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Tuesday, 7 October 2008: 1:45 PM
George R. Brown Convention Center, 381A
The acreage sown to summer-dormant, cool-season perennial grasses is increasing in regions where climatic conditions resemble those of the Mediterranean Basin . Because of the environmental challenges associated with climate change and the need for resilient perennial grasses, we sought a simple method to differentiate summer-dormant from summer-active types of cool-season grass accessions. Such a method would reduce the time needed to generate breeding lines rather than the time-consuming and uncertain conditions associated with traditional controlled environment and field experiment techniques. We developed a method based on germination responses to photoperiod to differentiate summer-dormant from summer-active types of tall fescue [Lolium arundinaceum (Schreb.) S.J. Darbyshire] and orchardgrass (Dactylis glomerata L.). Seed of cultivars with known summer dormancy characteristics was germinated at constant temperature of 24o C under a range of photoperiods (0-24 h) for 14 d. Total germination, modeled cumulative germination, instantaneous rate of germination, and relative germination (to that in the dark) was analyzed. Germination of summer-dormant orchardgrass was similar in the dark and short photoperiods (4-12 h), but it was inhibited by photoperiod longer than 12 h. Germination of summer-active orchardgrass was promoted by any photoperiod when compared with control (0 h). Short photoperiods (4-12 h) promoted while long photoperiod (> 12 h) inhibited germination of summer-dormant tall fescue. Summer-active types of tall fescue did not respond to photoperiod, regardless of length. A validation test using experimental lines of Mediterranean-origin tall fescue with known expression of summer dormancy characteristics confirmed the accuracy of our method.
See more of: Innovations for Forage Grasses/Div. C06 Business Meeting
See more of: C06 Forage and Grazinglands
See more of: C06 Forage and Grazinglands