Add to ORKGUsing the genetic variation to improve salt tolerance in some wheat genotypes is a very important achievement to increase the production of salinized soils. The aim of this study is to determine the realized improvement in salt tolerance in some selected genotypes of wheat, which induced through plant breeding programs. The selected genotypes were derived from F2 populations after exposed to high salinity condition for six cycles of screening and selection. Salt tolerance of these selected genotypes (2H, N3) was tested during germination, early seedling and tillering stages in salinilized soils with three salinity levels (2, 8 and 15 ds/m) as compared with the local cultivar (Tamooze-2). Results showed that all selected genotypes were signi...
To determine limits of tolerance, provide information about genetic diversity, and explore potential...
Abiotic stresses like salinity and abnormally cold environments cause significant yield losses in ma...
Soil salinity is a major threat to crop production worldwide. The global climate change is further a...
Plant scientist, to overcome soil salinity have adopted various strategies, one of the important str...
Improving salt tolerance of genotypes requires a source of genetic variation and multiple accurate s...
The creation of salt-tolerant wheat genotypes can provide a basis for sustainable wheat production i...
Fast and effective glasshouse screening techniques that could identify genetic variation in salinity...
This study was conducted to evaluate the variability of salt tolerance potentials among nine wheat g...
Abstract: Effect of increasing application of NaCl on germination, root and shoot dry weight at earl...
Screening of wheat genotypes containing suitable candidate genes for salt tolerance is an essential ...
Salt affected soils have higher concentration of soluble salts or exchangeable sodium to the extent ...
Page(s): 4 (2), 31- 43, 11 Ref.Thirty-three wheat genotypes (local and introduced) were tested using...
Salt affected soils are those soils which have higher concentration of soluble salts and/or exchange...
Wild emmer (Triticum dicoccoides) is a progenitor of tetraploid wheat and currently grows in environ...
To successfully enhance the salt tolerance of genotypes, it is crucial to conduct field-based trials...
To determine limits of tolerance, provide information about genetic diversity, and explore potential...
Abiotic stresses like salinity and abnormally cold environments cause significant yield losses in ma...
Soil salinity is a major threat to crop production worldwide. The global climate change is further a...
Plant scientist, to overcome soil salinity have adopted various strategies, one of the important str...
Improving salt tolerance of genotypes requires a source of genetic variation and multiple accurate s...
The creation of salt-tolerant wheat genotypes can provide a basis for sustainable wheat production i...
Fast and effective glasshouse screening techniques that could identify genetic variation in salinity...
This study was conducted to evaluate the variability of salt tolerance potentials among nine wheat g...
Abstract: Effect of increasing application of NaCl on germination, root and shoot dry weight at earl...
Screening of wheat genotypes containing suitable candidate genes for salt tolerance is an essential ...
Salt affected soils have higher concentration of soluble salts or exchangeable sodium to the extent ...
Page(s): 4 (2), 31- 43, 11 Ref.Thirty-three wheat genotypes (local and introduced) were tested using...
Salt affected soils are those soils which have higher concentration of soluble salts and/or exchange...
Wild emmer (Triticum dicoccoides) is a progenitor of tetraploid wheat and currently grows in environ...
To successfully enhance the salt tolerance of genotypes, it is crucial to conduct field-based trials...
To determine limits of tolerance, provide information about genetic diversity, and explore potential...
Abiotic stresses like salinity and abnormally cold environments cause significant yield losses in ma...
Soil salinity is a major threat to crop production worldwide. The global climate change is further a...