P. K. Prajith scite author profile

A greenhouse experiment was conducted on four crop plants in the western region of Gujarat State, India to assess their responses to increasing levels of soil salinity. Of the four crop plants tested (Hordeum vulgare, barley; Triticum aestivum, wheat; Cicer arietinum, gram and Brassica juncea, mustard), barley appeared to be the most tolerant to salinity with regard to seed germination and early growth of the plants. Wheat, gram and mustard were tolerant only to low soil salinity. However, high salt concentrations in the soil reduced the absorption of nitrogen and phosphorus by the young plants. The imbalance of mineral nutrients resulted in a reduction or an inhibition of plant growth. High salinity also caused burning symptoms on the leaves and shoot apices of barley.

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Effect of Salt Stress and Manganese Supply on Growth of Barley Seedlings

Pandya

Mer

Prajith

et al. 2005

Journal of Plant Nutrition

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Effect of supplemental manganese (Mn) on the growth of saltstressed barley (Hordeum vulgare L.) was assessed to determine if a salinity-induced Mn deficiency was limiting plant growth. Sodium chloride (NaCl) was added to the black-cotton soil and salinity was maintained at 0.3, 4, 8, 12, and 16 dS m À1 . A negative relationship between percent seed germination and increasing salt concentration was obtained, however, results suggested that barley is salt tolerant at seed germination stage. Increasing concentration of NaCl significantly reduced plant growth. Also, salinity induced a Mn deficiency in shoots of plants. Manganese was added to the soil at control and at 8 dS m À1 salinity. Supplemental Mn improved the growth of saltstressed plants to a limited extent, but it did not improve the growth of control plants. Further, supplemental Mn increased the relative growth rate of salt-stressed plants and this increase was attributed to ORDER REPRINTS an increase in the net assimilation rate of salt-stressed plants and not to leaf area ratio. Salt concentration adversely affected the uptake of nitrogen and phosphorus by plants, which resulted in imbalance of nutrients in salt-stressed plants. It appears that factors other than Mn, such as ionic, water-and nutrient-stresses can limit the growth of salt-stressed plants and supplemental Mn has only a limited role in mitigation of adverse effect of salinity. 1362Pandya et al.

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Healthcare management through mitigation of COVID-19 pandemic with leafy vegetables

Abdussalam¹,

Prajith²,

Jyothi³

et al. 2021

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P. K. Prajith

Effect of Salts on Germination of Seeds and Growth of Young Plants of Hordeum vulgare, Triticum aestivum, Cicer arietinum and Brassica juncea

Effect of Salt Stress and Manganese Supply on Growth of Barley Seedlings

Healthcare management through mitigation of COVID-19 pandemic with leafy vegetables

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