Impact of ancestral wheat sodium exclusion genes Nax1 and Nax2 on grain yield of durum wheat on saline soils.

Autor: James, Richard A., Blake, Carol, Zwart, Alexander B., Hare, Ray A., Rathjen, Anthony J., Munns, Rana
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Zdroj: Functional Plant Biology; Jul2012, Vol. 39 Issue 7, p609-618, 10p, 5 Charts
Abstrakt: Nax1 and Nax2 are two genetic loci that control the removal of Na[sup +] from the xylem and thereby help to exclude Na[sup +] from leaves of plants in saline soil. They originate in the wheat ancestral relative Triticum monococcum L. and are not present in modern durum or bread wheat. The Nax1 and Nax2 loci carry TmHKT1; 4-A2 and TmHKT1; 5-A, respectively, which are the candidate genes for these functions. This paper describes the development of near-isogenic breeding lines suitable for assessing the impact of the Nax loci and their performance in controlled environment and fields of varying salinity. In young plants grown in 150 mM NaCl, Nax1 reduced the leaf Na[sup +] concentration by 3-fold, Nax2 by 2-fold and both Nax1 and Nax2 together by 4-fold. In 250 mM NaCl, Nax1 promoted leaf longevity and greater photosynthesis and stomatal conductance. In the uppermost leaf, the Na[sup +]-excluding effect of the Nax loci was much stronger. In the field, Na[sup +] in the flag leaf was reduced 100-fold by Nax1 and 4-fold by Nax2; however, Nax1 lines yielded 5-10% less than recurrent parent (cv. Tamaroi) in saline soil. In contrast, Nax2 lines had no yield penalty and at high salinity they yielded close to 25% more than Tamaroi, indicating this material is suitable for breeding commercial durum wheat with improved yield on saline soils. Soil salinity is a major limitation on the growth and yield of all crop species, but especially of durum wheat, which lacks the ability to reduce sodium uptake into its leaves. This study describes the development of durum wheat breeding lines containing salt tolerance loci Nax1 and Nax2 and their performance in controlled environment and in fields of varying salinity. Results showed that enhanced sodium exclusion capability associated with Nax2 resulted in improved grain yields of up to 25% in soils with high salinity. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index
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