Nano- and Pheroid technologies for development of foliar iron fertilizers and iron biofortification of soybean grown in South Africa

Nano- and Pheroid technologies for development of foliar iron fertilizers and iron biofortification of soybean grown in South Africa

Background Foliar iron (Fe) fertilization of crops may increase Fe concentrations in edible portions of plants and improve yield in soils with low available Fe. However, the role of foliar Fe fertilization in increasing seed Fe has not been studied in soybeans ( Glycine max ). In this study, the Phe...

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Bibliographic Details
Published in:Chemical and biological technologies in agriculture Vol. 5; no. 1; pp. 1 - 10
Main Authors: Knijnenburg, Jesper T. N., Hilty, Florentine M., Oelofse, Janro, Buitendag, Riaan, Zimmermann, Michael B., Cakmak, Ismail, Grobler, Anne F.
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 20-12-2018
Springer Nature B.V
SpringerOpen
Subjects:
Agricultural production
Agriculture
Biofortification
Biomedical and Life Sciences
Citric acid
Crop yield
Crops
Fertilization
Fertilizers
Foliar application
Glycine max
Incompatibility
Iron
Iron phosphates
Iron sulfates
Life Sciences
Microscopy
Nanotechnology
Nutrients
Optical microscopy
Organic Chemistry
Pheroids
Phytic acid
Plant Biochemistry
Plant Physiology
Precipitates
Proteins
Seeds
Soil improvement
Soil Science & Conservation
Soybean
Soybeans
Zinc
South Africa
Pheroids
Biofortification
Foliar application
Iron
Soybean
Nanotechnology
Fertilizer
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Summary:Background Foliar iron (Fe) fertilization of crops may increase Fe concentrations in edible portions of plants and improve yield in soils with low available Fe. However, the role of foliar Fe fertilization in increasing seed Fe has not been studied in soybeans ( Glycine max ). In this study, the Pheroid ® nutrient delivery technology was combined with FeSO 4 or nanostructured FePO 4 to develop potential new Fe foliar fertilizers. Eight different treatments including different combinations of FeSO 4 and Pheroids were foliarly applied on field-grown soybeans in Northern Cape province in South Africa to investigate their influence on seed nutrient composition and yield. Results Confocal and optical microscopy images indicate that FeSO 4 or FePO 4 was not entrapped in the Pheroids but formed separate precipitates. The average seed Fe of the non-treated plants was 56 ± 3 mg kg −1 , and none of the treatments (including the positive controls, FeSO 4 and FeSO 4 with citrate) significantly increased seed Fe over the control. There was also no significant change in yield or seed Zn, P, protein, or phytic acid. Thus, Pheroids as well as FeSO 4 are not suitable as delivery system for Fe to soybean seeds due to Pheroid incompatibility with FeSO 4 and poor dispersibility of FePO 4 . Conclusions Because none of the Fe treatments (including positive controls) affected seed Fe concentrations, foliar Fe application may not be effective to increase seed Fe in crops such as soybean that already have high native Fe.
ISSN:2196-5641
2196-5641
DOI:10.1186/s40538-018-0138-8