Farah Nighat scite author profile

Farah Nighat

4Publications

31Citation Statements Received

50Citation Statements Given

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Jamia Hamdard

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Photosynthetic, metabolic and growth responses ofTriumfetta rhomboideato coal-smoke pollution at different stages of plant ontogeny

Iqbal

Mahmooduzzafar

Nighat

et al. 2010

Journal of Plant Interactions

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Coal-smoke emissions affected photosynthesis, N-metabolism and growth characteristics of Triumpfetta rhomboidea, as observed at pre-flowering, flowering and post-flowering stages of plant growth. The net photosynthetic rate and stomatal conductance decreased, whereas intercellular CO 2 concentration increased under pollution stress. The amounts of photosynthetic pigments in leaves were consistently less, up to 35% for chlorophylls and 84% for carotenoids. Nitrate level was raised while NR activity and protein contents in leaves declined at the polluted site at each growth stage. Sugar content was always lower at the polluted site in roots and stem but sizably higher in leaves, thus showing a failure of the process of photosynthate translocation. The sulphur level in roots, stem and leaves increased consistently. The leaf area was conspicuously reduced, leading to a significant loss in the total photosynthetic surface, despite an increase in the stem length and the number of leaves in the stressed population.

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Coal-smoke pollution modifies physio-chemical characteristics of tissues during the ontogeny of Peristrophe bicalyculata

2008

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Coal-smoke emissions of a thermal power plant affected the physio-chemical status of Peristrophe bicalyculata (Reth) Nees, as observed at the pre-flowering, flowering and post-flowering stages of plant growth. The nitrate level was raised while nitrate reductase activity, and the soluble protein content of leaf declined heavily at the polluted site during different stages of plant growth, compared to the control. The rate of photosynthesis also decreased under the pollution stress. Sugar level in root, stem and leaves increased with growing age of the plant but was always lower at the polluted site than at the reference site. In roots, the difference was marginal till flowering stage and quite conspicuous afterwards; stems showed a reverse pattern of variation. Sulphur content was higher at the polluted site in all the organs and at each stage of the plant life. The Zn and Fe concentrations were reduced in all plant parts under the pollution stress. Copper content in root was consistently low at the polluted site. In the stem and leaves, however, it was almost equal on both the sites at the pre-flowering stage but showed a wide difference during the later part of plant ontogeny.

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Stomatal Conductance, Photosynthetic Rate, and Pigment Content in Ruellia Tuberosa Leaves as Affected by Coal-Smoke Pollution

Nighat¹,

Mahmooduzzafar²,

Iqbal³

2000

Biologia plant.

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Coal-smoke pollution modifies physio-chemical characteristics of tissues during the ontogeny of Peristrophe bicalyculata

Nighat¹,

Mahmooduzzafar²,

Iqbal³

2018

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Farah Nighat

Photosynthetic, metabolic and growth responses ofTriumfetta rhomboideato coal-smoke pollution at different stages of plant ontogeny

Coal-smoke pollution modifies physio-chemical characteristics of tissues during the ontogeny of Peristrophe bicalyculata

Stomatal Conductance, Photosynthetic Rate, and Pigment Content in Ruellia Tuberosa Leaves as Affected by Coal-Smoke Pollution

Coal-smoke pollution modifies physio-chemical characteristics of tissues during the ontogeny of Peristrophe bicalyculata

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