Spatial Prediction of the Concentration of Selenium (Se) in Grain Across Part of Amhara Region, Ethiopia

Overview

Journal Sci Total Environ

Date 2020 May 24

PMID 32446063

Citations 16

Authors

D Gashu

R M Lark

A E Milne

T Amede

E H Bailey

C Chagumaira

S J Dunham

S Gameda

D B Kumssa

A W Mossa

M G Walsh

L Wilson

S D Young

E L Ander

M R Broadley

E J M Joy

S P McGrath

Affiliations

Soon will be listed here.

Abstract

Grain and soil were sampled across a large part of Amhara, Ethiopia in a study motivated by prior evidence of selenium (Se) deficiency in the Region's population. The grain samples (teff, Eragrostis tef, and wheat, Triticum aestivum) were analysed for concentration of Se and the soils were analysed for various properties, including Se concentration measured in different extractants. Predictive models for concentration of Se in the respective grains were developed, and the predicted values, along with observed concentrations in the two grains were represented by a multivariate linear mixed model in which selected covariates, derived from remote sensor observations and a digital elevation model, were included as fixed effects. In all modelling steps the selection of predictors was done using false discovery rate control, to avoid over-fitting, and using an α-investment procedure to maximize the statistical power to detect significant relationships by ordering the tests in a sequence based on scientific understanding of the underlying processes likely to control Se concentration in grain. Cross-validation indicated that uncertainties in the empirical best linear unbiased predictions of the Se concentration in both grains were well-characterized by the prediction error variances obtained from the model. The predictions were displayed as maps, and their uncertainty was characterized by computing the probability that the true concentration of Se in grain would be such that a standard serving would not provide the recommended daily allowance of Se. The spatial variation of grain Se was substantial, concentrations in wheat and teff differed but showed the same broad spatial pattern. Such information could be used to target effective interventions to address Se deficiency, and the general procedure used for mapping could be applied to other micronutrients and crops in similar settings.

Citing Articles

Burden of selenium deficiency and cost-effectiveness of selenium agronomic biofortification of staple cereals in Ethiopia.

Oumer A, Joy E, De Groote H, Broadley M, Gashu D Br J Nutr. 2024; 132(8):1110-1122.

PMID: 39479900 PMC: 11600287. DOI: 10.1017/S0007114524001235.

Maternal selenium deficiency was positively associated with the risk of selenium deficiency in children aged 6-59 months in rural Zimbabwe.

Mutonhodza B, Manzeke-Kangara M, Bailey E, Matsungo T, Chopera P PLOS Glob Public Health. 2024; 4(7):e0003376.

PMID: 38990831 PMC: 11239066. DOI: 10.1371/journal.pgph.0003376.

Urine Se concentration poorly predicts plasma Se concentration at sub-district scales in Zimbabwe, limiting its value as a biomarker of population Se status.

Mutonhodza B, Dembedza M, Joy E, Manzeke-Kangara M, Njovo H, Nyadzayo T Front Nutr. 2024; 11:1288748.

PMID: 38385014 PMC: 10879291. DOI: 10.3389/fnut.2024.1288748.

Examining energy and nutrient production across the different agroecological zones in rural Ethiopia using statistical methods.

Guja H, Belgiu M, Embibel L, Baye K, Stein A Food Sci Nutr. 2023; 11(12):7565-7580.

PMID: 38107096 PMC: 10724589. DOI: 10.1002/fsn3.3676.

Dietary selenium intake among Ethiopian children in areas known for selenium spatial variability.

Hailu K, Joy E, Ferguson E, Bailey E, Wilson L, Davis K Front Nutr. 2023; 10:1250002.

PMID: 37908299 PMC: 10613729. DOI: 10.3389/fnut.2023.1250002.

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