Correlation of cytokinins and abscisic acid with monocarpic senescence in soybeans

The involvement of cytokinins and abscisic acid (ABA) in themonocarpic senescence (foliar yellowing following fruit development)of soybeans was examined. Foliar sprays of cytokinin (10^–4M zeatin or 10^–5 M benzyladenine), begun when the plantsfirst set fruit and repeated every other day, significantlydelayed, but did not prevent, monocarpic senescence. Foliarsprays of 10^–4 M ABA, applied in the same manner, significantlyhastened senescence of fruiting soybeans but apparently hadno effect on depodded plants. Leaf and stem material from pre-senescentand senescent plants was extracted, chromatographed, and bioassayedfor cytokinin-lilce activity (Amaranthus betacyanin productionassay) and ABA-like activity (oat coleoptile straight growthassay for inhibitors). ABA-like activity increased, and cytokinin-likeactivity decreased in shoot tissue before the plants began tosenesce. Cytokinin-like activity in the fruit also declinedduring this period. These results implicate a decrease in cytokininsand an increase in ABA-like inhibitors in the control of monocarpicsenescence of soybeans, but neither alone is causal. ¹ Supported in part by Research Grant 416-15-79 from the USDACooperative State Research Service under PL 89–106. ² Present address: Biology Dept., College of St. Benedict'sSt. Joseph, Minn. 56374, U.S.A. (Received February 4, 1978; )     

Ultraviolet-B Radiation-induced Inhibition of Leaf Expansion and Promotion of Anthocyanin Production: Lack of Involvement of the Low Irradiance Phytochrome System

Leaf discs from expanding leaves of Rumex patientia L. were exposed to 7 hours of visible plus different levels of ultraviolet radiation in the 290 to 315 nm waveband (UV-B) and then placed in darkness. Leaf disc expansion was reduced and anthocyanin production was increased in discs exposed to moderate or high levels of UV-B radiation when compared to control discs. The possibility that the inhibition of leaf expansion by UV-B radiation might be at least partially phytochrome-mediated was examined by giving discs brief red or far red irradiation following exposure to UV-B radiation. Brief red radiation (R) following treatment with moderate or high UV-B radiation did not alter the pattern of growth or anthocyanin production compared to discs placed in darkness following UV-B treatment. However, a posttreatment with far red radiation (FR) reduced the growth of discs subjected previously to either moderate UV-B or no UV-B irradiation to the level of growth of discs given high UV-B. FR posttreatment also decreased anthocyanin production in discs in moderate and high UV-B treatments. Effects of FR and UV-B radiation apparently do not involve the same mechanism. This was demonstrated by experiments in which FR following the UV-B treatments was in turn followed by R, which reversed the effects of the FR but did not alter the growth inhibition or increased anthocyanin production induced by moderate or high levels of UV-B radiation.     

Studies on the behavior of the senescence signal in anoka soybeans

Soybean, a monocarpic plant, has been found to undergo rapid senescence as its fruits mature. In soybeans (Glycine max[L.] Merrill) cv. Anoka, foliar senescence begins during the period of most rapid pod-fill (seed growth), and it can be eliminated by surgical removal of the seeds at an early stage of their growth. Experiments in which fruits are removed from some regions of the plant but allowed to remain on other regions have established that the transmission of the senescence signal is limited; it affects mainly those leaves nearest to the nodes bearing the fruits. The implications of this localized signal movement are discussed.