Reza Chamani | Sustainable Development | Best Researcher Award

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Dr. Reza Chamani | Sustainable Development | Best Researcher Award

Post Doctoral Researcher at Tarbiat Modares University in Iran

Dr. Reza Chamani is a dedicated researcher in Watershed Management Sciences & Engineering, currently serving as a Postdoctoral Researcher at Tarbiat Modares University (TMU), Tehran, Iran. With a passion for hydrological sustainability, Dr. Chamani’s work focuses on watershed health, climate resilience, and ecological security. He earned his Ph.D. from TMU, where he developed models to assess the effect of hydrologic service changes on watershed health. Over the past decade, he has been actively involved in the implementation, assessment, and design of watershed structures across South Khorasan. His research contributions include over 15 publications in reputed journals and affiliations with professional bodies like the Iran Watershed Association and the World Association for Soil and Water Conservation (WASWC). Dr. Chamani brings academic rigor, practical field experience, and visionary research on land degradation neutrality, making him a strong candidate for international recognition in sustainable water resource management.

Professional Profile

Education 

Dr. Reza Chamani holds a distinguished academic background in watershed and environmental management. He completed his Ph.D. in 2023 in Watershed Management Sciences & Engineering from Tarbiat Modares University (TMU), where his research focused on evaluating the impact of hydrologic service changes resulting from watershed management measures on watershed health. He is currently pursuing a postdoctoral fellowship at TMU, continuing his work on implementing land degradation neutrality-based action plans for Iran’s second-order priority watersheds. Prior to this, he earned his Master’s degree in 2015 from Ferdowsi University of Mashhad, studying the role of land use management in climate change adaptation, in collaboration with the University of Jena, Germany. His academic journey began with a Bachelor’s degree in 2010 from Zabol University, with a focus on pasture and watershed management. His education spans interdisciplinary and international experiences, setting a solid foundation for his applied research in sustainable watershed practices.

Experience

Dr. Reza Chamani brings a wealth of practical and research-based experience in watershed management. Between 2017 and 2019, he actively contributed to Iran’s Department of Natural Resources and Watershed Management in South Khorasan, where he participated in detailed design, planning, and implementation of dam and watershed rehabilitation projects across the Noferst and Bisheh watersheds. His hands-on involvement included detailed structure measurements and preparing regional status reports. At the academic level, Dr. Chamani has collaborated with national and international researchers and served under the supervision of eminent scientists like Prof. Dr. S.H. Sadeghi and Prof. Dr. Mehdi Vafakhah. His experience bridges fieldwork and scientific inquiry, making his contributions especially valuable to sustainable land and water resource projects. As a Postdoctoral Researcher, he now works on strategic watershed health plans, integrating policy-relevant models and global frameworks like Land Degradation Neutrality. His dual expertise in practice and theory amplifies the applicability and impact of his research.

Research Focus 

Dr. Chamani’s research focuses on the interdisciplinary study of watershed health, climate resilience, and sustainable water resource management. He applies cutting-edge models like the Pressure-State-Response (PSR) framework, and the Reliability–Resilience–Vulnerability (RRV) model, to assess watershed performance under environmental stressors such as drought and climate change. His current postdoctoral research targets land degradation neutrality-based planning for Iran’s second-order priority watersheds, a concept promoted by the United Nations Convention to Combat Desertification. Dr. Chamani also investigates the hydrological impacts of land use changes, evaluates ecological security through spatial modeling, and forecasts watershed behavior using GIS and remote sensing. His work is applied in scope, offering insights for policy development, infrastructure design, and adaptive land-use planning. Collaborating across institutions and disciplines, he aims to ensure that watershed interventions are both environmentally sustainable and socially responsible, contributing meaningfully to regional climate adaptation strategies and global sustainability goals.

Publication Top Notes

1. Watershed health and ecological security zoning throughout Iran

Authors: SH Sadeghi, R Chamani, MZ Silabi, M Tavosi, A Katebikord, …
Journal: Science of The Total Environment, Vol. 905, Article 167123
Cited by: 29 | Year: 2023
Summary: This study presents a comprehensive national-scale ecological zoning of Iran based on watershed health and ecological security. Using a multi-criteria decision-making approach, it identifies critical zones requiring immediate management interventions.

2. Changes in reliability–resilience–vulnerability-based watershed health under climate change scenarios in the Efin Watershed, Iran

Authors: R Chamani, M Vafakhah, SH Sadeghi
Journal: Natural Hazards, 116(2), 2457–2476
Cited by: 19 | Year: 2023
Summary: The paper evaluates watershed health in Efin under climate change using reliability, resilience, and vulnerability (RRV) indices. It highlights future risks and offers guidance for sustainable watershed management.

3. Assessment of the effect of climate change on the health status of Atrak watershed in Northeastern of Iran

Authors: R Chamani, M Vafakhah, M Tavosi, S Zare
Journal: Arabian Journal of Geosciences, 15(24), 1745
Cited by: 13 | Year: 2022
Summary: Investigates the impact of climate projections on the Atrak Watershed’s ecological health using scenario-based modeling. Findings suggest serious degradation under high-emission pathways.

4. Reliability, resilience, and vulnerability of Chalous Watershed based on drought index

Authors: R Chamani, SH Sadeghi, M Vafakhah, M Naghdi
Journal: Watershed Engineering and Management, 14(1), 65–75
Cited by: 9 | Year: 2022
Summary: This study evaluates the Chalous watershed’s response to drought conditions using RRV indices. Results provide insight into its adaptive capacity and inform drought mitigation strategies.

5. Flood‐oriented watershed health and ecological security conceptual modeling using pressure, state, and response (PSR) approach for the Sharghonj Watershed, South Khorasan

Authors: R Chamani, SH Sadeghi, S Zare, H Shekohideh, A Mumzaei, H Amini, …
Journal: Natural Resource Modeling, 37(1), e12385
Cited by: 7 | Year: 2024
Summary: Introduces a PSR-based conceptual model for assessing flood-induced impacts on watershed health. Emphasizes the need for proactive watershed and disaster management.

6. Effect of drought on temporal-spatial changes of the Efin Watershed health

Authors: R Chamani, M Vafakhah, SHR Sadeghi
Journal: Watershed Engineering and Management, 15(1), 1–12
Cited by: 7 | Year: 2023
Summary: Analyzes spatial and temporal drought effects on Efin Watershed health, proposing adaptive water management strategies.

7. Evaluation and variability of flood-oriented health of Shiraz Darwazeh Quran Watershed from watershed management structures

Authors: SH Sadeghi, M Tavoosi, S Zare, V Beiranvandi, H Shekohideh, …
Journal: Watershed Engineering and Management
Cited by: 6 | Year: 2022
Summary: Evaluates the effectiveness of structural measures on flood-related watershed health using empirical data and modeling.

8. Hydrological response to future climate changes in Chehelchay Watershed in Golestan Province

Authors: R Chamani, M Azari, S Kralisch
Journal: Watershed Engineering and Management, 12(1), 72–85
Cited by: 6 | Year: 2020
Summary: Assesses the impact of climate change on hydrological patterns in Chehelchay Watershed using SWAT model simulations.

9. Flood-oriented watershed health and ecological security conceptual modeling using PSR approach for the Sharghonj watershed, South Khorasan Province, Iran

Authors: R Chamani, SH Sadeghi, S Zare, H Shekohideh, A Mumzaei, H Amini, …
Journal: Natural Resource Modeling, Article e12385
Cited by: 5 | Year: 2023
Summary: Duplicate entry of #5 with minor variation in title. Focus remains on flood-driven ecological health modeling using the PSR framework.

10. Health variability based on SPI and estimating median and mean health indices in watersheds and townships of Kermanshah Province, Iran

Authors: SH Sadeghi, R Chamani, M Kalehhouei, K Haji
Journal: Environment, Development and Sustainability, 1–21
Cited by: 4 | Year: 2024
Summary: Uses the Standardized Precipitation Index (SPI) to evaluate watershed health across Kermanshah, providing a new method for spatial health estimation.

Conclusion

In conclusion, Dr. Reza Chamani is not only a qualified but also a highly deserving nominee for the Best Researcher Award. His innovative, data-driven contributions to watershed health, resilience modeling, and ecological security have significantly advanced both the scientific understanding and applied practices in watershed management in Iran and beyond. With a forward-looking research agenda and demonstrated scientific rigor, Dr. Chamani exemplifies the qualities of a modern environmental scientist and is a strong candidate to be honored with this distinction.

Liping Hao | Greenhouse Gas Emission | Best Researcher Award

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Dr. Liping Hao | Greenhouse Gas Emission | Best Researcher Award

Associate Professor, Tianjin University, China

Dr. Liping Hao is an Associate Professor at the Institute of Surface-Earth System Science, School of Earth System Science, Tianjin University, China. A pioneering researcher in environmental microbiology and greenhouse gas emission, Dr. Hao’s work bridges the gap between microbial ecology and sustainable environmental technologies. Her interdisciplinary approach integrates bioinformatics, anaerobic digestion, and climate science to mitigate greenhouse gas emissions and enhance resource recovery.

👩‍🔬Professional Profile

Scopus Profile

🏆 Strengths for the Award

Focused and Timely Research Area:

Dr. Hao’s research on greenhouse gas production and emission, especially methane, is highly relevant in the context of global climate change. The work contributes to the understanding and mitigation of climate impacts—a top priority in environmental science.

Interdisciplinary Expertise:

The integration of environmental microbiology, anaerobic digestion, and bioinformatics indicates a strong interdisciplinary approach. This is valuable for innovative solutions in environmental management and sustainable technology.

Practical Applications:

Her work supports both scientific advancement and real-world application, such as improving resource utilization and emission reduction technologies. This dual impact is essential for awards recognizing impactful research.

Institutional Affiliation:

Being associated with the Institute of Surface-Earth System Science at Tianjin University, a respected institution in China, supports the credibility and infrastructure behind her work.

Contribution to Biogeochemical Cycles:

By focusing on element cycling through microbial interactions, Dr. Hao contributes fundamental knowledge to Earth system science, helping to bridge micro-level processes with macro-environmental outcomes.

🎓 Education

Dr. Liping Hao received her Ph.D. in Environmental Science and Engineering from a top-tier institution in China, where she developed a strong foundation in microbiology and environmental biotechnology. During her doctoral studies, she focused on microbial community dynamics in wastewater treatment systems, gaining valuable expertise in molecular biology, genomic analysis, and bioreactor technologies. Her academic journey has always been marked by a commitment to excellence and innovation.

🧪Experience

With over a decade of experience in research and academia, Dr. Hao has established herself as a leader in environmental microbiology. She is currently an Associate Professor at Tianjin University, where she teaches graduate and undergraduate courses, mentors students, and leads multiple high-impact research projects. Dr. Liping Hao career includes collaborative work with interdisciplinary teams across institutions, both in China and internationally. Her involvement in national and international projects has allowed her to contribute significantly to cutting-edge research in anaerobic digestion technology and microbial greenhouse gas production. She is also actively engaged in reviewing for peer-reviewed journals and contributes to academic and industrial conferences worldwide.

🔬 Research Focus On Greenhouse Gas Emission

Dr. Hao’s research focuses on the microbial mechanisms driving greenhouse gas production, particularly methane, in both natural and engineered ecosystems. Her investigations delve into the complex microbial communities that govern carbon and nitrogen cycling, with an emphasis on anaerobic environments such as wetlands and anaerobic digesters. Central to her work is the identification of methanogenic and methanotrophic microorganisms, the analysis of microbe–microbe interactions, and the application of advanced bioinformatics and metagenomics to uncover underlying genetic pathways. By exploring the functional potential of microbial consortia, Dr. Hao aims to develop innovative biotechnological strategies that reduce greenhouse gas emissions. Her contributions are advancing the fields of climate change mitigation, waste-to-energy conversion, and sustainable resource management.

📚 Publication Top Notes

Microbiome and its genetic potential for carbon fixation in small urban wetlands

Affiliation: Institute of Surface-Earth System Science, School of Earth System Science, Tianjin University, China

Journal: Shengwu Gongcheng Xuebao (Chinese Journal of Biotechnology)

Year: 2025

Summary: This study investigates the microbial communities in small urban wetlands and their capacity for autotrophic carbon fixation. Using high-throughput sequencing and bioinformatics tools, Dr. Hao and her team identified previously unknown microbial taxa with significant potential to act as natural carbon sinks. The findings emphasize the ecological importance of urban wetlands in mitigating greenhouse gas emissions and offer a new perspective on using microbiomes for climate-resilient urban design.

🏆 Conclusion

Dr. Liping Hao is a visionary environmental microbiologist whose research is shaping the future of greenhouse gas mitigation and microbial biotechnology. Her unwavering commitment to understanding the microbial world and translating this knowledge into real-world environmental solutions marks her as a truly deserving nominee for this award.Through her leadership, scientific rigor, and passion for sustainability, Dr. Hao continues to inspire a new generation of scientists while making profound contributions to the global fight against climate change. 🌍🔬

Jasmin Cooper | Environmental Sustainability | Best Researcher Award

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Dr Jasmin Cooper | Environmental Sustainability | Best Researcher Award

Dr Jasmin Cooper, Imperial College London, United Kingdom

Dr. Jasmin Cooper, PhD, AMIChemE, is a leading Research Associate at Imperial College London, specializing in emissions inventory analysis and the life cycle sustainability of energy systems. She earned her PhD in Environment and Sustainable Technology from The University of Manchester, where her research assessed the sustainability of shale gas in the UK. Dr. Cooper’s work primarily focuses on evaluating the environmental, economic, and social sustainability of energy systems, including natural gas, hydrogen, and biomethane. She has consulted on multiple projects, offering expertise in emissions quantification, methane leakage analysis, and the techno-economic assessment of low-carbon technologies. With numerous peer-reviewed publications and involvement in high-profile consultancy projects, Dr. Cooper is a prominent figure in the field of sustainable energy systems.

Publication Profile

Google Scholar

Strengths for the Award

Dr. Jasmin Cooper stands out as an ideal candidate for the Best Researcher Award due to her extensive contributions to the fields of emissions inventory analysis, life cycle sustainability of energy systems, and decarbonization. Her research on methane emissions, sustainability assessments of shale gas, and the environmental impact of various energy technologies has not only resulted in high-impact publications but has also provided valuable insights into sustainable energy pathways for the UK. Dr. Cooper’s ability to secure funding, her role as a consultant on multiple high-profile projects, and her interdisciplinary approach make her a strong contender.

Her work, cited by numerous researchers, emphasizes the breadth of her impact. Key projects, such as life cycle assessments for UK industrial decarbonization, further showcase her leadership in advancing sustainable energy solutions. The breadth of her research covers critical areas like hydrogen emissions, negative emission technologies, and methane detection, proving her expertise in reducing environmental impacts.

Areas for Improvement

While Dr. Cooper’s contributions are exceptional, a potential area for growth could be increasing engagement in cross-disciplinary collaborative projects. By expanding the application of her findings in international contexts or other energy sectors, her research’s influence could reach a broader audience. Additionally, greater involvement in public dissemination could enhance the societal understanding and implementation of her findings on sustainability and decarbonization.

Education

Dr. Jasmin Cooper received her PhD in Environment and Sustainable Technology from The University of Manchester (2013–2017), where her research focused on the life cycle sustainability assessment of shale gas in the UK. Her work, funded by the EPSRC and The University of Manchester, examined the environmental, economic, and social implications of shale gas extraction and electricity generation in the UK, comparing its sustainability with other electricity options. Her thesis, titled Life Cycle Sustainability Assessment of Shale Gas in the UK, was supervised by Professor Adisa Azapagic and Dr. Laurence Stamford. Prior to her PhD, Dr. Cooper completed a First Class (Honours) MEng in Chemical Engineering with Environmental Technology (2009–2013) at The University of Manchester. Her undergraduate dissertation explored the swelling behavior of porous polymer adsorbents used for CO₂ capture, further solidifying her expertise in environmental technology and sustainable energy solutions.

Experience

Dr. Jasmin Cooper is currently a Research Associate at the Department of Chemical Engineering, Imperial College London, where she has worked since 2018. Her research focuses on decarbonizing energy systems by analyzing emissions from natural gas, biomethane, hydrogen, and negative emission technologies. Dr. Cooper conducts emission data analysis and life cycle modelling, and she leads projects on the quantification of methane emissions from natural gas supply chains. Her expertise extends to supply chain sustainability, where she assesses the transfer of greenhouse gas emissions across value chains and validates Scope 3 emissions quantification. Dr. Cooper has also worked as a consultant on various high-profile projects, such as methane leakage analysis for Shell and technoeconomic assessments of low-carbon marine fuels for the Royal Academy of Engineering. She has served as an expert witness and third-party reviewer for several consultancy projects and reports, demonstrating her broad expertise in environmental sustainability.

Research Focus

Dr. Jasmin Cooper’s research focuses on the life cycle sustainability of energy systems, with a particular emphasis on emissions analysis and environmental impact assessment. Her work covers natural gas, biomethane, hydrogen, and negative emission technologies, investigating how these energy sources can be used to decarbonize global energy systems. She specializes in the quantification of methane and other short-lived climate pollutants, as well as the technologies used to detect and measure these emissions. Dr. Cooper also explores the sustainability of energy supply chains, assessing how greenhouse gas emissions transfer across value chains and validating Scope 3 emissions data. In addition to this, her research includes the environmental, economic, and social sustainability assessment of shale gas, providing critical insights into its role in energy markets. Overall, her research contributes to understanding how future energy systems can meet global climate goals while minimizing environmental impacts.

Publications Top Notes

  • Shale gas: A review of the economic, environmental, and social sustainability 🛢️🌍💼 – J Cooper, L Stamford, A Azapagic (Energy Technology, 2016)
  • Hydrogen emissions from the hydrogen value chain-emissions profile and impact to global warming 💨⚗️🌍 – J Cooper, L Dubey, S Bakkaloglu, A Hawkes (Science of The Total Environment, 2022)
  • Economic viability of UK shale gas and potential impacts on the energy market up to 2030 💰💡🇬🇧 – J Cooper, L Stamford, A Azapagic (Applied Energy, 2018)
  • Methane emissions along biomethane and biogas supply chains are underestimated ♻️💨🌾 – S Bakkaloglu, J Cooper, A Hawkes (One Earth, 2022)
  • Environmental impacts of shale gas in the UK: Current situation and future scenarios 🛢️🇬🇧🔍 – J Cooper, L Stamford, A Azapagic (Energy Technology, 2014)
  • Natural gas fuel and greenhouse gas emissions in trucks and ships 🚛⛴️🌍 – J Speirs, P Balcombe, J Cooper (Progress in Energy, 2020)
  • The quantification of methane emissions and assessment of emissions data for natural gas supply chains 📊🌿🛢️ – J Cooper, P Balcombe, A Hawkes (Journal of Cleaner Production, 2021)
  • Social sustainability assessment of shale gas in the UK 💼👨‍👩‍👦🇬🇧 – J Cooper, L Stamford, A Azapagic (Sustainable Production and Consumption, 2018)

Conclusion

Dr. Jasmin Cooper’s research achievements, particularly in the sustainable energy sector, underscore her suitability for the Best Researcher Award. Her work addresses critical global challenges in reducing emissions and advancing renewable energy, demonstrating both academic rigor and practical impact. This combination of scholarly influence and societal relevance makes her an exemplary candidate for this prestigious award.