Lolium perenne L. (perennial ryegrass) is the most important pasture grass species in temperate regions of the world. However, its growth is restricted in summer dry environments. Germplasm screening can be used to identify accessions or individual plants for incorporation into breeding programs for drought tolerance. We selected nine perennial ryegrass accessions from different global origins and from a range of climatic and environmental conditions. In addition, the perennial ryegrass cultivar ‘Grasslands Impact’ was chosen as a reference. The accessions were grown for 360 days in a controlled environment through six consecutive drought stress and recovery cycles. We observed intraspecific differences in drought stress responsiveness for shoot biomass and survival from the third stress cycle. An accession from Norway had 50% more shoot dry matter than the next best-performing accession after six drought cycles. Compared with the reference cultivar ‘Grasslands Impact’, shoot dry matter of the accession from Norway was more than seven times higher after six drought cycles, indicating superior performance of this ecotype under drought stress. Drought tolerance was characterized by osmotic adjustment and higher relative leaf water content at low soil moisture levels. Furthermore, the findings of this study identify solute potential as an early predictor of drought stress tolerance. These intraspecific differences can be used in breeding programs for the development of drought-tolerant perennial ryegrass cultivars.
Anthers from rice (Oryza sativa L.) subspecies japonica initiated more callus than their indica or indica x japonica counterparts. A mild stress, either by slow desiccation or heat shock, prior to the plating of anthers enhanced the ability to initiate callus. Slow dessication of anthers enhanced the ability of the japonica anthers to initiate callus even in medium that was supplemented with NaCl. The ability to initiate callus by the anthers plated on NaCl-supplemented medium decreased as the NaCl level in the medium increased. Among the regenerated plants 2.5% were albino and another 2% were haploid. Androclonal variation for tiller numbers, shoot height, plant dry matter and flowering were noticed in the progenies of the regenerated plants.
Two black gram (Vigna mungo L. Hepper) genotypes LBG20 and PU19 were selected to study the impact of PEG induced drought stress on seed germination, metabolite concentration and activities of antioxidant enzymes. Stress caused considerable decrease in germination and fresh weight of seedlings of both the genotypes. It led to increase in protein concentration, contents of starch and total soluble sugars while decrease was observed in the activities of antioxidant enzymes, contents of free amino acids, reducing sugar and total phenols. SDS-PAGE analysis indicated accumulation of some proteins with the germination under stress conditions. LBG20 which showed increase in soluble sugars, starch, proteins and higher activities of antioxidant enzymes was observed to be relatively more tolerant to drought stress over PU19.
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