Indian Journal of Genetics and Plant Breeding (The)
Year : 2023, Volume : 83, Issue : 4
First page : ( 476) Last page : ( 481)
Print ISSN : 0019-5200. Online ISSN : 0975-6906.
Article DOI : 10.31742/ISGPB.83.4.3

Assessment of variation among cultivated wheat species for plant nutrient strata under salinity conditions

Malipatil Srivijay S.^$, Biradar Suma S., Desai S. A., Gundlur S. S.¹, Singh S. K.^2,*, Jaggal Lalitha, Tippimath Sadashiva³

Department of Plant Breeding and Genetics, University of Agricultural Sciences, Dharwad, Karnataka, India

¹Department of Soil Science & Agricultural Chemistry, University of Agricultural Sciences, Dharwad, Karnataka, India

²Division of Genetics, ICAR-Indian Agricultural Research Institute, New Delhi, 110 012, India

^$Present address, Department of Genetics & Plant Breeding, KSN University of Agricultural and Horticultural Science, Shivamoga, 577 201, Karnataka, India

³Department of Entomology, KSN University of Agricultural and Horticultural Science, Shivamoga, 577 201, Karnataka, India

^*Corresponding Author: S. K. Singh, Division of Genetics, ICAR-IARI, New Delhi, 110 012, India, E-mail: sksingh.dwr@gmail.com

Online Published on 01 February, 2024.

Abstract

Six wheat genotypes, two each of bread wheat (UAS BW-13897 and LBPY 2014-5), Triticum durum (GW 2010-679 and UAS DW-31403) and T. dicoccum (DIC 99 and DIC 26) were grown under natural saline and control conditions to observe the existence of ion discrimination, ion selectivity amenable to ion regulation and ion interactions among them. Bread wheat genotype, UAS BW-13897 showed a high K⁺ and K⁺/Na⁺ ratio at the harvesting stage under saline condition indicating its high salt tolerance. Contrary to it, T. durum genotype, UAS DW-31403 was found to be highly salt-sensitive due to its low K⁺/Na⁺ ratio and high Na⁺ absorption. Bread wheat genotypes were found most salt-tolerant due to better exclusion of Na⁺ salt, with negligible reduction in grain yield, spike length, SPAD and number of grains per spike. The salt exclusion was found less apparent in T. durum and T. dicoccum wheat likely due to the absence of the D genome and Kna1 gene, which is present in bread wheat and not in the two tetraploid species. Durum wheat was observed to be most sensitive with low salt exclusion capacity, whereas T. dicoccum wheat was found intermediate between bread and durum wheat with medium salt exclusion capacity. The study revealed a difference in type and level of salt tolerance in different species and genotypes that established high Na⁺ salt exclusion capacity as one of the important selection criteria for salt tolerance.

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Keywords

Bread wheat, Durum wheat, Dicoccum wheat, Salinity tolerance, Sodium exclusion.

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