Sohail Abbas | Crop Science | Best Researcher Award

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Dr. Sohail Abbas | Crop Science | Best Researcher Award

Henan university | China

Dr Sohail Abbas is a dedicated climate-science researcher currently serving as a National Young Talent Researcher at the College of Geography and Environmental Sciences, Henan University, Kaifeng, China, with more than eight years of experience in academia and research. He holds a DPhil in Geography/Climate Science from Konkuk University (South Korea), an MPhil in Environmental Science from University of Punjab (Pakistan), and earlier degrees in Science and related fields. His work explores climate change dynamics, extreme precipitation, land-use impacts, geo-environmental modeling, and food-security outcomes—illustrated by studies such as his analysis of extreme precipitation trends in Pakistan’s warming climate. Throughout his career he has authored more than 30 peer-reviewed articles, and currently his indices reflect an h-index of 13 with 604 citations across 34 documented publications. He is proficient in methods ranging from GIS/RS, statistical and econometric modeling, to numerical and physical climate simulation, and he has engaged widely in teaching, lecturing, research-assistancy and referee duties in Pakistan, Korea and China. His academic journey is marked by a strong commitment to interdisciplinary approaches and rigorous frameworks that link climate-variability, hydrology, agriculture, and socioeconomic systems. He continues to push towards enhanced understanding of climate-agriculture-resource interactions and to contribute to resilient, sustainable development in vulnerable regions.

Profiles: Scopus | Orcid

Featured Publications

Abbas, S., Haider, A., Kousar, S., Lu, H., Lu, S., Liu, F., Li, H., Miao, C., Feng, W., & Ahamad, M. I. (2025). Climate variability, population growth, and globalization impacting food security in Pakistan. Scientific Reports.

Abbas, S., Kashif, U., Kousar, S., Noor, S., Lu, H., & Lu, S. (2025, September). Machine learning-based prediction analysis for Australia sustainable transport: Optimal transportation mix equation for long-term policy planning and environmental impact mitigation. Energy.

Kashif, U., Abbas, S., Kousar, S., & Lu, H. (2025, June). Linking of bio-energy and carbon neutrality: Navigating economic policy uncertainty and climate change policy in the USA. Energy.

Ashraf, T., Ahamad, M. I., Mahmood, S., Fu, J., Mehmood, M. S., Rehman, A., Abbas, S., Naqvi, S. A. A., & Zulqarnain, R. M. (2025, January 27). Exploring hotspots of traffic accidents in Chiniot–Sargodha Road, Punjab, Pakistan. Environment, Development and Sustainability.

Yaseen, M., Abbas, S., & Latif, Y. (2024). Evaluating the effects of soil physicochemical properties under different land use types in the arid zones of Pakistan. Environment, Development and Sustainability.

Karim Solaimani | Remote Sensing | Best Researcher Award

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Prof. Karim Solaimani | Remote Sensing | Best Researcher Award

Sari Agricultural Sciences and Natural Resources, Iran

Professor Karim Solaimani is a distinguished Iranian environmental scientist and hydrologist affiliated with the Sari Agricultural Sciences and Natural Resources University (SANRU) under the Ministry of Science, Research and Technology of Iran. He earned his Ph.D. in Environmental Remote Sensing and Hydrology from the University of Glasgow, UK, and has since established himself as an eminent scholar in the fields of remote sensing, GIS applications, hydrology, watershed management, and land use planning. His extensive academic contributions include over 85 peer-reviewed journal articles, widely cited in international scientific databases, reflecting significant impact and global recognition. Professor Solaimani’s research integrates geospatial technologies for environmental modeling, sediment yield assessment, and natural hazard mapping, focusing particularly on Iran’s complex hydrological systems. He has received the Excellent National Teaching and Research Professor Award, acknowledging his outstanding contributions to education and research. Over his career, he has collaborated with multidisciplinary teams, supervised numerous postgraduate students, and contributed to the advancement of environmental science through innovation, mentorship, and applied research. His enduring commitment to sustainable land and water resource management continues to influence both academic and practical environmental policy developments in Iran and beyond.

Profile: Orcid

Featured Publications

Solaimani, K., Darvishi, S., & Shokrian, F. (2024). Assessment of machine learning algorithms and new hybrid multi-criteria analysis for flood hazard and mapping. Environmental Science and Pollution Research.

Solaimani, K. (2023). A new approach to landslide assessment using Depth-Number fractal model. ECOPERSIA.

Solaimani, K. (2023). Evaluation of effective criteria on flood risk based on network analysis process and GIS in Vazroud basin of Mazandaran province. Ecohydrology.

Solaimani, K. (2023). Investigating alterations in the underground water level of Ravansar-Sanjabi Plain under CIMP5 climate scenarios. Desert Ecosystem Engineering.

Solaimani, K. (2023). Monitoring and forecasting of spatiotemporal changes in land use and the growth of Kermanshah Township using remote sensing and the CA-Markov model. Urban Structure and Function Studies.

Xinguo Chen | Precision Agriculture | Best Paper Award

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Dr. Xinguo Chen | Precision Agriculture | Best Paper Award

North China University of Water Resources and Electric Power | China

Dr. Xinguo Chen is an Assistant Researcher at the North China University of Water Resources and Electric Power, specializing in agricultural hydrological remote sensing and sustainable water resource management. He earned his Ph.D. in 2021 from Northwest A&F University, where he developed expertise in crop evapotranspiration, drought mechanisms, and climate change impacts on agriculture. With over 23 peer-reviewed publications in SCI and Scopus-indexed journals, his research has been widely recognized, accumulating more than 908 citations and reflected in an h-index of 17. Dr. Chen has successfully led two major research projects, including the National Natural Science Foundation of China Youth Fund and the Open Fund of the State Key Laboratory of Efficient Utilization of Agricultural Water Resources, while also contributing to seven additional national and provincial/ministerial-level projects. His scholarly contributions extend to serving as a reviewer for prestigious journals such as Agricultural Water Management, Remote Sensing, Theoretical and Applied Climatology, and Journal of Environmental Management. He has also authored one book and engaged in industry consultancy projects aimed at improving water use efficiency. Dr. Chen’s research continues to advance agricultural resilience, remote sensing innovation, and water-efficient crop management to support sustainable food security.

Profiles: Scopus | Orcid

Featured Publications

Chen, X., Huang, Y., Liu, M., Ren, D., Li, Y., & Huang, Q. (2025). Improving crop evapotranspiration estimation in the Yellow River Basin: A modified SEBAL model approach and spatiotemporal trend analysis. Agricultural Water Management.

Chen, X., Huang, Q., Xiong, Y., Yang, Q., Li, H., Hou, Z., & Huang, G. (2023). Tracking the spatio-temporal change of the main food crop planting structure in the Yellow River Basin over 2001–2020. Computers and Electronics in Agriculture.

Chen, X., Li, Y., Yao, N., Liu, D. L., Liu, Q., Song, X., Liu, F., Pulatov, B., Meng, Q., & Feng, P. (2022). Projected dry/wet regimes in China using SPEI under four SSP‐RCPs based on statistically downscaled CMIP6 data. International Journal of Climatology.

Brocca, L., Tullo, T., Melone, F., Moramarco, T., & Morbidelli, R. (2012). Catchment scale soil moisture spatial–temporal variability. Journal of Hydrology.

Ceccon, C., Panzacchi, P., Scandellari, F., Prandi, L., Ventura, M., Russo, B., Millard, P., & Tagliavini, M. (2010). Spatial and temporal effects of soil temperature and moisture and the relation to fine root density on root and soil respiration in a mature apple orchard. Plant and Soil.