Genome size and plant development in hexaploid Festuca arundinacea
1993
Ceccarelli, M. | Minelli, S. | Falcinelli, M. | Cionini, P.G.
The development of plants belonging to natural populations of hexaploid Festuca arundinacea with different basic amounts of nuclear DNA was studied. A previous investigation showed that the genome sizes of the populations correlate positively with the mean temperature during the year and with that of the coldest month at the stations. Mitotic cycle time is affected by nuclear DNA content; in a population with a C-value of 6.05 pg, it is 3 h shorter than in a population with a C-value of 8.28 pg. In contrast, the genome size affects neither the proportion of cells entering mitosis in the meristems, nor the enlargement of cells in differentiated leaf tissues. By studying plant development in 30 populations, it was found that their genome size correlates negatively with the seed germination power (P= 0.036) and the early growth of both the seminal root (P= 0.009) and the first foliage leaf (P= 0.099). By contrast, the genome size correlates positively with the height of the highest culm (P= 0.014) and other quantitative characters of the plants at anthesis, as well as with their flowering time (P= 0.037). It is suggested that the variations in the basic amount of nuclear DNA within F. arundinacea have a role in improving the fitness of plants in environments differing in climatic factors such as temperature.
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