Home Efficacy of a copper(II)/oxine copper wood preservative mixture after 69 months of outdoor ground-contact exposure and a proposed mechanism to explain the observed synergism
Article
Licensed
Unlicensed Requires Authentication

Efficacy of a copper(II)/oxine copper wood preservative mixture after 69 months of outdoor ground-contact exposure and a proposed mechanism to explain the observed synergism

  • Tor P. Schultz , Darrel D. Nicholas and William P. Henry
Published/Copyright: May 1, 2005
Become an author with De Gruyter Brill
Submit Manuscript Author Information
Holzforschung
From the journal Volume 59 Issue 3

Abstract

Ground-contact stakes, made from defect-free southern yellow pine sapwood, were treated with water-borne copper(II) [ammoniacal copper carbonate, ACC, Cu(II)] alone, oil-borne oxine copper (Cu-8) alone, or a dual treatment of ACC followed by drying and then Cu-8. The treated stakes were installed at two locations in Mississippi (Dorman Lake and Saucier) in high- or severe-deterioration hazard zones and inspected after 69 months of exposure. Stakes treated with Cu(II) alone at the highest retention of 5.1 kg m−3 [copper retention is based on the copper oxide (CuO) weight, as is standard in the US] performed moderately well at the Saucier test site, with decay and termite ratings of 8.0 out of 10.0, but unsatisfactory at the Dorman Lake test plot, with decay and termite ratings both below 7.0. Samples treated with Cu-8 alone at the highest retention of 1.92 kg m−3 had poor termite protection, with ratings below 7 at both sites, and only fair decay ratings of 7.0 (Dorman Lake) and 7.6 (Saucier). In contrast, all stakes treated with Cu(II)/Cu-8 combinations, with at least 2.4 kg m−3 Cu(II) and 0.2 kg m−3 Cu-8, performed satisfactorily, with average decay and termite ratings all above 8.0 at both locations. The addition of Cu(II) to Cu-8 likely causes the di-ligand form [bis(8-hydroxyquinolinolate)Cu(II)] to equilibrate principally to the mono form. Thus, the combination of Cu(II) and Cu-8 appears to form a new compound with greater efficacy than either of the two starting “reagents” and, consequently, this mixture is not literally synergistic. Possible advantages of mono Cu-8 include: (1) the mono form may be easier to formulate in a water- or solvent-borne system than the commercial bis-Cu-8 biocide; (2) the preservative would have a relatively low metal content, which may make future disposal of treated wood easier; (3) this system would likely have much fewer metal corrosion problems than preservative systems formulated with uncomplexed copper(II); and (4) the two copper coordination sites that are not complexed with the ligand could bind to the carboxylic or phenolic groups in wood to make the mono form relatively leach-resistant.

Keywords: Cu(II); Cu-8 [bis(8-hydroxyquinolinate)Cu(II), oxine copper]; decay fungi; synergism; termites; wood preservative
:
Corresponding author. Forest Products Departments/FWRC, Box 9820, Mississippi State University, Mississippi State, MS 39762-9820, USA Tel.: +1-662-325-3136 Fax: +1-662-325-8126 E-mail:

References

AWPA. (2002) AWPA Standard E7-01. Standard method of evaluating wood preservatives by field tests with stakes.Search in Google Scholar

Freeman, M.H., Nicholas, D.D., Schultz, T.P. (2005) Non-arsenical wood protection: alternatives for CCA. In: Environmental Impacts of Treated Wood. Eds. Townsend, T., Solo-Gabriele, H. CRC Press (in press).10.1201/9781420006216.ch2Search in Google Scholar

Martell, A.E., Motekaitis, R.J. Determination and Use of Stability Constants. 2nd ed. Wiley-VCH, New York, 1992.Search in Google Scholar

Nicholas, D.D., Schultz, T.P. (1995) Biocides that have potential as wood preservative – An overview. In: Wood Preservation in the '90s and Beyond. Proceedings No. 7308. Forest Products Society, Madison, WI. pp. 169–173.Search in Google Scholar

Schultz, T.P., Nicholas, D.D. (1995) Utilizing synergism to develop new wood preservatives. In: Wood Preservation in the '90s and Beyond. Proceedings No. 7308. Forest Products Society, Madison, WI. pp. 187–191.Search in Google Scholar

Schultz, T.P., Nicholas, D.D. (2002) Enhanced efficacy from the combination of copper(II) and Cu-8: laboratory and field studies. In: Enhancing the Durability of Lumber and Engineered Wood Products. Forest Products Society, Madison, WI. pp. 107–110.Search in Google Scholar

Schultz, T.P., Nicholas, D.D. (2004) Protection of wood against biodeterioration. In: Encyclopedia of Forest Sciences. Ed. Burley, J. Elsevier, Oxford, UK. pp. 1274–1282.10.1016/B0-12-145160-7/00048-XSearch in Google Scholar

Schultz, T.P., Nilsson, T., Nicholas, D.D. (2000) Synergistic wood preservatives: terrestrial microcosms (TMCs) and field exposure efficacy studies of the synergistic copper:pyrithione mixture. Wood Fiber Sci.32:346–353.Search in Google Scholar

Schultz, T.P., Nicholas, D.D., Pettry, D.E. (2002) Depletion of CCA-C from ground-contact wood: results from two field sites with significantly different soils. Holzforschung56:125–129.10.1515/HF.2002.021Search in Google Scholar

Schultz, T.P., Nicholas, D.D., Prewitt, M.L. (2004) Environmentally benign wood preservatives based on an organic biocide:antioxidant combination: ground-contact efficacy ratings and BHT depletion after four years of exposure. Holzforschung58:300–304.10.1515/HF.2004.046Search in Google Scholar

Smith, R.M., Martell, A.E., Motekaitis, R.J. (2001) NIST Critically Selected Stability Constants of Metal Complexes Database. National Institute of Standards and Technology, Gaithersburg, MD.Search in Google Scholar

Published Online: 2005-05-01
Published in Print: 2005-05-01

© by Walter de Gruyter Berlin New York

Articles in the same Issue

  1. Molecular dynamics study of lignin constituents in water
  2. Oxidative cellulose degradation by cellobiose dehydrogenase from Phanerochaete chrysosporium: A model compound study
  3. Characterization of active oxygen species under oxygen-alkali bleaching conditions
  4. Erythro/threo ratio of β-O-4-5 structures as an important structural characteristic of lignin. Part 4: Variation in the erythro/threo ratio in softwood and hardwood lignins and its relation to syringyl/guaiacyl ratio
  5. Stereoisomers of 3,3′-dimethoxy-4,4′-stilbenequinone
  6. Liquefaction of CCA-treated wood and elimination of metals from the solvent by precipitation
  7. Condensed tannins from steamed Acacia mearnsii bark
  8. Chemical composition and antifungal activity of essential oil isolated from Chamaecyparis formosensis Matsum. wood
  9. Direct measurement of strain distribution along a wood bond line. Part 1: Shear strain concentration in a lap joint specimen by means of electronic speckle pattern interferometry
  10. Direct measurement of strain distribution along a wood bond line. Part 2: Effects of adhesive penetration on strain distribution
  11. Rate-independent mechanical behavior of biaxially stressed wood: Experimental observations and constitutive modeling as an orthotropic two-surface elasto-plastic material
  12. Characterization of sugar maple wood-polymer composites: Monomer retention and polymer retention
  13. New insights into wood and cement interaction
  14. Wood-water sorption isotherm prediction with artificial neural networks: A preliminary study
  15. Hygroscopicity of resorcinol-formaldehyde resin and aqueous vinyl polymer-isocyanate resin in high humidity
  16. Modelling anisotropic maturation strains in wood in relation to fibre boundary conditions, microstructure and maturation kinetics
  17. Properties of chemically and mechanically isolated fibres of spruce (Picea abies [L.] Karst.). Part 3: Mechanical characterisation
  18. Resistance of thermo-hygro-mechanically densified wood to colonisation and degradation by brown-rot fungi
  19. Microbial colonizers of freshly sawn yellow-poplar (Liriodendron tulipifera L.) lumber in two seasons. Part 3: Yeasts
  20. Efficacy of a copper(II)/oxine copper wood preservative mixture after 69 months of outdoor ground-contact exposure and a proposed mechanism to explain the observed synergism
  21. Differentiation of indoor wood decay fungi with MALDI-TOF mass spectrometry
  22. Horst H. Nimz celebrates his 75th birthday on April, 21st, 2005
  23. Erratum
https://doi.org/10.1515/HF.2005.061
Keywords for this article
Cu(II); Cu-8 [bis(8-hydroxyquinolinate)Cu(II), oxine copper]; decay fungi; synergism; termites; wood preservative

Articles in the same Issue

  1. Molecular dynamics study of lignin constituents in water
  2. Oxidative cellulose degradation by cellobiose dehydrogenase from Phanerochaete chrysosporium: A model compound study
  3. Characterization of active oxygen species under oxygen-alkali bleaching conditions
  4. Erythro/threo ratio of β-O-4-5 structures as an important structural characteristic of lignin. Part 4: Variation in the erythro/threo ratio in softwood and hardwood lignins and its relation to syringyl/guaiacyl ratio
  5. Stereoisomers of 3,3′-dimethoxy-4,4′-stilbenequinone
  6. Liquefaction of CCA-treated wood and elimination of metals from the solvent by precipitation
  7. Condensed tannins from steamed Acacia mearnsii bark
  8. Chemical composition and antifungal activity of essential oil isolated from Chamaecyparis formosensis Matsum. wood
  9. Direct measurement of strain distribution along a wood bond line. Part 1: Shear strain concentration in a lap joint specimen by means of electronic speckle pattern interferometry
  10. Direct measurement of strain distribution along a wood bond line. Part 2: Effects of adhesive penetration on strain distribution
  11. Rate-independent mechanical behavior of biaxially stressed wood: Experimental observations and constitutive modeling as an orthotropic two-surface elasto-plastic material
  12. Characterization of sugar maple wood-polymer composites: Monomer retention and polymer retention
  13. New insights into wood and cement interaction
  14. Wood-water sorption isotherm prediction with artificial neural networks: A preliminary study
  15. Hygroscopicity of resorcinol-formaldehyde resin and aqueous vinyl polymer-isocyanate resin in high humidity
  16. Modelling anisotropic maturation strains in wood in relation to fibre boundary conditions, microstructure and maturation kinetics
  17. Properties of chemically and mechanically isolated fibres of spruce (Picea abies [L.] Karst.). Part 3: Mechanical characterisation
  18. Resistance of thermo-hygro-mechanically densified wood to colonisation and degradation by brown-rot fungi
  19. Microbial colonizers of freshly sawn yellow-poplar (Liriodendron tulipifera L.) lumber in two seasons. Part 3: Yeasts
  20. Efficacy of a copper(II)/oxine copper wood preservative mixture after 69 months of outdoor ground-contact exposure and a proposed mechanism to explain the observed synergism
  21. Differentiation of indoor wood decay fungi with MALDI-TOF mass spectrometry
  22. Horst H. Nimz celebrates his 75th birthday on April, 21st, 2005
  23. Erratum
Sign up now to receive a 20% welcome discount
Institutional Access
How does access work?
Have an idea on how to improve our website?
Please write us.
© 2025 De Gruyter Brill
Downloaded on 14.9.2025 from https://www.degruyterbrill.com/document/doi/10.1515/HF.2005.061/html
Scroll to top button