Ranju Singla scite author profile

Ranju Singla

4Publications

47Citation Statements Received

24Citation Statements Given

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Panjab University

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Growth, photosynthesis, nodule nitrogen and carbon fixation in the chickpea cultivars under salt stress

Garg

Singla

2004

Braz. J. Plant Physiol.

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Four cultivars of chickpea, two of them of Mediterranean origin (kabuli), CSG 9651, BG 267 and two Indian (desi) types, CSG 8962, DCP 92-3, differing in their salt sensitivities were identified after screening ten genotypes in saline soils. The cultivars CSG 9651 and CSG 8962 were salt tolerant while BG 267 and DCP 92-3 were salt sensitive, respectively. The seeds of different cultivars were inoculated with Mesorhizobium ciceri, strain F: 75 and the plants were grown in the greenhouse. After the establishment of symbiosis, 15-day-old seedlings were administered doses of saline at varying concentrations (0, 4, 6, 8 dSm-1 NaCl, Na2SO4, CaCl2). Plants were harvested at 40, 70 and 100 days after sowing, for analyses. The main aim was to compare the relative salt tolerance of both desi and kabuli cultivars in terms of nitrogen fixation and carbon metabolism, as well as to ascertain whether the negative effects of saline stress on nitrogen fixation were due to a limitation of photosynthate supply to the nodule or to a limitation on the nodular metabolism that sustains nitrogenase activity. Plant growth, nodulation and nitrogenase activity was more severely affected in BG 267 and DCP 92-3 under salinity treatments (6 and 8 dSm-1) compared with CSG 9651 and CSG 8962. Nodule number as well as nodule mass increased under salt stress in CSG 9651 and CSG 8962 which might be responsible for their higher nitrogen fixation. Salinity reduced leaf chlorophyll and Rubisco activities in all cultivars. However, tolerant cultivars CSG 9651 and CSG 8962 showed smaller declines than the sensitive ones. Phosphoenolpyruvate carboxylase (PEPCase) activity increased significantly in the nodules of tolerant cultivars under salt stress at all harvests, and this was clearly related to salt concentrations. Our results suggest that in salt-affected soils tolerant cultivars have more efficient nodulation and support higher rates of symbiotic nitrogen fixation than the sensitive cultivars.

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Short communication. Nitrate reductase activity in roots and leaves of chickpea cultivars under salt stress

Garg¹,

Singla²

2005

Span. j. agric. res.

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Four chickpea cultivars (CSG 9651, BG 267, CSG 8962 and DCP 92-3) were grown to maturity under salinity conditions of 0, 4, 6 and 8 dS mE-1. Nitrate reductase activity decreased progressively with increasing salinity, although variation was seen between the cultivars. Cultivar CSG 9651, a kabuli or Mediterranean type, appeared to be the best adapted to saline stress, maintaining growth and showing efficient nitrate reduction under these conditions.

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Variability in the Response of Chickpea Cultivars to Short-Term Salinity, in Terms of Water Retention Capacity, Membrane Permeability, and Osmo-Protection

Garg¹,

Singla²

2009

Turkish Journal of Agriculture and Forestry

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Growth, Photosynthsis, Nodule Nitrogen and Carbon Fixation in Desi and Kabuli Genotypes of Chickpea (Cicer Arietinum L.) under Salt Stress

Garg

Singla

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Ranju Singla

Growth, photosynthesis, nodule nitrogen and carbon fixation in the chickpea cultivars under salt stress

Short communication. Nitrate reductase activity in roots and leaves of chickpea cultivars under salt stress

Variability in the Response of Chickpea Cultivars to Short-Term Salinity, in Terms of Water Retention Capacity, Membrane Permeability, and Osmo-Protection

Growth, Photosynthsis, Nodule Nitrogen and Carbon Fixation in Desi and Kabuli Genotypes of Chickpea (Cicer Arietinum L.) under Salt Stress

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