Literature Cited
- American Public Health Association. Standard Methods for the Examination of Water and Wastewater, 19th ed. A. Eaton, L. Clesceri, and A. Greenberg, Eds. The Association, Washington, DC, 1995.
- American Society of Brewing Chemists. Methods of Analysis, 8th ed. Beer-4E Instrument Method for Alcohol and Original Gravity, Beer-13 Dissolved Carbon Dioxide, Beer-18 Iron, Beer-19 Copper, Beer-20 Calcium, Beer-21 Total Sulfur Dioxide, Malt-4 Extract, Sensory Analysis-12 Flavor Terminology and Reference Standards (International Method). The Society, St. Paul, MN, 1992.
- American Society of Brewing Chemists. Report of Subcommittee on Coordination of New and Alternate Methods of Analysis. Journal 46: 114–116, 1988.
- American Society of Brewing Chemists. Report of Subcommittee on SCABA Analyzer for Alcohol and Original Gravity Content in Beer. Journal 46:131–132, 1988.
- American Society of Brewing Chemists. Report of Subcommittee on SCABA Method of Alcohol and Original Gravity Content in Beer. Journal 47:130–132, 1989.
- American Society for Testing and Materials. Standard Guide for Time-Intensity Evaluation of Sensory Attributes. Standards E 1909–97. The Society, West Conshohocken, PA, 1998.
- Budde, A. Assessing differences in malting quality parameter when malts are extracted under ‘standard ASBC’ and ‘high gravity’ conditions. Brew. Dig. 73(3):40, 2001.
- Charalambous, G., and Bruckner, K. Analysis of metallic ions in brewing materials, wort, beer and wine by inductively coupled argon plasma-atomic emission spectroscopy. ICP Inform. Newsl. 3:239, 1977.
- Dupire, S. Determination of DMS and other volatile compounds in beer by headspace capillary gas chromatography and flame ionisation detection. J. Inst. Brew. 105:265, 1999.
- European Brewing Convention. Analytica-EBC. Section 2 Water, Section 7 Hops Method 7.8 Iso α-, α- and β-Acids in Hop and Isomerized Hop Extracts by HPLC. Verlag Hans Carl Getranke Fachverlag, Nurnburg, Germany, 1998.
- Grigsby, J. H., and Palamand, S. R. Studies on the staling of beer: The use of 2-thiobarbituric acid in the measurement of beer oxidation. J. Am. Soc. Brew. Chem. 34:49–55, 1976.
- Harms, D., and Nitzsche, F. High-performance separation of unmodified and reduced hop and beer bitter compounds by a single high-performance liquid chromatographic method. J. Am. Soc. Brew. Chem. 59:28–31, 2001.
- Hlywka, J., and Bullerman, L. Occurrence of fumonisin B1 and B2 in beer. Food Addit. Contam. 16:319–324, 1999.
- Institute of Brewing. Methods of Analysis, January 1997, Beer 9.32 Lower Boiling Point Volatile Compounds in Beer by Headspace Gas Chromatography. The Institute, London, England, 1997.
- Institute of Brewing. Methods of Analysis, October 1999, Water 14.0. The Institute, London, England, 1999.
- Jerumanis, J. Mise au point des Methods de Dosage des Polyphenols en Brasserie. Bull. Assoc. R. Anc. Etud. Brass. Univ. Louv. 4:1–10, 1973.
- Kancler, J. Low level analysis of sulfur compounds in beer by purge and trap. Brew. Dig. 74:24, 1999.
- Kancler, J. Low level analysis of sulfur compounds in beer by purge and trap. Tekmar-Dohrmann Application Note 9:11. Tekmar-Dohrmann, Cincinnati, OH, 1999.
- King, B., and Duineveld, C. Changes in bitterness as beer ages naturally. Food Quality Preference, 10:315, 1999.
- Larson, J. Barometric pressure correction for measurement of CO2 concentration. Brew. Dig. 73:47, 2001.
- Matsushige, I., and de Oliveira, E. Determination of trace elements in Brazilian beers by ICP-AES. Food Chem. 47:205–207, 1993.
- McCaig, R. Evaluation of the florescent dye 1-anilino-8-naphthalene sulfonic acid for yeast viability determination. J. Am. Soc. Brew. Chem. 48:22–25, 1990.
- Meilgaard, M. C., Buckee, G. K., Schmidt, T. R., and Kluba, R. M. International beer flavor terminology. In: The Practical Brewer, 3rd ed. J. T. McCabe, Ed. Master Brewers Association of the Americas, Wauwatosa, WI, pp. 721–728, 1999.
- Methodensammlung der Mitteleuropäischen Brautechnischen Analysenkommission. Brautechnische Analysenmethod. Band II. Würze und Bier-2.17.2 Anthocyanogene, Method Harris und Ricketts. MEBAK, Weihenstephan, Germany, 1987.
- Parsons, R., and Cop, R. The assessment and prediction of beer flavour stability. Proc. Congr. Eur. Brew. Conv. 19:279–286, 1983.
- Pestka, J., Azcona-Olivera, J., Plattner, R., Minervini, F., Doko, M., and Visconti, A. Comparative assessment of fumonisin in grain-based foods by ELISA, GC-MS, and HPLC. J. Food Prot. 57:169–172, 1994.
- Pretorius, I. S., Modena, D., Vanoni, M., England, S., and Marmur, J. Transcriptional control of glucomaylase synthesis in vegetatively growing and sporulating Saccharomyces species. Mol. Cell. Biol. 6: 3034, 1986.
- Sanchez, G. W. Water. In: The Practical Brewer, 3rd ed. J. T. McCabe, Ed. Master Brewers Association of the Americas, Wauwatosa, WI, pp. 33–52, 1999.
- Schmitt, D., Thompson, L., Malek, D., and Munroe, J. An improved method for evaluating time-intensity data. J. Food Sci. 49:539, 1984.
- Thalacker, R., and Birkenstock, B. Eine neue Kennzahl in der brauttechnischen Analyze—Die Thiobarbitursäurezahl (TBZ). Brauwissenschaft 6:133–137, 1982.
- Wagner, H. P., and McGarrity, M. J. Determination of sulfite in beer using ion-exclusion chromatography and pulsed amperometric detection. J. Am. Soc. Brew. Chem. 50:1–3, 1992.
- Ward, A. Elemental analysis of beer using the inductively coupled argon plasma. ICP Inform. Newsl. 2:271–274, 1977.
- Williamson, S. A., and Iverson, W. G. Determination of short-chain diols and selected fermentation by-products in beer. J. Am. Soc. Brew. Chem. 51:114–118, 1993.