Brazilian Genetic Diversity for Desirable and Undesirable Elements in the Wheat Grain

Brazilian Genetic Diversity for Desirable and Undesirable Elements in the Wheat Grain

Micronutrient deficiency affects billions of people, especially in countries where the diet is low in diversity with inadequate consumption of fruits, vegetables, and animal-source foods, and higher consumption of staple food, i.e., cereals, that have low concentrations of micronutrients. Genetic bi...

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Bibliographic Details
Published in:Biological trace element research Vol. 199; no. 6; pp. 2351 - 2365
Main Authors: Maltzahn, Latóia Eduarda, Zenker, Stefânia Garcia, Lopes, Jennifer Luz, Pereira, Rodrigo Mendes, Verdi, Cezar Augusto, Rother, Vianei, Busanello, Carlos, Viana, Vívian Ebeling, Batista, Bruno Lemos, de Oliveira, Antonio Costa, Pegoraro, Camila
Format: Journal Article
Language:English
Published: New York Springer US 01-06-2021
Springer Nature B.V
Subjects:
Accumulation
Animal-based foods
Arsenic
Bioaccumulation
Biochemistry
Biomedical and Life Sciences
Biotechnology
Breeding
Cadmium
Cereals
Copper
Food
Food consumption
Food safety
Food sources
Genetic diversity
Genetic variability
Genetic variation
Genotypes
Grain
Health risks
Iron
Life Sciences
Low concentrations
Manganese
Micronutrients
Nutrient deficiency
Nutrition
Oncology
Security
Selenium
Wheat
Zinc
Brazil
Toxic element
Germplasm
Mineral element
Triticum aestivum
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Summary:Micronutrient deficiency affects billions of people, especially in countries where the diet is low in diversity with inadequate consumption of fruits, vegetables, and animal-source foods, and higher consumption of staple food, i.e., cereals, that have low concentrations of micronutrients. Genetic biofortification is a strategy to mitigate this problem and ensure nutritional security. Wheat is a target of genetic biofortification since it contributes significantly to the caloric requirement. The biofortification process involves a screening related to the presence of genetic variability for grain mineral content. Also, the accumulation of toxic elements must be considered to ensure food safety, because if ingested above the allowed concentrations, it represents health risks. In this sense, this study aimed to quantify the micronutrients iron, zinc, copper, selenium, and manganese and toxic elements arsenic and cadmium in a Brazilian wheat panel grown in Southern Brazil. The presence of genetic variability for the accumulation of micronutrients in the grain was detected; however, we observed that only the copper and manganese accumulation meet the human daily requirements. Iron, zinc, and selenium were detected in insufficient concentration to meet the daily demand. Arsenic and cadmium accumulation were not detected in wheat grain. The wheat genotypes grown in Brazil displayed a similar profile to that found in other countries which may be due to common high-yield breeding goals and the narrowing of the genetic variability, observed worldwide. Thus, the wheat genetic biofortification success in Brazil depends on the introduction of foreign genotypes, landraces, and wild relatives.
ISSN:0163-4984
1559-0720
DOI:10.1007/s12011-020-02338-x