Abstract

Three year data on the effect of water- and mannitol (4%) priming of chickpea seeds (12 h at 25°C) showed higher number and biomass of nodules in the plants from primed seeds than from non-primed seeds. The biomass of nodules increased to 75 DAS but decreased by 90 DAS. Activities of sucrose metabolism enzymes (sucrose synthase (SS) and alkaline invertase) and of nitrogen metabolism (glutamine synthetase (GS), glutamate synthase (GOGAT) and glutamate dehydrogenase (GDH)) in nodules of primed and non-primed crops during development are reported. SS and alkaline invertase activities increased to 70 DAS and then decreased. In primed plants, the higher SS activity in nodules at 60 and 70 DAS might be responsible for providing more energy and carbon skeleton for nitrogen fixation and for ammonium assimilation in primed plants. At 85 DAS, though the SS activity decreased in comparison with the earlier growth stages, it was still higher in nodules of the primed crops than the non-primed crop. Activity of alkaline invertase was maximum at 70 DAS in the nodules of primed and non-primed crops. Priming increased nodule GS activity at 70 and 85 DAS. GOGAT activity was unaffected by priming but GDH activity was greater in nodules from primed crops at 50 DAS. Elevated SS and GS nodule activities in primed chickpeas might be responsible in increasing nodule biomass and metabolic activity thereby increasing seed fill.

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