The aim of this study was to investigate effects of the hydrogen-rich water (HRW) on the vegetable growth, and explore the possibility of applying HRW for protected cultivation of vegetables. Results showed that compared with control, HRW treatment significantly promoted fresh weight, hypocotyl length and root length of mung bean seedlings. The strongest stimulation was observed for 480 mu M H-2 (60% of saturated HRW concentration) treatment. This concentration was used in the following experiments. The enhanced cell elongation was correlated with the changes in the level of endogenous phytohormones. In the dark-grown hypocotyls and roots of mung bean seedlings, HRW significantly increased the content of IAA and GA(3). Addition of GA(3) enhanced the hypocotyl elongation only. uniconazole, an inhibitor of GA(3) biosynthesis, inhibited HRW-induced hypocotyl elongation, but did not affect root elongation. Exogenous application of IAA promoted HRW effects on elongation of both the hypocotyl and the root, while the IAA biosynthesis inhibitor TIBA negated the above affects. The general nature of HRW-induced growth-promoting effects was further confirmed in experiments involving cucumber and radish seedlings. Taken together, HRW treatment promoted growth of seedlings, by stimulating elongation of hypocotyl and root cells, via HRW-induced increase in GA and IAA content in the hypocotyl and the root respectively.
History
Publication title
Functional Plant Biology
Volume
47
Issue
9
Pagination
771-778
ISSN
1445-4408
Department/School
Tasmanian Institute of Agriculture (TIA)
Publisher
C S I R O Publishing
Place of publication
Australia
Rights statement
Copyrght 2020 CSIRO
Repository Status
Restricted
Socio-economic Objectives
Expanding knowledge in the biological sciences; Expanding knowledge in the environmental sciences