ISSN:
1432-2242
Keywords:
Alfalfa
;
Medicago sativa L.
;
Pollen selection
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
Notes:
Summary Microgametophytic selection was investigated using two ecologically diverse autotetraploid clones of alfalfa. Several selection pressures (drying, aging, freezing, and high and low temperatures) were applied to microgametophytes at three stages of the life cycle, 1) during microsporogenesis, 2) post-anthesis, and 3) pollen tube growth. Pollen aging produced a progeny population with a greater mean plant size and a lower coefficient of variation than the control progeny. High temperature (29.5 °C) applied both during microsporogenesis and pollen tube growth resulted in progeny populations which were significantly taller and, in one case, had a larger leaf number than the control populations. In contrast, air dried pollen resulted in a progeny population which had significantly smaller character means and larger coefficients of variation than the control population. Also, low temperature (15 °C) during pollen tube growth yielded progeny with reduced branch number and a larger coefficient of variation than the control progeny. In cases where progeny derived from selected microgametophytes were found to differ from the control offspring, corresponding shifts in the reciprocal cross were not observed. For the temperature stress treatments, the lack of reciprocal differences may be related to the different temperature adaptations of the two ecotypes. These results suggest that microgametophytic selection can be effective in shifting the mean of the progeny generation; however, the results obtained will vary depending upon the selection pressure, stage of selection, and the parents used.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00258054
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