Plants warn each other of danger, and now we can watch them
- November 27, 2023
- Posted by: OptimizeIAS Team
- Category: DPN Topics
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Plants warn each other of danger, and now we can watch them
Subject : Science and Tech
Section: Biotechnology
Context:
- For the first time, scientists were able to visualise plants sensing compounds released by other plants in danger .
- The scent of freshly cut grass, more than just a pleasant aroma, is a part of a complex plant communication system involving Green Leaf Volatiles (GLVs).
- For plants, these GLVs are not just fragrances but crucial signals that alert them to imminent threats, such as herbivore attacks.
Basics of Plant Eavesdropping
- Inter-Plant Communication: Plants have the remarkable ability to ‘eavesdrop’ on the distress signals of their neighbors, preparing themselves for similar threats.
- Agricultural Implications: Understanding this natural warning system could revolutionize pest control in agriculture, potentially reducing the need for harmful pesticides.
About Plant Defense Mechanisms
- Research involving mustard plants (Arabidopsis thaliana) has shown that calcium plays a crucial role in plant defense, with calcium levels spiking in response to damage.
- Using genetically modified plants that fluoresce in response to calcium surges, researchers have been able to visually track plant reactions to physical damage and GLV exposure.
- Experiments have demonstrated that plants can detect and respond to GLVs emitted by neighboring plants, as evidenced by fluorescence in modified mustard plants.
- Among the GLVs, specific compounds like E-2-HAL and Z-3-HAL were found to trigger significant responses in plants.
Defense Response at Gene-Level
- Defense Genes Activation: Exposure to GLVs leads to the activation of certain defence-related genes in plants, suggesting that they perceive these volatiles as danger signals.
- Consequences for Plant Protection: This gene activation could be a crucial step in natural plant defense mechanisms against herbivores.
Significance and Future Directions
- Alternative Strategies: While promising, researchers also consider other substances like jasmonic acid, balancing pest control with the plant’s growth and fruit production.
- Expanding Plant Sensory Research: The findings encourage further exploration into plant perception and response to external stimuli, particularly in natural environments where signaling dynamics are more complex.
- Challenges in Field Studies: One of the main challenges in studying plant volatile signaling in natural settings is the dilution of these compounds in the open air.
- Natural Pest Control: The study opens up possibilities for using GLVs in agricultural pest control, potentially reducing reliance on chemical pesticides.