Effects of hypoxia on barley growth at seedling stage
2001
Sawit Meechoui(Rajamangala Institute of Technology. Lampang Campus, Lampang (Thailand). Lampang Agricultural Research and Training Centre) | Chuckree Senthong(Chiang Mai University, Chiang Mai (Thailand). Faculty of Agriculture. Department of Agronomy)
Oxygen deficiency in barley root system (hypoxia) is an important problem of barley production in paddy field. Three different hypoxia tolerance barley genotypes, SMG1, FNBLS no.140 and BRBRF9629, were used to determine the effects of hypoxia on growth, photosynthetic efficiency, dry matter accumulation rate and partitioning coefficients of assimilate to the root of barley seeding. All genotypes were grown in stagnant agar nutrient solution (as hypoxic condition) and aerated nutrient solution (as control) in plant growth chambers at Lampang Agricultural research and Training Center during March-April 1999. The results showed that hypoxia stress reduced plant growth, especially root growth rate. All barley genotypes had also less dry matter partitioning of assimilate to their roots. Increasing photosynthetic rate for hypoxic adaptation was due to be highly leaf chlorophyll efficiency. Among three genotypes, SMG1 had a consistent in photosynthetic efficiency under hypoxia. Thus it could be slightly lower shoot and plant growth rate. Whereas FNBLSno.140 had low photosynthetic rate after 3-5 days of hypoxia, lower growth rates and dry matter partitioning of assimilate to the roots than SMG1. BRBRF9629 could not maintain photosynthetic rate after hypoxia. It caused to be the lowest growth rates and dry matter partitioning of its assimilate to the roots.
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This bibliographic record has been provided by Thai National AGRIS Centre, Kasetsart University
