1. Improved timber harvest techniques maintain biodiversity in tropical forests
- Author
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Zoe G. Davies, Jake E. Bicknell, David Edwards, Matthew J. Struebig, Bicknell, Jake E., Struebig, Matthew J., Edwards, David P., and Davies, Zoe G.
- Subjects
Biodiversity ,QH75 ,ComputingMilieux_LEGALASPECTSOFCOMPUTING ,Forests ,Biology ,General Biochemistry, Genetics and Molecular Biology ,Birds ,Tropical climate ,QH541 ,Animals ,Arthropods ,Mammals ,Tropical Climate ,Agricultural and Biological Sciences(all) ,Ecology ,Biochemistry, Genetics and Molecular Biology(all) ,Agroforestry ,Logging ,Forestry ,Disturbance (ecology) ,Extraction methods ,Species richness ,General Agricultural and Biological Sciences ,Salvage logging ,Clearance - Abstract
Summary Tropical forests are selectively logged at 20 times the rate at which they are cleared, and at least a fifth have already been disturbed in this way [1]. In a recent pan-tropical assessment, Burivalova et al. [2] demonstrate the importance of logging intensity as a driver of biodiversity decline in timber estates. Their analyses reveal that species richness of some taxa could decline by 50% at harvest intensities of 38 m 3 ha -1 . However, they did not consider the extraction techniques that lead to these intensities. Here, we conduct a complementary meta-analysis of assemblage responses to differing logging practices: conventional logging and reduced-impact logging. We show that biodiversity impacts are markedly less severe in forests that utilise reduced-impact logging, compared to those using conventional methods. While supporting the initial findings of Burivalova et al. [2], we go on to demonstrate that best practice forestry techniques curtail the effects of timber extraction regardless of intensity. Therefore, harvest intensities are not always indicative of actual disturbance levels resulting from logging. Accordingly, forest managers and conservationists should advocate practices that offer reduced collateral damage through best practice extraction methods, such as those used in reduced-impact logging. Large-scale implementation of this approach would lead to improved conservation values in the 4 million km 2 of tropical forests that are earmarked for timber extraction [3].
- Published
- 2014