A review of zinc nutrition and plant breeding - (对锌营养和植物育种,).pdf
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Journal of Soil Science and Plant Nutrition. 2013, 13 (4), 905-927
A review of zinc nutrition and plant breeding
B. Sadeghzadeh 1,2
1Soil Science and Plant Nutrition, Faculty of Natural and Agricultural Sciences, University of Western Australia, Crawley WA
2
6009, Australia. Dryland Agricultural Research Institute (DARI), Maragheh, Iran. Corresponding author: Behzada4@
Abstract
Plants require the proper balance of zinc (Zn) for normal growth and optimum yield. Interest in Zn has risen
in the last decade because Zn deficiency stress is extensive in many areas, causing decreases in crop yields. Zn
deficiency also decreases the amount of Zn in cereal grain and diminishes its nutritional quality. Hence, increasing
the Zn content of the edible portions of crops should be considered in plant breeding. Available data indicate that
Zn enrichment traits are present within the genomes of crops that could allow for substantial increases in the Zn
concentration of edible parts without negatively impacting yield. Increasing the amount of Zn in food crops can
improve the Zn status of people. Furthermore, the use of Zn-dense seeds results in greater seedling vigor and
increased crop yields when the seeds are sown in Zn-poor soils. Progress toward developing mineral-dense seed has
mainly relied upon conventional plant breeding approaches, a process that is labor-intensive and time-consuming.
Hence, the identification of DNA markers that are diagnostic of Zn efficiency can accelerate the development of
cultivars that can remain productive even in Zn-deficient soils. Additionally, these markers may be used to begin
identifying the specific genes responsible for differences in the response of genotypes to Zn deficiency.
Keywords: Zinc deficiency, genotypic variation, breeding, olecular markers
1. Introduction
Zinc (Zn) deficiency is the most widespread a
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