Ao Li
Environmental Science · Indiana University
Publications
182
Citations
3,188
Est. group size
—
Recurring co-author estimate
Active years
25
Publishing since 2002
Ao Li's research centers on how marine organisms, particularly oysters, adapt to environmental stresses such as temperature and salinity changes, using genome-wide and molecular analysis techniques. Much of this work involves sequencing and assembling oyster genomes and identifying the genes and molecular mechanisms behind traits like heat resistance. The published record also spans a notably wide range of other topics from plant stress biology to aquaculture, reflecting participation in many collaborative studies.
Publication activity has grown steadily over the past decade, rising from a few papers per year to a peak of 40 in 2025, with a recent five-year average of about 23 per year.
Generated by claude-opus-4-8 from public bibliographic data · Jul 11, 2026
- Genome-Wide Identification and Systematic Analysis of the HSF Gene Family in Capparis spinosa and Its Expression Under High Temperature
International Journal of Molecular Sciences · 2026
- The Value and Innovative Path of College Students' Participation in Community-Based Bilingual Science Popularization—Take the "Summer Science Popularization Volunteer Team Project of HuBei University of Technology" as an Example
Journal of Education Teaching and Social Studies · 2025
- Retarded Gelled Acid for High-Temperature Carbonate Reservoir Acidizing: Retardancy and Mechanism Study
ACS Omega · 2025
- High-precision pulse calibration of tunable couplers for high-fidelity two-qubit gates in superconducting quantum processors
Physical Review Applied · 2025
- LncRNA-Mediated Tissue-Specific Plastic Responses to Salinity Changes in Oysters
International Journal of Molecular Sciences · 2025
- Adaptation of Plants to UV-B Radiation with Altitude in Tuha Basin: Synergistic Regulation of Epidermal Structure, Secondary Metabolites, and Organic Element Allocation
Life · 2025
- Structural basis of phosphate export by human XPR1
Cell Research · 2025
- Assessing the economic impact of climate risk on green and low-carbon transformation
Frontiers in Environmental Science · 2025
- Explainable AI for time series prediction in economic mental health analysis
Frontiers in Medicine · 2025
- Pd-modified MXene enabled electrochemical sensing platform for ratiometric detection of acetylcholinesterase inhibitors via modulation effect of Prussian blue
Analytica Chimica Acta · 2025
- The Molecular Mechanism of Clock in Thermal Adaptation of Two Congeneric Oyster Species
International Journal of Molecular Sciences · 2025
- The influence of climate change on Primula Sect. Crystallophlomis in southwest China
BMC Plant Biology · 2025
- Interlocking reinforced graphitic material based on nanodiamond-derived nano-onion-helical carbon nanotube anchored structure
Diamond and Related Materials · 2025
- Integrated transcriptomic and co-expression network analysis identifies immune-metabolic biomarkers of polycystic ovary syndrome in granulosa cells
Journal of Ovarian Research · 2025
- Ctnnb1 and Keap1-Nrf2 mediating divergent heat resistance in two congeneric oysters
International Journal of Biological Macromolecules · 2025
- Figshare×16
- SSRN Electronic Journal×10
- Ore Geology Reviews×5
- Marine Biotechnology×5
- International Journal of Molecular Sciences×5
This profile was generated automatically from public scholarly data (OpenAlex). Group size and activity levels are estimates derived from co-authorship patterns.
Last updated Jul 11, 2026.
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