Effect of benzyladenine, gibberellic acid, and Ethephon on growth and flower yield of chamomile (matricaria chamomilla L.) Plants
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Date
1998Author
Mutunga, Christopher M
Type
ThesisLanguage
enMetadata
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An experiment at the University of Nairobi's Institute of Dryland Research Development
and Utilization (IDRDU) in Kibwezi was conducted to study the effect of plant growth regulators
benzyladenine, gibberellic acid, and ethephon on the growth and flower yield of chamomile plants.
Plants were sprayed to run-off with various concentrations (0, 25, 50 and 75 mgllitre) of
benzyladenine (BA) in two timings (4 and 6 weeks after transplanting - 4 and 6 WAT); gibberellic
acid (GA) at rates of 0, 100, 200 and 300 mgllitre and ethephon at rates of 0, 50, 100 and 150
mgllitre at 6 WAT.
Benzyladenine applications significantly (P = 0.05) increased the vegetative growth and
flower yield of chamomile plants. BA treatment at 4 WAT had no effect on dry matter production
by the plants. Application of BA at 6 WAT increased dry matter production by the shoots and
roots and also caused more partitioning of the dry matter to the roots than to the shoots.
Generally, response to BA treatment was higher with the lower concentration of 25 mgllitre.
Ethephon significantly (P = 0.05) increased plant spread, dry matter production by the shoots and
roots with greater partitioning of the dry matter to the roots, and also increased flower yield. Plant
response to increasing ethephon application rates was linear.
Spraying chamomile plants with GA reduced root growth and reduced flower yield at each
harvest and consequently the total flower yield. The reduction on root growth and flower yield
was linear and quadratic to increasing GA concentrations, respectively.
This study shows that BA and ethephon could be incorporated in the management
practices of chamomile to enhance plant growth and improve the yield of dry flowers.