Access the full text.
Sign up today, get DeepDyve free for 14 days.
M. Ashraf, H. Fatima (1994)
Intra‐specific Variation for Salt Tolerance in Linseed (Linum usitatissimum L.)Journal of Agronomy and Crop Science, 173
H. Greenway, R. Munns (1980)
Mechanisms of salt tolerance in nonhalophytes.Annual Review of Plant Biology, 31
C. Suhayda, R. Redmann, B. Harvey, A. Cipywnyk (1992)
Comparative Response of Cultivated and Wild Barley Species to Salinity Stress and Calcium SupplyCrop Science, 32
M. Ashraf, J. O'leary (1996)
Responses of Some Newly Developed Salt‐tolerant Genotypes of Spring Wheat to Salt Stress: 1. Yield Components and Ion DistributionJournal of Agronomy and Crop Science, 176
Z. Rengel (1992)
The role of calcium in salt toxicityPlant Cell and Environment, 15
S. Allen, A. Dobrenz, M. Schonhorst, J. Stoner (1985)
Heritability of NaCl Tolerance in Germinating Alfalfa SeedsAgronomy Journal, 77
Noble Noble, Halloran Halloran, West West (1984)
Identification and selection for salt tolerance in lucern ( Medicago saliva L.)Aust. J. Agric. Res., 35
R. Jones, J. Gorham (1986)
The Potential for Enhancing the Salt Tolerance of Wheat and Other Important Crop PlantsOutlook on Agriculture, 15
L. Kent, A. Läuchli (1985)
Germination and seedling growth of cotton: salinity‐calcium interactionsPlant Cell and Environment, 8
M. Ashraf, J. O'leary (1994)
Ion distribution in leaves of varying age in salt‐tolerant lines of alfalfa under salt stressJournal of Plant Nutrition, 17
Hannon Hannon, Barber Barber (1972)
The mechanism of salt tolerance in naturally selected populations of grassesSearch, 3
M. Ashraf, T. McNeilly (1988)
Variability in Salt Tolerance of Nine Spring Wheat CultivarsJournal of Agronomy and Crop Science, 160
R. Wildes, T. Neales (1971)
Maintenanance of Viability of Carrot Tissue Slices in Washing Solutions After CuttingAustralian Journal of Biological Sciences, 24
Greenway Greenway, Munns Munns (1980)
Mechanisms of salt tolerance in non‐halophytesAnn. Rev. Plant Physiol., 31
R. Kingsbury, E. Epstein (1984)
Selection for Salt-Resistant Spring Wheat1Crop Science, 24
H. Greenway (1965)
Plant Response to Saline Substrates VII. Growth and Ion Uptake Throughout Plant Development in Two Varieties of Hordeum VulgareAustralian Journal of Biological Sciences, 18
A. Ayers, J. Brown, C. Wadleigh (1952)
Salt Tolerance of Barley and Wheat in Soil Plots Receiving Several Salinization Regimes1Agronomy Journal, 44
Blum Blum (1985)
Breeding crop varieties for stress environmentsCRC Crit. Rev. Plant Sci., 2
C. Noble, G. Halloran, D. West (1984)
Identification and selection for salt tolerance in lucerne (Medicago sativa L.)Crop & Pasture Science, 35
Qureshi Qureshi, Ahmad Ahmad, Ilyas Ilyas, Aslam Aslam (1980)
Screening of wheat ( Triticum aestivum L.) for salt tolerancePak J. Agric. Sci., 17
H. Greenway (1962)
Plant Response to Saline Substrates II. Chloride, Sodium, and Potassium Uptake and Translocation in Young Plants of Hordeum Vulgare During and After a Short Sodium Chloride TreatmentAustralian Journal of Biological Sciences, 15
Abraham Blum, Wayne Jordan (1985)
Breeding crop varieties for stress environmentsCritical Reviews in Plant Sciences, 2
M. Shannon (1978)
Testing Salt Tolerance Variability Among Tall Wheatgrass Lines1Agronomy Journal, 70
T. Gibson, J. Speirs, C. Brady (1984)
Salt-tolerance in plants. II: In vitro translation of m-RNAs from salt-tolerant and salt-sensitive plants on wheat germ ribosomes. Responses to ions and compatible organic solutesPlant Cell and Environment, 7
Akbar Akbar, Yabuno Yabuno (1974)
Breeding for saline resistant varieties of rice. I. Comparative performance of some rice varieties to salinity during early developmental stagesJapan. J. Breed., 24
Ashraf Ashraf, McNeilly McNeilly, Bradshaw Bradshaw (1986)
The response to NaCl and ionic content of selected salt tolerant and normal lines of three legume forage species in sand cultureNew Phytol., 104
G. Cramer, G. Alberico, C. Schmidt (1994)
Salt tolerance is not associated with the sodium accumulation of two maize hybridsAustralian Journal of Plant Physiology, 21
Bernstein Bernstein, Hayward Hayward (1958)
Physiology of salt toleranceAnnu. Rev. Plant Physiol., 9
M. Ashraf (1994)
Breeding for Salinity Tolerance in PlantsCritical Reviews in Plant Sciences, 13
Ashraf Ashraf, Fatima Fatima (1995)
Responses of salt‐tolerant and salt‐sensitive lines of safflower ( Carthamus tinctorius L.) to salt stressActa Physiol. Plant., 17
Akbar Muhammad, T. Yabuno (1974)
Breeding for Saline-resistant Varieties of Rice : II. Comparative Performance of Some Rice Varieties to Salinity During Early Development StagesBreeding Science, 24
J. Norlyn (1979)
Breeding salt-tolerant crop plants.Basic life sciences, 14
M. Ashraf, J. O'leary (1994)
Does pattern of ion accumulation vary in alfalfa at different growth stagesJournal of Plant Nutrition, 17
A. Bernstein, H. Hayward (1958)
Physiology of Salt ToleranceAnnual Review of Plant Biology, 9
A salt‐tolerant line, S24, of spring wheat was compared with a salt‐sensitive line, Yecora Rojo, in sand cultures at four different growth stages, i.e. germination, seedling, tillering and booting, under greenhouse conditions. The NaCl treatments used were 0 or 125 mol m−3 in full strength Hoagland's nutrient solution. S24 exceeded Yecora Rojo in biomass or grain yield at the tillering and booting stages, but these lines did not differ at the initial growth stages, i.e. germination and seedling. The growth performance of the two lines at different growth stages was positively related to the pattern of accumulation of cations and anions. The superiority of S24 to Yecora Rojo at the two later growth stages was related to its relatively low accumulation of Na+ or Cl− and high accumulation of K+ in leaves. The former line also maintained higher leaf K/Na ratios, Ca/Na ratios, K versus Na selectivities and Ca versus Na selectivities than the latter particularly at the tillering and booting stages. Salt tolerance in spring wheat, in this study, is found to be age‐dependent. The booting stage has been found as one of the most appropriate growth stages where maximum differentiation in salt‐tolerant and salt‐sensitive lines occurred. As is evident from previous studies with spring wheat, in the present study there is a positive correlation between partial exclusion of Na+ or Cl−1 from the tissues and maintenance of high tissue K/Na and Ca/Na ratios, and K versus Na and Ca versus Na selectivities, and salt tolerance of this crop.
Journal of Agronomy and Crop Science – Wiley
Published: Apr 1, 1997
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.