RESUMO
The number of plant deaths which occurred over 8 years of chronic gamma irradiation (20 hours/day) of 11 species of woody plants indicated a decline in the rate of death with increasing exposure time. This suggests that a highly effective repair system may develop, at least in the range of exposure which reduces survival by 50 percent. The inverse relationship previously found between interphase chromosome volume and radiosensitivity for single 16-hour exposures was confirmed for chronic exposures by construction of appropriate regressions. Radiosensitivity of a species can be predicted from these regressions if the interphase chromosome volume is known. The distributions of interphase chromosome volumes and predicted sensitivities are given for 215 species of woody plants.
RESUMO
With urea as sole nitrogen source, the addition of 5×10(-5) M nickel sulfate to axenic cultures of Lemna paucicostata 6746 approximately doubles the rate of vegetative growth. Under a standard light-dark schedule, Ni(2+) changes the daily pattern of respiratory CO2 output on urea from one having a single daily peak to one with two daily peaks which resembles that on ammonium or nitrate as sole nitrogen source. It also increases CO2 output by as much as 3-fold on a fresh-weight basis. These data represent the first confirmation in an intact higher plant of proposals, based on enzymology and tissue culture responses, for a role of Ni(2+) in urea metabolism. Further, they indicate the possible existence of two distinct pathways of urea utilization.
RESUMO
Survival curves were constructed and D0 values determined after X-irradiation of single-celled germinating spores of 14 species of ferns, which had a wide variation in interphase chromosome and nuclear volumes and in DNA content per chromosome and per nucleus. A good fit to a line of slope equal to -1 is given on a log-log plot relating D0 to interphase chromosome volume. In a previous publication (Sparrow, Underbrink and Sparrow 1967), ferns fell into radiotaxon VIII, but the new data suggest that they should be assigned to a new group (VIIa) falling midway between radiotaxa VII and VIII. The calculated energy absorption per chromosome at D0 for VIIa is also intermediate between those for VII and VIII. If the value of this parameter is set at 1 for radiotaxon V, that for VIIa is approximately 32 times greater and the radiotaxa V, VI, VII and VIIa form a series 1 : 4 : 14 : 32. The new results indicate that radiotaxon VIII may have to be abandoned unless some other radiobiologically unexplored group (e.g. algae) fills the gap.