Improving Growth and Productivity of Oleiferous Brassicas under Changing Environment: Significance of Nitrogen and Sulphur Nutrition, and Underlying Mechanisms

Anjum, Naser A.; Gill, Sarvajeet Singh; Umar, Shahid; Ahmad, Iqbal; Duarte, Armando C.; Pereira, Eduarda

doi:10.1100/2012/657808

Cited by 66 publications

(63 citation statements)

References 81 publications

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“…Sulfur and N availabilities closely interact with S and N management by the plant [40]. Positive interaction between S and N has been reported to be beneficial for various aspects of oilseed brassicas including tolerance to various stress factors [41,42] have shown using field-grown oilseed rape that S deficiency can reduce N-use efficiency and that N deficiency can also reduce S-use efficiency. Thus, it may be said that the cultivars with high N assimilation capacity supplemented with adequate S can be a better ameliorator of salt stress.…”

Section: Discussionmentioning

confidence: 99%

Sulfur and Nitrogen Co-ordinately Improve Photosynthetic Efficiency, Growth and Proline Accumulation in Two Cultivars of Mustard Under Salt Stress

Rais¹,

Masood²,

Inam³

et al. 2013

J Plant Biochem Physiol

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Material and Methods Plant material and treatments Seeds of Alankar and Chutki cultivars of mustard (Brassica juncea L.Czern & Coss.) were surface sterilized and were sown in 23 cm diameter earthen pots containing soil composed of peat and compost (4:1, w/w) mixed with sand (3:1, w/w). The pots were kept in green house of the Botany Department, Aligarh Muslim University, Aligarh under natural day/night conditions with day/night temperatures of 22/12 ± 3°C, photo synthetically active radiation (PAR), 900 ± 25 µmol m-2 s-1) and relative humidity of 65 ± 5%. Two plants per pot were maintained after germination, and were treated with 100 mM NaCl individually or combined with N or/and S given at 100 mg.kg-1 soil.

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Section: Discussionmentioning

confidence: 99%

Sulfur and Nitrogen Co-ordinately Improve Photosynthetic Efficiency, Growth and Proline Accumulation in Two Cultivars of Mustard Under Salt Stress

Rais¹,

Masood²,

Inam³

et al. 2013

J Plant Biochem Physiol

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“…The maximum utilization of S in Brassica campestris crop takes place when applied at flowering stage (Ahmad et al, 2005;Anjum, 2006). Application of S increased the seed yield and attributing characters in other crops also (Anjum et al, 2012b).…”

Section: Discussion Plant Growth and Photosynthetic Functionsmentioning

confidence: 99%

“…S is involved in the light reaction of photosynthesis as an integral part of ferredoxin, a non-haem iron-sulfur protein (Marschner, 1995). Additionally, it plays essential roles in mechanisms like vitamin co-factors, GSH in redox homeostasis, and detoxification of xenobiotics (Anjum et al, 2012b). The S requirement by plants varies with growth stage and with species, varying normally between 0.1 and 1.5% of dry weight.…”

Section: Discussion Plant Growth and Photosynthetic Functionsmentioning

confidence: 99%

“…Maintenance of the status of mineral nutrients in plants is important for increasing the crop productivity and plant resistance to environmental stress (Cakmak, 2005;Anjum et al, 2008bAnjum et al, , 2012b. The cumulative role of mineral nutrients in modulating cellular levels of AsA and GSH, and in strengthening the plant antioxidant defense system has been discussed extensively (Anjum et al, 2010(Anjum et al, , 2012a(Anjum et al, , 2013Gill et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

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Managing the pools of cellular redox buffers and the control of oxidative stress during the ontogeny of drought-exposed mungbean (Vigna radiata L.)â€”role of sulfur nutrition

Anjum

Umar

Aref

et al. 2015

Front. Environ. Sci.

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Impacts of increasing environmental stresses (such as drought) on crop productivity can be sustainably minimized by using plant-beneficial mineral nutrients (such as sulfur, S). This study, based on a pot-culture experiment conducted in greenhouse condition, investigates S-mediated influence of drought stress (imposed at pre-flowering, flowering, and pod-filling stages) on growth, photosynthesis and tolerance of mungbean (Vigna radiata L.) plants. Drought stress alone hampered photosynthesis functions, enhanced oxidative stress [measured in terms of H 2 O 2 ; lipid peroxidation (LPO); electrolyte leakage (EL)] and decreased the pools of cellular redox buffers (namely ascorbate (AsA); glutathione (GSH)], and the overall plant growth (measured as leaf area and plant dry mass), maximally at flowering stage, followed by pre-flowering and pod-filling stages. Contrarily, S-supplementation to drought-affected plants (particularly at flowering stage) improved the growth-and photosynthesis-related parameters considerably. This may be ascribed to S-induced enhancements in the pools of reduced AsA and GSH, which jointly manage the balance between the production and scavenging of H 2 O 2 and stabilize cell membrane by decreasing LPO and EL. It is inferred that alleviation of drought-caused oxidative stress depends largely on the status of AsA and GSH via S-supplementation to drought-stressed V. radiata at an appropriate stage of plant growth, when this nutrient is maximally or efficiently utilized.

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“…4 N could be a significant strategy for improvement of growth and productivity of rapeseed and mustard. 5 The study of the nitrogen and sulphur interaction is so required to help understand nutritional behavior of sulphur in relation to nitrogen nutrients and provide guidelines for evaluating the balanced fertilizer combination in order to optimize yield and quality of crops. 6,7 Oilseed crops are the third most important crops of Nepal after cereals and legumes in both area and production.…”

Section: Introductionmentioning

confidence: 99%

Nitrogen-Sulphur use economics in rapeseed productivity at Rampur, Chitwan, Nepal

Ojha¹

2018

APAR

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Nitrogen and sulfur are yield limiting factors for rapeseed production in the sandy loam soil (Inceptisols) of the Chitwan, Nepal. A field experiment was conducted to study the effect of different rate of nitrogen and sulphur application on plant nutrient uptake, yield, oil content and economic nutrient use rate of the rapeseed production. The experiment consisted of twelve treatments with different combinations of nitrogen and sulfur was laid out in the factorial treatments arranged in Randomized Complete Block Design (RCBD) with three replications. Factors included three levels of nitrogen (0, 60, and 100kg N ha-1) and four levels of sulfur (0, 10, 25, and 50kg S ha-1) respectively. The highest yield was obtained from 100kg N ha-1 as compared to the control (N 0). Seed yield and seed oil content of the rapeseed significantly increased with the sulfur level. Application of 25kg S ha 1 produced the highest yield. Similarly, 10kg S ha-1 produced the highest oil content (38.37%) compared to the control (36.41%). The interaction effect of nitrogen and sulfur at the rate of 100kg N ha-1 and 10kg S ha-1 produced significantly highest yield than control. The seed oil content of the rapeseed was also significantly influenced by the combined application of nitrogen and sulfur. The highest oil content (39.53%) was observed from the plot with 60kg N ha-1 and 50kg S ha-1 which was at par with 100kg N ha-1 and 10kg S ha-1 compared to the control plot which has the minimum oil content in the seed (35.57%). Sulfur level affected significantly the soil total nitrogen and the highest of which was observed from the treatment 25kg S ha-1 followed by 10 kg S ha-1. Addition of nitrogen was found to increase the plant nitrogen content but did not make significant effect on increasing plant sulphur content and oil content. There was increase in incremental yield and marginal profit with the increasing dose of N as the highest B:C ratio was obtained from 100kg N ha-1 which was significantly greater than 60kg N ha-1 and control. There was no response in yield by the application of sulphur beyond 34 kg S ha-1. From yield response curve of S, the economic optimum sulphur rate (EOSR) was obtained as 30 kg S ha-1. In our finding, Sulphur is less limiting factor for rapeseed production compared to Nitrogen. Balanced replenishment of Sulphur (30kg S ha-1) by crop uptake is sufficient to obtain optimum rapeseed productivity. Nitrogen dose can be increased (100kg N ha-1) to that of recommended dose (60kg N ha-1) for maximizing rapeseed economic production. Various sources of S and varying level of N with improved varieties of rapeseed is a further subject of study in Chitwan district.

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Improving Growth and Productivity of Oleiferous Brassicas under Changing Environment: Significance of Nitrogen and Sulphur Nutrition, and Underlying Mechanisms

Cited by 66 publications

References 81 publications

Sulfur and Nitrogen Co-ordinately Improve Photosynthetic Efficiency, Growth and Proline Accumulation in Two Cultivars of Mustard Under Salt Stress

Sulfur and Nitrogen Co-ordinately Improve Photosynthetic Efficiency, Growth and Proline Accumulation in Two Cultivars of Mustard Under Salt Stress

Managing the pools of cellular redox buffers and the control of oxidative stress during the ontogeny of drought-exposed mungbean (Vigna radiata L.)â€”role of sulfur nutrition

Nitrogen-Sulphur use economics in rapeseed productivity at Rampur, Chitwan, Nepal

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