Maize yield response and nutrient uptake after micronutrient application on a volcanic soil
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Date
2006-07-12
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Publisher
American Society of Agronomy
Abstract
Micronutrients, which are often deficient in volcanic soils, together
with macronutrients may lead to higher yields in these soils. A study
was conducted under pot and field conditions to identify and correct
some micronutrient constraints in a volcanic soil at Mpangala, Tanza-
nia, for optimization of maize (Zea mays L.) yields. Dry matter (DM)
yields, plant B, Cu, and Zn concentrations, plant B, Cu, and Zn uptake,
and grain yields were used to assess the effects of micronutrient
treatments. In pots, B, Cu, and Zn fertilizers were applied separately
to the soil at two levels, 0 and 2 mg B kg 21 , 0 and 5 mg Cu kg 21 , and
0 and 10 mg Zn kg 21 , in combination with constant rates of 240 mg
N kg 21 or 160 mg P kg 21 fertilizers. A higher rate of 320 mg P kg 21 was
also included to assess the adequacy of the basal P rate used. A second
pot study attempted to establish an optimum rate of Cu under glass-
house conditions; rates ranging from 0 to 20 mg kg 21 Cu were tested.
Copper significantly (P 5 0.05) increased both maize DM and grain
yields; the estimated optimum rate was 20 mg Cu kg 21 under glass-
house conditions. This high rate is thought to be due to the high Cu-
fixation capacity of volcanic soils. Boron and Zn were sufficient for
normal plant growth. We conclude that maize production can be in-
creased considerably in Mpangala and other similar soils in the same
agroecological zone by applying N, P, and Cu at rates of 120, 80, and
10 kg ha 21 , respectively.
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Keywords
Soil Properties, Maize Yield Response