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End-Use Quality of Hard Red and Hard White Spring Wheat Contaminated with Grain of Contrasting Classes

May 2002 Volume 79 Number 3
Pages 404 — 407
Debra Habernicht , 1 , 2 John M. Martin , 1 and Luther E. Talbert 1

Department of Plant Science and Plant Pathology, Montana State University, Bozeman MT 59717. Corresponding author. E-mail: debrah@montana.edu Phone: 406/994-5377. Fax: 406/994-7600.


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Accepted January 14, 2002.
ABSTRACT

Short growing seasons and lack of water limit the number of crops that can be productively grown in the Northern Great Plains, but wheat is uniquely adapted to the region. Growers interested in diversification of their operations are growing more than one class of wheat to target different markets. This has led to the challenge of maintaining class purity, in that contamination with alternate classes results in lower prices to the farmer. The primary rationale is that mixtures may have poor end-use quality. In these experiments, we tested hard red spring wheat and hard white spring wheat contaminated with different levels of soft white spring wheat, durum wheat, hull-less barley, and the hard wheat of the alternate kernel color for milling and baking quality. Our results showed that contamination of hard red and hard white spring wheat with soft white wheat and hull-less barley often influenced end-use quality in that flour yield was negatively affected at relatively low levels. Loaf volume was normally only affected at higher levels. Durum wheat contamination caused fewer quality problems at generally higher levels of contamination. Contamination of hard red or hard white wheat by hard wheat of the alternate color class rarely affected quality, and effects were both positive and negative, depending on quality attributes of the pure samples. Growers wishing to diversify by growing both hard red and hard white wheat would benefit if buyers and end users were willing to accept higher levels of contamination for alternate classes that are unlikely to cause problems in eventual end use.



© 2002 American Association of Cereal Chemists, Inc.