Effect of Cu and Zn on Maize (<i>Zea mays</i> L.) Yield and Nutrient Uptake in Coastal Plain Sand Derived Soils of Southeastern Nigeria

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Open Journal of Soil Science

ISSN Print: 2162-5360
ISSN Online: 2162-5379
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"Effect of Cu and Zn on Maize (Zea mays L.) Yield and Nutrient Uptake in Coastal Plain Sand Derived Soils of Southeastern Nigeria"
written by Ernest Ukpabi Eteng, Demian Okwudiri Asawalam, Anthony Osinachi Ano,
published by Open Journal of Soil Science, Vol.4 No.7, 2014

has been cited by the following article(s):

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[2]	Raising the Efficiency of Mineral Fertilization Using Azolla with Microelements
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[3]	Exploring options for increasing maize yields and grain Zn concentrations in sub-Saharan Africa
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[4]	Soil zinc fertilisation does not increase maize yields in 17 out of 19 sites in Sub-Saharan Africa but improves nutritional maize quality in most sites
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[5]	Soil zinc fertilisation does not increase maize yields but improves nutritional quality
	2022

[6]	Physiological Responses of Maize (Zea maysL.) to Copper (Cu) Induced Stress
	AJRIB, 2022

[7]	Compositional nutrient diagnosis and associated yield predictions in maize: A case study in the northern Guinea savanna of Nigeria
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[8]	Microbiome-mediated nano-bioremediation of heavy metals: a prospective approach of soil metal detoxification
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[9]	Effect of Zinc Application on Growth, Yield Parameters, Nutrient Uptake, Yield and Economics of Maize.
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[10]	Maize associated bacterial microbiome linked mitigation of heavy metal stress: a multidimensional detoxification approach
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[11]	Effect of zinc application on growth, yield parameters, nutrient uptake, yield and economics of maize
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[13]	COMPARATIVE EFFICACY OF ZINC SOURCES FOR ZINC-BIOFORTIFICATION OF MUNG BEAN (Vigna radiata L.)
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[14]	Biofortification of Maize with Zinc and Iron not only Enhances Crop Growth but also Improves Grain Quality
	Asian J. Agric. Biol., 2021

[15]	Influence of Foliar Application of some Micronutrients on Maize Kernel Yield and Nutrient content.
	2020

[16]	Estimation of Critical Limits of Zinc in Soil and Plant for Predicting Response of Maize (Zea mays L.) to Zinc and Nutrient Uptake in Acid Soils, Manipur
	Int. J. Curr. Microbiol …, 2020

[17]	Response of maize to secondary nutrients and micronutrients in the Guinea savanna of Nigeria.
	2020

[18]	Growth, yield and nutrient uptake of maize as affected by zinc application—A review
	Indian Journal of Pure & Applied …, 2020

[19]	Evaluation of the foliar nutrition influence on selected quantitative and qualitative paprameters of sugar mayze (Zea mays SK saccharata).
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[20]	Micronutrient deficiencies in African soils and the human nutritional nexus: opportunities with staple crops
	2020

[21]	Growth, Yield and Nutrient Uptake of Maize as Affected by Zinc Application–A Review
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[22]	Evaluation of the foliar nutrition influence on selected quantitative and qualitative paprameters of sugar mayze (Zea mays SK saccharata)
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[23]	Effects of tobacco nicotine on maize yield and soil bacteria in Tabora western Tanzania
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[24]	Response of maize to secondary nutrients and micronutrients in the Guinea savanna of Nigeria
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[25]	OPTIMIZING PRODUCTIVITY OF MAIZE IN THE NORTHERN NIGERIAN SAVANNA: INFLUENCE OF NUTRIENT LIMITATIONS AND IMBALANCES
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[26]	Response of Maize (Zea mays L.) in Uptake of Micronutrients at Developmental Stages by Foliar Application of Secondary and Micronutrients
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[27]	Effect of secondary and micronutrients on uptake, mobilization and partitioning of nutrients from source to sink in maize hybrid
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[28]	NUTRIENT MANAGEMENT OPTIONS FOR ENHANCING MAIZE PRODUCTION UNDER CONSERVATION AGRICULTURE IN EMBU COUNTY, KENYA
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[29]	Effect of Different Tillage Management on Maize Forage and Grain Quality and Quantity under the Influence of Different Sources of Organic and Chemical …
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[30]	Role of seed priming to enhance growth and development of crop plants against biotic and abiotic stresses
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[31]	Critical limits and zinc requirement for maize (Zea mays L.) production in acid soils of south-eastern Nigeria
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[32]	Occurrence of poorly responsive soils in western Kenya and associated nutrient imbalances in maize (Zea mays L.)
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[33]	Application of secondary nutrients and micronutrients increases crop yields in sub-Saharan Africa
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[34]	Dynamics of Soil and Foliar Applied Boron and Zinc to Improve Maize Productivity and Profitability.
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[35]	Response of Zn Uptake, Grain and Other Yield Components of Five Maize Hybrids as Influenced by Zinc Fertilization Methods in A Marginal Coastal Plain Sand Soil
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[36]	Productivity of maize by leaf application of zinc (Zn) and copper (Cu)
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[37]	Dynamics of soil and foliar applied boron and zinc to improve maize productivity and profitability
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[38]	Khả năng hấp thu vi lượng (Cu, Fe, Zn và Mn) của cây bắp lai ở các mô hình luân canh trên đất phù sa không bồi ở Đồng bằng sông Cửu Long
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[39]	Role of Zinc Sulphate for Maize (Zea mays L.) and Mungbean (Vigna radiata L. Wilczek) yield improvement: A review
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[40]	Zinc Fractionation of Soils of Different Parent Materials and their Relationships with Some Soil Properties
	2016

[41]	Response of Kharif maize (Zea Mays L.) to micronutrients.
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[42]	Growth parameters, maize (Zea mays L.) silage and bambara groundnut (Vigna subterranea L.) grain yield in an intercropping system.
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[43]	Studies on response of kharif maize to different plant nutrients
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[44]	Zinc fractionation of soils of different parent materials and their relationships with some soil properties.
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[45]	Physiological Responses of Maize (Zea mays L.) to Copper (Cu) Induced Stress

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[3]	Exploring options for increasing maize yields and grain Zn concentrations in sub-Saharan Africa Plant and Soil, 2023 DOI:10.1007/s11104-023-05998-5

[4]	Soil zinc fertilisation does not increase maize yields in 17 out of 19 sites in Sub-Saharan Africa but improves nutritional maize quality in most sites Plant and Soil, 2023 DOI:10.1007/s11104-023-06050-2

[5]	Soil zinc fertilisation does not increase maize yields in 17 out of 19 sites in Sub-Saharan Africa but improves nutritional maize quality in most sites Plant and Soil, 2023 DOI:10.1007/s11104-023-06050-2

[6]	Microbiome-mediated nano-bioremediation of heavy metals: a prospective approach of soil metal detoxification International Journal of Environmental Science and Technology, 2023 DOI:10.1007/s13762-022-04684-w

[7]	Compositional nutrient diagnosis and associated yield predictions in maize: A case study in the northern Guinea savanna of Nigeria Soil Science Society of America Journal, 2023 DOI:10.1002/saj2.20472

[8]	Compositional nutrient diagnosis and associated yield predictions in maize: A case study in the northern Guinea savanna of Nigeria Soil Science Society of America Journal, 2022 DOI:10.1002/saj2.20472

[9]	Microbiome-mediated nano-bioremediation of heavy metals: a prospective approach of soil metal detoxification International Journal of Environmental Science and Technology, 2022 DOI:10.1007/s13762-022-04684-w

[10]	Microbiome-mediated nano-bioremediation of heavy metals: a prospective approach of soil metal detoxification International Journal of Environmental Science and Technology, 2022 DOI:10.1007/s13762-022-04684-w

[11]	Micronutrient deficiencies in African soils and the human nutritional nexus: opportunities with staple crops Environmental Geochemistry and Health, 2020 DOI:10.1007/s10653-019-00499-w

[12]	Response of Maize to Secondary Nutrients and Micronutrients in the Guinea Savanna of Nigeria Journal of Agronomy, 2020 DOI:10.3923/ja.2020.120.130

[13]	Evaluation of the foliar nutrition influence on selected quantitative and qualitative paprameters of sugar mayze (Zea mays SK saccharata) Potravinarstvo Slovak Journal of Food Sciences, 2020 DOI:10.5219/1194

[14]	Influence of Foliar Application of some Micronutrients on Maize Kernel Yield and Nutrient content Journal of Zankoy Sulaimani - Part A, 2020 DOI:10.17656/jzs.10809

[15]	Application of secondary nutrients and micronutrients increases crop yields in sub-Saharan Africa Agronomy for Sustainable Development, 2017 DOI:10.1007/s13593-017-0431-0

[16]	Occurrence of poorly responsive soils in western Kenya and associated nutrient imbalances in maize (Zea mays L.) Field Crops Research, 2017 DOI:10.1016/j.fcr.2017.05.015

[17]	Khả năng hấp thu vi lượng (Cu, Fe, Zn và Mn) của cây bắp lai ở các mô hình luân canh trên đất phù sa không bồi ở Đồng bằng sông Cửu Long Can Tho University Journal of Science, 2017 DOI:10.22144/ctu.jvn.2017.620

[18]	ROLE OF ZINC SULPHATE FOR MAIZE (ZEA MAYS L.) AND MUNGBEAN (VIGNA RADIATA L. WILCZEK) YIELD IMPROVEMENT: A REVIEW Bulletin of Biological and Allied Sciences Research, 2017 DOI:10.54112/bbasr.v2017i1.7

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