Christiana J Ijah scite author profile

Christiana J Ijah

3Publications

8Citation Statements Received

21Citation Statements Given

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Comparative effect of pig manure, urea fertilizer and their combinations on the performance of Amaranthus cruentus in a rainforest Ultisol, Nigeria

Iren¹,

Ijah²,

Asawalam³

et al. 2016

J. Agric. Sci. Pract.

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The influence of pig manure, urea and their combinations on the performance of Amaranthus cruentus was investigated for two years in a rainforest Ultisol of Umudike. The experiment was laid down in a randomized complete block design with four replications. Six treatments consisted of pig manure applied at equivalent rates of 90 kg N/ha as full dose of manure, urea at 60 kg N/ha as full dose of urea. Other treatments were ½ dose of manure (45 kg N/ha) + ½ dose of urea (30 kg N/ha), ¼ dose of manure (22.5 kg N/ha) + ¾ dose of urea (45 kg N/ha), ¾ dose of manure (67.5 kg N/ha) + ¼ dose of urea (15 kg N/ha), and the absolute control. Results indicated that Amaranthus plant height was not significantly (P >0.05) affected by the treatments compared to the control. The overall results showed that the combination of ½ manure + ½ urea significantly (P < 0.05) increased stem girth (17.42 cm), number of leaves per plant (44.76), fresh yield (41.51 t/ha) and dry matter yield (3.49 t/ha) of Amaranthus than sole application of either of them, and is therefore recommended as the best for optimum production of Amaranthus in the study area.

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Relationship of Landscape Positions with Soil Properties on Maize Yield in Ultisol

I.D

O.Edem²,

Ijah³

2018

Am. J. Agric. Sci. Eng. Technol.

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Relationship of landscape position and soil properties to maize (Zea mays L.) yield was studied in coastal plain soils of Akwa Ibom state. The study aimed at assessing the physico-chemical soil attributes down the geomorphic surface as well as assessing the yield of maize in the respective landscape positions. A total of 3600 plant population (hybrid maize) were planted on 0.072ha in a Randomized complete block design. The traditional land preparation technique was employed with slashing of regrowth vegetation with cutlass. The trashes was left on the sites and allowed to dry for three weeks. Preburn soil samples were taken before burning the trashes at the end of three weeks after slashing. The samples collected were analyzed in the laboratory for physico-chemical properties using standard methods. Collected data were statistically analyzed and means of statistically significant parameters were separated using LSD (0.05). The results showed that sand particle of burnt and un-burnt soils were significantly different at 0-15cm of Upper slope (US) but not significantly different in other landscape positions (p<0.05). Soil pH in burnt soil was significantly different from the un-burnt soil (both at surface and sub surface) in the three landscape positions. Mean maize yields (with husk) was 0.09 and 0.11kg/ha before and after burning plots of US ; 0.12 and 0.16kg/ha in before and after burning plot of the middle Slope (MS) while the Bottom valley (BV) had 0.14 and 0.16kg/ha in before and after burning plots. Altogether, both husked and de-husked yields were higher in burnt plots than unburnt plots. Along the slope, husked yield followed the order: BV (0.15kg/ha) > MS (0.14kg/ha) > UP (0.10kg/ha)) while de-husked yield also followed similar pattern but different magnitude.

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Relationship of Landscape Positions With Soil Properties on Maize Yield in Ultisol

I.D

O.Edem²,

Ijah³

2017

Am. J. Agric. Sci. Eng. Technol.

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Relationship of landscape position and soil properties to maize (Zea mays L.) yield was studied incoastal plain soils of Akwa Ibom state. The study aimed at assessing the physico-chemical soil attributesdown the geomorphic surface as well as assessing the yield of maize in the respective landscapepositions. A total of 3600 plant population (hybrid maize) were planted on 0.072ha in a Randomizedcomplete block design. The traditional land preparation technique was employed with slashing of regrowth vegetation with cutlass. The trashes was left on the sites and allowed to dry for three weeks. Preburn soil samples were taken before burning the trashes at the end of three weeks after slashing. Thesamples collected were analyzed in the laboratory for physico-chemical properties using standardmethods. Collected data were statistically analyzed and means of statistically significant parameters wereseparated using LSD (0.05). The results showed that sand particle of burnt and un-burnt soils weresignificantly different at 0-15cm of Upper slope (US) but not significantly different in other landscapepositions (p<0.05). Soil pH in burnt soil was significantly different from the un-burnt soil (both atsurface and sub surface) in the three landscape positions. Mean maize yields (with husk) was 0.09 and0.11kg/ha â€˜beforeâ€™ and â€˜afterâ€™ burning plots of US ; 0.12 and 0.16kg/ha in â€˜beforeâ€™ and â€˜afterâ€™ burningplot of the middle Slope (MS) while the Bottom valley (BV) had 0.14 and 0.16kg/ha in â€˜beforeâ€™ andâ€˜afterâ€™ burning plots. Altogether, both husked and de-husked yields were higher in burnt plots than unburnt plots. Along the slope, husked yield followed the order: BV (0.15kg/ha) > MS (0.14kg/ha) > UP(0.10kg/ha)) while de-husked yield also followed similar pattern but different magnitude.

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