Effect of Surface Irrigation Regimes and Potassium Levels on Growth, Physiological Characters and Productivity of Fodder Beet (Beta vulgaris, L.) under Calcareous Soil Conditions

Mofeeda, A. Seiam; Samir Mohamed, Engy; Attia, M.M.; Abd El-Monem, A.M.A.

doi:10.21608/alexja.2020.131325

	Effect of Surface Irrigation Regimes and Potassium Levels on Growth, Physiological Characters and Productivity of Fodder Beet (Beta vulgaris, L.) under Calcareous Soil Conditions
Alexandria Journal of Agricultural Sciences
Article 3, Volume 65, Issue 5, October 2020, Page 309-328 PDF (1.61 MB)
Document Type: Original Article
DOI: 10.21608/alexja.2020.131325
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Authors
A. Seiam Mofeeda¹; Engy Samir Mohamed²; M.M. Attia³; A.M.A. Abd El-Monem⁴
¹Forage Crops Res. Department, Field Crops Institute. ARC, Egypt
²Crop physiology Res. Department, Field Institute. ARC, Egypt
³3 Soil, Water and Environment Res. Inst., ARC., Egypt
⁴Forage Crops Res. Department, Field Crops Institute. ARC, Egypt.
Abstract
The present investigation was carried out in the farm of Nubaria Agricultural Research. Station during the two winter seasons 2016/2017 and 2017/2018 to study the effect of three surface irrigation treatments (I1=100%, I2= 80%, I3= 60% of ETp) and four potassium levels (control 0, 57.12, 114.24 and 171.36 K2O/ha) on fodder beet growth, physiological characters, productivity and forage quality under calcareous soil conductions. The main results were as follows: 1- Increasing irrigation levels up to 100% ETp led to significant increase in crop growth rate at the two periods (90-120) and (120-150 DAS), root diameter, leaf area per plant, root dry matter/ plant, root fresh weight/plant, total yield, crude protein percentage, digestive crude protein percentage, shoot K%, crude fiber percent and carbohydrate percent. There was insignificant difference between 100% and 80% ETp in leaves dry matter /plant, foliage fresh weight /plant, foliage yield (ton/ha) and K% in root. Whereas the total digestible nutrient percent and root length were significantly increased by increasing water stress. Medium treatment at 80% of ETp give the maximum values of water use efficiency (WUE). 2- Increasing potassium fertilization levels up to 171.36 kg K2O/ha significantly increased CGR at (90-120 and 120-150 DAS), root length, root diameter, leaf area, root dry matter /plant, leaves dry matter /plant, CP%, DCP%, CF% and carbohydrate % In root. Adding 171.36 or 114.24 kg K2O/ha had insignificant differences in the first CGR period (90-120) DAS, root fresh weight (kg/plant), foliage fresh weight (g/plant), K% in shoot and root. TDN (%) decreased by increasing potassium fertilization levels. Maximum water use efficiency (WUE) was obtained when plants received 171.36 kg K2O/ha. 3- The interaction effect between water regime and potassium fertilization was found to be significant for CGR at the two periods, root length, leaf area/plant, leaves dry matter/plant, root and leaves fresh weight / plant, total yield, root yield, CP%, DCP%, K% in shoot and carbohydrate% in the combined analysis. The maximum value of WUE was obtained when plants were watered by 80% from ETp and received 171.36 kg K2O/ha.
Keywords
Fodder beet; water stress; potassium levels; physiological; growth characters; forage yield and quality
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