Performance of fluoride and boron compounds against drywood and subterranean termites and decay and mold fungi
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ASTM D4445-10 (2012) Annual book of American Society for testing materials (ASTM) standards, vol 04.10. West Conshohocken, Pennsylvania
AWPA U1-12 (2012) Use category system: user specification for treated wood. American Wood Protection Association (AWPA) Inc., Birmingham
Barnes HM, Amburgey TL, Williams LH, Morrell JJ (1989) Borates as wood preserving compounds: the status of research in the United States. International Research Group on Wood Preservation. Document no. IRG/WP, 3542
BS EN 117 (2005) Wood preservatives‒determination of toxic values against Reticulitermes species (European termites) (Laboratory method). BSI Standards, London
Clausen CA, Yang VW (2003) Mold inhibition on unseasoned southern pine. International Research Group on Wood Preservation. Document no. IRG/WP, 03–10465
Clausen CA, Yang VW (2005) Azole-based antimycotic agents inhibit mold growth on unseasoned pine. Int Biodeterior Biodegrad 55(2):99–102
Clausen CA, Yang VW (2007) Protecting wood from mould, decay, and termites with multi-component biocide systems. Int Biodeterior Biodegrad 59(1):20–24
Drysdale JA (1994) Boron treatments for the preservation of wood: A review of efficacy data for fungi and termites. International Research Group on Wood Preservation. Document no: IRG/WP, 94-30037
Ferster B, Scheffrahn RH, Thomas EM, Scherer PN (2001) Transfer of toxicants from exposed nymphs of the drywood termite Incisitermes snyderi (Isoptera: Kalotermitidae) to unexposed nest-mates. J Econ Ent 94(1):215–222
Findlay WPK (1953) The toxicity of borax to wood-rotting fungi. Timber Technol Mach Woodwork 61(2168):275–276
Freeman MH, McIntyre CR, Jackson RE (2009) A critical and comprehensive review of boron in wood preservation. Proc Am Wood Protect Assoc (AWPA) 105:279–294
Freitag C, Morrell JJ (2005) Development of threshold values for boron and fluoride in non-soil contact applications. For Prod J 55(4):97–101
Harrow KM (1950) Toxicity of water soluble preservatives to wood destroying fungi. New Zealand J Sci Technol B31(5):14–19
Indrayani Y (2007) The invasive dry-wood termite, Incisitermes minor (Hagen), in Japan: infestation, feeding ecology and control strategies. Departmental Bulletin Paper, Kyoto University Kurenai Research Information Repository—Abstracts for PhD for Graduate School of Agriculture Issue Date: 2007–08, pp 34–35
Indrayani Y, Yoshimura T, Fujii Y, Yanase Y, Okahisa Y, Imamura Y (2004) Survey on the infestation of Incisitermes minor (Hagen) in Kansai and Hokuriku areas. Jpn J Environ Entomol Zool 15:261–268
Indrayani Y, Yoshimura T, Imamura Y (2005) Wood preferences of dry-wood termite Incisitermes minor (Hagen) (Isoptera: Kalotermitidae) to Japanese and U.S. Timbers. In Proceedings of the 6th international wood science symposium, Bali, Indonesia, August 29–31, 2005, p 3
Indrayani Y, Yoshimura T, Yanase Y, Imamura Y (2007) Feeding responses of the western dry-wood termite Incisitermes minor (Hagen) (Isoptera: Kalotermitidae) against ten commercial timbers. J Wood Sci 53(3):239–248
JIS K 1517 (2010) Test methods for determining the effectiveness of wood preservatives and their performance requirements (in Japanese). Japanese Standard Association, Tokyo
Kartal SN, Yoshimura T (2016) Borates: a natural way to protect wood against termites. Jan Termit Control Assoc 1(165):7–10
Kartal SN, Shinoda K, Imamura Y (2005) Laboratory evaluation of boron-containing quaternary ammonia compound, didecyl dimethyl ammonium tetrafluoroborate (DBF) for inhibition of mold and stain. Holz Roh Werkst 63(1):73–77
Laks PE, Vehring JK, Verhey SA, Richter DL (2005) Effect of manufacturing variables on mold susceptibility of wood-plastic composites. In Eighth international conference on wood fiber-plastic composites (and Other Natural Fibers). Forest Products Society, Madison, WI, May 23–25
Lebow S, Anthony RW (2012) Guide for use of wood preservatives in historic structures. General Technical Report FPL-GTR-217. Madison, WI: U.S. Department of Agriculture, Forest Service, Forest Products Laboratory, p 59
Lloyd JD, Dickinson DJ, Murphy RJ (1990) The Probable Mechanisms of action of boric acid and borates as wood preservatives. International Research Group on Wood Preservation. Document no. IRG/WP, 1450
Micales-Glaeser JA, Lloyd JD, Woods TL (2004) Efficacy of didecyl dimethyl ammonium chloride (DDAC), disodium octaborate tetrahydrate (DOT), and chlorothalonil (CTL) against common mold fungi. International Research Group on Wood Preservation. Document no. IRG/WP, 04-30338
Muhcu D, Terzi E, Kartal SN, Yoshimura T (2017) Biological performance, water absorption, and swelling of wood treated with nano-particles combined with the application of Paraloid B72®. J For Res 28(2):381–394
Ohmura W, Momohara I, Makita A (2011) Evaluation of wood preservatives against the drywood termite, Incisitermes minor (Hagen) (II)—Performance of impregnated woods after weathering. 木材保存 (Wood Preservation) 37(6): 273–278. https://doi.org/10.5990/jwpa.37.273 (in Japanese)
Pan C, Wang C (2015) Sodium fluoride for protection of wood against field populations of subterranean termites. J Econ Entomol 108(4):2121–2124
Pan C, Ruan G, Chen H, Zhang D (2015) Toxicity of sodium fluoride to subterranean termites and leachability as a wood preservative. Eur J Wood Prod 73:97–102
Schoeman MW, Lloyd JD (1998) International standardization: a hypothetical case study with stand-alone borate wood preservatives. International Research Group on Wood Preservation Document no. IRG/WP 98-20147
Tascioglu C, Umemura K, Kusuma SS, Yoshimura T (2017) Potential utilization of sodium fluoride (NaF) as a biocide in particleboard production. J Wood Sci 63(6):652–657
Terzi E, Kartal SN, Gerardin P, Ibanez CM, Yoshimura T (2017) Biological performance of particleboard incorporated with boron minerals. J For Res 28(1):195–203
Williams LH, Amburgey TL (1987) Integrated protection against lyctid beetle infestations. IV. Resistance of boron-treated wood (Virola spp) to insect and fungal attack. For Prod J 37(2):10–17