Ying Li | Geochemistry | Outstanding Scientist Award

Posted on by Phenomenological Research

Outstanding Scientist Award

Ying Li
Professor of Geochemistry Institute of Earthquake Forecasting, China Earthquake Administration, China
Ying Li
Affiliation Professor of Geochemistry Institute of Earthquake Forecasting, China Earthquake Administration
Country China
Scopus ID 55763793522
Documents 131
Citations 1591
h-index 23
Subject Area Geochemistry
Event International Phenomenological Research Awards
Scopus ID qCBdykoAAAAJ

Ying Li is a Chinese geochemist and earthquake fluid geochemistry researcher currently serving as Professor of Geochemistry and Deputy Director at the Institute of Earthquake Forecasting, China Earthquake Administration. His research focuses on fluid geochemistry in active tectonic zones, earthquake precursor mechanisms, geothermal systems, and high-pressure metamorphic processes in subduction environments. Through interdisciplinary integration of isotope geochemistry, seismic fluid monitoring, and experimental mineral physics, Ying Li has contributed substantially to the understanding of geochemical signals associated with tectonic activity and earthquake forecasting methodologies.[1]

Abstract

Ying Li has developed an internationally recognized research profile in geochemistry, earthquake fluid monitoring, tectonic geochemistry, and experimental high-pressure mineral physics. His investigations have addressed the behavior of deep-earth fluids within active tectonic fault zones and their implications for earthquake forecasting and seismic hazard assessment. Li’s scholarly contributions include extensive work on radon, carbon dioxide, methane, mercury, and geothermal fluid emissions associated with tectonic activity across the Tibetan Plateau, North China Craton, and Ordos Block.[2]

His research integrates geochemical field monitoring, isotope geochemistry, thermodynamic modeling, and laboratory-based high-pressure experiments to evaluate fluid migration processes in active crustal systems. He has also contributed to theoretical studies concerning dehydration reactions in subducted sediments and the metamorphic evolution of hydrous mineral systems under extreme pressure-temperature conditions.[3]

Keywords

  • Geochemistry
  • Earthquake Fluid Geochemistry
  • Tectonic Geochemistry
  • Radon Emissions
  • Active Fault Zones
  • Subduction Zone Metamorphism
  • High-Pressure Experimental Geochemistry
  • Seismic Forecasting
  • Geothermal Fluids
  • Fluid Migration Mechanisms

Introduction

The scientific study of earthquake-related geochemical processes has become increasingly important in understanding crustal deformation, tectonic stress accumulation, and fluid migration in active fault systems. Within this field, Ying Li has contributed extensively to the development of seismic fluid geochemistry as an interdisciplinary research domain integrating geophysics, geochemistry, mineralogy, and tectonics.[4]

Ying Li completed his doctoral studies in Experimental Geochemistry at the Institute of Geochemistry, Chinese Academy of Sciences, while also conducting research at Stuttgart University in Germany. He later served as a visiting scholar at Stony Brook University in the United States, further strengthening his expertise in mineral physics and experimental geoscience. His academic and administrative leadership at the Institute of Earthquake Forecasting has positioned him as a key figure in earthquake geochemistry research within China.[1]

Research Profile

Ying Li’s research profile encompasses both field-based tectonic geochemistry and laboratory-based high-pressure geoscience. His studies have focused on the geochemical behavior of fluids in active fault zones, particularly the emission and migration characteristics of gases such as CO2, CH4, radon, helium, and mercury within seismically active regions.[5]

In addition to earthquake-related geochemistry, Ying Li has conducted investigations into metamorphic dehydration reactions of subducted sediments under high-pressure and high-temperature conditions. His work combines thermodynamic calculations and experimental petrology to understand deep-earth fluid generation and mineral stability in subduction environments.[6]

  • Earthquake precursor geochemistry
  • Fluid migration in active fault systems
  • Geothermal water geochemistry
  • High-pressure mineral experiments
  • Subduction-zone metamorphism
  • Isotopic analysis of tectonic fluids
  • Seismic geochemical monitoring

Research Contributions

Ying Li has contributed to understanding the spatial and temporal variability of soil gas emissions in active tectonic regions of China. His studies demonstrated relationships between gas anomalies and fault activity, helping establish geochemical monitoring frameworks for seismic surveillance.[7]

Several of his investigations explored the correlation between geothermal fluid chemistry and tectonic segmentation in regions such as the Zhangjiakou-Penglai fault zone and Tibetan Plateau fault systems. These studies provided insight into deep fluid circulation, hydrothermal processes, and structural controls on geothermal systems.[8]

Ying Li also contributed to high-pressure geoscience through experimental analyses of carbonate minerals and dehydration processes in pelitic systems. His thermodynamic and experimental studies improved understanding of fluid release mechanisms during subduction metamorphism and mantle wedge interactions.[9]

  • Investigation of radon and CO2 emissions across active faults
  • Analysis of geothermal fluid isotope systems
  • Experimental modeling of hydrous mineral stability
  • Thermodynamic calculations of subducted sediment dehydration
  • Assessment of fluid geochemistry in seismic forecasting
  • Characterization of tectonic fluid migration processes

Publications

Ying Li has authored and co-authored more than 130 indexed publications and several scholarly books in geochemistry and earthquake science. His publications appear in internationally recognized journals including Chemical Geology, Applied Geochemistry, Geothermics, Earth and Space Science, American Mineralogist, and Journal of Asian Earth Sciences.[9]

Research Impact

The scientific impact of Ying Li’s work is reflected in his publication record, citation metrics, leadership roles, and interdisciplinary collaborations. His Scopus profile records more than 1,591 citations and an h-index of 23, indicating sustained influence within geochemistry and earthquake science communities.[1]

Ying Li has contributed to major scientific initiatives related to earthquake prediction and fluid geochemistry, including UNESCO International Geoscience Programme projects and national earthquake monitoring programs in China. His work has supported advances in geochemical surveillance methods and improved understanding of deep-earth fluid systems associated with seismic activity.

In addition to research, Ying Li has served in editorial and professional leadership positions, including roles within the Seismological Society of China and editorial boards of geoscience journals. These contributions demonstrate continued engagement in scientific coordination and academic development within the field.

Award Suitability

Ying Li’s research profile demonstrates strong alignment with the objectives of the International Phenomenological Research Awards and the Outstanding Scientist Award category. His scientific contributions span theoretical geochemistry, field-based tectonic investigations, seismic fluid monitoring, and experimental high-pressure mineralogy.

His studies on earthquake fluid geochemistry and tectonic gas emissions have advanced understanding of the relationship between geochemical anomalies and seismic processes. Furthermore, his leadership in multidisciplinary projects and his sustained publication record indicate a long-term commitment to advancing geoscience research at both national and international levels.

Conclusion

Ying Li has established a distinguished academic career in geochemistry and earthquake fluid science through extensive research on tectonic fluids, seismic precursor mechanisms, and subduction-zone metamorphic processes. His interdisciplinary methodology, combining field observations with experimental geoscience and thermodynamic modeling, has contributed significantly to the understanding of deep-earth fluid systems and earthquake-related geochemical phenomena.

Through sustained scholarly productivity, scientific leadership, and participation in international geoscience collaborations, Li continues to influence the development of earthquake geochemistry and tectonic fluid research. His achievements support recognition within the Outstanding Scientist Award category of the International Phenomenological Research Awards.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Ying Li, Author ID 55763793522. Scopus. https://www.scopus.com/authid/detail.uri?authorId=55763793522
  2. Hu L, Li Y*, Liu Z, et al. (2025). Undervalued CO2 emissions from soil to the atmosphere in seismic areas. Global and Planetary Change. https://papers.ssrn.com/sol3/papers.cfm?abstract_id=4896640
  3. Li Y, Du JG. (2010). Thermodynamic calculation on the phase transformation and water release of subducted sediment from 10 to 35kbar.https://doi.org/10.1016/j.jpcs.2010.03.010
  4. Li Y, Chen Z, Hu L, et al. (2022). Advances in seismic fluid geochemistry and its application in earthquake forecasting. https://doi.org/10.1360/TB-2021-0955
  5. Li Y, Massonne HJ, Willner A, et al. (2008). Dehydration of clastic sediments in subduction zones. Island Arc. https://doi.org/10.1111/j.1440-1738.2008.00640.x
  6. Yang Y, Li Y*, Guan ZJ, Chen Z*, et al. (2018). Correlations between radon concentrations in soil gas and fault activity. Applied Geochemistry. https://doi.org/10.1016/j.apgeochem.2017.11.006
  7. Su SJ, Li Y*, Chen Z, et al. (2022). Geochemistry of geothermal fluids in the Zhangjiakou-Penglai fault zone. https://doi.org/10.1016/j.jseaes.2022.105218
  8. Li Y, Zou YT, Wang XB, et al. (2015). P-V-T equation of state and high-pressure behavior of CaCO3 aragonite. https://doi.org/10.2138/am-2015-5246
  9. Google Scholar. (n.d.). Ying Li citation profile and publication metrics. https://scholar.google.com/citations?user=qCBdykoAAAAJ&hl=en&oi=sra

Raffaella Silvia Iovine | Geochemistry | Women Researcher Award

Posted on by Phenomenological Research

Dr. Raffaella Silvia Iovine | Geochemistry | Women Researcher Award

Research grant, National Institute of Geophysics and Volcanology, Italy

Dr. Raffaella Silvia Iovine, born on September 15, 1988, is an Italian geoscientist specializing in volcanic and environmental geochemistry. Currently a postdoctoral fellow at the Istituto Nazionale di Geofisica e Vulcanologia (INGV) in Naples, her research focuses on radon distribution in volcanic areas. With a strong academic background and extensive fieldwork experience, Dr. Iovine contributes significantly to our understanding of volcanic and environmental processes.

Profile

Scopus

Strength for the Award

Dr. Raffaella Silvia Iovine has demonstrated exceptional expertise in volcanic geochemistry and environmental monitoring through her significant contributions to the study of radon distribution in volcanic regions. Her work, particularly on radon levels in the Campi Flegrei caldera and its implications for volcanic and environmental hazards, highlights her ability to integrate geochemical methods with real-time monitoring technologies. Her research is crucial for understanding volcanic activity and public health risks associated with radon exposure. The publication of her findings in reputable journals, including Journal of Volcanology and Geothermal Research and Geochemistry, underscores the impact of her work in the field. Her postdoctoral research reflects a strong commitment to advancing the understanding of volcanic processes and environmental safety.

Area for Improvement

While Dr. Iovine’s research is impressive, expanding her work to include more interdisciplinary collaborations could enhance its broader impact. Integrating her findings with studies in public health, urban planning, and policy-making could provide a more comprehensive approach to addressing the risks associated with radon and volcanic activity. Additionally, increasing her visibility through more diverse conference presentations and outreach could strengthen her influence and foster broader collaborations.

Education

Dr. Iovine earned her Ph.D. in Geoscience from Georg August Universität Göttingen in 2018, where her thesis explored magmatic processes in Neapolitan volcanoes. She holds a Master’s Degree in Geology and Applied Geology from Università degli Studi di Napoli Federico II (2013), focusing on volcanic eruptions and magmatic systems. Her Degree in Geological Sciences from the same university (2011) involved isotopic geochemistry of volcanic eruptions.

Experience

Dr. Iovine has been a Postdoctoral Fellow at INGV since October 2021, studying radon levels in the Campi Flegrei caldera. She previously held a Postdoctoral Fellowship at Università degli Studi di Napoli Federico II (2020-2021), investigating tephrostratigraphy through isotopic analysis. Her earlier roles include a scholarship at INGV (2011) and significant research during her Ph.D. at Georg August Universität Göttingen (2013-2018).

Research Interests

Dr. Iovine’s research interests include radon geochemistry, volcanic hazards, and geochemical tracing of volcanic processes. Her work primarily focuses on the radon distribution in volcanic regions and the geochemical and isotopic analysis of volcanic and tephra samples to understand magmatic activities and environmental risks.

Awards

Dr. Iovine has been recognized for her contributions to geochemistry and volcanic studies, though specific awards are not listed. Her work, particularly on radon and volcanic activity, has significantly impacted the field.

Publications Top Notes

  1. Iovine RS, Galli G, Rufino F, et al. Geochemistry, 2024 – Radon and water geochemistry at the active Campi Flegrei volcano (Italy): The role of pore-water phenomena.
  2. Pelullo C, Arienzo I, D’Antonio M, et al. Quaternary Science Advances, 2024 – Explosive volcanic activity in Central-Southern Italy during Middle Pleistocene: A tale from tephra layers of the Acerno basin.
  3. Iovine RS, Avino R, Minopoli C, et al. Rapp. Tec. INGV, 2023 – A procedure to use the RAD7 detector for measuring 222Rn in soil gases exceeding instrumental limits.
  4. Iovine RS, Piochi M, Avino R, et al. Journal of Volcanology and Geothermal Research, 2022 – Radon (222Rn) levels in thermal waters of the geothermally active Campi Flegrei volcanic caldera (Southern Italy): A framework study.
  5. Iovine RS, Mazzeo FC, Wörner G, et al. Lithos, 2017 – Coupled δ18O-δ17O and 87Sr/86Sr isotope compositions suggest a radiogenic and 18O-enriched magma source for Neapolitan volcanoes (Southern Italy).

Conclusion

Dr. Raffaella Silvia Iovine is a strong candidate for the Research for Women Researcher Award due to her groundbreaking work in volcanic geochemistry and environmental monitoring. Her research contributes significantly to understanding and mitigating volcanic and radon-related hazards. With continued interdisciplinary collaboration and broader outreach, her impact in the field could be even greater.