Soil zinc fertilisation does not increase maize yields but improves nutritional quality

Eynde, Elise Van; Breure, Mirjam S.; Chikowo, Régis; Njoroge, Samuel; Comans, R.N.J.; Hoffland, Ellis

doi:10.21203/rs.3.rs-2113596/v1

2022

DOI: 10.21203/rs.3.rs-2113596/v1

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Soil zinc fertilisation does not increase maize yields but improves nutritional quality

Elise Van Eynde

Mirjam S. Breure²,

Régis Chikowo³

et al.

Abstract: AIMS Fertilisation of crops with zinc (Zn) is considered important to enhance agricultural productivity and combat human deficiencies in sub-Saharan Africa. However, it is unclear on which soils Zn fertilisation can lead to higher yields and increased grain Zn concentrations. This study aimed to find soil properties that predict where soil Zn is limiting maize yields and grain Zn concentrations, and where these respond positively to Zn fertilisation. METHODS Zinc omission trials were set up at multiple farm lo… Show more

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2023

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Exploring options for increasing maize yields and grain Zn concentrations in sub-Saharan Africa

Breure

Njoroge²,

Pasley

et al. 2023

Plant Soil

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Background Increasing zinc (Zn) concentrations in maize grains could contribute to alleviating widespread human Zn deficiency in sub-Saharan Africa (SSA). However, trade-offs between grain Zn concentrations and maize yields have been observed. Scope Using data from researcher-managed, on-farm and on-station field trials in Kenya, Zambia and Zimbabwe, we aimed (i) to confirm whether this trade-off is found in current farming systems in SSA and (ii) to explore whether genotypic and management options, relevant for the African context, can increase both yields and grain Zn concentrations across several environments. Results An overall negative, but weak relation between maize yields and grain Zn concentrations was found. High yields and high grain Zn concentrations did not co-occur. The negative relation between grain Zn concentrations and yields cannot be bypassed by selecting one of the commercially available varieties used in this study. Nitrogen application increased yields, but had contrasting effects on grain Zn concentrations depending on variety and site. Grain Zn concentrations were positively related with soil organic carbon and P and K availability. Conclusions Attaining grain Zn concentrations above the HarvestPlus target of 38 mg kg−1, considered adequate for reducing human Zn deficiency, with current commercially available maize varieties and presented management options, is not possible without compromising yield levels. Increasing soil organic matter content and balanced application of N, P and K fertilisers could increase grain Zn concentrations. These practices likely will also increase yields and could be a viable option to bypass the trade-off between maize yields and grain Zn concentrations.

show abstract

Exploring options for increasing maize yields and grain Zn concentrations in sub-Saharan Africa

Breure

Njoroge²,

Pasley

et al. 2023

Plant Soil

View full text Add to dashboard Cite

show abstract

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Soil zinc fertilisation does not increase maize yields but improves nutritional quality

Cited by 1 publication

References 87 publications

Exploring options for increasing maize yields and grain Zn concentrations in sub-Saharan Africa

Exploring options for increasing maize yields and grain Zn concentrations in sub-Saharan Africa

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