Home Biodeterioration of treated Pinus radiata timber by Australian decay fungi and the termite Coptotermes acinaciformis in laboratory bioassays and field conditions
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Biodeterioration of treated Pinus radiata timber by Australian decay fungi and the termite Coptotermes acinaciformis in laboratory bioassays and field conditions

  • Simon R. Przewloka , Berhan Ahmed , Peter Vinden , John French and Jeffrey A. Hann
Published/Copyright: March 1, 2007
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Holzforschung
From the journal Volume 61 Issue 2

Abstract

The resistance of Pinus radiata sapwood blocks treated with a boron-based preservative to biodeterioration by five Australian wood destroying fungi [Fomitopsis lilacino-gilva, Coniophora olivacea, Gloeophyllum abietinum (boron resistant), Serpula lacrymans and Perenniporia tephropora] was investigated. A phenyl pyrazole termiticide (fipronil) was also incorporated into the formulation to determine whether its presence affects biological efficacy. A linseed oil, liquid wax, terebene and trimethyl borate formulation inhibited decay by the trial fungi. Incorporation of fipronil did not affect the fungicidal properties. Fipronil alone exhibited no fungicidal activity. The termiticidal activity of fipronil was assessed (termite field test) in a formulation incorporating a fungicide, water repellent and drying agent in an alternative solvent carrier to that previously reported. The biological activity of the test compound was not diminished in this system. The 1-year progress performance of an ongoing in ground graveyard trial of similarly treated stakes, exposed to numerous termite species and decay fungi in tropical field conditions, is also presented. The predominant biological agent at the field site is the Australian subterranean termite Coptotermes acinaciformis (Froggatt). Treated stake samples of the Australian softwood Pinus radiata were exposed.

Keywords: Coptotermes acinaciformis; decay fungi; fipronil; Pinus radiata; trimethyl borate; wood preservatives
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Corresponding author. University of Melbourne, School of Forest and Ecosystem Science, Water Street, Creswick, Victoria 3363, Australia

References

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Published Online: 2007-03-01
Published in Print: 2007-03-01

©2007 by Walter de Gruyter Berlin New York

Articles in the same Issue

  1. Characterization of thin water layers in pulp by tritium exchange. Part 1: Methods development
  2. Characterization of thin water layers in pulp by tritium exchange. Part 2: Effect of refining on water absorption
  3. Characterizing wood fiber and particle length with a mixture distribution and a segmented distribution
  4. Effect of photolysis on 17th/18th century paper
  5. Changes in the cell wall volume of a number of wood species due to reaction with acetic anhydride
  6. A novel simple route to wood acetylation by transesterification with vinyl acetate
  7. Formation and properties of nanocomposites made up from solid aspen wood, melamine-urea-formaldehyde, and clay
  8. Ellagitannins from Portuguese oak wood (Quercus pyrenaica Willd.) used in cooperage: influence of geographical origin, coarseness of the grain and toasting level
  9. Epimeric phenylpropanoid glycosides from inner bark of Paulownia coreana Uyeki
  10. Lipid and lignin composition of woods from different eucalypt species
  11. A hysteresis model suitable for numerical simulation of moisture content in wood
  12. Simple estimation of critical stress intensity factors of wood by tests with double cantilever beam and three-point end-notched flexure
  13. Screening fungi tolerant to Western red cedar (Thuja plicata Donn) extractives. Part 1. Mild extraction by ultrasonication and quantification of extractives by reverse-phase HPLC
  14. Screening fungi tolerant to Western red cedar (Thuja plicata Donn) extractives. Part 2. Development of a feeder strip assay
  15. Contribution of hardness to the natural resistance of a range of wood species to attack by the marine borer Limnoria
  16. Biodeterioration of treated Pinus radiata timber by Australian decay fungi and the termite Coptotermes acinaciformis in laboratory bioassays and field conditions
  17. Development of an accelerated soil-contact decay test
  18. Obituary Dr. Bo Hortling (1942–2006)
https://doi.org/10.1515/HF.2007.036
Keywords for this article
Coptotermes acinaciformis; decay fungi; fipronil; Pinus radiata; trimethyl borate; wood preservatives

Articles in the same Issue

  1. Characterization of thin water layers in pulp by tritium exchange. Part 1: Methods development
  2. Characterization of thin water layers in pulp by tritium exchange. Part 2: Effect of refining on water absorption
  3. Characterizing wood fiber and particle length with a mixture distribution and a segmented distribution
  4. Effect of photolysis on 17th/18th century paper
  5. Changes in the cell wall volume of a number of wood species due to reaction with acetic anhydride
  6. A novel simple route to wood acetylation by transesterification with vinyl acetate
  7. Formation and properties of nanocomposites made up from solid aspen wood, melamine-urea-formaldehyde, and clay
  8. Ellagitannins from Portuguese oak wood (Quercus pyrenaica Willd.) used in cooperage: influence of geographical origin, coarseness of the grain and toasting level
  9. Epimeric phenylpropanoid glycosides from inner bark of Paulownia coreana Uyeki
  10. Lipid and lignin composition of woods from different eucalypt species
  11. A hysteresis model suitable for numerical simulation of moisture content in wood
  12. Simple estimation of critical stress intensity factors of wood by tests with double cantilever beam and three-point end-notched flexure
  13. Screening fungi tolerant to Western red cedar (Thuja plicata Donn) extractives. Part 1. Mild extraction by ultrasonication and quantification of extractives by reverse-phase HPLC
  14. Screening fungi tolerant to Western red cedar (Thuja plicata Donn) extractives. Part 2. Development of a feeder strip assay
  15. Contribution of hardness to the natural resistance of a range of wood species to attack by the marine borer Limnoria
  16. Biodeterioration of treated Pinus radiata timber by Australian decay fungi and the termite Coptotermes acinaciformis in laboratory bioassays and field conditions
  17. Development of an accelerated soil-contact decay test
  18. Obituary Dr. Bo Hortling (1942–2006)
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