Abstract
Comparison of common buckwheat varieties with determinate vs. indeterminate growth habit reveals no differences in leaf photosynthesis rate at stage before flowering. However, at stage of seed filling the difference was significant. Maximal difference was 20 days after early flowering, i.e in period of most intensive seed formation. These results show that determinate varieties have higher sink strength providing by developing seeds. It is correlated with higher yield ability of such varieties. Probably, growth limitation resulting from det-mutation leads to some shifts in system of sink priorities of buckwheat plant and allows initiate the development of additional seeds. One more possible cause of alteration of the physiological parameters in determinate varieties is some optimization of plant structure: in terms of physiology the determinate buckwheat is a plant which is more similar to cereals than indeterminate buckwheat. However, underlying physiological changes accompanying the transition from indeterminate toward determinate growth in buckwheat remain almost unknown. Assumption about strong effect of det-mutation per se on photosynthesis rate was not supported in our work. Alternative assumption about accumulation of additional genes enhancing the sink ability suggests opportunities for additional progress in the selection work using tools evaluating photosynthesis intensity at stage of grain filling.
Highlights
Fagopyrum esculentum Moench is a species cultivated as groats or grain crop in many countries, mainly in Russia and China (Wang & Campbell, 2004; Fesenko et al, 2016)
Since the beginning of 21st century the share of the determinate varieties in the buckwheat sowing area in Russia was increased from 8.2 % to 56.2 %, which led to an increase in average buckwheat yield by 1.5 times (FAO, 2014)
We evaluated the influence of det-mutation itself on photosynthesis rate in buckwheat
Summary
Fagopyrum esculentum Moench (common buckwheat) is a species cultivated as groats or grain crop in many countries, mainly in Russia and China (Wang & Campbell, 2004; Fesenko et al, 2016). Agricultural practice has chosen mainly determinate varieties based on a mutation d (det) (Fesenko, 1968; Ohnishi, 1990) that limits the generative development of shoots by 3-5 inflorescences without possibility for development of any additional ones (Fesenko, 1983; Fesenko et al, 2009)(Fig. 1). First variety of this type was registered in 1985. Breeding and research work with determinate type buckwheat was conducted in Slovenia (Bohanec & Kreft, 1981; Luthar et al, 1986; Kreft, 1989), Serbia (Nešković et al, 1990) and Japan (Kasajima et al, 2016)
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