Maize grain yield and grain zinc concentration response to zinc fertilization: A meta-analysis

Zinc deficiency in agricultural soils is a current global agroecosystems challenge. Maize exhibits elevated susceptibility to Zn deficiency and low response to zinc fertilization. As a result, there are contradicting literature reports on the crop response to zinc fertilization. This meta-analysis s...

Full description

Bibliographic Details
Main Authors:	Mutambu, Dominic, Kihara, Job Maguta, Mucheru-Muna, Monicah, Bolo, Peter Omondi, Kinyua, Michael
Format:	Journal Article
Language:	Inglés
Published:	Elsevier 2023
Subjects:	maize yields zinc soil deficiencies soil quality data analysis micronutrient fertilizers
Online Access:	https://hdl.handle.net/10568/131827

_version_	1855533440529596416
author	Mutambu, Dominic Kihara, Job Maguta Mucheru-Muna, Monicah Bolo, Peter Omondi Kinyua, Michael
author_browse	Bolo, Peter Omondi Kihara, Job Maguta Kinyua, Michael Mucheru-Muna, Monicah Mutambu, Dominic
author_facet	Mutambu, Dominic Kihara, Job Maguta Mucheru-Muna, Monicah Bolo, Peter Omondi Kinyua, Michael
author_sort	Mutambu, Dominic
collection	Repository of Agricultural Research Outputs (CGSpace)
description	Zinc deficiency in agricultural soils is a current global agroecosystems challenge. Maize exhibits elevated susceptibility to Zn deficiency and low response to zinc fertilization. As a result, there are contradicting literature reports on the crop response to zinc fertilization. This meta-analysis synthesized the current evidence on maize response to zinc fertilization from different studies and highlighted the potential innovations to improve the crop response to zinc application. Systematic literature searches were conducted on the Web of Science and Google Scholar for peer-reviewed publications. From the selected publications, data extracted were maize grain yield and maize grain zinc concentration. The meta-analysis was conducted in R statistical environment using the metafor package. The ratio of means was the chosen effect size measure used. The assessment of effect size heterogeneity showed that the study effect sizes were significantly heterogeneous and also publication bias was evident. The analysis showed 17% and 25% maize grain yield and grain zinc concentration response to zinc fertilization. As a result, zinc fertilization was associated with yield increments of up to 1 t ha-1 and 7.19 mg kg-1 grain zinc concentration over the control (no zinc application). Despite the observed maize grain response to zinc application, the median concentration of grain Zn was below the 38 mg kg-1 recommended maize grain zinc concentration to combat human zinc deficiency (hidden hunger). As a result, potential innovations likely to achieve sufficient maize grain zinc content were highlighted including the use of nano-particulate zinc oxide, foliar zinc application, timing of zinc application, precision fertilization and zinc micro-dosing. Due to scanty literature on the progress of these innovations in maize, follow-up studies are recommended to evaluate their potential success in the agronomic bio-fortification of maize with zinc.
format	Journal Article
id	CGSpace131827
institution	CGIAR Consortium
language	Inglés
publishDate	2023
publishDateRange	2023
publishDateSort	2023
publisher	Elsevier
publisherStr	Elsevier
record_format	dspace
spelling	CGSpace1318272025-11-11T19:00:37Z Maize grain yield and grain zinc concentration response to zinc fertilization: A meta-analysis Mutambu, Dominic Kihara, Job Maguta Mucheru-Muna, Monicah Bolo, Peter Omondi Kinyua, Michael maize yields zinc soil deficiencies soil quality data analysis micronutrient fertilizers Zinc deficiency in agricultural soils is a current global agroecosystems challenge. Maize exhibits elevated susceptibility to Zn deficiency and low response to zinc fertilization. As a result, there are contradicting literature reports on the crop response to zinc fertilization. This meta-analysis synthesized the current evidence on maize response to zinc fertilization from different studies and highlighted the potential innovations to improve the crop response to zinc application. Systematic literature searches were conducted on the Web of Science and Google Scholar for peer-reviewed publications. From the selected publications, data extracted were maize grain yield and maize grain zinc concentration. The meta-analysis was conducted in R statistical environment using the metafor package. The ratio of means was the chosen effect size measure used. The assessment of effect size heterogeneity showed that the study effect sizes were significantly heterogeneous and also publication bias was evident. The analysis showed 17% and 25% maize grain yield and grain zinc concentration response to zinc fertilization. As a result, zinc fertilization was associated with yield increments of up to 1 t ha-1 and 7.19 mg kg-1 grain zinc concentration over the control (no zinc application). Despite the observed maize grain response to zinc application, the median concentration of grain Zn was below the 38 mg kg-1 recommended maize grain zinc concentration to combat human zinc deficiency (hidden hunger). As a result, potential innovations likely to achieve sufficient maize grain zinc content were highlighted including the use of nano-particulate zinc oxide, foliar zinc application, timing of zinc application, precision fertilization and zinc micro-dosing. Due to scanty literature on the progress of these innovations in maize, follow-up studies are recommended to evaluate their potential success in the agronomic bio-fortification of maize with zinc. 2023-05 2023-09-12T08:50:28Z 2023-09-12T08:50:28Z Journal Article https://hdl.handle.net/10568/131827 en Open Access application/pdf Elsevier Mutambu, D.; Kihara, J.; Mucheru-Muna, M.; Bolo, P.; Kinyua, M. (2023) Maize grain yield and grain zinc concentration response to zinc fertilization: A meta-analysis. Heliyon 9(5): e16040. ISSN: 2405-8440
spellingShingle	maize yields zinc soil deficiencies soil quality data analysis micronutrient fertilizers Mutambu, Dominic Kihara, Job Maguta Mucheru-Muna, Monicah Bolo, Peter Omondi Kinyua, Michael Maize grain yield and grain zinc concentration response to zinc fertilization: A meta-analysis
title	Maize grain yield and grain zinc concentration response to zinc fertilization: A meta-analysis
title_full	Maize grain yield and grain zinc concentration response to zinc fertilization: A meta-analysis
title_fullStr	Maize grain yield and grain zinc concentration response to zinc fertilization: A meta-analysis
title_full_unstemmed	Maize grain yield and grain zinc concentration response to zinc fertilization: A meta-analysis
title_short	Maize grain yield and grain zinc concentration response to zinc fertilization: A meta-analysis
title_sort	maize grain yield and grain zinc concentration response to zinc fertilization a meta analysis
topic	maize yields zinc soil deficiencies soil quality data analysis micronutrient fertilizers
url	https://hdl.handle.net/10568/131827
work_keys_str_mv	AT mutambudominic maizegrainyieldandgrainzincconcentrationresponsetozincfertilizationametaanalysis AT kiharajobmaguta maizegrainyieldandgrainzincconcentrationresponsetozincfertilizationametaanalysis AT mucherumunamonicah maizegrainyieldandgrainzincconcentrationresponsetozincfertilizationametaanalysis AT bolopeteromondi maizegrainyieldandgrainzincconcentrationresponsetozincfertilizationametaanalysis AT kinyuamichael maizegrainyieldandgrainzincconcentrationresponsetozincfertilizationametaanalysis

Maize grain yield and grain zinc concentration response to zinc fertilization: A meta-analysis

Similar Items