Temporal Changes in Biochemical and Antioxidant Enzymes Activities in Maize (Zea mays L.) under Waterlogging Stress during Early Growth Stage

Yadav, Dinesh Kumar; Srivastava, J.P.

doi:10.20546/ijcmas.2017.606.041

Cited by 4 publications

(2 citation statements)

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“…In response to biotic/abiotic stresses, peroxidase synthesis and accumulation are mostly stimulated in plants (Giorgi et al, 2009). Yadav et al (2017) found that with the increase in the duration of waterlogging, POD activity gradually increased and resistant genotype reported higher POD activity in response to waterlogging stress compared to sensitive genotype. POD is responsible for the scavenging of H 2 O 2 generated under oxidative stress.…”

Section: Impact Of Waterlogging On Biochemical Traitsmentioning

confidence: 99%

“…These ROS are highly reactive in nature that causes harm to a variety of cellular molecules and metabolites (Ashraf, 2009). According to Yadav et al (2017), after imposing waterlogging stress, the level of hydrogen peroxide (H 2 O 2 ) increased in both resistant and sensitive maize genotypes, but the sensitive genotype revealed relatively higher H 2 O 2 content under waterlogging condition. In the present investigation, the highest increase of H 2 O 2 was observed in BM-6 (Figure 5C) that indicates it was more susceptible to waterlogging stress because it has a lower scavenging capacity.…”

Section: Impact Of Waterlogging On Biochemical Traitsmentioning

confidence: 99%

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Response of morphological and biochemical traits of maize genotypes under waterlogging stress

Asha

Sultana

Hassan

et al. 2021

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Maize (Zea mays L.) is one of the most important cereal crops cultivated around the world. Waterlogging stress is a major production constraint of maize production in rain-fed agricultural systems. The main objective of this experiment was to investigate the effect of continuous waterlogging on morphological and biochemical traits of maize genotypes at the vegetative stage. Ten maize genotypes were treated under no waterlogging (control) and continuous waterlogging of five centimeters depth for 10 days. The treatments were applied to the plants at their 45 days of age. Visual leaf injury scores from Leaf 4 (youngest leaf is the reference point) to Leaf 7 separated tolerant and susceptible genotypes. Waterlogging stress significantly reduced the total number of live leaves and chlorophyll content in leaf tissues in susceptible genotypes. The anatomical study revealed that tolerant maize genotypes produce a large number of aerenchyma cells under waterlogging stress compared to susceptible genotypes. The enzymatic activities of ascorbate peroxidase (APX) and peroxidase (POD) exhibited a greater increase in tolerant genotypes than susceptible genotypes whereas the contents of reactive oxygen species (H2O2) greatly increased in susceptible genotypes than tolerant genotypes under waterlogging stress compared to control. Principal component 2 (PC2) indicated that increasing plant height in the genotypes BHM-14, BHM-13 and BHM-9 was associated with waterlogging tolerance. The findings of this experiment will add value to maize breeding to screen out maize genotypes for waterlogging stress tolerance.

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Section: Impact Of Waterlogging On Biochemical Traitsmentioning

confidence: 99%

Section: Impact Of Waterlogging On Biochemical Traitsmentioning

confidence: 99%