GAYATRI MISHRA | Ecophysiology | Best Researcher Award

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Dr. GAYATRI MISHRA | Ecophysiology | Best Researcher Award

Faculty of Sciences Dhar El Mahraz, Sidi Mohamed Ben Abdellah University, Fez, Morocco.

Rachid MASROUR is a distinguished professional with a rich academic background and extensive experience in Materials Physics. As a full professor at the Faculty of Sciences Dhar El Mahraz, Sidi Mohamed Ben Abdellah University Fez, Morocco, he has demonstrated a strong commitment to both research and teaching. Rachid’s research interests encompass various aspects of Materials Physics, including nanomaterials, renewable energy materials, and solid-state physics. His teaching experience is equally impressive, having served in various roles such as department head, coordinator, and module responsible, showcasing his leadership and organizational skills. Rachid’s expertise is further highlighted by his active involvement in academic committees and his contributions to the scientific community. Overall, Rachid MASROUR is a dedicated professional with a passion for advancing knowledge in Materials Physics and making a positive impact in academia.

Professional Profiles:

Education:

Dr. Gayatri Mishra completed her Doctorate (PhD) in Tree Physiology & Metabolism at the University of Canterbury, New Zealand, from 2014 to 2019.

Research Experience:

Dr. Gayatri Mishra has extensive research experience in plant physiology and ecophysiology, with a focus on the impact of climate change on plants. Some of her research projects include investigating the impact of chromium stress on leaf dynamics and morphology in Mung bean (Vigna radiata) and Rice (Oryza sativa) genotypes. She has also studied the absence of GIGANTEA and its influence on wilt disease resistance by inhibiting jasmonic acid pathway genes in Arabidopsis thaliana. Additionally, Dr. Mishra has analyzed the effects of drought stress on leaf dynamics and morphology in Arabidopsis thaliana, as well as examined the effect of carbon nanoparticles on the morphology of rice genotypes. Furthermore, she has investigated the physiological and biochemical mechanisms underlying adaptation to freeze environments in barley and pea grass genotypes, and has contributed to the development of a high-throughput phenotyping protocol for freezing survival among breeding lines and cultivars. These projects showcase Dr. Mishra’s diverse expertise in plant physiology, molecular biology, and ecological research, highlighting her contributions to understanding plant responses to environmental stressors.

Research Interest:

Dr. Gayatri Mishra’s research interests lie in understanding the physiological responses of plants to environmental stressors, particularly in the context of climate change. She is interested in studying how plants adapt to changing environmental conditions, including drought, chromium stress, and freeze environments. Her research also focuses on the impact of these stressors on leaf dynamics, morphology, and the composition of secondary metabolites in plants. Dr. Mishra utilizes a combination of conventional microscopy, non-destructive imaging techniques (such as X-ray micro tomography), live-real time imaging with optical probes, analytical, molecular, and theoretical tools in her research. Through her work, she aims to contribute to our understanding of plant physiology and ecology, with implications for sustainable agriculture and environmental conservation.

Award and Honors:

Dr. Gayatri Mishra has garnered recognition for her outstanding research and academic achievements. In 2018, she was honored with a Manuscript Publication Award from the College of Engineering, University of Canterbury, New Zealand, acknowledging the quality and impact of her scholarly work. Additionally, Dr. Mishra was awarded a prestigious Ph.D. Scholarship by the New Zealand Dryland Forest Initiative (NZDFI) in 2014, enabling her to pursue her doctoral studies at the New Zealand School of Forestry, University of Canterbury. Her research excellence was further highlighted when she was screened for a Korean Ph.D. Fellowship by The Ministry of Human Resource & Development (MHRD), Government of India, in the same year. These accolades underscore Dr. Mishra’s commitment to advancing the field of plant physiology and ecophysiology, establishing her as a promising researcher in her field.

Skills:

Dr. Gayatri Mishra possesses a diverse range of technical skills essential for conducting advanced research in plant physiology and ecophysiology. Her proficiency includes the use of sophisticated imaging techniques such as confocal microscopy, fluorescence microscopy, and X-ray micro tomography for detailed and non-destructive imaging of plant structures. Additionally, Dr. Mishra is skilled in scanning electron microscopy (SEM) for high-resolution imaging and has expertise in live cell imaging with optical embedded probes, allowing her to study dynamic processes in plant cells in real time. She is also adept at computational imaging, which enhances her ability to analyze complex data sets. Furthermore, her skills in staining and immunolabeling enable her to conduct detailed studies on plant tissues at the molecular level. Dr. Mishra’s proficiency in extraction, isolation, and identification of plant metabolites, as well as her knowledge of fungal and bacterial assays, demonstrates her comprehensive understanding of plant physiology and ecophysiology research methodologies. Her expertise in these techniques positions her as a valuable researcher in the field, capable of making significant contributions to our understanding of plant responses to environmental challenges.

Publications:

  1. Cold tolerance mechanisms in Mungbean (Vigna radiata L.) genotypes during germination
    • Authors: Manasa, L. S., Panigrahy, M., Panigrahi, K. C., Mishra, G*., Panda, S. K., & Rout, G. R.
    • Year: 2023
  2. Microscopic studies of parenchyma cells in Eucalyptus bosistoana wood
    • Authors: Mishra, G*., Collings, D., & Altaner, C
    • Year: 2015
  3. Microscopic study of parenchyma cells in 6-year-old Eucalyptus bosistoana
    • Authors: Mishra, G*., Collings, D., & Altaner, C
    • Year: 2016
  4. Heartwood formation in young (6-year-old) Eucalyptus bosistoana
    • Authors: Mishra, G*., Collings, D., & Altaner, C
    • Year: 2017
  5. Cell organelles and fluorescence of parenchyma cells in Eucalyptus bosistoana sapwood and heartwood investigated by microscopy
    • Authors: Mishra, G*., Collings, D., & Altaner, C
    • Year: 2018
  6. Physiological changes during heartwood formation in young (6-year-old) Eucalyptus bosistoana
    • Authors: Mishra, G*., Collings, D., & Altaner, C
    • Year: 2018
  7. Bioactivity of ethanol extracts from Eucalyptus bosistoana F.Muell. heartwood
    • Authors: Mishra, G*., Garrill, A, Altaner, C.M.
    • Year: 2019
  8. Global scenario of Acrocarpus fraxinifolius Wight and Arn. A future tree of Agro forestry
    • Authors: Mishra, G*., Pandey, A. K., Arunachalam, M. K., & Rao, S.
    • Year: 2015
  9. Botanicals from plants for wood protection: Science of Wood Degradation and its Protection
    • Authors: Mishra, G*., Shiny, KS., & Sundaraj, R.
    • Year: 2022
  10. A report on occurrence of Neofusicoccum sp. in Carallia brachiata trees from Karnataka, India
    • Authors: Pandey, A., Mishra, G*., & Rao, S.
    • Year: 2015