Zhihua Qiao | Soil | Best Researcher Award

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Assoc. Prof. Dr. Zhihua Qiao | Soil | Best Researcher Award

Assoc. Prof. Dr. Zhihua Qiao, Shandong Academy of Agricultural Sciences, China

Assoc. Prof. Dr. Zhihua Qiao is a researcher at the Shandong Academy of Agricultural Sciences, China, specializing in environmental toxicology and pollutant risk assessment. His work focuses on the ecological effects and interaction mechanisms of emerging contaminants, including brominated flame retardants and pesticides, in soil-plant-animal systems. With a PhD in Environmental Science and Engineering from East China University of Science and Technology, Dr. Qiao has published extensively in top-tier SCI journals and has led and contributed to numerous national research projects. His research integrates multi-omics technologies and advanced analytical techniques to understand the bioaccumulation, toxicity, and environmental fate of pollutants.

Profile

Scopus

Summary:

Dr. Zhihua Qiao is a rising research leader in environmental toxicology and ecotoxicological risk assessment. His work on brominated flame retardants, microplastics, heavy metals, and their interaction with soil organisms and plants is both highly relevant and methodologically advanced. His multidisciplinary approach and contributions to top journals signal strong potential for international leadership in his field.

🎓 Education

Zhihua Qiao began his academic journey at Shandong Agricultural University, where he earned a Bachelor’s degree in Pharmaceutical Engineering (Pesticides) from 2014 to 2021, achieving an undergraduate GPA of 3.42/4. He then pursued a Master’s and currently a PhD in Environmental Science and Engineering at East China University of Science and Technology (a national 211 project university), starting in 2021. His doctoral studies are supervised by Professor Zhang Wei and Associate Professor Jiang Xingyin. His academic coursework has included subjects such as Organic Chemistry, Physical Chemistry, Biochemistry, Plant Physiology, Microbiology, and Environmental Toxicology.

💼Experience

Zhihua Qiao has extensive experience in environmental toxicology and pollutant risk assessment, particularly focusing on new brominated flame retardants and pesticides. He has served as the main researcher in national and provincial-level projects under the National Natural Science Foundation of China and the National Key R&D Program. His work includes investigating the bioaccumulation, metabolism, and toxic effects of compounds like decabromodiphenylethane and cadmium in complex systems involving earthworms, plants, and aquatic organisms. He has also studied co-exposure effects, soil and rhizosphere microbial responses, and developed insights into pollutant interaction mechanisms using multi-omics technologies.

🔬Research Focus

His research centers on environmental risk assessment and pollution control of emerging contaminants. He specializes in understanding the toxicity mechanisms of brominated flame retardants, pesticides, and heavy metals through integrated approaches involving transcriptomics, metabolomics, and microbial ecology. His studies span soil-plant-animal systems and emphasize pollutant interactions, oxidative stress, detoxification, and ecological impact, especially in earthworms, lettuce, rice, and zebrafish models.

🛠️Skills

Zhihua Qiao is proficient in advanced research techniques including transcriptomics, metabolomics, 16S rDNA sequencing, XPS, and XRD. He is skilled in operating large-scale analytical instruments such as GC-MS, LC-MS, atomic fluorescence analyzers, flow cytometers, and qPCR machines. With strong English proficiency (CET-6 certified), he is capable of independently writing and translating scientific papers. His capabilities also extend to data processing, experimental design, and collaborative scientific writing.

🏆Awards

Zhihua Qiao has earned numerous awards for his academic excellence and research contributions. These include the National Scholarship for Master’s Students (2019), Outstanding Graduate and Outstanding Master’s Thesis of Shandong Province (2021–2022), Yu Zunhong Scholarship (2023), Green Seedling Program Scholarship of the Beijing Green Future Environment Foundation (2023), and several first-class academic scholarships for both master’s and doctoral studies. He also received the Second Prize at Zhejiang University’s Doctoral Forum on Soil Health and Sustainable Agriculture and the First Prize at the Graduate Academic Forum of East China University of Science and Technology.

📚 Publications

  • Effects of Decabromodiphenyl Ethane and Cadmium Coexposure on Their Bioaccumulation, Oxidative Stress, Root Metabolism, and Rhizosphere Soil Microorganisms in a Soil-Rice System
    2024
    Qiao, Zhihua; Fu, Mengru; Liang, Weiyu; Zhang, Wei; Zhan, Xiuping
    Journal of Agricultural and Food Chemistry

  • Effect of Biodegradable Microplastics and Cd Co-pollution on Cd Bioavailability and Plastisphere in Soil-Plant System
    2024
    Shao, Xuechun; Liang, Weiyu; Gong, Kailin; Shen, Genxiang; Peng, Cheng
    Chemosphere

  • Microbial Metabolism in Wormcast Affected the Perturbation on Soil Organic Matter by Microplastics under Decabromodiphenyl Ethane Stress
    2025
    Han, Yanna; Fu, Mengru; Yang, Yuhe; Peng, Cheng; Zhang, Wei
    Journal of Hazardous Materials

Conclusion:

Assoc. Prof. Dr. Zhihua Qiao is a highly suitable candidate for the Research for Best Researcher Award. His demonstrated commitment to impactful, interdisciplinary environmental research, combined with academic excellence and technical strength, make him a compelling nominee. With continued progression toward independent project leadership and broader global collaborations, his trajectory aligns well with the expectations of this prestigious award.

xiaolan liu | Soil | Best Researcher Award

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Dr. xiaolan liu | Soil | Best Researcher Award

Dr. Xiaolan liu, Tianjin Chengjian University, China

Dr. Xiaolan Liu is a lecturer at Tianjin Chengjian University, China, specializing in road and airport engineering. Her research focuses on non-destructive testing of road structures, runway performance in permafrost regions, and sponge city infrastructure. She has led multiple national and municipal research projects and published extensively in international journals. Dr. Liu has received several prestigious awards, including honors from the China Highway Society and the China Civil Aviation Authority, recognizing her contributions to transportation engineering.

Profile

Scopus

Summary:

Dr. Xiaolan Liu’s research addresses a highly relevant and pressing issue in civil and geotechnical engineering, particularly for regions experiencing extreme climates. By focusing on the cooling effects of ventilation subgrades, Dr. Liu is advancing techniques to protect infrastructure in permafrost regions, which is crucial in the context of global climate change. Their work also contributes to the development of better construction practices for frozen soil areas.

🎓 Education

Xiaolan Liu is currently pursuing her Ph.D. at Nanjing University of Aeronautics and Astronautics, specializing in Highway and Railway Engineering under the School of Civil Aviation. Simultaneously, she is enrolled in another Ph.D. program in Civil Engineering at Southwest Forestry University, School of Transportation Engineering. She earned her Master’s degree in Highway and Railway Engineering from the Civil Aviation University of China and has maintained a consistent academic focus on infrastructure engineering throughout her education.

💼Experience

Liu has led and contributed to numerous high-impact research projects, including those funded by the National Natural Science Foundation of China and municipal research initiatives. Her roles as principal investigator and advisor on projects dealing with permafrost roadbed settlement, freeze-thaw effects on clay roadbeds, and rigid pavement performance under aircraft loading have established her as a leading expert in infrastructure performance under extreme environmental conditions. She currently serves as a lecturer and actively mentors research teams on structural mechanics and pavement engineering.

🔬Research Focus

Liu’s research primarily centers on the theory and application of non-destructive testing for road structures, engineering solutions for airport runways in permafrost areas, and the development and implementation of sponge city infrastructure. Her work addresses real-world challenges in runway performance under aircraft loading and extreme climatic conditions, making substantial contributions to both civil aviation safety and cold-region infrastructure sustainability.

🛠️Skills

Liu possesses advanced skills in structural modeling, dynamic load analysis, non-destructive testing, permafrost engineering, and pavement material characterization. She is proficient in conducting both field experiments and laboratory testing, complemented by analytical and simulation expertise for evaluating roadbed and runway performance in challenging environments.

🏆Awards

Her academic excellence and research innovations have been recognized through numerous prestigious awards. These include the Second Prize of the Science and Technology Award from the China Highway Society in 2023, the Tianjin Municipal Teaching Achievement Award in 2022, and the China Civil Aviation Science and Technology Achievement Award the same year. She is also a recipient of multiple national scholarships, including those for undergraduate and graduate excellence, and has been honored as an Excellent Graduate Student by both her universities.

📚 Publications

  • Study on the cooling effect of the parallel perforated ventilation subgrade in permafrost regions based on the numerical model

    • Authors: X. Liu, Xiaolan; C. Fu, Chuanwei; X. Cheng, Xinglei

    • Year: 2025

    • Journal: PLoS ONE

  • Study on applicability of parallel perforated ventilation subgrade to the runway in frozen soil regions

    • Authors: X. Liu, Xiaolan; C. Fu, Chuanwei; C. Lv, Chao

    • Year: 2025

    • Journal: AEJ – Alexandria Engineering Journal

Conclusion:

Dr. Liu is a strong candidate for the Best Researcher Award due to their innovative approach and contributions to permafrost engineering. With improvements in citation impact and broader engagement, their research could have a more profound influence on both academia and real-world applications in the field of sustainable infrastructure development.

Runze Tian | Soil Science | Best Researcher Award

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Dr. Runze Tian | Soil Science | Best Researcher Award

Dr. Runze Tian, Beijing jiaotong university, China

Dr. Runze Tian is a researcher at Beijing Jiaotong University, China, specializing in frozen soil mechanics, hydrothermal coupling simulations, and geotechnical engineering. His work focuses on developing advanced computational models, including the modified h-form hydrothermal coupling simulation method, to enhance the understanding of soil behavior in extreme conditions. Dr. Tian’s expertise includes numerical analysis, soil behavior modeling, and engineering simulations, contributing to advancements in geotechnical research.

Profile

Scopus

Summary:

Dr. Runze Tian has made significant strides in the field of frozen soil mechanics and hydrothermal coupling simulations. His research is well-recognized and has contributed to understanding soil behavior under extreme conditions. While his technical expertise and contributions are commendable, expanding research collaborations and industry applications could further solidify his reputation.

🎓 Education

Tian Runze is affiliated with Beijing Jiaotong University, located in Beijing, China. His academic background is rooted in engineering and geotechnical studies, focusing on frozen soil research and hydrothermal coupling simulation methods.

💼Experience

Tian Runze has been engaged in research and academic projects related to geotechnical engineering, frozen soil mechanics, and computational simulations. His expertise lies in developing and refining hydrothermal coupling simulation methods, particularly for frozen soil applications.

🔬Research Focus

His primary research interests include frozen soil mechanics, hydrothermal coupling simulations, geotechnical engineering, and computational modeling. His notable work on the “modified h-form hydrothermal coupling simulation method for frozen soil” demonstrates his commitment to advancing the understanding of soil behavior under extreme conditions.

🛠️Skills

His technical skill set includes hydrothermal simulation modeling, computational mechanics, numerical analysis, and soil behavior analysis. He is proficient in applying advanced engineering methodologies to improve the accuracy of frozen soil behavior predictions.

🏆Awards

Tian Runze has contributed to innovative research in frozen soil mechanics and hydrothermal simulation, which may have earned him recognition within academic and engineering communities. Specific awards or distinctions related to his work would highlight his contributions to the field.

📚 Publications

Title: A modified h-form hydrothermal coupling simulation method for frozen soil
Author(s): Tian, R., Li, X., Li, X., Wang, S., & Wang, Q.
Year: 2025
Journal: Computers and Geotechnics

Conclusion:

Dr. Runze Tian is a highly suitable candidate for the Best Researcher Award. With continued advancements in broader geotechnical fields and international collaborations, he can further enhance his contributions and strengthen his standing in the global research community.

Khandakar Islam | Soil | Award for Soil Education

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Dr. Khandakar Islam | Soil | Award for Soil Education

Dr. Khandakar Islam, Ohio State University, United States

Dr. Khandakar Rafiq Islam is a Program Director of Soil, Water, and Bioenergy Resources at The Ohio State University South Centers. He specializes in climate-smart agriculture, soil health, water management, organic farming, carbon sequestration, and phytoremediation. With a Ph.D. in Soil and Environmental Quality from the University of Maryland, he has extensive experience in research, teaching, and international collaboration. A Fulbright Teaching Fellow and recipient of multiple awards, including the Mandela Washington Reciprocal Fellowship, he has led numerous projects on sustainable agriculture and published widely in peer-reviewed journals.

Profile

Scopus

Summary:

Dr. Khandakar Rafiq Islam is an exceptional candidate for the Award for Soil Education due to his extensive teaching, research, mentorship, and international outreach. His expertise in climate-smart agriculture, soil health, and sustainable land management has contributed significantly to soil science education globally. While he has received multiple awards for his research and mentoring, expanding his digital education footprint and public outreach could further strengthen his candidacy.

 

🎓 Education

Rafiq Islam holds a Ph.D. in Soil and Environmental Quality from the University of Maryland, USA. He earned an M.S. in Soil and Water Engineering from the Asian Institute of Technology, Thailand, and a B.S. in Soil and Environmental Sciences from Dhaka University, Bangladesh.

 

💼Experience

Dr. Islam has been the Program Director for Soil, Water, and Bioenergy Resources at The Ohio State University South Centers since 2002. He is also a Faculty Affiliate at the Ohio Sustainability Institute and the School of Environment and Natural Resources. He has taught undergraduate and graduate courses, supervised graduate students, and served as a technical resource person for Ohio Agricultural Research and Development Center and OSU Extension Outreach. He has extensive international experience, including serving as a Fulbright Teaching Fellow in Turkey and a Visiting Professor at Satbayev University, Kazakhstan.

 

🔬Research Focus

His research focuses on climate-smart agriculture, sustainable soil and water management, organic farming, biochar applications, carbon sequestration, and phytoremediation of contaminated soils. He has led numerous projects on soil fertility, nutrient management, and conservation agriculture while collaborating internationally on sustainable agricultural initiatives.

 

Awards

Dr. Islam has received numerous honors, including the Mandela Washington Reciprocal Fellowship Award (2024), Washington-Mandela Fellowship Ringleader Award (2023), American Council for International Education Awards (2021, 2019), and the USDA-Borlaug Mentor Award for visits to multiple countries. He was also a Fulbright Teaching Fellow in Turkey and a recipient of the No-Till Researcher and Educator Award from the Ohio No-Till Council.

 

Skills

Dr. Islam specializes in climate-smart agriculture, soil health and water management, organic farming, carbon sequestration, tillage, cover crops, marginal soil restoration, and biomaterial production. His expertise includes plant-induced abiotic and biocontrol services, agricultural research, and mentoring.

 

Publications

  • Impact of gypsum applications and cover crop on soybean (Glycine max) elemental composition
    • Authors: Gonzalez, J.M., Dick, W.A., Watts, D.B., Reeder, R.C., Shedekar, V.S.
    • Journal: Agricultural and Environmental Letters
    • Year: 2025
    • Citations: 0

 

  • Assessing Heavy Metal Contamination for Soil Reclamation: Implications for Sustainable Urban Development
    • Authors: Saparov, G., Dutbayev, Y., Amanzholkyzy, A., Trushin, M., Kozlov, A.
    • Journal: International Journal of Design and Nature and Ecodynamics
    • Year: 2024
    • Citations: 0

 

  • Predicting Accumulation and Potential Edge-of-Field Loss of Phosphorus to Surface Water from Diverse Ecosystems
    • Authors: Rahman, A., Islam, K.R., Ahsan, S., Didenko, N.O., Sundermeier, A.P.
    • Journal: Water, Air, and Soil Pollution
    • Year: 2024
    • Citations: 0

 

  • Increased humic materials explain aggregate-protected carbon and nitrogen accumulation in biochar-amended tropical soils
    • Authors: Amoakwah, E., Rahman, M.A., Islam, K.R., Asirifi, I., Arthur, E.
    • Journal: Pedosphere
    • Year: 2024
    • Citations: 1

 

  • Phytoremediation of contaminated urban soils spiked with heavy metals
    • Authors: Yelikbayev, B.K., Imanbek, F., Jamalova, G.A., Kalogerakis, N.E., Islam, K.R.
    • Journal: Eurasian Journal of Soil Science
    • Year: 2024
    • Citations: 0

 

  • Cover crops, crop rotation, and gypsum, as conservation practices, impact Mehlich-3 extractable plant nutrients and trace metals
    • Authors: Gonzalez, J.M., Dick, W.A., Islam, K.R., Reeder, R.C., Shedekar, V.S.
    • Journal: International Soil and Water Conservation Research
    • Year: 2024
    • Citations: 2
  • Forty-two years impact of chemical fertilization on soil phosphorus partition and distribution under rice-based cropping systems
    • Authors: Biswas, C., Ferdous, J., Sarker, R.R., Islam, K.R., Jahangir, M.M.R.
    • Journal: PLoS ONE
    • Year: 2024
    • Citations: 0

 

  • Mulching to improve sweet potato production
    • Authors: Sapakhova, Z., Islam, K.R., Toishimanov, M., Shamekova, M., Zhambakin, K.
    • Journal: Journal of Agriculture and Food Research
    • Year: 2024
    • Citations: 1

 

Conclusion:

Dr. Islam’s proven track record in soil science education, mentorship, curriculum development, and international collaboration makes him a highly deserving candidate for the Research Award for Soil Education. His work has empowered students, researchers, and professionals worldwide, ensuring a lasting impact on soil education, sustainability, and global food security. Strengthening digital education and public advocacy could further enhance his contributions to the field.