Author:
Genc Yusuf,McDonald Glenn K.,Graham Robin D.
Abstract
Worldwide, barley is often grown on zinc (Zn) deficient soils. Screening for
varieties tolerant of low soil Zn (Zn-efficient varieties) generally involves
assessing growth or yield of plants grown at different levels of Zn supply.
Seed nutrient reserves can influence the growth of the plant; however, there
have been no reports on the effect of seed Zn content on the growth of barley.
In 2 experiments, we studied the effect of seed Zn content on early growth of
barley in 2 genotypes, Amagi Nijo and Tantangara. In Expt 1, the amounts of Zn
in the seed ranged from 0.4 to 0.7 µg/seed, whereas in Expt 2, seed
Zn ranged from 0.7 to 5.0 µg/seed. The plants were grown in a
Zn-deficient siliceous sand with Zn added at 0, 0.04, 0.2, 0.8, and 3.2 mg
Zn/kg soil in Expt 1 and at 0, 0.04, and 0.8 mg Zn/kg soil in Expt 2,
and harvested at tillering. Growth and expression of visual symptoms were
measured.
Plants grown from seed with low Zn content developed symptoms of Zn deficiency
by the 2-leaf stage in soil with no soil-applied Zn. Symptoms were reduced
markedly as seed Zn content increased. Shoot and root growth increased as the
amount of Zn in seed increased, but the effect was most evident when soil Zn
supply was limiting plant growth (≤0.04 mg Zn/kg soil). For instance,
when no Zn was added to the soil, shoot dry weight of plants grown from
high-Zn seed was 108% greater than that of plants grown from low-Zn
seed, whereas at 0.04 and 0.8 mg Zn/kg soil, the increases were only
52% and 18%, respectively. Soil Zn application significantly
increased tissue Zn concentrations. However, the effect of seed Zn content on
tissue Zn concentrations was significant only at very high levels of seed Zn.
The results presented showed that seed Zn improves vegetative growth in
barley, especially when Zn supply is deficient for plant growth. Seed Zn
content also affected the determination of Zn efficiency of genotypes, and
comparisons of dry matter production of seedlings grown from seed with a wide
range in Zn content may alter their rankings for Zn efficiency as determined
in this pot assay. The results indicate that seed of similar Zn content needs
to be used when comparing genotypes for determination of Zn efficiency.
Subject
General Agricultural and Biological Sciences
Cited by
32 articles.
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