Adaptability of Lepidium latifolium L. to temperature variations in the Ladakh Himalayas: A Comprehensive Study

Title : Adaptability of Lepidium latifolium L. to temperature variations in the Ladakh Himalayas: A Comprehensive Study

Abstract:

The plants growing in high altitude Ladakh Himalayas experience significant temperature variations during their vegetative growth. In this study, the photosynthetic response of Lepidium latifolium L., a sleeper weed, was investigated to short term temperature fluctuations. This plant maintained photosynthesis at higher temperatures by modulating the photochemical efficiency of photosystem II. Various physiological mechanisms including VpdL dependent and independent stomatal opening, the increase in the energy fluxes, closing of the reaction centers, and increase in the chlorophyll content play a crucial role in temperature tolerance. An efficient and dynamic non-photochemical quenching involving both zeaxanthin and PsbS dissipated the excess energy during higher temperatures. The degradation of the photosynthetic apparatus is compensated by increased expression of the subunit proteins. Other genetic elements that help in the repair and stabilization of the apparatus were also induced. Allyl isothiocyanate dependent modulation of the stomatal aperture acts as a swift response mechanism for the CO2 exchange and evapotranspirational requirements. Collectively, these processes help mitigate the harmful effects of high temperature on the photosynthetic process. This data will help to strategize the spread of Lepidium latifolium in an ecologically sensitive Ladakh Himalayas during the climate change scenario.

Audience Take Away Notes:

• The audience will be able to know about the adaptation of plants at high altitude environments
• If anyone wants to work on the medicinal and ecologically important plants at high altitude area, my presentation will help in understanding the possible mechanisms of survival at extreme environmental conditions
• This research could be used by other faculty to expand their own research or teaching
• This provides a practical solution to a problem that could simplify or make a designer’s job more efficient
• It will improve the accuracy of a design, or provide new information to assist in a design problem

Biography:

Manu Khajuria has earned her Ph.D. in Botany, specializing in plant adaptive biology. Since 2014, her research has been dedicated to understanding the adaptive potential of high-altitudinal plants in the Ladakh Himalayan region. Furthermore, her studies explore the correlation between photochemical efficiency and Δ9 – tetrahydrocannabinol content in Cannabis sativa L., presenting a novel investigation within the realm of plant biology. Currently positioned as a Scientist in the Plant Sciences and Agrotechnology Division at CSIR-Indian Institute of Integrative Medicine in Jammu, India, she continues to advance scientific knowledge in the intricate field of plant adaptation. Her work serves as a valuable contribution to the broader scientific community, shedding light on the intricate interplay between environmental factors and plant physiology in challenging ecosystems.