Adaptation of High-Altitude Plants to Harsh Environments: Application of Phenotypic-Variation-Related Methods and Multi-Omics Techniques

High-altitude plants face extreme environments such as low temperature, low oxygen, low nutrient levels, and strong ultraviolet radiation, causing them to adopt complex adaptation mechanisms. Phenotypic variation is the core manifestation of ecological adaptation and evolution. Many plants have deve...

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Bibliographic Details
Published in:International journal of molecular sciences 2024-12, Vol.25 (23), p.12666
Main Authors: Zhang, Kai-Lu, Leng, Ya-Nan, Hao, Rui-Rui, Zhang, Wen-Yao, Li, Hong-Fei, Chen, Mo-Xian, Zhu, Fu-Yuan
Format: Article
Language:English
Subjects:
Acclimatization
Adaptation, Physiological
Altitude
Climate change
Cold
Ecosystems
Energy consumption
Environmental conditions
Evolution
Evolution & development
Evolutionary biology
Experiments
Genes
Genetic research
Genomics
Genomics - methods
Metabolomics - methods
Multiomics
Natural selection
Phenotype
Physiology
Plant growth
Plant Physiological Phenomena
Plants
Plants - genetics
Plants - metabolism
Proteomics - methods
Radiation
Temperature
Transcriptome
Ultraviolet radiation
Unmanned aerial vehicles
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Summary:High-altitude plants face extreme environments such as low temperature, low oxygen, low nutrient levels, and strong ultraviolet radiation, causing them to adopt complex adaptation mechanisms. Phenotypic variation is the core manifestation of ecological adaptation and evolution. Many plants have developed a series of adaptive strategies through long-term natural selection and evolution, enabling them to survive and reproduce under such harsh conditions. This article reviews the techniques and methods used in recent years to study the adaptive evolution of high-altitude plants, including transplantation techniques, genomics, transcriptomics, proteomics, and metabolomics techniques, and their applications in high-altitude plant adaptive evolution. Transplantation technology focuses on phenotypic variation, which refers to natural variations in morphological, physiological, and biochemical characteristics, exploring their key roles in nutrient utilization, photosynthesis optimization, and stress-resistance protection. Multiple omics technologies, including genomics, transcriptomics, proteomics, and metabolomics, have revealed genes, regulatory pathways, and metabolic networks associated with phenotypic variations at the genetic and molecular levels. At the same time, the limitations and deficiencies of current technologies used to study plant adaptation to high-altitude environments were discussed. In addition, we propose future improvements to existing technologies and advocate for the integration of different technologies at multiple levels to study the molecular mechanisms of plant adaptation to high-altitude environments, thus providing insights for future research in this field.
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms252312666