Register      Login
Wildlife Research Wildlife Research Society
Ecology, management and conservation in natural and modified habitats
Shopping Cart: ( empty )
You are here: Home > Journals > WR > WR20140
RESEARCH ARTICLE
Contents Vol 48(6)

The effects of harvest frequency on coarse woody debris and its use by fauna

C. G. Threlfall https://orcid.org/0000-0002-4197-8588 A B C , B. Law B and N. Colman B
+ Author Affiliations
- Author Affiliations

A School of Life and Environmental Sciences, Faculty of Science, Room 410 Heydon-Laurence Building (A08), Science Road, The University of Sydney, Camperdown, NSW 2006, Australia.

B Forest Science Unit, NSW Department of Primary Industries, Locked Bag 5123, Parramatta, NSW 2124, Australia.

C Corresponding author. Email: caragh.threlfall@sydney.edu.au

Wildlife Research - https://doi.org/10.1071/WR20140
Submitted: 26 August 2020  Accepted: 13 February 2021   Published online: 14 April 2021

Abstract

Context: Forest harvest practices have the potential to alter habitat available to forest fauna. One aspect of harvesting practice that has received little research attention is the effect of multiple rotations on available habitat, and its use by fauna.

Aims: We examined one component of habitat that is critical to many taxa, coarse woody debris (CWD). In forests of north-eastern New South Wales, Australia, we aimed to assess whether harvest (moderate intensity for saw-logs) frequency influences CWD levels, and whether fauna activity on CWD varies with harvest frequency and with CWD attributes.

Methods: Using habitat surveys and camera trapping, we compared CWD quantity and quality in unharvested sites with those that had been harvested once, twice and three times, and assessed fauna use of CWD.

Key results: We found significantly greater volume of non-hollow CWD, and of medium-sized pieces (15–30 cm diameter), in sites harvested three times versus unharvested sites. Camera trapping showed that the activity and composition of fauna were similar across these harvest treatments. Our results also found that a broad range of fauna used a variety of logs, including large and small logs in various states of decay.

Conclusions: Consistent with other Australian studies, our results suggested that there are no detectable impacts of harvesting on hollow or large CWD. Further studies using radio-tracking or similar methods are needed to more comprehensively assess how CWD is used by fauna.

Implications: CWD was used broadly by a range of species and should be targeted for retention under ecologically sustainable forest management practices to ensure that it continues to be present in harvested landscapes. This is particularly important in places where an intensification of practices is being considered.

Keywords: fallen logs, forest residue, sustainable forest management, timber harvesting, forest wildlife, camera trapping.


References

Aponte, C., Tolhurst, K. G., and Bennett, L. T. (2014). Repeated prescribed fires decrease stocks and change attributes of coarse woody debris in a temperate eucalypt forest. Ecological Applications 24, 976–989.
Repeated prescribed fires decrease stocks and change attributes of coarse woody debris in a temperate eucalypt forest.Crossref | GoogleScholarGoogle Scholar | 25154091PubMed |

Bartoń, K. (2013). ‘Mumin: Multi-model Inference.’ R package version 1. Available at http://R-Forge.R-project.org/projects/mumin/

Bates, D., Maechler, M., and Dai, B. (2008). Lme4: Linear mixed-effects models using s4 classes. (R package version 0.999375-22. Available at http://lme4.r-forge.r-project.org/.

Behjou, F. K., Lo Monaco, A., Tavankar, F., Venanzi, R., Nikooy, M., Mederski, P. S., and Picchio, R. (2018). Coarse woody debris variability due to human accessibility to forest. Forests 9, 509.
Coarse woody debris variability due to human accessibility to forest.Crossref | GoogleScholarGoogle Scholar |

Bunnell, F. L., and Houde, I. (2010). Down wood and biodiversity: implications to forest practices. Environmental Reviews 18, 397–421.
Down wood and biodiversity: implications to forest practices.Crossref | GoogleScholarGoogle Scholar |

Claridge, A. W., Tennant, P., Chick, R., and Barry, S. C. (2008). Factors influencing the occurrence of small ground-dwelling mammals in southeastern mainland australia. Journal of Mammalogy 89, 916–923.
Factors influencing the occurrence of small ground-dwelling mammals in southeastern mainland australia.Crossref | GoogleScholarGoogle Scholar |

Collins, L., Bradstock, R. A., Tasker, E. M., and Whelan, R. J. (2012). Impact of fire regimes, logging and topography on hollows in fallen logs in eucalypt forest of south eastern Australia. Biological Conservation 149, 23–31.
Impact of fire regimes, logging and topography on hollows in fallen logs in eucalypt forest of south eastern Australia.Crossref | GoogleScholarGoogle Scholar |

Cotsell, N., and Vernes, K. (2016). Camera traps in the canopy: surveying wildlife at tree hollow entrances. Pacific Conservation Biology 22, 48–60.
Camera traps in the canopy: surveying wildlife at tree hollow entrances.Crossref | GoogleScholarGoogle Scholar |

Craig, M. D., Grigg, A. H., Hobbs, R. J., and Hardy, G. E. S. J. (2014). Does coarse woody debris density and volume influence the terrestrial vertebrate community in restored bauxite mines? Forest Ecology and Management 318, 142–150.
Does coarse woody debris density and volume influence the terrestrial vertebrate community in restored bauxite mines?Crossref | GoogleScholarGoogle Scholar |

Dickman, C. R. (1991). Use of trees by ground-dwelling mammals: implications for management. In ‘Conservation of Australia’s forest fauna’. (Ed. D. Lunney.) pp. 125–136. (Royal Zoological Society of New South Wales: Sydney, NSW, Australia.)

Dickman, C. R., and Steeves, T. E. (2004). Use of habitat by mammals in eastern Australian forests: are common species important in forest management? In ‘Conservation of Australia’s forest fauna’. (Ed. D. Lunney.) pp. 761–773. (Royal Zoological Society of New South Wales: Sydney, NSW, Australia.)

Ekbom, B., Schroeder, L. M., and Larsson, S. (2006). Stand specific occurrence of coarse woody debris in a managed boreal forest landscape in central sweden. Forest Ecology and Management 221, 2–12.
Stand specific occurrence of coarse woody debris in a managed boreal forest landscape in central sweden.Crossref | GoogleScholarGoogle Scholar |

Eyre, T. J., Butler, D. W., Kelly, A. L., and Wang, J. (2010). Effects of forest management on structural features important for biodiversity in mixed-age hardwood forests in Australia’s subtropics. Forest Ecology and Management 259, 534–546.
Effects of forest management on structural features important for biodiversity in mixed-age hardwood forests in Australia’s subtropics.Crossref | GoogleScholarGoogle Scholar |

Flanagan-Moodie, A. K., Holland, G. J., Clarke, M. F., and Bennett, A. F. (2018). Prescribed burning reduces the abundance of den sites for a hollow-using mammal in a dry forest ecosystem. Forest Ecology and Management 429, 233–243.
Prescribed burning reduces the abundance of den sites for a hollow-using mammal in a dry forest ecosystem.Crossref | GoogleScholarGoogle Scholar |

Gibbons, P., Lindenmayer, D. B., Barry, S. C., and Tanton, M. T. (2000). Hollow formation in eucalypts from temperate forests in southeastern Australia. Pacific Conservation Biology 6, 218–228.
Hollow formation in eucalypts from temperate forests in southeastern Australia.Crossref | GoogleScholarGoogle Scholar |

Gonsalves, L., Law, B., and Blakey, R. (2018). Experimental evaluation of the initial effects of large-scale thinning on structure and biodiversity of river red gum (Eucalyptus camaldulensis) forests. Wildlife Research 45, 397–410.
Experimental evaluation of the initial effects of large-scale thinning on structure and biodiversity of river red gum (Eucalyptus camaldulensis) forests.Crossref | GoogleScholarGoogle Scholar |

Gossner, M. M., Lachat, T., Brunet, J., Isacsson, G., Bouget, C., Brustel, H., Brandl, R., Weisser, W. W., and Muller, J. (2013). Current near-to-nature forest management effects on functional trait composition of saproxylic beetles in beech forests. Conservation Biology 27, 605–614.
Current near-to-nature forest management effects on functional trait composition of saproxylic beetles in beech forests.Crossref | GoogleScholarGoogle Scholar | 23432190PubMed |

Grove, S. J. (2001). Extent and composition of dead wood in Australian lowland tropical rainforest with different management histories. Forest Ecology and Management 154, 35–53.
Extent and composition of dead wood in Australian lowland tropical rainforest with different management histories.Crossref | GoogleScholarGoogle Scholar |

Grove, S. (2009). Coarse woody debris conservation management in the context of fuelwood and firewood harvesting on state forests in Tasmania. Technical report 17/2009. Division of Forest Research and Development, Forestry Tasmania, Hobart, Tas., Australia.

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

Hradsky, B. A., Penman, T. D., Ababei, D., Hanea, A., Ritchie, E. G., York, A., and Di Stefano, J. (2017). Bayesian networks elucidate interactions between fire and other drivers of terrestrial fauna distributions. Ecosphere 8, e01926.
Bayesian networks elucidate interactions between fire and other drivers of terrestrial fauna distributions.Crossref | GoogleScholarGoogle Scholar |

Kavanagh, R. P., and Webb, G. A. (1998). Effects of variable-intensity logging on mammals, reptiles and amphibians at Waratah creek, southeastern New South Wales. Pacific Conservation Biology 4, 326–347.
Effects of variable-intensity logging on mammals, reptiles and amphibians at Waratah creek, southeastern New South Wales.Crossref | GoogleScholarGoogle Scholar |

Lassauce, A., Lieutier, F., and Bouget, C. (2012). Woodfuel harvesting and biodiversity conservation in temperate forests: effects of logging residue characteristics on saproxylic beetle assemblages. Biological Conservation 147, 204–212.
Woodfuel harvesting and biodiversity conservation in temperate forests: effects of logging residue characteristics on saproxylic beetle assemblages.Crossref | GoogleScholarGoogle Scholar |

Law, B., Chidel, M., Britton, A., and Brassil, T. (2013). Response of eastern pygmy possums, Cercartetus nanus, to selective logging in New South Wales: home range, habitat selection and den use. Wildlife Research 40, 470–481.
Response of eastern pygmy possums, Cercartetus nanus, to selective logging in New South Wales: home range, habitat selection and den use.Crossref | GoogleScholarGoogle Scholar |

Law, B., Chidel, M., Britton, A., and Threlfall, C. (2018). Comparison of microhabitat use in young regrowth and unlogged forest by the eastern pygmy-possum (Cercartetus nanus). Australian Mammalogy 40, 1–9.
Comparison of microhabitat use in young regrowth and unlogged forest by the eastern pygmy-possum (Cercartetus nanus).Crossref | GoogleScholarGoogle Scholar |

Lindenmayer, D. B., Claridge, A. W., Gilmore, A. M., Michael, D., and Lindenmayer, B. D. (2002). The ecological roles of logs in Australian forests and the potential impacts of harvesting intensification on log-using biota. Pacific Conservation Biology 8, 121–140.
The ecological roles of logs in Australian forests and the potential impacts of harvesting intensification on log-using biota.Crossref | GoogleScholarGoogle Scholar |

Lunney, D., Matthews, A., Eby, P., and Penn, A. M. (2009). The long-term effects of logging for woodchips on small mammal populations. Wildlife Research 36, 691–701.
The long-term effects of logging for woodchips on small mammal populations.Crossref | GoogleScholarGoogle Scholar |

Mac Nally, R., and Horrocks, G. (2008). Longer-term responses of a floodplain-dwelling marsupial to experimental manipulation of fallen timber loads. Basic and Applied Ecology 9, 458–465.
Longer-term responses of a floodplain-dwelling marsupial to experimental manipulation of fallen timber loads.Crossref | GoogleScholarGoogle Scholar |

Mac Nally, R., Horrocks, G., and Pettifer, L. (2002). Experimental evidence for potential beneficial effects of fallen timber in forests. Ecological Applications 12, 1588–1594.
Experimental evidence for potential beneficial effects of fallen timber in forests.Crossref | GoogleScholarGoogle Scholar |

McGregor, M., and Burnett, S. (2014). Proximity to coarse woody debris increases reptile presence in an Australian subtropical rainforest remnant. Australian Zoologist 37, 267–274.
Proximity to coarse woody debris increases reptile presence in an Australian subtropical rainforest remnant.Crossref | GoogleScholarGoogle Scholar |

Meek, P. D., Radford, S. L., and Tolhurst, B. L. (2006). Summer-autumn home range and habitat use of the Hastings river mouse Pseudomys oralis (rodentia: Muridae). Australian Mammalogy 28, 39–50.
Summer-autumn home range and habitat use of the Hastings river mouse Pseudomys oralis (rodentia: Muridae).Crossref | GoogleScholarGoogle Scholar |

Oksanen, J., Blanchet, G. F., Kindt, R., Legendre, P., O’Hara, R. B., Simpson, G. L., Solymos, P., Henry, M., Stevens, H., and Wagner, H. (2010). Vegan: community ecology package. R package version 1.17-3. Available at http://CRAN.R-project.org/package=vegan.

RACAC (1995). ‘Joint old growth forest project: working papers, vol. 1.’ Project framework. State Forests of New South Wales. (NSW National Parks and Wildlife Service, Resource and Conservation Assessment Council (RACAC), NSW Government: Sydney, NSW, Australia.)

Riffell, S., Verschuyl, J., Miller, D., and Wigley, T. B. (2011). Biofuel harvests, coarse woody debris, and biodiversity – a meta-analysis. Forest Ecology and Management 261, 878–887.
Biofuel harvests, coarse woody debris, and biodiversity – a meta-analysis.Crossref | GoogleScholarGoogle Scholar |

Slade, C., and Law, B. (2017). The other half of the coastal state forest estate in New South Wales; the value of informal forest reserves for conservation. Australian Zoologist 39, 359–370.
The other half of the coastal state forest estate in New South Wales; the value of informal forest reserves for conservation.Crossref | GoogleScholarGoogle Scholar |

Sohn, J., McElhinny, C., Grove, S. J., Hilbig, E., and Bauhus, J. (2013). A simplified inventory approach for estimating carbon in coarse woody debris in high-biomass forests. Papers and Proceedings of the Royal Society of Tasmania 147, 15–24.
A simplified inventory approach for estimating carbon in coarse woody debris in high-biomass forests.Crossref | GoogleScholarGoogle Scholar |

Stares, M. G. (2015) Forest management practices and habitats – how prescribed burning and logging influence coarse woody debris as a habitat resource for forest fauna. B.Sc.(Hons) Thesis University of Wollongong, NSW, Australia.

Stares, M. G., Collins, L., Law, B., and French, K. (2018). Long-term effect of prescribed burning regimes and logging on coarse woody debris in south-eastern Australia. Forests 9, 242.
Long-term effect of prescribed burning regimes and logging on coarse woody debris in south-eastern Australia.Crossref | GoogleScholarGoogle Scholar |

Thompson, M. S. A., Brooks, S. J., Sayer, C. D., Woodward, G., Axmacher, J. C., Perkins, D., and Gray, C. (2018). Large woody debris ‘rewilding’ rapidly restores biodiversity in riverine food webs. Journal of Applied Ecology 55, 895–904.
Large woody debris ‘rewilding’ rapidly restores biodiversity in riverine food webs.Crossref | GoogleScholarGoogle Scholar |

Threlfall, C. G., Law, B. S., and Peacock, R. J. (2019). Benchmarks and predictors of coarse woody debris in native forests of eastern Australia. Austral Ecology 44, 138–150.
Benchmarks and predictors of coarse woody debris in native forests of eastern Australia.Crossref | GoogleScholarGoogle Scholar |

Todd, B. D., and Andrews, K. M. (2008). Response of a reptile guild to forest harvesting. Conservation Biology 22, 753–761.
Response of a reptile guild to forest harvesting.Crossref | GoogleScholarGoogle Scholar | 18477031PubMed |

Van Dyck, S., and Strahan, R. (2008) ‘The mammals of Australia.’ 3rd edn. (New Holland Publishers: Sydney, NSW, Australia.)

Waters, C. M., Gonsalves, L., Law, B., Melville, G., Toole, I., Brassil, T., and Tap, P. (2018). The effect of thinning on structural attributes of a low rainfall forest in eastern Australia. Forest Ecology and Management 409, 571–583.
The effect of thinning on structural attributes of a low rainfall forest in eastern Australia.Crossref | GoogleScholarGoogle Scholar |

Webb, G. A. (1985). Habitat use and activity patterns in some southeastern Australian skinks. In ‘Biology of Australian frogs and reptiles’. (Eds G. C. Grigg, R. Shine, and H. Ehmann.) pp. 23–30. (Royal Zoological Society of New South Wales: Sydney, NSW, Australia.)

Woldendorp, G., Keenan, R., and Ryan, M. (2002). An analysis of sampling methods for coarse woody debris in Australian forest ecosystems. A report for the National Greenhouse Strategy, Module 6.6. Commonwealth of Australia.