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References

  • Bell, D., Plummer, J. and Taylor, S. (1993) Seed germination ecology in southwestern Western Australia. The Botanical Review 59, 2473.
  • Boidron, J.N., Chatonnet, P. and Pons, M. (1988) Influence du bois sur certaines substances odorantes des vins. Connaissance de la Vigne et du Vin 22, 275294.
  • Clesceri, L.S., Greenberg, A.E. and Eaton, A.D. (Eds.) (1995) Standard methods for the examination of water and wastewater, 20th edition (American Public Health Association: Washington, DC).
  • Dixon, K.W., Roche, S. and Pate, J.S. (1995) The promotive effect of smoke derived from burnt native vegetation on seed germination of Western Australian plants. Oecologia 101, 185192.
  • Edye, L.A. and Richards, G.N. (1991) Analysis of condensates from wood smoke – components derived from polysaccharides and lignins. Environmental Science and Technology 25, 11331137.
  • Francis, I.L. and Newton, J.L. (2005) Determining wine aroma from compositional data. Australian Journal of Grape and Wine Research 11, 114126.
  • Gill, A.M. (1979) Fire in the Australian landscape. Landscape and Planning 6, 343357.
  • Guillén, M.D. and Manzanos, M.J. (2002) Study of volatile composition of an aqueous oak smoke preparation. Food Chemistry 79, 283292.
  • Hayasaka, Y., Dungey, K.A., Baldock, G.A., Kennison, K.R. and Wilkinson, K.L. (2010) Identification of a β-D-glucopyranoside precursor to guaiacol in grape juice following grapevine exposure to smoke. Analytica Chimica Acta 660, 143148.
  • Høj, P., Pretorius, I. and Blair, R. (2003) Investigations conducted into the nature and amelioration of taints in grapes and wine, caused by smoke resulting from bushfires. In: The Australian Wine Research Institute annual report 2003. (AWRI: Adelaide) pp. 3739.
  • Jones, L. (2009) Wine industry compassion rises from the ashes of Victorian vineyards. Australian Viticulture 13, 3236.
  • Kennison, K.R., Wilkinson, K.L., Williams, H.G., Smith, J.H. and Gibberd, M.R. (2007) Smoke-derived taint in wine: effect of postharvest smoke exposure of grapes on the chemical composition and sensory characteristics of wine. Journal of Agricultural and Food Chemistry 55, 1089710901.
  • Kennison, K.R., Gibberd, M.R., Pollnitz, A.P. and Wilkinson, K.L. (2008) Smoke-derived taint in wine: the release of smoke-derived volatile phenols during fermentation of Merlot juice following grapevine exposure to smoke. Journal of Agricultural and Food Chemistry 56, 73797383.
  • Kennison, K.R., Wilkinson, K.L., Pollnitz, A.P., Williams, H.G. and Gibberd, M.R. (2009) Effect of timing and duration of grapevine exposure to smoke on the composition and sensory properties of wine. Australian Journal of Grape and Wine Research 15, 228237.
  • Lopez, R., Ezpeleta, E., Sanchez, I., Cacho, J. and Ferreira, V. (2004) Analysis of the aroma intensities of volatile compounds released from mild acid hydrolysates of odourless precursors extracted from Tempranillo and Grenache grapes using gas chromatography-olfactometry. Food Chemistry 88, 95103.
  • Maga, J.A. (1984) Flavor contribution of wood in alcoholic beverages. In: Progress in flavour research. Ed. J.Adda (Elsevier: Dourdan) pp. 409416.
  • Maga, J.A. (1988) Smoke in food processing (CRC Press Inc.: Boca Raton).
  • Moreno, N.J. and Azpilicueta, C.A. (2007) Binding of oak volatile compounds by wine lees during simulation of wine ageing. Lebensmittel-Wissenschaft und-Technologie 40, 619624.
  • Ortega-Heras, M., González-Sanjosé, M.L. and González-Huerta, C. (2007) Consideration of the influence of aging process, type of wine and oenological classic parameters on the levels of wood volatile compounds present in red wines. Food Chemistry 103, 14341448.
  • Pollnitz, A.P., Pardon, K.H. and Sefton, M.A. (2000) Quantitative analysis of 4-ethylphenol and 4-ethylguaiacol in red wine. Journal of Chromatography A 874, 101109.
  • Pollnitz, A.P., Pardon, K.H., Sykes, M. and Sefton, M.A. (2004) The effects of sample preparation and gas chromatograph injection techniques on the accuracy of measuring guaiacol, 4-methylguaiacol and other volatile oak compounds in oak extracts by stable isotope dilution analyses. Journal of Agricultural and Food Chemistry 52, 32443252.
  • Rapp, A. and Versini, G. (1996) Flüchtige phenolische verbindungen in wein. Deutsche Lebensmittel Rundschau 92, 4248.
  • Sefton, M.A. (1998) Hydrolytically-released volatile secondary metabolites from juice sample of Vitis vinifera grape cvs Merlot and Cabernet Sauvignon. Australian Journal of Grape and Wine Research 4, 3038.
  • Sheppard, S.I., Dhesi, M.K. and Eggers, N.J. (2009) Effect of pre- and post-veraison smoke exposure on guaiacol and 4-methylguaiacol concentration in mature grapes. American Journal of Enology and Viticulture 60, 98103.
  • Simpson, R.F., Amon, J.M. and Daw, A.J. (1986) Off-flavour in wine caused by guaiacol. Food Technology in Australia 38, 3133.
  • Towey, J.P. and Waterhouse, A.L. (1996) The extraction of volatile compounds from French and American oak barrels in Chardonnay during three successive vintages. American Journal of Enology and Viticulture 47, 163172.
  • Walker, R.R., Clingeleffer, P.R., Kerridge, G.H., Rühl, E.H., Nicholas, P.R. and Blackmore, D.H. (1998) Effects of the rootstock Ramsey (Vitis champini) on ion and organic acid composition of grapes and wines, and on wine spectral characteristics. Australian Journal of Grape and Wine Research 4, 100110.
  • Whiting, J. and Krstic, M.P. (2007) Understanding the sensitivity to timing and management options to mitigate the negative impacts of bush fire smoke on grape and wine quality – scoping study. Report (Victorian Department of Primary Industries: Melbourne).
  • Whiton, R.S. and Zoecklein, B.W. (2002) Evaluation of glycosyl-glucose analytical methods for various glycosides. American Journal of Enology and Viticulture. 53, 315317.
  • Wirth, I., Guo, W., Baumes, R. and Günata, Z. (2001) Volatile compounds released by enzymatic hydrolysis of glycoconjugates of leaves and grape berries from Vitis vinifera Muscat of Alexandria and Shiraz cultivars. Journal of Agricultural and Food Chemistry 49, 29172923.
  • Wittkowski, R., Ruther, J., Heike, D. and Rafiei-Taghanaki, F. (1992) Formation of smoke flavour compounds by thermal lignin degradation. In: Flavour precursors. Eds. R.Teranashi, G.R.Takeoka and M.Güntert (American Chemical Society: Washington, DC) pp. 232243.
  • Zoecklein, B.W., Douglas, L.S. and Jasinki, Y.W. (2000) Evaluation of the phenol free glycosyl-glucose determination. American Journal of Enology and Viticulture 51, 42423.