摘要
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It is important to understand the effects of environmental conditions during plant growth on longevity and temperature response of pollen. Objectives of this study were to determine the influence of growth temperature and/or carbo...
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It is important to understand the effects of environmental conditions during plant growth on longevity and temperature response of pollen. Objectives of this study were to determine the influence of growth temperature and/or carbon dioxide (CO<sub>2</sub>) concentration on pollen longevity and temperature response of peanut and grain sorghum pollen. Plants were grown at daytime maximum/nighttime minimum temperatures of 32/22, 36/26, 40/30 and 44/34 degrees C at ambient (350 micro mol mol<sup>-1</sup>) and at elevated (700 micro mol mol<sup>-1</sup>) CO<sub>2</sub> from emergence to maturity. At flowering, pollen longevity was estimated by measuring <i>in vitro</i> pollen germination at different time intervals after anther dehiscence. Temperature response of pollen was measured by germinating pollen on artificial growth medium at temperatures ranging from 12 to 48 degrees C in incubators at 4 degrees C intervals. Elevated growth temperature decreased pollen germination percentage in both crop species. Sorghum pollen had shorter longevity than peanut pollen. There was no influence of CO<sub>2</sub> on pollen longevity. Pollen longevity of sorghum at 36/26 degrees C was about 2 h shorter than at 32/22 degrees C. There was no effect of growth temperature or CO<sub>2</sub> on cardinal temperatures (<i>T</i><sub>min</sub>, <i>T</i><sub>opt</sub>, and <i>T</i><sub>max</sub>) of pollen in both crop species. The <i>T</i><sub>min</sub>, <i>T</i><sub>opt</sub>, and <i>T</i><sub>max</sub> identified at different growth temperatures and CO<sub>2</sub> levels were similar at 14.9, 30.1, and 45.6 degrees C, respectively for peanut pollen. The corresponding values for sorghum pollen were 17.2, 29.4, and 41.7 degrees C. In conclusion, pollen longevity and pollen germination percentage was decreased by growth at elevated temperature, and pollen developed at elevated temperature and/or elevated CO<sub>2</sub> did not have greater temperature tolerance.
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