Crop Science Journal of Natural Resources and Life Sciences Education
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Published online 20 May 2008
Published in Crop Sci 48:1048-1054 (2008)
© 2008 Crop Science Society of America
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Carbon Isotope Discrimination, Selection Response, and Forage Production of Tall Fescue in Contrasting Environments

R. C. Johnsona,*, A. A. Hopkinsb and M. A. Evansc

a USDA-ARS, Box 646402, Washington State Univ., Pullman, WA, 99164
b The Noble Foundation, Ardmore, OK, 73401
c Dep. of Statistics, Washington State Univ., Pullman, WA, 99164. Mention of product names does not represent and endorsement of any product or company but is given only to clarify the methodology; other products may be equally effective

* Corresponding author (rcjohnson{at}wsu.edu).

Carbon isotope discrimination ({Delta}) usually correlates with the dry matter to transpiration ratio (transpiration efficiency) in C3 species, but its heritability and relationship to forage production are less clear. In a 4-yr study of tall fescue (Festuca arundinacea Schreb.) at Pullman, WA (relatively cool with low humidity), and Ardmore, OK (relatively hot with high humidity). we determined (i) if {Delta} differences in divergently selected populations made on single plants were maintained in solid seeded plots, and (ii) how {Delta} in selected populations and a set of four cultivars was related to forage production. Differences in {Delta} for low and high {Delta} populations selected on spaced plants were maintained in solid seeded plots at both Pullman and Ardmore. At Pullman, the low {Delta} selection had higher production than the high {Delta} selection with the base population intermediate. Partial correlations with all entries between {Delta} and forage production, controlling for harvest date effects, were not significant. However, partial correlation between {Delta} and forage production on the selected and base populations was significant (r = –0.59, P < 0.05, n = 12) at Pullman, although not at Ardmore. The data show selection for low {Delta} may improve forage production in some environments, although not consistently. For breeding tall fescue, one cycle of phenotypic selection for low {Delta} in advanced material is recommended.

Abbreviations: TE, transpiration efficiency

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Received for publication December 4, 2007.




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