Abstract
The current paper has considered the effect of the development degree of the leaf conducting systems and the head-bearing internode on kernel weight per head of the winter wheat grown in the conditions of insufficient moisture supply and optimal moisture. The study of out among 13 winter wheat samples developed by the FSBSI “Agricultural Research Center “Donskoy”. The area of the conducting vascular bundle of winter wheat ranged from 0.208 mm2 10-4 (‘Shef’, ‘586/13’) to 0.364 mm2 10-4 (‘Krasa Dona’) (a trial) and from 0.381 mm2 10-4 (‘Etyud’) to 0.350 mm2 10-4 (‘Zhavoronok’) (a control). The maximum development degree of wheat leaf conducting system in the trials was identified in the varieties ‘Krasa Dona’ (4.01 mm2 10-4) and ‘Ambar’ (4.22 mm2 10-4), and in the control these were the varieties ‘Polina’ (2.59 mm2 10-4) and ‘Ambar’ (2.62 mm2 10-4). The maximum values of the area of the leaf conducting system and kernel weight per head were shown by the varieties ‘Krasa Dona’ (4.01 mm2 10-4 and 0.37 g) and ‘Ambar’ (4.22 mm2 10-4 and 0.39 g).
Highlights
The conducting vascular bundles form a leaf venation, they supply salt solutions and water to the mesophyll, and carry out the outflow of plastic substances obtained in assimilation [1]
The leaf conducting system is presented in the form of venation, especially characteristic for a reverse side of a leaf blade
The leaves with parallel venation, the vascular bundles are of the same size, they are connected either in the upper part of the leaf or on both sides of the blade
Summary
The conducting vascular bundles form a leaf venation, they supply salt solutions and water to the mesophyll, and carry out the outflow of plastic substances obtained in assimilation [1]. The leaves with parallel venation (monocotyledonous plants), the vascular bundles are of the same size, they are connected either in the upper part of the leaf or on both sides of the blade. This is due to the conductive tissues, that all organs of the plant have a normal functioning [2]. The study of various plant systems in conditions of insufficient moisture supply is of great importance, since it has been established that in dry conditions plant productivity is significantly reduced
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