I= COMPARATIVE RESPONSE OF BARLEY GENOTYPES TO CHLORIDE AND SULPHATE SALINITY
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Title of Thesis
COMPARATIVE RESPONSE OF BARLEY GENOTYPES TO CHLORIDE AND SULPHATE SALINITY

Author(s)
Abid Nisar Ahmad
Institute/University/Department Details
University Of Agricuture Faisalabad/ Department Botany.
Session
2002
Subject
Number of Pages
135
Keywords (Extracted from title, table of contents and abstract of thesis)
barley, genotypes, germplasm, salinity, salt tolerance, photosynthesis, tillering, booting

Abstract
Studies were carried out to (i) screen and select the barley germplasm for tolerance to increased levels of NaCI and Na2SO4 salinity and (ii) to understand the physiological mechanism of salinity tolerance at tillering, booting, and grain filling stages of growth in selected highly salt tolerant and highly salt sensitive genotypes. Results revealed that salinity tolerance ability of barley genotypes differed substantially at various growth stages. Highest tolerance was shown by B-90068 and lowest by jau-87 under both the salinities and the growth stage investigated. Rest of the genotypes indicated quite variable response to salinity at different stages. Although NaCI salinity was more toxic than the Na2SO4, only a few genotypes showed differential behavior. Among the growth and yield parameters, increased number and area of green leaves, prolific root system, greater number of tillers per plant and grain yield per plant appeared to have positive correlation with tolerance to salinity. Increased number of tillers diluted the toxic effects of ions, so reducing their translocation to physiologically active parts. Similarly, increased photosynthetic area of salt tolerant genotype enabled it to display greater dry matter and grain yield production under salinity strees. Salinity applied as CI- and SO4 (on sio-osmotic basis) at germination stage indicated a reduced percentage of germination and subsequent growth. The growth and dry matter production of seedling was reduced in all the genotypes. Although SO4 salinity also showed the adverse effects but to a considerably lower extent than CI-

For the study of physiological mechanisms at tillering, booting and grain filling stages, partitioning of elements and some photosynthetic parameters were determined under control, -0.60 and -0.75 MPa levels of NaCI level of NaCI and Na2So4. The tolerant genotype was able to partition the excess of toxic ions into physiologically less active parts while beneficial elements were preferentially transported to the active parts i.e leaves and roots. Rate of photosynthesis, stomatal conductance and rate of transpiration were also decreased under increased salinity.

Elevated levels of salinity in either form caused a reduction in ear length, number of spikelets per ear, total grain yield and fertile tillers of all the genotypes but with quite differential behavior of the genotypes. Tolerant genotype displayed greater economic yield than the sensitive one. From the data, it appeared that osmotic rather than toxic component of salinity is a cripping factor in he reduced economic yield shown by the sensitive genotype.

To conclude, B-90068 exhibited tolerance to salinity at all phonological growth stages and showed greater economic yield. This genotype is therefore suitable for growing in low to moderately saline areas, by enhancing seed rate by 20-25% to achieve optimum crop stand. It is expected that this study will be a baseline information for breeders to develop high yielding salts tolerant barley genotypes, and for botanists and plant physiologists to understand the physiological mechanisms of salt tolerance unsing advanced techniques.

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1309.7 KB
S. No. Chapter Title of the Chapters Page Size (KB)
1 0 Contents
61.44 KB
2 1 Introduction 1
48.88 KB
3 2 Review Of Literature 7
273.88 KB
  2.1 Extent And Nature Of Salinity Problem 7
  2.2 Salt Affected Soils 8
  2.3 Plants And Salinity 12
  2.4 Salinity And Growth Stages 21
  2.5 Critiera Of Salt Tolerance 22
  2.6 Measurement Of Salt Tolerance 23
  2.7 Mechanisms Of Salt Tolerance 24
  2.8 Crop Salt Tolerance 40
  2.9 Salinity Tolerance In Barley 42
4 3 Materials And Methods 43
108.6 KB
  3.1 Collection Of Material 43
  3.2 Experimental Details And Growth Conditions 44
  3.3 Selection Of Barley Genotypes Under Nsci And Na2SO4
  Determination Of Mechanism Of Salt Tolerance 46
  3.5 Chemical Analyiss 47
  3.6 Photosynthetic Measurements 51
  3.7 Soil Analysis 51
  3.8 Chemicals 52
  3.9 Statistical Analysis 52
5 4 Results And Discussion 54
996.61 KB
  4.1 Screening Of Barley Genotypes Against Salinity 54
  4.2 Discussion 75
  4.3 Study Of Salt Tolerance Meachanism At Different 77
  4.4 Photosynthetic Parameters At Tillering 95
  4.5 Photosynthetic Parameters At Booting 97
  4.6 Photosynthetic Parameters At Grain Filling 100
  4.7 Discussion 102
  4.8 General Discussion 104
  4.9 Future Prospects 110
6 5 Summary 111
996.61 KB