Effects of Micronutrients on Maize Grain Yield and Macronutrients Uptake
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EFFECTS OF
MICRONUTRIENTS ON
MAIZE GRAIN YIELD AND
MACRONUTRIENTS UPTAKE
Tafadzwa Chipangura
Introduction and Justification
Micronutrients are essential for plant growth
and play an important role in balanced crop
nutrition. They promote the strong ,steady
growth of crops that produce higher yields and
increase harvest quality- maximizing a plant’s
genetic potential.
Most micronutrients are immobile in soils and
plants. There is therefore need to supply
additional micronutrients to the soil.
Main Objective
To determine the additional
effects of micronutrients on maize
grain yield and macronutrients
uptake.
Specific Objectives
1. To determine the effect of adding
Cu,Fe, Zn micronutrients on maize
grain yield.
2. To determine the effect of adding
Cu,Fe, Zn micronutrients on N, P,K,Ca
and Mg uptake.
A
p
p
r
o
a
c
h
Soils were sampled and characterised before the
start of the experiment
Treatments consisted of plots measuring 1m*1.5m laid
out in a CRBD with treatments replicated 3 times. Soil
pH was 5.9
Compound D was applied at a rate of 400kgs/ha.
All treatments except control were top dressed with
AN(split application at 4 and 6 weeks) at a rate of
300kgs/ha. Foliar application of micronutrients Zinc,
Iron and Copper were applied at a rate of 5kgs/ha.
A
p
p
r
o
a
c
h
C
o
n
t
The following treatments were used:
(i) Control
(ii) Cpd D
(iii) Cpd D + Zn +Cu
(iv) Cpd D + Zn + Fe
(v) Cpd D + Cu + Fe
(vi) Cpd D + Zn +Cu+ Fe
Approach Cont
Maize grain yield was determined at
12.5% moisture content and analysed for
N,P, K, Ca,Mg, Zn, Fe, B & Cu. These will
be evaluated against FAO/WHO
standards for maximum permissible limits
in maize grain.
Preliminary results for 2017/2018
season (1st Year)
Table 1: Average maize grain yield for 2017/2018
Season
Preliminary results Cont
Fig 1:Average maize grain yield for 2017/2018
season
Maize grain analytical results
Table 3: Maize grain quality analytical results 2017/2018
Maize grain analytical results Cont
Table 3: Maize grain nutritional analytical results 2017/2018
FAO permissible standards
Inference of the grain nutritional value
to FAO permissible standards
Overally elements such as P, K, and
Ca have shown sufficient levels as
compared to when Compound d was
sorely applied
.
What then can we infer from the
results?
Initial results show there are
additional benefits in adding
micronutrients both in terms of yield
and nutritional value of the grain
Thank you
Tatenda
Micronutrients play a vital role in promoting strong and steady growth in crops like maize, leading to higher yields and improved harvest quality. This study aims to assess the impact of micronutrient supplementation, specifically Cu, Fe, and Zn, on maize grain yield and the uptake of macronutrients like N, P, K, Ca, and Mg. Various treatments were applied, and preliminary results show promising increases in grain yield with the addition of micronutrients. Further analysis will compare the nutrient levels in maize grain against international standards for quality and safety.
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Presentation Transcript
EFFECTS OF MICRONUTRIENTS ON MAIZE GRAIN YIELD AND MACRONUTRIENTS UPTAKE Tafadzwa Chipangura
Introduction and Justification Micronutrients are essential for plant growth and play an important role in balanced crop nutrition. They promote the strong ,steady growth of crops that produce higher yields and increase harvest quality- maximizing a plant s genetic potential. Most micronutrients are immobile in soils and plants. There is therefore need to supply additional micronutrients to the soil.
Main Objective To determine the additional effects of micronutrients on maize grain yield and macronutrients uptake.
Specific Objectives 1. To determine the effect of adding Cu,Fe, Zn micronutrients on maize grain yield. 2. To determine the effect of adding Cu,Fe, Zn micronutrients on N, P,K,Ca and Mg uptake.
Approach Soils were sampled and characterised before the start of the experiment Treatments consisted of plots measuring 1m*1.5m laid out in a CRBD with treatments replicated 3 times. Soil pH was 5.9 Compound D was applied at a rate of 400kgs/ha. All treatments except control were top dressed with AN(split application at 4 and 6 weeks) at a rate of 300kgs/ha. Foliar application of micronutrients Zinc, Iron and Copper were applied at a rate of 5kgs/ha.
Approach Cont The following treatments were used: (i) Control (ii) Cpd D (iii) Cpd D + Zn +Cu (iv) Cpd D + Zn + Fe (v) Cpd D + Cu + Fe (vi) Cpd D + Zn +Cu+ Fe
Approach Cont Maize grain yield was determined at 12.5% moisture content and analysed for N,P, K, Ca,Mg, Zn, Fe, B & Cu. These will be evaluated against FAO/WHO standards for maximum permissible limits in maize grain.
Preliminary results for 2017/2018 season (1st Year) Table 1: Average maize grain yield for 2017/2018 Season Treatment 1(Control) Grain yield(T/ha) 3.2 2(Cpd D) 4.60 3(Cpd D +Zn+Cu) 5.00 4(Cpd D+Zn+Fe) 5.33 5(Cpd D+Cu+Fe 6.07 6(Cpd D+Zn+Cu+Fe) 6.13
Preliminary results Cont Fig 1:Average maize grain yield for 2017/2018 season 7 6 5 Grain yield (T/Ha) 4 3 2 1 0 Control Cpd D Cpd D +Zn+Cu Cpd D +Zn +Fe Cpd D +Cu+Fe Cpd D +Zn+Cu+Fe Treatment
Maize grain analytical results Table 3: Maize grain quality analytical results 2017/2018 Treatmen t N (%) Analytical Results P (%) Ca (%) K (%) Mg (%) Fe (ppm) Mn (ppm) Zn (ppm) B (ppm) Cu (ppm) 1(Control ) 0.17 0.14 0.15 1.9 0.16 35.5 23.4 18 16 4.6 2(Cpd D) 1.20 0.21 0.17 2.3 0.17 37 24 20 21 4.5 3(Cpd D +Zn+Cu) 1.24 0.35 0.38 3.11 0.19 38 22 36 17.7 6
Maize grain analytical results Cont Table 3: Maize grain nutritional analytical results 2017/2018 Treatment Analytical Results P (%) Ca (%) K (%) Mg (%) Fe (ppm) Mn (ppm) Zn (ppm) B (ppm) Cu (ppm) N (%) 4(Cpd D+Zn+Fe) 1.33 0.34 0.41 3.47 0.20 123 25 34 20.7 5 5(Cpd D+Cu+Fe 1.39 0.31 0.39 3.28 0.18 118 23 21 16 6.4 6(Cpd D+Zn+Cu+ Fe) 1.41 0.46 0.43 3.51 0.22 127 24 34.5 18.7 6.1
FAO permissible standards Element N% P% K% Ca% Mg% Fe ,ppm Mn, ppm Zn,ppm Cu,ppm B,ppm Low <3.5 <0.3 <2.5 <0.3 <0.15 <50.0 <20.0 <20.0 <5.0 <5.0 Sufficient 3.50-5.0 0.3-0.50 2.5-4.0 0.3-0.70 0.15-0.45 50-250 20-300 20-60 5-20 5-25 High >5 >0.5 >4.0 >0.7 >0.45 >250 >300 >60 >20 >25
Inference of the grain nutritional value to FAO permissible standards Overally elements such as P, K, and Ca have shown sufficient levels as compared to when Compound d was sorely applied.
What then can we infer from the results? Initial results show there are additional benefits in adding micronutrients both in terms of yield and nutritional value of the grain
Thank you Tatenda
