Abstract
Net photosynthetic CO2 uptake (P N ) and transpiration (E) rates through adaxial and abaxial leaf surfaces were measured gasometrically on the area of maize leaf blades of different insertion levels in the phase of male florescence and in the phase of spadices development. The distribution pattern of gas exchange on the area of all measured leaf blades found in the phase of male florescence (significantly lower value in the basal parts) was changed in the phase of spadices development: PN andE of abaxial surfaces of older leaves,i.e. 9th, 10th (under which the spadices were growing) and 11th, rapidly increased in the basal parts in comparison with the middle ones and positively influenced the gas exchange of the whole leaves. It appears that PN may be maintained or increased in the older leaves in the phase of spadices development to prevent shortage of photosynthates.
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