Abstract
In country like Pakistan where population is growing at an alarming rate, food shortage is the top challenge for researchers. To contribute to this effort, field trials entitled “Effect of fertilizer dose on the performance of spring cereals” were conducted at Cereal Crops Research Institute Pirsabak Nowshehra, Khyber Pakhtunkhwa, Pakistan during 2010-2011. The experiment was laid out in RCB design with split plot arrangement replicated three times, with plot size 5X1.8m, having 6 rows 30cm apart. Fertilizer doses were allotted to main while cereal species were allotted to subplots. Fertilizer dose, cereal species and their interaction had significantly affected cereal performance. Application of 60:30:30 and 120:60:60 (N:P:K kg ha -1 ) significantly affected plant height and phenology of cereals than no NPK. Application of 60:30:30 and 120:60:60 produced 55% and 62% more grain yield respectively than no NPK. Wheat, triticale and oat phenology was significantly delayed, oat and triticale produced taller plants than wheat and barley. Triticale yield was significantly higher than barley, wheat and oat. In case of interactions triticale with 120:60:60 NPK took more days to heading (131) and physiological maturity (168), while barley took less days to heading (109) and physiological maturity with no NPK. Significantly taller plants were produced by oat (129 cm) at 120:60:60 while barley produced dwarf plants (73cm) with no NPK. In case of grain yield, triticale produced more yield (5275 kg ha -1 ) with 60:30:30 while oat gave lowest yield (2433 kg ha -1 ) with no NPK. It is concluded that triticale and barley performed well on less fertile soil than wheat and oat. For optimum production, 60:30:30 and 120:60:60 (N: P: K kg ha -1 ) are recommended for barley/triticale and wheat/oat respectively, in conditions similar to
Highlights
It is concluded that triticale and barley performed well on less fertile soil than wheat and oat
Barley, triticale and capita consumption of wheat in Pakistan is the oat are used as human food and livestock feed highest in the world (135 kg year-1), which since ancient times
More days (125) were fertilizer optimization for spring cereals, the observed for 120:60:60 (N: P: K kg ha-1)
Summary
Data regarding days to heading is presented optimization for spring cereals. Data indicates that fertilizer levels, is need to work out the combine effect of NPK cereal species and their interaction on combination of various spring cereals. More days (125) were fertilizer optimization for spring cereals, the observed for 120:60:60 (N: P: K kg ha-1). Present study was conducted to evaluate the while less days (118) were recorded for no response of spring cereals to various levels of NPK application. Delay in days to heading with allotted to main plot while cereal species increase in fertilizer dose might be due to (Wheat, triticale, barley and oat) were more nutrients availability specially nitrogen applied to sub plots. Data were recorded on species which determines the length of days to heading, days to physiological vegetative and reproductive stages
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