Nickel and Ultraviolet-B Stresses Induce Differential Growth and Photosynthetic Responses in Pisum sativum L. Seedlings

Srivastava, Garima; Kumar, Sachin; Dubey, Gyan Prakash; Mishra, V. K.; Prasad, Sheo Mohan

doi:10.1007/s12011-012-9406-9

Cited by 51 publications

(33 citation statements)

References 46 publications

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“…1) and it appears that increased activity of SOD even could not bring down the level of ROS. Similar results were also observed in pea plants when exposed with Ni stress (Srivastava et al, 2012 (Shigeoka et al, 2002), whereas DHAR helps in the regeneration of ascorbate from dehydroascorbate by utilizing glutathione a non-enzymatic antioxidant. Another H 2 O 2 splitting enzymes CAT and POD that are heme containing tetrameric proteins.…”

Section: Activities Of Antioxidative Enzymessupporting

confidence: 79%

“…2). At this treatment the elevated concentration of Ni in tissues might have caused interruption in the electron flow at various sites of photosynthetic electron transport chain as reported in earlier studies (Prasad et al, 2005;Srivastava et al, 2012) hence Ni is considered as the prime cause for ROS generation in plants under stress (Prasad et al, 2005;Gill and Tuteja, 2010). Compared to plants exposed to Ni under non-amended condition, the decrease in SOR content was 24, 27, 34 and 33%, and in H 2 O 2 content it was 9, 23, 36 and 34% at 100, 200 500 and 1000 mg DAP kg À 1 soil doses of phosphate amendment, respectively (Fig.…”

Section: Reactive Oxygen Species and Index Of Oxidative Damagesupporting

confidence: 58%

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A lucrative technique to reduce Ni toxicity in Raphanus sativus plant by phosphate amendment: Special reference to plant metabolism

Singh

Prasad

2015

Ecotoxicology and Environmental Safety

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Section: Activities Of Antioxidative Enzymessupporting

confidence: 79%

Section: Reactive Oxygen Species and Index Of Oxidative Damagesupporting

confidence: 58%

A lucrative technique to reduce Ni toxicity in Raphanus sativus plant by phosphate amendment: Special reference to plant metabolism

Singh

Prasad

2015

Ecotoxicology and Environmental Safety

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“…In this way, previous reports have shown that mutants impaired in the function of the ABA and ROS-regulated protein phosphates 2C (PP2Cs) ( abi-1 ) were sensitive to the combined impact of drought and heat, as well as salinity and heat (Suzuki et al, 2016; Zandalinas et al, 2016a). Furthermore, several studies have reported that the expression of different ROS-scavenging enzymes and the accumulation of different antioxidants exhibit a unique mechanism of response during stress combination that is different than that found in response to each individual stress (Rizhsky et al, 2002, 2004; Srivastava et al, 2012; Prasch and Sonnewald, 2013; Rivero et al, 2013; Pandey et al, 2015; Jin et al, 2016). …”

Section: Introductionmentioning

confidence: 98%

Modulation of Antioxidant Defense System Is Associated with Combined Drought and Heat Stress Tolerance in Citrus

2017

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Drought and high temperatures are two major abiotic stress factors that often occur simultaneously in nature, affecting negatively crop performance and yield. Moreover, these environmental challenges induce oxidative stress in plants through the production of reactive oxygen species (ROS). Carrizo citrange and Cleopatra mandarin are two citrus genotypes with contrasting ability to cope with the combination of drought and heat stress. In this work, a direct relationship between an increased antioxidant activity and stress tolerance is reported. According to our results, the ability of Carrizo plants to efficiently coordinate superoxide dismutase (SOD), ascorbate peroxidase (APX), catalase (CAT), and glutathione reductase (GR) activities involved in ROS detoxification along with the maintenance of a favorable GSH/GSSG ratio could be related to their relative tolerance to this stress combination. On the other hand, the increment of SOD activity and the inefficient GR activation along with the lack of CAT and APX activities in Cleopatra plants in response to the combination of drought and heat stress, could contribute to an increased oxidative stress and the higher sensibility of this citrus genotype to this stress combination.

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“…Studies indicate that UV radiation affects mainly photosystem II [33], and the main plant protection mechanism for that stress is the biosynthesis of UV-absorbing compounds, as phenolic compounds and flavonoids, that attenuate the penetration of the UV-B range of the solar spectrum through the leaf [32]. Among the negative effects of UV radiation on plants are reduced growth, reproduction, development, photosynthesis, and productivity [1,15,34]; but the effects vary among species. In the present study, UV radiation had a significant inhibitory effect on shoot length and fresh and dry weights of plants, and this agrees with the results from other studies [30,31] in which T. aestivum and other Brassica species were negatively affected in their growth by UV radiation.…”

Section: Single Exposurementioning

confidence: 99%

“…Studies have reported effects of high UV-B radiation on the physiology, growth and development of plants, which have also been modified by the presence of heavy metals [3,[12][13][14][15].…”

Section: Introductionmentioning

confidence: 99%

Responses of wheat (Triticum aestivum) and turnip (Brassica rapa) to the combined exposure of carbaryl and ultraviolet radiation

Lima

Soares

Loureiro

2015

Enviro Toxic and Chemistry

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The increase of ultraviolet (UV) radiation reaching the Earth's surface as a result of increased ozone layer depletion has affected crop production systems and, in combination with pesticides used in agricultural activities, can lead to greater risks to the environment. The impact of UV radiation and carbaryl singly and in combination on Triticum aestivum (wheat) and Brassica rapa (turnip) was studied. The combined exposure was analyzed using the MixTox tool and was based on the conceptual model of independent action, where possible deviations to synergism or antagonism and dose-ratio or dose-level response pattern were also considered. Compared with the control, carbaryl and UV radiation individually led to reductions in growth, fresh and dry weight, and water content for both species. Combined treatment of UV and carbaryl was more deleterious compared with single exposure. For T. aestivum length, no interaction between the 2 stressors was found (independent action), and a dose-level deviation was the best description for the weight parameters. For B. rapa, dose-ratio deviations from the conceptual model were found when length and dry weight were analyzed, and a higher than expected effect on the fresh weight (synergism) occurred with combined exposure.

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Nickel and Ultraviolet-B Stresses Induce Differential Growth and Photosynthetic Responses in Pisum sativum L. Seedlings

Cited by 51 publications

References 46 publications

A lucrative technique to reduce Ni toxicity in Raphanus sativus plant by phosphate amendment: Special reference to plant metabolism

A lucrative technique to reduce Ni toxicity in Raphanus sativus plant by phosphate amendment: Special reference to plant metabolism

Modulation of Antioxidant Defense System Is Associated with Combined Drought and Heat Stress Tolerance in Citrus

Responses of wheat (Triticum aestivum) and turnip (Brassica rapa) to the combined exposure of carbaryl and ultraviolet radiation

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