Alleviation of temperature stress by nutrient management in crop plants: a review

Waraich, Ejaz Ahmad; Ahmad, Rashid; Halim, Abdul; Aziz, Tariq

doi:10.4067/s0718-95162012000200003

Cited by 376 publications

(232 citation statements)

References 144 publications

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“…It is well known that crop growth rates are significantly reduced by temperature stresses as results of a decrease in metabolic processes and photosynthesis (Sharkova, 2001;Wise et al, 2004;Waraich et al, 2012), shoot and root growth inhibition, and leaf senescence (Vollenweider and Gunthardt-Goerg, 2005), however the growth reduction in the present study was only observed at low temperature, and this differed from the result of our previous study with lettuce (submitted). An extra-supply of minerals to promote tomato growth did not have any effect at both low and high temperature stresses (Fig.…”

Section: Discussioncontrasting

confidence: 57%

Mineral Uptake and Soluble Carbohydrates of Tomato Plants as Affected by Air Temperatures and Mineral Treatment Levels

Sung¹,

Yun²,

Cho³

et al. 2015

Korean Journal of Soil Science and Fertilizer

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Section: Discussioncontrasting

confidence: 57%

Mineral Uptake and Soluble Carbohydrates of Tomato Plants as Affected by Air Temperatures and Mineral Treatment Levels

Sung¹,

Yun²,

Cho³

et al. 2015

Korean Journal of Soil Science and Fertilizer

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“…This damage to the intracellular membranes can also affect respiratory activity in mitochondria and cause a breakdown of pigments that might affect carbon fixation ability in the chloroplast (Scandalios 1993 O +O 2 ) and glutathione peroxidase (GPXs: 2glu-tathione + polyunsaturated fatty acid (PUFA)-OOH⇔glu-tathione reductase (GSSG) + PUFA + 2H 2 O), and it has been found that during acclimation, plants increase their stress-related proteins, which improve both the levels and activities of antioxidant enzymes. The antioxidants scavenge the ROS, decrease the photo-oxidation and preserve chloroplast membrane integrity and thereby help to increase the rate of photosynthesis (Waraich et al 2012).…”

Section: Introductionmentioning

confidence: 99%

Molybdenum application enhances antioxidant enzyme activity and COR15a protein expression under cold stress in wheat

Al-Issawi

Rihan

Al-Shmgani

et al. 2016

Journal of Plant Interactions

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Under cold stress, reactive oxygen species (ROS) are considered the main source of damage to plant cells. Mechanisms of ROS scavenging in wheat are very important during stress and the antioxidant enzymes superoxide dismutase, Catalase and Glutathione peroxidase are key to facilitating ROS scavenging. Molybdenum (Mo) is involved in many plant physiological and biochemical processes including antioxidant enzymes. This study reports research to investigate the effect of Mo application in enhancing antioxidant enzymes in two wheat cultivars. The results confirmed that antioxidant defense is important in wheat that is exposed to abiotic stress and that changes in activities of antioxidant enzymes occurred during exposure of plants to low non-freezing temperatures and by adding Mo. Mo application had a positive effect on gene expression of both Cbf14 and COR15a protein expression, indicating upregulation of the stress response regulon. In addition, Mo enhanced antioxidant enzymes activity and improved frost tolerance. ARTICLE HISTORY

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“…A number of studies have shown that the nutritional status of plants affects the ability to adapt to adverse environmental conditions (Waraich et al, 2012), meaning nutrients also act to attenuate abiotic stresses (Tahir et al, 2011) in the strutural integrity of plants and are the key to physiological processes such as photosynthesis, osmotic regulation and enzyme activation (Waraich et al, 2011).…”

Section: Resultsmentioning

confidence: 99%

Use of metribuzin, associated with different foliar fertilizers, on carrot crops

Silva

Pessoa

Silva

et al. 2017

Rev. Colomb. Cienc. Hortic.

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El objetivo del estudio evaluó el uso de diferentes fertilizantes foliares asociados, y no asociados con metribuzina, sobre la productividad de zanahoria. Los experimentos se realizaron en dos ciclos de cultivo con un arreglo factorial 2×4 de los tratamientos. El primer factor fue la ausencia y presencia de la metribuzina (0 y 288 g ha-1 i.a.) y el segundo factor fueron los fertilizantes foliares: FertiG, FertiB, sacarosa y sin aplicación. En el primer ciclo de producción, el rendimiento comercial aumentó en la asociación de FertiG y metribuzina, la relación bifurcación/descarte total disminuyó cuando se aplica los fertilizantes foliares junto con la metribuzina. La metribuzina sola disminuyó la productividad total y la relación producción comercial/rendimiento total en el primer ciclo, sin embargo el estrés se mitigó cuando se aplicó FertiG. En el segundo ciclo, la metribuzina sola o asociada a FertiG aumentó la productividad comercial. El FertiB disminuyó la relación bifurcación/descarte total. La metribuzina sola o asociada con FertiG y FertiB obtuvieron resultados similares en la relación producción comercial/rendimiento total en el ciclo 2. FertiG atenúa satisfactoriamente el estrés causado por la metribuzina a las plantas de zanahoria con un impacto positivo en la productividad comercial del cultivo de zanahoria.

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Alleviation of temperature stress by nutrient management in crop plants: a review

Cited by 376 publications

References 144 publications

Mineral Uptake and Soluble Carbohydrates of Tomato Plants as Affected by Air Temperatures and Mineral Treatment Levels

Mineral Uptake and Soluble Carbohydrates of Tomato Plants as Affected by Air Temperatures and Mineral Treatment Levels

Molybdenum application enhances antioxidant enzyme activity and COR15a protein expression under cold stress in wheat

Use of metribuzin, associated with different foliar fertilizers, on carrot crops

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