Youssef,, F. (2003). MORPHOLOGICAL AND ANATOMICAL STUDIES ON GUAR I PLANTS (Cysmopsis tetrsgon%ba L) GROWN UNDER DIFFERENT LEVELS OF SALINITY. Journal of Plant Production, 28(6), 4475-4492. doi: 10.21608/jpp.2003.244644
Fadla A. Youssef,. "MORPHOLOGICAL AND ANATOMICAL STUDIES ON GUAR I PLANTS (Cysmopsis tetrsgon%ba L) GROWN UNDER DIFFERENT LEVELS OF SALINITY". Journal of Plant Production, 28, 6, 2003, 4475-4492. doi: 10.21608/jpp.2003.244644
Youssef,, F. (2003). 'MORPHOLOGICAL AND ANATOMICAL STUDIES ON GUAR I PLANTS (Cysmopsis tetrsgon%ba L) GROWN UNDER DIFFERENT LEVELS OF SALINITY', Journal of Plant Production, 28(6), pp. 4475-4492. doi: 10.21608/jpp.2003.244644
Youssef,, F. MORPHOLOGICAL AND ANATOMICAL STUDIES ON GUAR I PLANTS (Cysmopsis tetrsgon%ba L) GROWN UNDER DIFFERENT LEVELS OF SALINITY. Journal of Plant Production, 2003; 28(6): 4475-4492. doi: 10.21608/jpp.2003.244644
MORPHOLOGICAL AND ANATOMICAL STUDIES ON GUAR I PLANTS (Cysmopsis tetrsgon%ba L) GROWN UNDER DIFFERENT LEVELS OF SALINITY
Department of Agricultural Botany, Faculty of Agriculture, Cairo University, Egypt
Abstract
A pot experiment was conducted in a wirehouse for studying the effb of different levels of salinity on morphology, anatomy and yield of guar plant at the different st9ges of growth. Results indicated thai averages of all studied characters at tne different stages of growth were decreased by all used levels of salinity. Eff6ct of salinity was increased progressively with raising salinity level and reached its
maximum at 6000 ppm. I
At seedling stage. the highest decrease percentages were, 4g.35% in seedling height, 42.72% in eplcotyllength, 62.5% in first internode length and 57.58% in number of internodes/main stem less than the control. As to the vegetative g~ wth stage, the highest decrease percentages were 71.12% in plant height, 85.40% n 5th internode length and 40.43% in number ofintemodes/main stem below the control Concerning the flowering stage, the highest decrease percentages were, 65.93% in plant height. 26.70% in number of internodes/main stem, 84.31% in number of branches/plant, 85.53% in whole plant fresh weight and 85.21% In whole plant dry weight lower than the control. Similar1y in maturity stage the highest decrbase percentages were, 39.85% in plant height and 30.82% in number of internodes/main stem below tlie control. Moreover, the highest decrease percentages in yield and ~Ield components were 78.68% in number of pods/pta nt, 23.19% in number of seedJpod, 86.77% in number of seeds/plant, 91.6.04% in yield of seedsl plant and 55.43% in seed index, less than the control.
Anatomical stUdies of transverse sections in the first Intemode and main fool, revealed that 6000 ppm salinity reduced the whole diameter of cross section by 29.9% in stem and 30.8% in root. less than the control, due to the decrease in thickness of all included tissues. Longitudinal sections in stem of treated plants, showed a reduction in both length and width of the medullary celts. By contracts, treatment or sa inity increased tMe whole diameter of hypocotyt by 10.8% ail~ the thickr,ess or cotyledon blade by 23.4% higher than the control. Moreover. as Indicated berore, all results of salinity showed a prominent decrease in the amount 01 xylem due 10 reducing r size and number of vessels.
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