The prevention of dehydration injury in celery seeds by polyethylene glycol, abscisic acid, dark and high temperature

Celery seeds ( Apium graveolens L.) given a germination induction period (3 days imbibition at 17°C in the light) could be prevented from germinating by up to 14 days subsequent exposure to high temperature (32°C), polyethylene glycol (PEG), abscisic acid (ABA) or dark (22°C). When the seeds were returned to 17°C in the light, germination occurred and, except for the high temperature treatment, was more rapid compared to seeds given a germination induction period only.
Celery seeds incubated for 3 days at 17°C in the light and then air-dried at 20°C germinated slowly when re-sown at 17°C in the light, and achieved only 19% germination after 21 days. Exposing the seeds to high temperature, PEG, ABA or dark for up to 14 days before drying maintained seed viability and subsequent germination was faster. The longer treatment periods gave increased benefit, and PEG was the most effective treatment. It is suggested that the effectiveness of the treatments in inducing dehydration tolerance relates to their ability to inhibit germination possibly via their prevention of cell expansion.     

The effects of mechanically-induced stress and plant growth regulators on the growth of lettuce,cauliflower and bean (Phaseolus vulgaris L.) plants

The plant growth regulators, gibberellic acid (GA₃), ethephon and chlormequat chloride (CCC) were sprayed on young lettuce, cauliflower and bean (Phaseolus vulgaris) plants, which had either been given or not been given a mechanically-induced stress (MIS) treatment. MIS was applied by brushing the plants with paper for 1.5 minutes each day. GA₃ increased extension growth of bean and leaf length of lettuce in unbrushed plants as much as in brushed ones. CCC and ethephon were less effective at reducing the height of brushed bean plants compared to unbrushed ones. The effects of CCC on the growth of cauliflower and lettuce plants was not influenced by brushing, whereas unbrushed plants responded more readily to ethephon than did brushed ones. The effects of CCC on growth were generally similar to those of MIS whereas the effects of ethephon were in many ways different to MIS.The results are discussed in relation to the use of PGR and MIS treatments for modifying plant growth.     

ABA promotion of ethylene production in anther culture of Brussels sprouts (Brassica oleracea var. gemmifera) and its relevance to embryogenesis

Abscisic acid (ABA) inhibited embryogenesis in anther culture of Brussels sprouts. This was accompanied by enhanced ethylene production during the first half of the anther culture period followed by a reduction in ethylene during the latter half, when compared to anthers not treated with ABA. The enhancement of ethylene production by ABA 6 h and 48 h after the start of the culture period was counteracted by the ethylene biosynthesis inhibitor aminoethoxyvinylglycine (AVG). Both AVG and the ethylene antagonist AgNO₃ removed much of the ABA inhibition of embryogenesis, suggesting that at least part of the ABA effect on embryo production is mediated through increased ethylene biosynthesis.
ABA promotion of ethylene production was reduced by high temperature: less ethylene evolved from ABA-treated anthers following a 24 h treatment at 35°C than from ABA-treated anthers incubated continuously at 25°C. A high temperature treatment such as this is invariably necessary for embryogenesis in Brussels sprouts anther culture.     

The effects of mechanically-induced stress in plants — a review

Mechanically-induced stress (MIS) occurs naturally in plants as the aerial parts are moved, usually by wind, but also by such agents as rain and animals. It can be induced indoors by various actions such as rubbing or bending the stem or shaking or brushing the entire shoot. The most noticeable effect of MIS is a reduction in stem, leaf or petiole length invariably resulting in plants which are smaller and more compact than unstressed controls. However, the response of other variables can often differ between species and there may be either increases or decreases in stem or petiole diameter, root: shoot weight ratio, chlorophyll content or drought resistance. Why species should differ in this way, and what is the endogenous control mechanism for MIS responses, are inanswered questions. Ethylene, which increases as a result of MIS in several species may cause some MIS responses such as increased stem diameter, epinasty or a change in sex expression. However, evidence suggests that MIS retardation of extension growth may equally be due to lower or supraoptimal auxin levels or lower gibberellin levels.The uses in the field of the growth promoter gibberellin or the growth retardant chlormequat chloride (CCC) appear to be examples of respectively reversing or stimulating MIS growth response. MIS may be applied indoors if short compact plants are needed, either for aesthetic purposes as with floral crops, or if hardier and more manageable plants are needed, such as seedlings for transplanting in the field. Much more research is needed to estimate the importance of MIS in the field and to assess how such knowledge may be used to improve crop yield.     

A comparison of the effects of mechanically-induced stress,ethephon and silver thiosulphate on the growth of cauliflower seedlings

Mechanically-induced stress (MIS) was applied to cauliflower seedlings by brushing with paper for 1.5 minutes each day. With the possible exception of the effect on leaf 1 thickness, none of the growth responses induced by MIS were significantly nullified by spraying the seedlings with the ethylene inhibitor, silver thiosulphate (STS). The ethylene-releasing compound, ethephon, induced some changes in cauliflower growth similar to those caused by MIS, such as reduced shoot and leaf 1 weight, a reduction in cotyledon and leaf 1 area, and an increase in the thickness of leaves 1 and 2. However, other effects of ethephon were different from those of brushing. Petiole length and diameter and the weight and area of leaf 2 were reduced by brushing but generally increased by ethephon. STS reversed, at least partially, most of the ethephon effects on growth, thus demonstrating that it acts as an inhibitor of ethylene action in cauliflower.The results are discussed in relation to the possible endogenous control of MIS growth responses by endogenous ethylene and auxin.     

A modified Amaranthus betacyanin bioassay for the rapid determination of cytokinins in plant extracts

Summary Pure cytokinin standards and celery seed extracts containing cytokinin activity were bioassayed using a modified Amaranthus betacyanin bioassay. The assay is very rapid and requires no special sterile precautions.     

The effects of gibberellic acid,fluridone, abscisic acid and paclobutrazol on anther culture of Brussels sprouts

Both gibberellic acid (GA₃) and fluridone, a non-specific inhibitor of ABA biosynthesis, promoted embryo production in anther cultures of Brussels sprouts cv. Hal, but not in cv. Gower. Abscisic acid (ABA) and the gibberellin-biosynthesis inhibitor paclobutrazol inhibited embryo production in both cultivars.     

High temperature enhances ethylene promotion of anther filament growth in Brussels sprouts (Brassica oleracea var. gemmifera)

A study was made of the effect of high temperature on the growth response of Brussels sprout filaments to ethylene. Filaments with or without the anthers attached were incubated continuously at 25 °C or 35 °C for 7 days or for 2 days at 35 °C followed by 5 days at 25 °C. Growth was reduced during both 35 °C treatments compared to that of filaments at continuous 25 °C. Ethylene had little effect on filament growth at continuous 25 °C, whereas with treatment for either 2 or 7 days at 35 °C ethylene promoted filament growth considerably. Thus ethylene effectively overcame the growth inhibition induced by the 35 °C treatment.High temperature treatments reduced ethylene production from filaments alone, and from filaments with anthers attached. The ethylene biosynthesis inhibitor aminoethoxyvinylglycine (AVG) and the ethylene action inhibitor AgNO₃ enhanced filament growth at 25 °C but had little or no effect at 35 °C. The relevance of temperature to ethylene sensitivity is discussed in relation to filament growth and to other plant processes in general.     

Effects of temperature and drying rate during dehydration of celery seeds on germination, leakage and response to gibberellin and cytokinin

A high temperature treatment of 32°C which prevents dehydration injury in celery seeds imbibed for 3 days at 17°C and then dried at 20°C, reduced leakage during rehydration, compared with seeds not given the high temperature treatment. Treatments which would normally release celery seeds from dormancy, such as low temperature imbibition or gibberellin (GA_4/7) and benzyladenine (BA) applications had little effect on the germination of seeds exhibiting desiccation injury. However, GA_4/7 did induce splitting of the seed coat and swelling of the endosperm, and this effect was enhanced by BA. It is suggested that in celery seeds high temperature prevents irreversible embryo damage, including membrane damage, caused by drying.