Effect of Genotype and Genotype × Nitrogen Rate Interactions on Color in Juice and Raw Sugar from Sugarcane

Effect of Genotype and Genotype × Nitrogen Rate Interactions on Color in Juice and Raw Sugar from Sugarcane

There is an increased emphasis being placed on raw sugar quality in international sugar markets. Color intensity of raw sugar is one quality parameter of importance, with high color levels increasing refining costs and hence lowering sugar value. The quality of raw sugar is compromised by colored so...

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Bibliographic Details
Published in:Crop science Vol. 46; no. 2; pp. 886 - 892
Main Authors: Jackson, Phillip A., O'Shea, Michael G., Rattey, Allan R., Bonnett, Graham D., Lindeman, Patricia F., Cox, Mike C., Vickers, Joan E., Morgan, Terry
Format: Journal Article
Language:English
Published: Madison, WI The Crop Science Society of America, Inc 01-03-2006
Crop Science Society of America
American Society of Agronomy
Subjects:
Agronomy. Soil science and plant productions
Biological and medical sciences
Color
Field tests
Fundamental and applied biological sciences. Psychology
Genetic effects
Genetics
Genetics and breeding of economic plants
Genotypes
Plant breeding
R&D
Research & development
Solutes
Sugar
Sugar industry
Sugarcane
Nitrogen fertilization
Saccharum
Monocotyledones
Color
Cane sugar
Genotype
Sugar juice
Nitrogen
Sugar plant
Genotype environment interaction
Gramineae
Angiospermae
Spermatophyta
Sugar cane
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Summary:There is an increased emphasis being placed on raw sugar quality in international sugar markets. Color intensity of raw sugar is one quality parameter of importance, with high color levels increasing refining costs and hence lowering sugar value. The quality of raw sugar is compromised by colored solutes or precursors of colored compounds. We examined genetic effects on color levels in juice from sugarcane (Saccharum spp.) in three field experiments, two of which also included different N fertilizer rate treatments. The relative impact on amino N in juice, an important precursor of colored compounds, was also examined. A key finding was consistently large variation among varieties (approximately threefold differences) for color and color‐to‐impurity ratio levels. These effects were highly repeatable across different environments and N rates, with genotype × environment and genotype × N rate interaction variance being not significant or less than 15% of genotype main effects in all experiments. Relatively small genetic effects were detected for amino N levels and these were less repeatable across environments than for color. Thus, selection for low color levels will be effective in sugarcane breeding programs. A relative color index is proposed to compare genotypes for propensity to produce color in raw sugar, considering the effects of both color and amino N in juice.
Bibliography:This research was part funded by the Sugar Research and Development Corporation.
ISSN:0011-183X
1435-0653
DOI:10.2135/cropsci2005.07-0213