and regrowth forest near Tahune Bridge. Forestry Tasmania, Hobart.

Nash, S. (2004). Comparisons of gene flow and dispersal in a tenebrionid beetle in wet eucalypt forest and fuelwood harvested coupes in southern Tasmania. Honours thesis, LaTrobe University, Melbourne.

Neyland, M.G. (2005). Understorey islands as a means of conserving structural and plant diversity within harvested wet eucalypt forests in Tasmania. International Forestry Review 7: 366.

An examination of stocking and early growth in the Warra silvicultural systems trial confirms the importance of a burnt seedbed for vigorous regeneration in Eucalyptus obliqua forest. Forest Ecology and Management 258: 481-494.

Pinkard, L. (2008). Likely effects of climate change on the climate of cool temperate Australia and specifically Warra. Likely effects of climate change on the climate of cool temperate Australia and specifically Warra. Milestone report 2: Project 715-Pinkard, ‘Predicting NPP of temperate forest systems: uncertainty associated with climate change and pest attack’. CSIRO Forests and Forest Products, Hobart.

Ratkowsky, D.A. & Gates, G.M. (2008). Generalised canonical correlations analysis for explaining macrofungal species assemblages. Australasian Mycologist 27: 33-40.

Ratkowsky, D.A. & Gates, G.M. (2008). Macrofungi in early stages of forest regeneration in Tasmania's southern forests. Tasforests 18: 56-66.

Ratkowsky, D.A. (2007). Visualising macrofungal species assemblage compositions using canonical discrimination analysis. Australasian Mycologist 26: 75-85.

Ratkowsky, D.A. (2008). Tests for dispersion among macrofungal species assemblages. Australasian Mycologist 27: 66-73.

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.

Swain, R., Richardson, A.M.M., & Serov, P.A. (1993). An evaluation of the potential of litter bags for assessing the effect of forestry practices on stream processes. Tasmanian Forest Research Council, Hobart.

Tabor, J. (2004). Colonisation of clearfelled coupes by rainforest tree species from mixed forest edges. Honours thesis, Australian National University, Canberra.

Tabor, J., McElhinny, C., Hickey, J., & Wood, J. (2007). Colonisation of clearfelled coupes by rainforest tree species from mature forest edges, Tasmania, Australia. Forest Ecology and Management 240: 13-23.

Tanner, Z. (2000). Ecological impacts of the superb lyrebird in Tasmania. Honours thesis, University of Tasmania, Hobart.

Turner, P.A.M., Grove, S.J. and Airey, C., 2007. Wildfire chronosequence project establishment report. Bushfire CRC Report No. B.07.01.

Turner, P.A.M., Balmer, J., Kirkpatrick, J.B., 2009. Stand replacing wildfires? The incidence of multi-aged and even-aged Eucalyptus regnans and E. obliqua forests in southern Tasmania. Forest Ecology and Management 258: 366-375.

Wardlaw, T.J. (2003). The extent, impact and management of stem decay in young regrowth eucalypt forests scheduled for thinning in Tasmania. School of Agricultural Science, University of Tasmania.

Wardlaw, T., Grove, S., Hopkins, A., Yee, M., Harrison K. and Mohammed, C. (2009). The uniqueness of habitats in old eucalypts: contrasting wood-decay fungi and saproxylic beetles of young and old eucalypts. Tasforests 18: 17-32.

Warren, C.R. & Adams, P.R. (2006). Uptake of nitrate, ammonium and glycine by plants of Tasmanian wet eucalypt forests. Tree Physiology. 27, 413 - 419.

Watson, S. (2003). Dispersal and gene flow in Prostomis atkinsoni (Coleoptera). Honours thesis, LaTrobe University, Melbourne.

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., 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.