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 | ||||
View on SCiNiTO | ||||
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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