Ishita Bajaj’s research while affiliated with Freie Universität Berlin and other places

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Publications (2)


Figure 2. Signaling pathways involved in the crosstalk between light and the response to
Figure 3. Signaling pathways involved in the crosstalk between light and the response to stress
Figure 6. Crosstalk between light and cold acclimation signaling pathways.
Figure 7. Crosstalk between the light signaling pathway and the signaling pathways involved
Figure 8. Signaling pathways involved in the crosstalk between light and the response to

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Light acts as a stressor and influences abiotic and biotic stress responses in plants
  • Literature Review
  • Full-text available

November 2020

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486 Reads

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175 Citations

Plant Cell and Environment

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Ishita Bajaj

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Light is important for plants as an energy source and a developmental signal, but it can also cause stress to plants and modulates responses to stress. Excess and fluctuating light result in photoinhibition and reactive oxygen species (ROS) accumulation around photosystems II and I, respectively. Ultraviolet light causes photodamage to DNA and a prolongation of the light period initiates the photoperiod stress syndrome. Changes in light quality and quantity, as well as in light duration are also key factors impacting the outcome of diverse abiotic and biotic stresses. Short day or shady environments enhance thermotolerance and increase cold acclimation. Similarly, shade conditions improve drought stress tolerance in plants. Additionally, the light environment affects the plants’ responses to biotic intruders, such as pathogens or insect herbivores, often reducing growth‐defense trade‐offs. Understanding how plants use light information to modulate stress responses will support breeding strategies to enhance crop stress resilience. This review summarizes the effect of light as a stressor and the impact of the light environment on abiotic and biotic stress responses. There is a special focus on the role of the different light receptors and the crosstalk between light signaling and stress response pathways. This article is protected by copyright. All rights reserved.

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Citations (1)


... In addition, the photosynthetic performance of P. bournei seedlings grown in full sunlight was inhibited because their leaves had less ability to intercept, absorb, and use light, and lower stomatal conductance and carbon assimilation rates than seedlings grown in shade (Fig. 4). Previous experiments on shade-tolerant tree species such as Cryptocarya concinna Hance and Syzygium acuminatissimum (Blume) DC cultivated under intense light demonstrated that excess light energy produces toxic products such as superoxide, singlet oxygen, and peroxide which damage the photosynthetic system of plants and limit their growth and development if they are not safely dispersed in a timely manner (Zhang et al. 2012;Roeber et al. 2021). ...

Reference:

Effects of thinning on the understory light environment of different stands and the photosynthetic performance and growth of the reforestation species Phoebe bournei
Light acts as a stressor and influences abiotic and biotic stress responses in plants

Plant Cell and Environment