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Variation in growth and ion accumulation between two selected populations of Trifolium repens L. differing in salt tolerance

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Abstract

Two divergent populations of T. repens cv. Haifa developed from two generations of recurrent selection for shoot chloride concentration, were grown in the greenhouse at 0 and 40 mol m−3 NaCl. Over two harvest cycles at 40 mol m−3 NaCl, the population selected for a low concentration of chloride in the shoot maintained a significantly lower chloride and sodium concentration compared with those plants selected for a high shoot chloride concentration. The distribution of chloride in the shoots was further examined in a subsample of plants from both populations. In all plants, concentrations of chloride were lower in the expanding and fully expanded leaves than in the older leaf tissue or petioles.

While there were no significant differences in the photosynthetic rates between lines, shoot yields and relative leaf expansion rates were higher in the low chloride population. Plant death was greater in plants selected for high shoot chloride. These results suggest that selections based on measurements of low shoot chloride concentrations may be successful in developing a cultivar of T. repens with improved salt tolerance.

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References

  • Abel G H 1969 Inheritance of the capacity for chloride inclusion and chloride exclusion by soybeans. Crop Sci. 9, 697–698.

    Google Scholar 

  • Ab-Shukor N A, Kay Q O N, Stevens D P and Skibinski D O F 1988 Salt tolerance in natural populations of Trifolium repens L. New Phytol. 109, 483–490.

    Google Scholar 

  • Burdon J J 1980 Intra-specific diversity in a natural population of Trifolium repens. J. Ecol. 68, 717–735.

    Google Scholar 

  • Carlson G E 1966 Growth of clover leaves: Developmental morphology and parameters at ten stages. Crop Sci. 6, 293–294.

    Google Scholar 

  • Downton W J S 1977 Photosynthesis in salt-stressed grape leaves. Aust. J. Plant Physiol. 4, 183–192.

    Google Scholar 

  • Gauch H G and Magistad O C 1943 Growth of strawberry clover varieties and of alfalfa and ladino clovers as affected by salt. J. Am. Soc. Agron. 35, 871–880.

    Google Scholar 

  • Greenway H and Munns R 1980 Mechanisms of salt tolerance in nonhalophytes. Annu. Rev. Plant Physiol. 31, 149–190.

    Google Scholar 

  • Hannon N J and Barber H N 1972 The mechanism of salt tolerance in naturally selected populations of grasses. Search 3, 259–260.

    Google Scholar 

  • Karmoker J L and VanSteveninck R F M 1978 Stimulation of volume flow and ion flux by abscisic acid in excised root systems of Phaseolus vulgaris L. cv. Redland Pioneer. Planta 141, 37–43.

    Google Scholar 

  • Läuchli A 1984 Salt exclusion; an adaptation of legumes for crops and pastures under saline conditions. In Salinity Tolerance in Plants: Strategies for Crop Improvement. Ed. R C Staples. pp 171–187. Wiley, New York.

    Google Scholar 

  • Läuchli A and Wieneke J 1979 Studies on the growth and distribution of Na+, K+ and Cl- in soybean varieties differing in salt tolerance. Z. Pflanzenernaehr. Bodenkd. 124, 3–13.

    Google Scholar 

  • Noble C L and Shannon M C 1987 Strategies for irrigation of white clover with saline water on the heavy clay soils of northern Victoria. Proc. Fourth Aust. Agron. Conf. Melbourne, 305 p.

  • Noble C L, Halloran G M and West D W 1984 Identification and selection for salt tolerance in lucerne (Medicago sativa L.). Aust. J. Agric. Res. 35, 239–252.

    Google Scholar 

  • Rawson H M, Richards R A and Munns R 1988 An examination of selection criteria for salt tolerance in wheat, barley and triticale genotypes. Aust. J. Agric. Res. 39, 759–772.

    Google Scholar 

  • Robinson S P, Downton W J S and Millhouse J A 1983 Photosynthesis and ion content of leaves and isolated chloroplasts of salt-stressed spinach. Plant Physiol. 73, 238–242.

    Google Scholar 

  • Smith M K and McComb J A 1981 Use of callus cultures to detect NaCl tolerance in cultivars of three species of pasture legumes. Aust. J. Plant Physiol. 8, 437–442.

    Google Scholar 

  • Williams R F, Evans L T and Ludwig L J 1964 Estimation of leaf area for clover and lucerne. Aust. J. Agric. Res. 15, 231–233.

    Google Scholar 

  • Winter E 1982 Salt tolerance of Trifolium alexandrinum L. II. Ion balance in relation to its salt tolerance. Aust. J. Plant Physiol. 9, 227–237.

    Google Scholar 

  • Yeo A R and Flowers T J 1982 Accumulation and localisation of sodium ions within the shoots of rice (Oryza sativa) varieties differing in salt resistance. Physiol. Plant. 56, 343–348.

    Google Scholar 

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Authors and Affiliations

  1. Institute for Sustainable Agriculture, 3616, Tatura, Vic., Australia

    M. E. Rogers & C. L. Noble

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  1. M. E. Rogers
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  2. C. L. Noble
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Rogers, M.E., Noble, C.L. Variation in growth and ion accumulation between two selected populations of Trifolium repens L. differing in salt tolerance. Plant Soil 146, 131–136 (1992). https://doi.org/10.1007/BF00012005

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