Valerie Burtet-Sarramegna | Plant Microbiology | Innovative Plant Microbiology Award

Published on by Plant Scientist

Prof. Valerie Burtet-Sarramegna | Plant Microbiology | Innovative Plant Microbiology Award

Author Profile

Scopus

🌟  Suitable for this Innovative Plant Microbiology Award

Prof. Valérie Burtet-Sarramegna stands as a beacon in plant microbiology, seamlessly integrating biochemistry, molecular biology, and environmental sciences. Her pioneering research on plant-microbe interactions, especially in ultramafic and saline environments, underscores her commitment to sustainable solutions.

🎓 Education 

Prof. Valérie Burtet-Sarramegna embarked on her academic journey with a Ph.D. in Biochemistry and Molecular Biology from the University Paul Sabatier, Toulouse, in 2002. Her doctoral research delved into the molecular mechanisms underlying plant responses to environmental stresses. In 2020, she achieved her Habilitation to Supervise Research from the University of New Caledonia (UNC), reflecting her dedication to advancing scientific knowledge. Her academic pursuits have consistently bridged the gap between molecular biology and environmental sciences, laying a robust foundation for her interdisciplinary research endeavors.

 💼  Professional Experience

Prof. Valérie Burtet-Sarramegna embarked on her academic journey with a Ph.D. in Biochemistry and Molecular Biology from the University Paul Sabatier, Toulouse, in 2002. Her doctoral research delved into the molecular mechanisms underlying plant responses to environmental stresses. In 2020, she achieved her Habilitation to Supervise Research from the University of New Caledonia (UNC), reflecting her dedication to advancing scientific knowledge. Her academic pursuits have consistently bridged the gap between molecular biology and environmental sciences, laying a robust foundation for her interdisciplinary research endeavors.

🏅 Awards and Recognition 

Prof. Valérie Burtet-Sarramegna’s contributions have garnered significant recognition. Her involvement in the groundbreaking publication “The Amborella genome and the evolution of flowering plants” in Science (2013) underscores her impact in the field. She has been at the forefront of numerous funded projects, including the ANR EVOMETONICKS and the Pacific Nickelators series, reflecting her leadership in research initiatives. Her role in supervising Ph.D. candidates on topics ranging from seed germination mechanisms to microbial biotechnologies showcases her dedication to mentoring the next generation of scientists. These accolades and responsibilities highlight her esteemed position in the scientific community.

🌍Research skills On Plant Microbiology

Prof. Burtet-Sarramegna’s research prowess lies in her interdisciplinary approach, combining biochemistry, molecular biology, and environmental sciences. Her expertise encompasses studying biochemical and molecular adaptations of plants and microorganisms to environmental constraints, such as metallic stress in ultramafic environments and salt stress. She has a keen interest in Amborella trichopoda, the oldest angiosperm, exploring its unique characteristics. Her methodological skills include omics techniques for biodiversity, enzymology, and structural biochemistry. Her research not only advances scientific understanding but also offers practical solutions for environmental challenges, such as phytoremediation and microbial biotechnology applications.

📖Publications

Investigating some mechanisms underlying stress metal adaptations of two Burkholderia sensu lato species isolated from New Caledonian ultramafic soilsEuropean Journal of Soil Biology, 2020
Wide Cross-species RNA-Seq Comparison Reveals Convergent Molecular Mechanisms Involved in Nickel Hyperaccumulation Across DicotyledonsNew Phytologist, 2020
The cepacian-like exopolysaccharide of Paraburkholderia ultramafica STM10279 T enhances growth and metal adaptation of Tetraria comosa on New Caledonian ultramafic soilFrontiers in Plant Science, 2024
Metal extraction capacities of the two halophytes Sesuvium portulacastrum and Suaeda australis from New Caledonian estuaries contaminated with metalsBioremediation Journal, 2024
 Plant Nickel-Exclusion Versus Hyperaccumulation: a Microbial PerspectiveMicrobiome, 2025

Liang Shi | Plant Physiology | Plant Biology Leadership Award

Published on by Plant Scientist

Dr. Liang Shi | Plant Physiology | Plant Biology Leadership Award

College of Life Sciences, Nanjing Agricultural University | China

Author Profile

Scopus
Orcid ID

🌟  Suitable for this Plant Biology Leadership Award

Dr. Liang Shi, born in April 1990, is a Lecturer at the College of Life Sciences, Nanjing Agricultural University. With a strong academic foundation and cutting-edge research in plant physiology, he has significantly advanced knowledge on ectomycorrhizal fungi, phytoremediation, and soil-plant interactions. His studies demonstrate exceptional leadership in uncovering physiological responses of plants and fungi under environmental stressors like Cr(VI) and microplastics. Backed by prestigious national and provincial funding, Liang Shi exemplifies the ideal candidate for the Plant Biology Leadership Award—young, prolific, and purpose-driven. His work is not only impactful in scientific literature but also offers practical ecological solutions for sustainable agriculture.

🎓 Education 

Dr. Liang Shi began his academic journey at Nanjing Agricultural University, where he earned a Bachelor’s degree in Plant Protection and Ecology (2009–2013). Passionate about plant science, he pursued a Ph.D. in Botany at the same university, conducting groundbreaking work on ectomycorrhizal fungi and their physiological roles in soil environments (2013–2018). Post-PhD, he continued as a Postdoctoral Researcher in the College of Resources and Environmental Sciences, focusing on agricultural resources and environmental sustainability (2019–2022). His academic evolution has been marked by excellence and consistency, leading to his appointment as a Lecturer in 2022. His strong educational foundation has fueled a research career that merges theoretical insights with practical environmental solutions.

 💼  Professional Experience

Dr. Shi has held diverse research and teaching roles within Nanjing Agricultural University. As a Postdoctoral Researcher, he led and collaborated on national projects focusing on soil remediation, heavy metal pollution, and ectomycorrhizal fungi functions. Now a Lecturer in Botany, he continues to explore physiological plant processes, coordinating with national R&D programs and contributing to agriculture-focused innovations. He has managed or participated in over nine key scientific projects, including work under the National Natural Science Foundation of China, Jiangsu Provincial Science Programs, and China Agriculture Research System. His work is a model of interdisciplinary collaboration—blending plant biology, soil science, and microbiology for sustainable development.

🏅 Awards and Recognition 

Dr. Liang Shi’s contributions have earned him prestigious support and recognition in the field of plant physiology. His notable awards include:

  • 🌟 National Natural Science Foundation of China Young Investigator Grant

  • 🌏 Postdoctoral International Exchange Program Award

  • 🏆 China Postdoctoral Science Foundation General Project Grant

  • 🎖️ Youth Program of Basic Business Funds for Central Universities

These awards affirm his commitment to impactful research in soil detoxification, plant-fungi symbiosis, and sustainable agriculture. His studies have been consistently cited and referenced by fellow researchers, with publications in top-tier journals such as Frontiers in Plant Science, Journal of Hazardous Materials, and Chemosphere. His growing influence is evident not only through funding but also in his rising role as a mentor and leader in plant physiology.

🌍Research skills On Plant Physiology

Dr. Shi’s research toolbox spans plant physiology, phytoremediation, soil microbiology, and environmental toxicology. He specializes in:

  • 🧪 Physiological analysis of ectomycorrhizal fungi under heavy metal stress

  • 🌱 Soil-plant-microbe interactions in chromium and cadmium contamination

  • 🧬 Gene cloning and functional analysis (nitrate/nitrite reductase)

  • 🧠 Machine learning modeling in phytoremediation effectiveness

  • 🔬 Environmental stressors like microplastics affecting plant growth

His hands-on experience with soil remediation strategies, coupled with bioinformatics and machine learning, gives him a multidisciplinary edge. Liang Shi’s work showcases innovation, precision, and real-world application—a unique blend for transforming plant physiology into a tool for ecological resilience.

📖Publications

A thorough screening based on QTLs controlling zinc and copper accumulation in the grain of different wheat genotypes

  • Authors: Liu, Y.; Chen, Y.; Yang, Y.; Zhang, Q.; Fu, B.; Cai, J.; Guo, W.; Shi, L.; Wu, J.; Chen, Y.

  • Journal: Environmental Science and Pollution Research

  • Year: 2021

Analysis of the long-term effectiveness of biochar immobilization remediation on heavy metal contaminated soil and the potential environmental factors weakening the remediation effect: A review

  • Authors: Li, Y.; Shao, Y.; Liu, Y.; Wang, H.; Zhang, Y.; Zhang, J.; Wang, X.

  • Journal: Ecotoxicology and Environmental Safety

  • Year: 2021

A Cr(VI)-tolerant strain, Pisolithus sp1, with a high accumulation capacity of Cr in mycelium and highly efficient assisting Pinus thunbergii for phytoremediation

  • Authors: Shi, L.; Deng, X.; Yang, Y.; Jia, Q.; Wang, C.; Shen, Z.; Chen, Y.

  • Journal: Chemosphere

  • Year: 2019