Maofu Pang | Plastics Upcycling | Best Researcher Award

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Dr. Maofu Pang | Plastics Upcycling | Best Researcher Award 

Lecturer at Ludong University, China.

Dr. Maofu Pang is a dedicated chemist whose research bridges organometallic chemistry, catalysis, and sustainable material science. His pioneering work in cobalt- and iron-catalyzed transformations, coupled with recent advances in plastic recycling and upcycling, has significantly contributed to the advancement of green chemistry and the circular economy. Through high-impact publications and innovative projects, he has emerged as a promising researcher committed to environmental sustainability and the development of efficient catalytic systems.

Proffesional Profile

Scopus 

Education

Dr. Pang’s academic journey reflects a strong foundation in chemistry and chemical engineering. He began with a bachelor’s degree in Chemical Engineering and Technology, where he developed an interest in catalysis and reaction mechanisms. He further advanced his expertise with a master’s degree in Organic Chemistry, focusing on cobalt-catalyzed hydroboration of imines and alkenes, emphasizing metal-ligand cooperation for B–H bond cleavage. His doctoral studies in Organometallic Chemistry deepened his research into cobalt-catalyzed partial transfer hydrogenation of N-heterocycles and the synthesis of heteronuclear complexes. Mentored by distinguished professors, he developed advanced skills in designing catalytic systems for selective organic transformations, laying the groundwork for his subsequent career in sustainable chemistry.

Experience

Currently serving as a faculty member at the School of Chemistry and Chemical Engineering, Ludong University, Dr. Pang’s research spans catalysis, plastic upcycling, and sustainable chemistry. His expertise lies in the design and mechanistic understanding of transition-metal complexes, particularly cobalt, iron, and manganese catalysts, applied to hydrogenation, hydroboration, and polymer degradation processes. His recent work has expanded into catalytic upcycling of polyesters and polycarbonates, transforming plastic waste into value-added chemicals through environmentally friendly methodologies. This innovative approach integrates catalysis with sustainability, directly addressing global environmental challenges.

Research Focus

Dr. Maofu Pang’s research centers on the design, development, and mechanistic study of transition-metal catalysts for sustainable chemical transformations. His work spans cobalt-, iron-, and manganese-based systems with applications in hydrogenation, hydroboration, and polymer degradation. By combining fundamental organometallic chemistry with applied catalysis, he has advanced methods for the selective transformation of N-heterocycles and olefins, while more recently pioneering catalytic strategies for the upcycling of polyesters and polycarbonates into value-added chemicals. This integrated approach addresses both academic challenges in catalytic mechanism design and practical global issues of plastic waste valorization, positioning his research at the intersection of catalysis, green chemistry, and the circular economy.

Publication Top Note

Title: Efficient Catalytic Upcycling of Polyester and Polycarbonate Plastics Using an NNN-Based Iron Catalyst
Authors: Xiaoxiao Chu, Guoren Zhou, Chongyan Ren, Xiaoshi Zhang, Maofu Pang*, Nuoyan Zhao, Hongwu Zhang
Summary: This work presents an NNN-based iron catalyst that efficiently converts polyester and polycarbonate plastics into valuable chemicals under mild, sustainable conditions. The study highlights iron as a low-cost, eco-friendly alternative for scalable plastic upcycling in the circular economy.

Conclusion

Dr. Maofu Pang exemplifies the integration of fundamental catalysis with sustainable applications. His academic background, innovative research in transition-metal catalysis, and impactful contributions to plastic recycling position him as a leading researcher in green chemistry. With his dedication to advancing circular economy principles and addressing environmental challenges, he stands as a highly deserving candidate for recognition through an award nomination.

Haijiang Yang | Ecosystem Services | Best Researcher Award

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Assoc. Prof. Dr. Haijiang Yang | Ecosystem Services | Best Researcher Award

Associate Professor at Lanzhou University, China

Dr. Haijiang Yang is an Associate Professor at the College of Earth and Environmental Sciences, Lanzhou University, with a focus on ecosystem services assessment and modeling, human-environment interactions, and regional sustainable development. His academic contributions span interdisciplinary environmental studies, combining geography, ecology, and socio-economic evaluation to drive science-based policy-making and ecological restoration strategies.

Professional Profile

ORCID

Education

Dr. Yang pursued his academic journey through a series of progressive and specialized degrees in geographical and environmental sciences. He earned his Ph.D. in Geography from Lanzhou University, where he laid the foundation for his research in ecosystem services and socio-ecological systems. Prior to this, he completed his Master’s degree in Physical Geography at Ningxia University, focusing on land use, soil properties, and regional environmental changes. His undergraduate studies in Geographical Science at Weinan Normal University provided him with a strong grounding in environmental analysis and spatial modeling.

Experience

Dr. Yang’s academic career advanced swiftly through rigorous postdoctoral research and faculty appointments. He served as a Cuiying Postdoctoral Fellow at Lanzhou University, engaging in high-impact studies on ecosystem services in fragile mountainous regions. He was appointed as Associate Professor in the same institution, where he continues to contribute to both teaching and research. Over the past five years, he has led or participated in numerous national and provincial projects, including a National Natural Science Foundation grant investigating spatiotemporal evolution of water supply services and socio-ecological value mechanisms in the Qilian Mountains, and a prestigious China Postdoctoral Fellowship on the coupling effects of climate and land use change.

Research Focus

Dr. Yang’s research focuses on the assessment, valuation, and modeling of ecosystem services in ecologically sensitive areas, particularly in the Qilian Mountains and the broader Yellow River Basin. His work incorporates spatial analysis, socio-ecological modeling, and sustainability science to explore themes such as spillover effects of ecosystem services, cost-benefit sharing, horizontal ecological compensation, and human well-being. He has also investigated land use impacts, biodiversity-climate interactions, and resource efficiency in agricultural and pastoral systems. Through these research areas, he aims to offer scientific support for environmental planning, ecological restoration, and regional sustainable development strategies in China’s western regions.

Publication Top Notes

Title: Assessing Pollinator Abundance and Services in the Qilian Mountains: A Spatial and Temporal Analysis from 1990 to 2020 for Enhanced Agricultural Sustainability and Crop Yield Optimization
Authors: Yang, H.; Gou, X.; Niu, Y.; Shi, W.; Wang, X.; Wei, Y.; Maraseni, T.
Journal: SSRN
Summary: This study investigates changes in pollinator abundance and ecosystem services in the Qilian Mountains from 1990 to 2020. It highlights spatial and temporal patterns and links pollinator dynamics to agricultural sustainability and crop yield improvements. The findings offer policy insights for biodiversity conservation and agroecological planning in mountainous regions.

Title: Increasing Deep Soil Water Uptake During Drought Does Not Indicate Higher Drought Resistance
Authors: Yin, D.; Gou, X.; Liu, J.; Zhang, D.; Wang, K.; Yang, H.
Journal: Journal of Hydrology 
Summary: This research challenges the assumption that deep soil water uptake enhances drought resistance in plants. Using tree-ring and isotopic data, the study reveals that although trees may access deep water during drought, this does not guarantee improved growth or resilience, emphasizing the need to rethink forest management strategies under climate change.

Title: Response of Tree Growth to Drought Variability in Arid Areas: Local Hydroclimate and Large-Scale Precipitation
Authors: Zhang, Y.; Gou, X.; Wang, T.; Zhang, F.; Wang, K.; Yang, H.; Yang, K.
Journal: Environmental Research
Summary: This study examines how local and regional precipitation patterns influence tree growth in arid zones. The results show that local hydroclimatic variability plays a more significant role than large-scale climatic drivers, providing insight into ecosystem sensitivity in drylands.

Title: The Sino-US Trade Friction Would Exacerbate Global Inequalities in Achieving SDGs
Authors: Ma, W.; Li, C.; Kou, J.; Wang, X.; Yang, H.; Xue, B.; Gou, X.
Journal: Journal of Cleaner Production
Summary: This article evaluates how Sino-US trade tensions could hinder progress toward the Sustainable Development Goals (SDGs). It underscores how economic disputes may disproportionately affect developing regions, amplifying global disparities in environmental and socio-economic sustainability.

Title: Elevation-Dependent Tree Growth Response to Recent Warming and Drought on Eastern Tibetan Plateau
Authors: Yin, D.; Gou, X.; Yang, H.; Wang, K.; Liu, J.; Zhang, Y.; Gao, L.
Journal: Climatic Change 
Summary: The study analyzes tree growth patterns in response to warming and drought across elevation gradients in the eastern Tibetan Plateau. It finds that high-elevation forests exhibit stronger growth sensitivity to climatic shifts, highlighting their vulnerability and importance for regional climate adaptation strategies.

Conclusion

Dr. Haijiang Yang stands out as a dynamic and impactful researcher in the domains of ecosystem services, land use sustainability, and regional socio-ecological resilience. Through his deep understanding of geography and environmental systems, he has produced a body of work that informs both academic scholarship and public policy. His leadership in national research projects, high-quality publications in influential journals, and commitment to interdisciplinary integration make him a deserving candidate for recognition as a Best Researcher. His work not only advances scientific frontiers but also addresses some of the most pressing ecological challenges facing China’s mountainous and agricultural regions today.

Nengwen Xiao | Biodiversity and conservation | Best Researcher Award

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Prof. Dr. Nengwen Xiao | Biodiversity and conservation | Best Researcher Award

Deputy Director at Chinese Research Academy of Environmental Sciences, China

Dr. Nengwen Xiao is an accomplished environmental scientist and deputy director at the Chinese Research Academy of Environmental Sciences. With a prolific academic and professional background, he has made substantial contributions to ecology, biodiversity conservation, and environmental monitoring. Dr. Xiao has been instrumental in developing technical protocols for biodiversity surveys across China and has overseen more than 50 research projects, many of them national-level. He serves as a doctoral supervisor, editor, and a key figure in various ecological committees. His interdisciplinary work bridges ecosystem services, environmental DNA/RNA, and urban ecology, contributing over 160 scientific papers and 24 books to the global research community. With strong industry ties and 35 consultancy projects, he blends science with practical applications. His innovation is further reflected in 10 patents and his leadership in national conservation policies.

Professional Profiles📖

Scopus

ORCID 

🎓 Education

Dr. Xiao earned his doctoral degree in ecology from the Institute of Zoology, Chinese Academy of Sciences (2002–2005). He subsequently completed a prestigious postdoctoral fellowship at the Ecological Environment Research Center, Chinese Academy of Sciences (2005–2007), focusing on environmental systems and biodiversity. His academic journey is marked by rigorous training in ecological science, conservation biology, and advanced monitoring techniques. The depth of his training positioned him as an expert in integrating traditional biodiversity studies with emerging molecular tools like eDNA and eRNA. Over the years, he has continuously enriched his expertise through collaborative research and doctoral supervision at institutions such as Tongji University. His solid academic foundation laid the groundwork for his leadership roles in ecological conservation, environmental technology, and national biodiversity policy-making.

💼 Professional Experience

With over two decades of experience, Dr. Nengwen Xiao currently serves as Deputy Director at the Institute of Ecology, Chinese Research Academy of Environmental Sciences. He has led 50+ national and local research projects and guided policy-making at the Ministry of Ecology and Environment as Technical Director for Biodiversity Assessment. He is a doctoral supervisor and also serves on the editorial board of the Journal of Applied and Environmental Biology. Dr. Xiao holds leadership roles in the Chinese Society of Ecology and the Chinese Society of Environmental Sciences. His experience spans research, education, policy advising, and interdisciplinary collaboration, making him an authority in ecological monitoring, biodiversity conservation, and ecosystem services. His professional journey reflects a consistent focus on integrating research with environmental governance, and he remains at the forefront of innovations in ecological assessment and monitoring.

🏆 Awards & Honors

Dr. Xiao has received multiple honors in recognition of his outstanding contributions to environmental science and ecology in China. As a recognized leader in biodiversity and ecosystem assessment, his work has influenced both academic and governmental approaches to conservation. He has earned several national science and technology awards and is regularly invited to high-level policy discussions. His 160+ publications, including more than 50 SCI-indexed papers, have garnered over 1,000 citations in SCI, 1,600+ in Scopus, and 1,400+ on ResearchGate, highlighting the global impact of his research. His books, patents, and editorial appointments further illustrate his commitment to scientific excellence. Additionally, his role as Director and Deputy Director in professional ecological committees signifies his recognition as a national authority in the field.

🧪 Research Focus

Dr. Xiao’s research is primarily centered on biodiversity assessment, environmental DNA/RNA monitoring, urban ecology, and ecosystem services. He is at the forefront of integrating molecular tools with traditional ecological methods to improve environmental monitoring accuracy. His contributions to national biodiversity conservation plans have involved organizing and directing large-scale surveys in priority conservation areas and watersheds. He is deeply involved in establishing technical standards for ecological assessment at the county level. His current focus includes applying eDNA technologies to monitor aquatic and terrestrial biodiversity in rapidly urbanizing regions. His interdisciplinary research bridges science, policy, and environmental management, addressing pressing issues like habitat degradation, species monitoring, and ecosystem service valuation. Through collaboration and leadership, he continues to pioneer sustainable solutions that support ecological resilience in China and beyond.

🧠 Skills 

Dr. Xiao brings a wide array of technical and leadership skills. His core strengths include biodiversity survey techniques, environmental DNA/RNA analysis, ecological modeling, and GIS-based urban ecology mapping. He is also proficient in scientific writing, research management, and policy development. His ability to translate complex ecological data into actionable strategies has benefited government agencies and academic institutions alike. His project management capabilities are demonstrated by his leadership in over 50 research and 35 consultancy projects. He has deep editorial experience and peer-review expertise, and his communication skills are evident in his role as a doctoral supervisor and mentor. His patent achievements highlight his innovation in environmental monitoring tools. His policy advising and committee roles show his strength in scientific diplomacy and environmental governance, making him a multi-faceted leader in the global environmental science community.

Publications Top Notes

Study on Fish Diversity and Drivers Based on Environmental DNA in Chishui River, China
Citations: 0
Year: 2025

Benthic macroinvertebrate diversity and community pattern in Chaobai River Basin, Beijing
Citations: 0
Year: 2025

Exploring Diversity and Distribution Characteristics of Amphibians in Chaohu Lake Based on Environmental DNA
Citations: 1
Year: 2024

The Impact of Different Prevention and Control Measures on the Nematode Community in Tobacco Fields
Citations: 0
Year: 2024

Different Adaption Strategies of Abundant and Rare Microbial Communities in Sediment and Water of East Dongting Lake
Citations: 0
Year: 2024

Spatial and Temporal Characteristics of Fractional Vegetation Cover and Its Response to Urbanization in Beijing
Citations: 5
Year: 2024

Biotic and abiotic factors interplay in structuring the dynamics of microbial co-occurrence patterns in tropical mountainsides
Citations: 9
Year: 2024

Nutrient enrichment decreased the Cross-Taxon congruence across bacteria, fungi, and zoobenthos in sediment
Citations: 2
Year: 2024

Chromosome-level genome of putative autohexaploid Actinidia deliciosa provides insights into polyploidisation and evolution
 Citations: 7
 Year: 2024

Conclusion✅

Shubin Liu | Environmental Studies | Best Researcher Award

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Shubin Liu | Environmental Studies | Best Researcher Award

Assistant professor at Fuzhou University ,China

Dr. Shubin Liu is an Assistant Professor at Fuzhou University, known for his pioneering work in computational imaging and artificial intelligence 🧠📸. With a strong academic and research track, he has authored numerous high-impact publications in top-tier journals such as Advanced Functional Materials, PhotoniX, and Nanophotonics. Over the past three years, he has amassed a cumulative impact factor exceeding 55 as a first author 🏆. Dr. Liu also holds a prestigious position on the Young Editorial Board of the international journal iMeta (IF > 23.8) 📝. His patent on a real-time large-scale image synthesis algorithm reflects his dedication to translating advanced technologies into practical tools ⚙️. A forward-thinking scholar and innovator, Dr. Liu is advancing the fields of microscopy, deep learning, and environmental monitoring. His academic rigor and professional excellence position him as a deserving nominee for the Best Researcher Award 🥇.

Professional Profiles📖

🎓 Education 

Dr. Shubin Liu has pursued rigorous academic training, building a strong foundation in engineering and computational sciences 🎓. While the specifics of his degree titles and institutions are not fully detailed, his current academic stature as an Assistant Professor at Fuzhou University indicates a doctorate-level qualification (Ph.D.) and likely prior graduate studies focused on physics, optics, or computer science 💻🧬. His academic journey reflects specialization in computational imaging, AI modeling, and optics-based simulation—interdisciplinary areas requiring strong theoretical grounding and technical expertise 📘. Dr. Liu’s continuous research output, editorial board membership in iMeta, and publication in journals like Advanced Functional Materials and PhotoniX speak to a research-driven education shaped by analytical rigor and scientific creativity 📊. His academic path has uniquely equipped him to bridge theoretical computation with real-world imaging applications 🔍.

🏗 Experience 

Dr. Shubin Liu serves as an Assistant Professor at Fuzhou University, where he is actively involved in cutting-edge research and mentoring the next generation of scientists 🧑‍🏫. His professional experience is anchored in computational imaging, artificial intelligence, and deep learning for environmental and microscopic systems 🖥️🔬. Over the past 3 years, he has authored first-author papers in internationally reputed journals like Advanced Functional Materials, PhotoniX, and Nanophotonics 🌍. Dr. Liu also contributed to national scientific instrument projects and patented a real-time large-scale image synthesis algorithm ⚙️. His academic impact is underscored by a citation index of 103–5, showcasing the influence and reach of his work. Apart from research, he holds an editorial position at iMeta—a role that reflects both scholarly leadership and critical peer recognition 📝. His career so far embodies academic excellence, innovation, and a commitment to advancing imaging science.

🏆 Awards & Honors 

Dr. Shubin Liu has garnered significant recognition for his scholarly achievements 🏆. Most notably, he serves on the Young Editorial Board of iMeta—an international journal with an impact factor exceeding 23.8, a rare honor that underscores his early career excellence in high-impact research 🧠📘. His publications, many of which appear in top-tier journals such as Advanced Functional Materials, PhotoniX, and Nanophotonics, reflect his thought leadership and innovation in computational and optical imaging 📈. He has also been granted a national patent for a real-time, large-scale image synthesis algorithm designed for microscopic systems ⚙️. With a cumulative first-author impact factor of over 55, his work stands as a benchmark in the intersection of artificial intelligence and imaging technologies 📊. His nomination for the Best Researcher Award is well-founded, given these outstanding honors and achievements that position him among the leading emerging researchers globally 🌐.

🔬 Research Focus

Dr. Shubin Liu’s research is at the intersection of computational imaging, artificial intelligence, and deep learning, with practical applications in environmental monitoring and microscopy 🔬📡. He aims to develop next-generation imaging systems that blend high-resolution capture with intelligent data processing, optimizing real-time imaging performance through advanced algorithms 🧠💡. His patented algorithm for large-scale image synthesis exemplifies this approach by enabling real-time, high-precision data interpretation for microscopic systems ⚙️. Dr. Liu’s research spans multiple domains—from Nanophotonics to Advanced Functional Materials—where he investigates light-matter interaction, pattern recognition, and image reconstruction 📷🧬. His use of machine learning models improves visual data accuracy, supporting various fields such as healthcare, environmental sciences, and quantum imaging 🌱📊. With an emphasis on interdisciplinary integration, Dr. Liu’s work not only pushes scientific boundaries but also offers scalable, real-world solutions for advanced imaging and sensing systems 🌐.

🛠️ Skills

Dr. Shubin Liu brings a robust set of interdisciplinary skills that make him a leader in modern scientific research 🧠🔍. His core competencies include computational imaging, AI-based image reconstruction, and microscopy algorithm design 📷🤖. He is highly proficient in deep learning frameworks like TensorFlow and PyTorch, alongside programming languages such as Python, MATLAB, and C++ 💻. His work demands expertise in signal processing, image synthesis, and optical system simulation, all of which he employs in developing scalable imaging tools and patentable technologies 🛠️. Dr. Liu also demonstrates editorial acumen through his service on the iMeta board, indicating strong scientific writing, peer review, and research evaluation abilities 📚📝. Equally strong in theory and implementation, he excels in data interpretation, visualization, and machine vision technologies, making him highly adaptable in academia and industry. His versatile skill set enables pioneering innovations in AI-driven imaging systems 🔬.

📚 Publications – Top Notes

A Switchable‑Mode Full‑Color Imaging System with Wide Field of View for All Time Periods (Photonics, July 8, 2025; DOI: 10.3390/photonics12070689)

Authors: Shubin Liu, Linwei Guo, Kai Hu, Chunbo Zou ljnu.smart.vipslib.com+5ACS Publications+5ResearchGate+5OUCI+5MDPI+5ORCID+5

Year: 2025

Citations: None found (too recently published)

 

Large‑scale microscope with improved resolution using SRGAN (Optics & Laser Technology, Dec 2024; DOI: 10.1016/j.optlastec.2024.111291)

Authors: Bing‑Kun Xie, Shu‑Bin Liu, Lei Li PubMed+9OUCI+9Nanophotonics+9

Year: 2024

Citations: No citation count available yet (likely none or very few)

 

Polyelectrolyte mixture enables electrowetting liquid lens with large optical power tuning range (Applied Physics Letters, Aug 5, 2024; DOI: 10.1063/5.0226826)

Authors: Kirsch, Peers from Sichuan University & China Academy of Engineering Physics (exact names not listed) Nature

Year: 2024

Citations: Not specified (likely zero or few)

 

Compact biologically inspired camera with computational compound eye (Nanophotonics, Apr 23, 2024; DOI: 10.1515/nanoph-2023-0782)

Authors: Shu‑Bin Liu, Xu‑Ning Liu, Wei‑Jie Fan, Meng‑Xuan Zhang, Lei Li Astrophysics Data System+12PubMed+12PubMed+12

Year: 2024

Citations: No citation data found

 

Varifocal diffractive lens based on microfluidics (Optics and Lasers in Engineering, Mar 2024; DOI: 10.1016/j.optlaseng.2023.107955)

Authors: Weijie Fan, Xu‑Ning Liu, Yin Zhou, Junhao Zhang, Shu‑Bin Liu, Lei Li OUCI

Year: 2024

Citations: Not available

 

Multimodal integration for Barrett’s esophagus (iScience, Nov 14, 2023; DOI: 10.1016/j.isci.2023.108437)

Authors: Shubin Liu, Shiyu Peng, Mengxuan Zhang, Ziyuan Wang, Lei Li Cell+2PubMed+2x-mol.net+2

Year: 2023

Citations: Not specified

 

Reflective zoom lens based on liquid metal (Optics Communications, Oct 2023; DOI: 10.1016/j.optcom.2023.129995)

Authors: Xu‑Ning Liu, Jing‑Yi Fu, Shu‑Bin Liu, Zi‑Yi Zhang, Yang‑Yu Li, Na Xie, Yu‑Hai Li, Lei Li opg.optica.org+15OUCI+15ORCID+15

Year: 2023

Citations: 0 (according to Scilit) Scilit+1Scilit+1

 

Optofluidic zoom system with increased field of view and less chromatic aberration (Optics Express, Jul 17, 2023; DOI: 10.1364/oe.498096)

Authors: Lin Li, [others not listed] ResearchGate

Year: 2023

Citations: At least 5 (per ResearchGate)

Conclusion✅

Dr. Shubin Liu stands out as a dynamic and impactful researcher at the frontier of computational imaging and artificial intelligence 🔬🤖. With an impressive array of first-author publications in high-impact journals like Advanced Functional Materials, PhotoniX, and Nanophotonics, he has already made significant contributions to the advancement of imaging technologies 🌟. His editorial role with iMeta (IF > 23.8), combined with a national patent and a cumulative first-author impact factor exceeding 55, underscores both scholarly excellence and innovation 🧠📈. Dr. Liu’s research is deeply relevant to today’s scientific challenges—addressing needs in environmental monitoring, microscopic analysis, and real-time AI-driven imaging 📡🌱. With a rare blend of technical skill, academic rigor, and forward-looking vision, he exemplifies the qualities recognized by the Best Researcher Award. He is a valuable contributor to global scientific progress and a deserving candidate for this prestigious honor 🏆.

Liang Liu | Environmental Studies | Best Researcher Award

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Dr. Liang Liu | Environmental Studies | Best Researcher Award

Henan Polytechnic University, China

Dr. Liang Liu is a passionate researcher and academic affiliated with Henan Polytechnic University, China. His scientific endeavors focus on urban spatial dynamics, particularly urban expansion, shrinkage, and their impact on the urban thermal environment. With a strong foundation in environmental science and geospatial modeling, Dr. Liu has made impactful contributions to understanding how cities grow or contract in response to natural and socioeconomic pressures. His research integrates advanced analytical techniques, including the RF-Pearson-CA-Markov model, to explore urban evolution in a climate-sensitive context. Backed by the National Natural Science Foundation of China, he is leading a key research project analyzing spatio-temporal trade-offs between urban development and ecosystem services. Dr. Liu’s publication in Sustainable Cities and Society has strengthened his academic credibility and global reach. He remains committed to producing forward-thinking, solution-based research for resilient urban futures and continues to expand his influence in the global research community.

Professional Profiles📖

ORCID 

🎓 Education 

Dr. Liang Liu holds a Ph.D. and has built a specialized academic track in urban studies and environmental sciences. His educational path has been rooted in exploring complex urban systems, equipping him with strong quantitative and analytical skills. During his doctoral journey, Dr. Liu developed a deep understanding of spatial modeling, urban geography, and climate interactions within urban environments. His academic research culminated in the development and application of the RF-Pearson-CA-Markov model, demonstrating his ability to innovate within existing theoretical frameworks. His focus on the Huaihe River Basin during graduate research has led to nationally funded projects, highlighting the academic rigor and societal relevance of his work. Although detailed educational milestones are not listed, his output and research direction reflect a well-grounded academic background, honed through structured doctoral studies, continuous learning, and active research dissemination in top-tier journals.

🏗 Experience 

Dr. Liang Liu is a researcher at Henan Polytechnic University, with research centered on urban growth dynamics and environmental transformations. Though early in his academic career, Dr. Liu has already demonstrated research leadership by securing funding from the National Natural Science Foundation of China. He is leading a major project analyzing trade-offs between urban development and ecosystem services in the Huaihe River Basin. His experience includes conducting multidimensional experiments that apply spatial-temporal modeling tools such as RF-Pearson-CA-Markov, effectively validating these across cities with differing climates and developmental scales. While he has not yet collaborated across institutions, his independent work reflects technical competence and innovation. He has one prominent publication in Sustainable Cities and Society and continues contributing to scholarly discourse through ongoing projects. With growing experience in urban environmental modeling and a sharp focus on sustainability, Dr. Liu is poised for broader contributions in global research communities.

🏆 Awards & Honors 

As of now, Dr. Liang Liu has not listed specific awards or honors beyond his current nomination for the Best Researcher Award. However, the significance of his current research funding by the National Natural Science Foundation of China stands as a prestigious professional milestone. This funding demonstrates peer-reviewed recognition of his work’s potential in addressing real-world environmental and urbanization challenges. Publishing in the reputed Sustainable Cities and Society journal further marks his academic credibility, with the article serving as a valuable resource in the field of sustainable urban development. His ongoing contributions place him in a strong position to receive future accolades related to climate research, urban sustainability, and modeling innovations. The Best Researcher Award could be a key recognition to support Dr. Liu’s growing impact in the academic and scientific world and open doors to more collaborations, editorial roles, and leadership within national and international research forums.

🔬 Research Focus

Dr. Liang Liu’s research focus lies at the intersection of urban expansion, shrinkage, and the urban thermal environment—key issues in today’s rapidly urbanizing world. He explores how cities evolve over time and the environmental consequences of these transitions, especially their effects on climate resilience and ecosystem health. His main project, funded by the NSFC, investigates spatial and temporal trade-offs between urban development and ecosystem services in the Huaihe River Basin, a critical ecological region in China. A cornerstone of his research is the RF-Pearson-CA-Markov model, which he developed to predict and analyze urban change under diverse climatic and spatial conditions. Dr. Liu’s work bridges data-driven modeling and urban environmental planning, offering policymakers tools to forecast and mitigate negative impacts. His research plays a crucial role in understanding how cities interact with natural systems, guiding the development of smarter, more sustainable urban planning frameworks across different geographic contexts.

🛠️ Skills

Dr. Liang Liu brings a blend of analytical, modeling, and spatial data interpretation skills to urban and environmental research. His expertise in geospatial modeling techniques, particularly the RF-Pearson-CA-Markov model, demonstrates his ability to integrate statistical reasoning with real-world applications. He is proficient in handling remote sensing data, GIS analysis, and environmental impact modeling—essential tools for studying urban transformation. His research reflects strong methodological design and an ability to interpret complex interactions between urban expansion and environmental systems. In addition, Dr. Liu is adept at conducting systematic, multidimensional experiments, encompassing variables such as urban evolution status, scale, and climate influence. He is also capable of communicating technical findings effectively through peer-reviewed publications. While collaborative and presentation skills are still developing, his technical and research proficiencies already position him as a valuable contributor to urban sustainability research. With further exposure to cross-disciplinary projects and international forums, these skills will likely expand significantly.

Publications Top Notes

  • Spatio‑temporal evolution and simulation prediction of heat island effect in shrinking cities in China based on improved CA‑Markov modeling
    Sustainable Cities and Society2025 (July)
    Source: Crossref

Conclusion✅

Hind Maaghloud | Environmental Studies | Women Researcher Award-duplicate-1

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Dr. Hind Maaghloud | Environmental Studies | Women Researcher Award

Phd in Ecology and Environment at University Hassan II, Faculty of Sciences Ain Chock, Casablanca, Morocco 

Dr. Hind Maaghloud is a Moroccan environmental scientist specializing in Ecology and Environmental Biology. With a PhD from Hassan II University, Casablanca, she has made significant contributions to marine pollution research, particularly the presence of microplastics and heavy metals in marine ecosystems. Dr. Maaghloud has been an educator for over 15 years, teaching Life Sciences at both secondary and university levels. Passionate about sustainability, she also founded and led an environmental club for nearly a decade, actively promoting environmental awareness among youth. She has published in high-impact journals such as Environmental Pollution and Science of the Total Environment and regularly participates in international scientific conferences. As a reviewer for the journal Environmental Pollution, she continues to support scientific excellence. Her interdisciplinary approach blends fieldwork, laboratory analysis, and science communication, making her a valuable contributor to ecological science and environmental policy dialogue in Morocco and beyond.

Professional Profiles📖

Scopus 

ORCID 

🎓 Education 

Dr. Hind Maaghloud earned her PhD in Biological Sciences, specializing in Ecology and Environment, from Hassan II University in 2021. Her doctoral research focused on microplastic contamination in Moroccan marine species. She holds a DESA (Diplôme d’Études Supérieures Appliquées) in Biotechnology for Industry and Environment (2008), and a Professional License in Environmental Management and Protection (2006). She also obtained her Certification of Aptitude for Secondary School Teaching in Life Sciences and Earth Sciences (2008), reflecting her commitment to education. Earlier, she completed her DEUG in Biology and Geology (2004) and a Baccalaureate in Experimental Sciences (2001). Her academic journey illustrates a strong foundation in environmental science, biotechnology, and education. Dr. Maaghloud’s interdisciplinary academic profile, paired with field and lab-based training through multiple internships, has equipped her with both theoretical knowledge and practical skills in environmental monitoring, pollution control, and sustainable practices—forming a robust base for her research career.

🏗 Experience 

Dr. Hind Maaghloud has built a rich career as both a researcher and educator. Since 2008, she has been a first-grade certified secondary school teacher in Life and Earth Sciences. She has also served as an adjunct professor at Hassan II University and the Higher Institute of Technology Training, teaching modules in Ecology, Biochemistry, and Structural/Metabolic Biochemistry. Her early professional development includes internships in environmental labs and industries, such as the Pasteur Laboratory, Public Laboratory for Tests and Studies (LPEE), and Lesieur-Crystal’s Waste Treatment Division. These experiences laid the groundwork for her applied research in pollution and wastewater management. Beyond the classroom and lab, she founded an environmental club at Hassan II High School, leading awareness campaigns from 2009 to 2017. Her dynamic teaching, combined with ongoing research and community engagement, showcases her as a dedicated, well-rounded scientist committed to environmental education and advocacy.

🏆 Awards & Honors 

Although Dr. Hind Maaghloud has not been formally documented with prestigious awards yet, her career reflects recognition through important roles and scientific impact. She has earned the honor of being a reviewer for the renowned journal Environmental Pollution since 2020—an acknowledgment of her expertise and credibility in environmental science. Her selection for oral and poster presentations at multiple international conferences, including BIOTECH2020, ERVD’7, and regional climate impact symposiums, highlights professional peer recognition. As a founder and president of a long-standing environmental club, she has been a local leader in environmental education and outreach. Her consistent publication in peer-reviewed journals and collaborations with international scholars further elevate her profile. Future accolades are likely as her influence in the domains of marine ecology, microplastic research, and science education continues to grow, making her an emerging voice in environmental policy and sustainable development across North Africa.

🔬 Research Focus

Dr. Hind Maaghloud’s research is rooted in marine pollution, with a specialized focus on microplastics and heavy metals in fish species along the Moroccan Atlantic coast. Her doctoral and postdoctoral work has contributed to mapping pollutant distribution, studying ingestion patterns in commercial fish species, and understanding the ecological and public health implications of marine debris. She has also researched wastewater reuse in agriculture, evaluating its effects on soil properties, microbial activity, and crop safety. Her interdisciplinary work bridges ecology, biochemistry, and environmental engineering, reflecting a systems-thinking approach to pollution control. Dr. Maaghloud employs advanced analytical methods such as FTIR spectroscopy and statistical modeling (e.g., SPSS) to assess environmental quality. Her broader scientific vision includes developing solutions for sustainable water management, marine ecosystem protection, and waste valorization, aligning closely with UN Sustainable Development Goals, especially those related to life below water, clean water, and responsible consumption.

🛠️ Skills

Dr. Hind Maaghloud possesses a broad and practical skill set essential for environmental research and education. She is proficient in MS Office tools (Word, Excel, PowerPoint), which support her teaching and academic writing. She has strong skills in data analysis using SPSS, enabling her to interpret complex environmental datasets and draw scientifically valid conclusions. Her laboratory skills include FTIR spectroscopy for microplastic identification, chemical analysis, and biosorption techniques, particularly in wastewater and marine studies. Fluent in Arabic, and with working proficiency in French and English, she effectively communicates her research across diverse audiences and regions. Additionally, her leadership as a club founder and role as journal reviewer reflect her strengths in project coordination and scientific critique. She integrates fieldwork, laboratory science, education, and advocacy—making her not only a researcher but also a change-maker in environmental sustainability and science outreach.

Publications Top Notes

🔹 Ingestion of microplastics by pelagic fish from the Moroccan Central Atlantic coast – Published in Environmental Pollution (2020).
📌 DOI: 10.1016/j.envpol.2020.114194
📊 Citations: Not publicly listed, but known to be referenced in multiple microplastic studies.

 

🔹 Microplastic ingestion by Atlantic horse mackerel (Trachurus trachurus) in the North and central Moroccan Atlantic coast between Larache (35°30′N) and Boujdour (26°30′N) – Published in Environmental Pollution (2021).
📌 DOI: 10.1016/j.envpol.2021.117781
📊 Citations: 10 citations (as tracked by international academic indexes up to 2024).

 

🔹 Plastic litter colonization in a brackish water environment – Published in Science of The Total Environment (February 2024).
📌 DOI: 10.1016/j.scitotenv.2023.169177
📊 Citations: Not yet cited due to recent publication.

Conclusion✅

Hind Maaghloud | Environmental Studies | Women Researcher Award

Published on by Zoology Honour

Dr. Hind Maaghloud | Environmental Studies | Women Researcher Award

Phd in Ecology and Environment at University Hassan II, Faculty of Sciences Ain Chock, Casablanca, Morocco 

Dr. Hind Maaghloud is a Moroccan environmental scientist specializing in Ecology and Environmental Biology. With a PhD from Hassan II University, Casablanca, she has made significant contributions to marine pollution research, particularly the presence of microplastics and heavy metals in marine ecosystems. Dr. Maaghloud has been an educator for over 15 years, teaching Life Sciences at both secondary and university levels. Passionate about sustainability, she also founded and led an environmental club for nearly a decade, actively promoting environmental awareness among youth. She has published in high-impact journals such as Environmental Pollution and Science of the Total Environment and regularly participates in international scientific conferences. As a reviewer for the journal Environmental Pollution, she continues to support scientific excellence. Her interdisciplinary approach blends fieldwork, laboratory analysis, and science communication, making her a valuable contributor to ecological science and environmental policy dialogue in Morocco and beyond.

Professional Profiles📖

Scopus 

ORCID 

🎓 Education 

Dr. Hind Maaghloud earned her PhD in Biological Sciences, specializing in Ecology and Environment, from Hassan II University in 2021. Her doctoral research focused on microplastic contamination in Moroccan marine species. She holds a DESA (Diplôme d’Études Supérieures Appliquées) in Biotechnology for Industry and Environment (2008), and a Professional License in Environmental Management and Protection (2006). She also obtained her Certification of Aptitude for Secondary School Teaching in Life Sciences and Earth Sciences (2008), reflecting her commitment to education. Earlier, she completed her DEUG in Biology and Geology (2004) and a Baccalaureate in Experimental Sciences (2001). Her academic journey illustrates a strong foundation in environmental science, biotechnology, and education. Dr. Maaghloud’s interdisciplinary academic profile, paired with field and lab-based training through multiple internships, has equipped her with both theoretical knowledge and practical skills in environmental monitoring, pollution control, and sustainable practices—forming a robust base for her research career.

🏗 Experience 

Dr. Hind Maaghloud has built a rich career as both a researcher and educator. Since 2008, she has been a first-grade certified secondary school teacher in Life and Earth Sciences. She has also served as an adjunct professor at Hassan II University and the Higher Institute of Technology Training, teaching modules in Ecology, Biochemistry, and Structural/Metabolic Biochemistry. Her early professional development includes internships in environmental labs and industries, such as the Pasteur Laboratory, Public Laboratory for Tests and Studies (LPEE), and Lesieur-Crystal’s Waste Treatment Division. These experiences laid the groundwork for her applied research in pollution and wastewater management. Beyond the classroom and lab, she founded an environmental club at Hassan II High School, leading awareness campaigns from 2009 to 2017. Her dynamic teaching, combined with ongoing research and community engagement, showcases her as a dedicated, well-rounded scientist committed to environmental education and advocacy.

🏆 Awards & Honors 

Although Dr. Hind Maaghloud has not been formally documented with prestigious awards yet, her career reflects recognition through important roles and scientific impact. She has earned the honor of being a reviewer for the renowned journal Environmental Pollution since 2020—an acknowledgment of her expertise and credibility in environmental science. Her selection for oral and poster presentations at multiple international conferences, including BIOTECH2020, ERVD’7, and regional climate impact symposiums, highlights professional peer recognition. As a founder and president of a long-standing environmental club, she has been a local leader in environmental education and outreach. Her consistent publication in peer-reviewed journals and collaborations with international scholars further elevate her profile. Future accolades are likely as her influence in the domains of marine ecology, microplastic research, and science education continues to grow, making her an emerging voice in environmental policy and sustainable development across North Africa.

🔬 Research Focus

Dr. Hind Maaghloud’s research is rooted in marine pollution, with a specialized focus on microplastics and heavy metals in fish species along the Moroccan Atlantic coast. Her doctoral and postdoctoral work has contributed to mapping pollutant distribution, studying ingestion patterns in commercial fish species, and understanding the ecological and public health implications of marine debris. She has also researched wastewater reuse in agriculture, evaluating its effects on soil properties, microbial activity, and crop safety. Her interdisciplinary work bridges ecology, biochemistry, and environmental engineering, reflecting a systems-thinking approach to pollution control. Dr. Maaghloud employs advanced analytical methods such as FTIR spectroscopy and statistical modeling (e.g., SPSS) to assess environmental quality. Her broader scientific vision includes developing solutions for sustainable water management, marine ecosystem protection, and waste valorization, aligning closely with UN Sustainable Development Goals, especially those related to life below water, clean water, and responsible consumption.

🛠️ Skills

Dr. Hind Maaghloud possesses a broad and practical skill set essential for environmental research and education. She is proficient in MS Office tools (Word, Excel, PowerPoint), which support her teaching and academic writing. She has strong skills in data analysis using SPSS, enabling her to interpret complex environmental datasets and draw scientifically valid conclusions. Her laboratory skills include FTIR spectroscopy for microplastic identification, chemical analysis, and biosorption techniques, particularly in wastewater and marine studies. Fluent in Arabic, and with working proficiency in French and English, she effectively communicates her research across diverse audiences and regions. Additionally, her leadership as a club founder and role as journal reviewer reflect her strengths in project coordination and scientific critique. She integrates fieldwork, laboratory science, education, and advocacy—making her not only a researcher but also a change-maker in environmental sustainability and science outreach.

Publications Top Notes

🔹 Ingestion of microplastics by pelagic fish from the Moroccan Central Atlantic coast – Published in Environmental Pollution (2020).
📌 DOI: 10.1016/j.envpol.2020.114194
📊 Citations: Not publicly listed, but known to be referenced in multiple microplastic studies.

 

🔹 Microplastic ingestion by Atlantic horse mackerel (Trachurus trachurus) in the North and central Moroccan Atlantic coast between Larache (35°30′N) and Boujdour (26°30′N) – Published in Environmental Pollution (2021).
📌 DOI: 10.1016/j.envpol.2021.117781
📊 Citations: 10 citations (as tracked by international academic indexes up to 2024).

 

🔹 Plastic litter colonization in a brackish water environment – Published in Science of The Total Environment (February 2024).
📌 DOI: 10.1016/j.scitotenv.2023.169177
📊 Citations: Not yet cited due to recent publication.

Conclusion✅

Imed Messaoudi | Ecotoxicology | Best Researcher Award

Published on by Zoology Honour

Prof. Imed Messaoudi | Ecotoxicology | Best Researcher Award

Head of LR11ES41 Laboratory at Laboratoire GBVB, Tunisia

Imed Messaoudi, born on September 20, 1968, in Sousse, Tunisia, is a Professor of Animal Physiology at the Institut Supérieur de Biotechnologie de Monastir (ISBM). Since April 2016, he has held the title of Professor, specializing in animal physiology. He currently directs the research laboratory LR11ES41 and coordinates the Master’s program in Biology and Cellular Physiology. Fluent in Arabic and French, with basic English skills, Imed combines his academic expertise with administrative responsibilities, including leadership roles in national recruitment commissions. He is active internationally, serving as a visiting professor in Italy and coordinating several cross-border research projects. His research addresses neurophysiology, endocrinology, and ecotoxicology, with over 77 publications and an H-index of 30, reflecting significant scientific contributions. Imed is also involved in fostering innovation in pedagogy and managing partnerships between academia and industry.

Professional Profiles📖

Scopus 

ORCID 

Google Scholar

🎓 Education 

Imed Messaoudi’s academic journey began with a Diplôme des Études Approfondies in Animal Ecology, obtained in 1999, marking his early specialization in biological sciences. He earned his Doctorate in Biological Sciences in February 2003, emphasizing rigorous scientific training. Following his PhD, he advanced his qualifications by obtaining a Diplôme d’Habilitation Universitaire in April 2009, which enabled him to supervise doctoral research and lead academic programs. His educational path is tightly linked to Tunisia’s higher education system, particularly at the Institut Supérieur de Biotechnologie de Monastir. This strong academic foundation underpins his research and teaching expertise in physiology. Throughout his education, Imed focused on animal physiology, ecology, and biotechnological applications, enabling him to blend theory with practical research skills. His academic qualifications facilitated his progression from assistant professor to full professor, reinforcing his role in academia as both educator and researcher.

🏗 Experience 

Imed Messaoudi has built a distinguished career at the Institut Supérieur de Biotechnologie de Monastir. Starting in 2003 as a Maître Assistant, he steadily progressed to Maître de Conférences by 2011 and became a full Professor in 2016. His extensive teaching covers subjects such as endocrinology, neurophysiology, aquatic animal physiology, human physiology, and neurodegenerative diseases. Imed supervises doctoral theses, having guided 11 PhD students, and has overseen innovative pedagogical projects like “Teaching Research by Research,” integrating practical research in Master’s courses. He directs the research laboratory LR11ES41 since 2016, coordinating research teams and international projects. His roles extend beyond academia to administrative leadership, including membership in scientific councils and national recruitment committees. Imed also fosters partnerships with industry and international institutions, ensuring research results translate into socio-economic impact. His experience combines education, research leadership, and active participation in scientific collaboration both nationally and internationally.

🏆 Awards & Honors 

Imed Messaoudi has received several prestigious recognitions throughout his career. Notably, he served as a Visiting Professor at the University of Vanvitelli, Naples, Italy, during multiple years (2018–2024), underscoring his international academic reputation. His publications have earned significant citations and visibility, including a highly regarded article in Pineal Research in 2020 with an impact factor of 15.22. He is an active member of national recruitment commissions for academic positions in biology and physiology, often presiding over these committees. Additionally, Imed contributes as a reviewer for international scientific journals with impact factors, affirming his expertise in the field. He holds leadership roles in scientific associations, such as Secretary-General of the Ecotoxicology and Ecophysiology Association and Treasurer of the Tunisian Psycho-Neuro-Endocrino-Immunology Association. These honors highlight his contributions to science, education, and academic governance, as well as his dedication to advancing research in Tunisia and abroad.

🔬 Research Focus

Imed Messaoudi’s research centers on animal physiology with a strong emphasis on neurophysiology, endocrinology, and ecotoxicology. He investigates the effects of environmental pollutants like cadmium and microplastics on biological functions, including reproductive and neurodegenerative diseases. His work explores molecular mechanisms such as oxidative stress, mitochondrial dynamics, and steroidogenesis, often using rodent and fish models. He has contributed substantially to understanding how toxins affect reproductive health, particularly testicular and ovarian functions, and the neuroprotective roles of molecules like melatonin. His projects span from cellular to systemic physiology, integrating experimental biology with environmental sciences. Imed’s research also includes studying biomarkers for toxicity and developing innovative approaches to animal experimentation. Collaborating on numerous international projects, his work aims to provide new insights into mitigating environmental and health risks through physiological and biochemical interventions, bridging basic science and applied research.

🛠 Skills 

Imed Messaoudi possesses a broad and advanced skill set spanning experimental physiology, biochemistry, and molecular biology. He excels in designing and supervising complex in vivo and in vitro experiments focused on neurophysiology, endocrinology, and toxicology. His expertise includes techniques in animal experimentation, histology, molecular assays (e.g., gene expression analysis), and biochemical markers of oxidative stress and apoptosis. Imed is skilled in academic leadership, managing research teams, and coordinating multidisciplinary projects with international partners. He has strong pedagogical skills, implementing innovative teaching methods that integrate research with student training. His language proficiency in Arabic and French enhances communication and collaboration in diverse environments. Imed is also experienced in scientific writing, peer review, and grant proposal development. His ability to manage scientific consortia and foster partnerships between academia and industry further highlights his leadership and project management competencies.

Publications Top Notes

1. Adverse effects of a realistic concentration of human exposure to microplastics on markers of placental barrier permeability in pregnant rats
📊 Citations: 0 (newly published)
📚 Source: Environmental Science and Pollution Research
📅 Year: 2025

 

2. Adverse effects of environmentally relevant concentration of microplastics on gill epithelium permeability in the euryhaline Mediterranean killifish Aphanius fasciatus
📊 Citations: 1
📚 Source: Chemosphere
📅 Year: 2024

 

3. Steroidogenesis Upregulation through Mitochondria-Associated Endoplasmic Reticulum Membranes and Mitochondrial Dynamics in Rat Testes: The Role of D-Aspartate
📊 Citations: 4
📚 Source: Cells
📅 Year: 2024

 

4. 3-aminohydantoin derivate as a promising scaffold in dopaminergic neuroprotection and neurorescue in Parkinson’s models
📊 Citations: 6
📚 Source: Clinical and Experimental Pharmacology and Physiology
📅 Year: 2023

 

5. Improving Dietary Zinc Bioavailability Using New Food Fortification Approaches: A Promising Tool to Boost Immunity in the Light of COVID-19
📊 Citations: 9
📚 Source: Biology
📅 Year: 2023

 

6. Environmental microplastics exposure alter the differentiation potential of mesenchymal stromal cells
📊 Citations: 13
📚 Source: Environmental Research
📅 Year: 2022

 

7. Exposure to microplastics leads to a defective ovarian function and change in cytoskeleton protein expression in rat
📊 Citations: 17
📚 Source: Environmental Science and Pollution Research
📅 Year: 2022

 

8. Interactions between cadmium and zinc on gene expression pattern of differentiation markers in MC3T3-E1 cell line
📊 Citations: 8
📚 Source: Xenobiotica
📅 Year: 2021

 

9. Altered Expression of DAAM1 and PREP Induced by Cadmium Toxicity Is Counteracted by Melatonin in the Rat Testis
📊 Citations: 20
📚 Source: Genes
📅 Year: 2021

 

10. Melatonin protects bone against cadmium-induced toxicity via Wnt/β-catenin signaling pathway
📊 Citations: 27
📚 Source: Toxicology Mechanisms and Methods
📅 Year: 2020

 

11. First evidence on protective effect of exogenous melatonin against disruption of the estrogenic pathway in bone metabolism of killifish
📊 Citations: 15
📚 Source: Fish Physiology and Biochemistry
📅 Year: 2020

 

12. Disruption of Bone Zinc Metabolism during Postnatal Development of Rats after Early Life Exposure to Cadmium
📊 Citations: 31
📚 Source: International Journal of Molecular Sciences
📅 Year: 2020

 

13. Early-Life Exposure to Cadmium Triggers Distinct Zn-Dependent Protein Expression Patterns and Impairs Brain Development
📊 Citations: 39
📚 Source: Biological Trace Element Research
📅 Year: 2018

 

14. Involvement of testicular DAAM1 expression in zinc protection against cadmium-induced male rat reproductive toxicity
📊 Citations: 41
📚 Source: Journal of Cellular Physiology
📅 Year: 2018

 

15. Involvement of Zn Depletion in Cd-Induced Toxicity on Prenatal Bone Formation in Rat
📊 Citations: 47
📚 Source: Biological Trace Element Research
📅 Year: 2017

Conclusion✅

Itai Beeri | Environmental Studies| Best Researcher Award

Published on by Zoology Honour

Prof. Itai Beeri | Environmental Studies| Best Researcher Award

Professor at University of Haifa, Israel

Prof. Dr. Uwe Waller is a seasoned and accomplished researcher whose interdisciplinary work in sustainable aquaculture, renewable energy, and biological engineering stands at the intersection of scientific innovation and practical sustainability. His applied contributions have reshaped marine research infrastructure and aquaculture practices in Germany and internationally. His strong industry collaborations, academic mentorship, and global volunteerism further establish him as a leader in translating scientific knowledge into real-world solutions.

Professional Profiles📖

🎓 Education

Prof. Dr. Uwe Waller studied biology at the Free University of Berlin and the Christian-Albrechts-University in Kiel. He obtained his diploma in biology (Diplom Biologe) and later earned his doctorate (Dr. rer. nat.) with a focus on marine sciences. His academic training laid the foundation for his interdisciplinary work combining biology, marine sciences, and engineering.

🧪 Experience

Prof. Waller has had a distinguished academic and applied research career in marine and aquaculture sciences. His early scientific work was conducted at the Institut für Meereskunde (IfM) in Kiel, where he specialized in fisheries biology, fish physiology, fish behavior, and aquaculture biotechnology. He supervised doctoral students, served on the board of the IfM, and curated the Kiel Aquarium, where he modernized technical systems to meet international standards.

🏅 Awards and Honors

Throughout his career, Prof. Dr. Uwe Waller has received multiple honors for his pioneering contributions to sustainable aquaculture and environmental engineering. In 2001, he was awarded the prestigious “Maritime Technology” Prize by the K.E.R.N region in Schleswig-Holstein for his innovative work in aquaculture system development. His scientific and economic concept for the Gesellschaft für Marine Aquakultur (GMA) in Büsum was a milestone, leading to the creation of a prominent marine research facility now affiliated with the Fraunhofer Society. In 2012, the Deutsche Bundesstiftung Umwelt (DBU) recognized his integrated recirculating aquaculture systems as a model for sustainability. His work on the PISA project demonstrated the feasibility of sustainable, animal welfare-compliant closed-loop aquaculture and received international recognition. Additionally, Waller’s expertise has been sought globally, including involvement in German aid programs such as the post-tsunami recovery in Southeast Asia, underlining his role in international development and science diplomacy.

🔬 Research Focus

Prof. Waller’s research is centered on integrated recirculating aquaculture systems (RAS), including fish and prawn farming, automation, and remote control technologies. He has pioneered secondary recycling systems involving microalgae and plants and has developed photobioreactor-based microalgae production systems. His work emphasizes sustainable aquaculture through biological process engineering and the integration of aquaculture with renewable energy and nutrient recycling.

🛠️  Research Skills

Prof. Waller possesses a unique blend of scientific and engineering competencies that bridge biology, environmental science, and technology. His core skills include the design and optimization of recirculating aquaculture systems (RAS), bioprocess engineering, and the development of integrated recycling systems for water, nutrients, and energy. He is proficient in microalgae cultivation using photobioreactors, aquaculture automation, and remote monitoring technologies. His teaching and academic leadership have been shaped by a strong foundation in biology, marine ecology, and renewable energy systems, particularly in engineering curricula. In addition, he has extensive experience in project management, interdisciplinary collaboration, and international capacity building, having worked with universities, industry partners, and development agencies across Europe and Asia. His ability to integrate natural and engineering sciences has established him as a leading figure in sustainable aquaculture and environmental systems design.

✅ Conclusion 

Prof. Dr. Uwe Waller is highly suitable for the Best Researcher Award, particularly one that values applied science, sustainability, interdisciplinary integration, and global impact. His profile exemplifies the modern researcher—one who not only generates knowledge but also implements it for societal and environmental benefit. While enhancing publication visibility could strengthen his candidacy in highly competitive academic contexts, his comprehensive contributions already distinguish him as a transformative figure in his field.

Publications Top Notes📚

  • Change-oriented organizational citizenship behavior in public administration: The power of leadership and the cost of organizational politics
    Authors: E. Vigoda-Gadot, I. Beeri
    Journal: Journal of Public Administration Research and Theory, 22(3), 573–596
    Citations: 440
    Year: 2011

  • Advancing ethics in public organizations: The impact of an ethics program on employees’ perceptions and behaviors in a regional council
    Authors: I. Beeri, R. Dayan, E. Vigoda-Gadot, S.B. Werner
    Journal: Journal of Business Ethics, 112, 59–78
    Citations: 294
    Year: 2013

  • Does performance management relate to good governance? A study of its relationship with citizens’ satisfaction with and trust in Israeli local government
    Authors: I. Beeri, A. Uster, E. Vigoda-Gadot
    Journal: Public Performance & Management Review
    Citations: 215
    Year: 2018

  • Group-level organizational citizenship behavior in the education system: A scale reconstruction and validation
    Authors: E. Vigoda-Gadot, I. Beeri, T. Birman-Shemesh, A. Somech
    Journal: Educational Administration Quarterly, 43(4), 462–493
    Citations: 183
    Year: 2007

  • Wind(ow) of Change: A Systematic Review of Policy Entrepreneurship Characteristics and Strategies
    Authors: N. Frish Aviram, N. Cohen, I. Beeri
    Journal: Policy Studies Journal
    Citations: 155
    Year: 2019

  • Low-level bureaucrats, local government regimes and policy entrepreneurship
    Authors: I.B. Neomi Frisch-Aviram, N. Cohen
    Journal: Policy Sciences, 51(1), 39–57
    Citations: 99
    Year: 2018

  • Local political corruption: Potential structural malfunctions at the central–local, local–local and intra-local levels
    Authors: I. Beeri, D. Navot
    Journal: Public Management Review, 15(5), 712–739
    Citations: 83
    Year: 2013

  • Lack of Reform in Israeli Local Government and Its Impact on Modern Developments in Public Management
    Author: I. Beeri
    Journal: Public Management Review
    Citations: 50
    Year: 2020

  • Don’t push too hard. Examining the managerial behaviours of local authorities in collaborative networks with nonprofit organisations
    Authors: A. Uster, I. Beeri, D. Vashdi
    Journal: Local Government Studies, 45(1), 124–145
    Citations: 44
    Year: 2019

  • Turnaround management strategies in public systems: The impact on group-level organizational citizenship behavior
    Author: I. Beeri
    Journal: International Review of Administrative Sciences, 78(1), 158–179
    Citations: 40
    Year: 2012

Xiaoguang Ouyang | Mangrove Ecology | Best Researcher Award

Published on by Zoology Honour

Prof. Xiaoguang Ouyang | Mangrove Ecology | Best Researcher Award

Research Institute at Southern Marine Science and Engineering Guangdong Laboratory (Guangzhou), China 

Dr. Xiaoguang Ouyang is an Associate Professor and Principal Investigator at the College of the Environment and Ecology, Xiamen University. He specializes in mangrove ecology and blue carbon, with a strong interdisciplinary background that spans ecology, biogeochemistry, and environmental science. Dr. Ouyang’s research focuses on understanding the ecological functions and carbon sequestration potential of coastal wetlands, particularly mangrove ecosystems, in the context of global climate change and ecosystem management.

Professional Profiles📖

Google Scholar 

ORCID 

🎓 Education

Dr. Ouyang earned his Ph.D. in Ecology from the Research Center for Eco-Environmental Sciences at the Chinese Academy of Sciences in 2018. He previously received an M.S. in Hydrobiology from Jinan University in 2014 and a B.S. in Biology from Jiangxi Normal University in 2011. His academic training has provided a strong foundation in both theoretical and applied environmental sciences.

🧪 Experience

Following his doctoral studies, Dr. Ouyang joined Xiamen University as a postdoctoral researcher, later advancing to Assistant Professor and currently serving as Associate Professor. In these capacities, he has led numerous national and international research initiatives, supervised graduate students, and contributed to the development of advanced methodologies in blue carbon assessment, ecosystem modeling, and wetland restoration.

🏅 Awards and Honors

Dr. Ouyang has received several prestigious accolades in recognition of his research excellence. These include the National Scholarship for Ph.D. Students from the Chinese Academy of Sciences in 2016 and the Outstanding Master’s Thesis Award from Jinan University in 2014. These honors reflect his academic rigor and significant contributions to environmental science.

🔬 Research Focus

Dr. Ouyang’s primary research interests lie in the dynamics of blue carbon in coastal wetlands, especially mangroves. His work explores mangrove restoration, carbon sequestration, biogeochemical cycles of carbon and nitrogen, and the application of ecological modeling. He is particularly engaged in climate change mitigation strategies through nature-based solutions and sustainable ecosystem management.

🛠️  Research Skills

He is proficient in a range of ecological and environmental tools, including InVEST and SWAT for modeling, and R and Python for statistical analysis. His expertise also covers remote sensing, GIS applications, field monitoring technologies, scientific writing, and research project management, enabling him to tackle complex environmental challenges with a multidisciplinary approach.

Publications Top Notes📚

Updated estimates of carbon accumulation rates in coastal marsh sediments
X. Ouyang, S.Y. Lee
Biogeosciences, 2014369 citations

Improved estimates on global carbon stock and carbon pools in tidal wetlands
X. Ouyang, S.Y. Lee
Nature Communications, 2020227 citations

Mangroves give cause for conservation optimism, for now
D.A. Friess, E.S. Yando, G.M.O. Abuchahla, J.B. Adams, S. Cannicci, …
Current Biology, 2020213 citations

The role of root decomposition in global mangrove and saltmarsh carbon budgets
X. Ouyang, S.Y. Lee, R.M. Connolly
Earth-Science Reviews, 2017146 citations

Paradigms of mangroves in treatment of anthropogenic wastewater pollution
X. Ouyang, F. Guo
Science of the Total Environment, 2016119 citations

Fate and effects of macro- and microplastics in coastal wetlands
X. Ouyang, C. Duarte, S.G. Cheung, N.F.Y. Tam, S. Cannicci, C. Martin, H.S. Lo, …
Environmental Science & Technology, 2022109 citations

Feeding strategies for the acquisition of high‐quality food sources in stream macroinvertebrates
F. Guo, S.E. Bunn, M.T. Brett, B. Fry, H. Hager, X. Ouyang, M.J. Kainz
Limnology and Oceanography, 201888 citations

Integrated fuzzy AHP with MDS in selecting natural wastewater treatment alternatives
X. Ouyang, F. Guo, D. Shan, H. Yu, J. Wang
Ecological Engineering, 201578 citations

Structural equation modeling reveals factors regulating surface sediment OC and CO₂ efflux
X. Ouyang, S.Y. Lee, R.M. Connolly
Science of the Total Environment, 201764 citations

Spatially-explicit valuation of coastal wetlands for cyclone mitigation
X. Ouyang, S.Y. Lee, R.M. Connolly, M.J. Kainz
Scientific Reports, 201853 citations

Effect of nitrate addition on transformation of pentachlorophenol in paddy soil
H.Y. Yu, Y. Wang, P.C. Chen, F. Li, M. Chen, M. Hu, X. Ouyang
Journal of Environmental Management, 201452 citations

Lipid biomarkers from aquatic environments reflect paleoclimate change
X. Ouyang, F. Guo, H. Bu
Quaternary Science Reviews, 201546 citations

Carbon accumulation rates in salt marsh sediments suggest high carbon storage
X. Ouyang, S.Y. Lee
Biogeosciences Discussions, 201338 citations

Intuitionistic fuzzy AHP for selecting paradigms of mangrove wastewater treatment
X. Ouyang, F. Guo
Chemosphere, 201837 citations

Conceptualizing ecosystem degradation using mangrove forests
E.S. Yando, T.M. Sloey, F. Dahdouh-Guebas, K. Rogers, G.M.O. Abuchahla, …
Biological Conservation, 202135 citations

Response of macrophyte litter decomposition in blue carbon ecosystems to climate change
X. Ouyang, E. Kristensen, M. Zimmer, C. Thornber, Z. Yang, S.Y. Lee
Global Change Biology, 202331 citations

Basal resources of river food webs affect fatty acid profiles of freshwater fish
F. Guo, N. Ebm, B. Fry, S.E. Bunn, M.T. Brett, X. Ouyang, H. Hager, M.J. Kainz
Science of the Total Environment, 202229 citations

Impact of super-typhoon Mangkhut on sediment nutrient dynamics in mangroves
X. Ouyang, F. Guo, S.Y. Lee
Science of the Total Environment, 202121 citations

✅ Conclusion 

Dr. Xiaoguang Ouyang is an exemplary candidate for the “Best Researcher Award.” His research has made substantial and sustained contributions to the understanding of blue carbon ecosystems and environmental sustainability. He combines scientific rigor with applied relevance and interdisciplinary breadth. While he could enhance his global policy and public engagement presence, his academic excellence, innovation, and leadership make him a compelling and highly deserving nominee for this honor.