Naseraldeen Asadalla | Environmental Science | Best Researcher Award

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Naseraldeen Asadalla | Environmental Science | Best Researcher Award

Kuwait Institute for Scientific Research | Kuwait

Dr. Naseraldeen Asadalla’s research has focused on arid land ecology, invasive alien species, ecosystem restoration, and biodiversity assessment in the Arabian Peninsula and the GCC region. He has developed specialized expertise in species distribution modeling (MaxEnt), remote sensing, ecological indicators, and machine learning-based environmental data analysis. His Ph.D. research examined the dynamics of alien bird species, particularly the Common Myna in Bahrain, providing foundational insights into biodiversity trends in urban ecosystems. Building on this work, his recent research has concentrated on ecological modeling of plant and animal species in desert environments, with a focus on the influence of abiotic factors such as precipitation and dust storms on species distribution and habitat suitability. Dr. Asadalla has authored and co-authored over 12 peer-reviewed scientific publications in reputable journals including Restoration Ecology, Environmental Monitoring and Assessment, and the Journal of Arid Environments. His work has received over 185 citations (as of September 2025) and he holds an h-index of 7 (Scopus). His research has directly contributed to regional conservation strategies, such as the identification of green water zones using annual plants as ecological indicators and the development of habitat suitability models for native desert flora and vulnerable species like the Asian Houbara Bustard. In addition to his academic contributions, he is an active member of multi-disciplinary research teams at the Kuwait Institute for Scientific Research (KISR), playing a key role in nationally funded projects and the formulation of regional environmental policies. Dr. Asadalla continues to pursue applied ecological research by integrating remote sensing tools with conservation science to address environmental challenges associated with climate change, species displacement, and urban expansion across the Arabian Peninsula.

Profiles: Scopus | Orcid

Featured Publications  

Asadalla, N. B. A., Abdullah, M., Gharabi, Y., Mohan, M., Al Naabi, S., Al Ali, Z., Al Hashash, N., Srinivasan, S., Al Awadhi, T., & Abulibdeh, A. (2024). Predictive modeling of green water availability: The role of annual plants as an ecological indicator in dryland ecosystems. Journal of Arid Environments, 223, 105179.

Asadalla, N. B. A., & Marafi, M. (2023). Overlooked Colotis phisadia (Godart, 1819) (Lepidoptera: Pieridae) – A new record for the butterfly fauna of Kuwait with remarks on host plant. Entomologist’s Monthly Magazine, 159(1), 66–72.

Asadalla, N. B. A., Abdullah, M. M., Gharabi, Y., Mohan, M., Al Naabi, S., Srinivasan, S., & Al Awadhi, T. (2022). The use of annual plants as ecological indicators to identify locations with high levels of green water in arid ecosystems using remote sensing and MaxEnt modeling. SSRN Electronic Journal.

Asadalla, N. B. A., Abdullah, M. M., Al-Ali, Z. M., & Abdullah, M. T. (2021). Vegetation restoration targeting approach to identify the optimum environmental conditions for the restoration of native desert plants using remote sensing and MaxEnt modeling. Restoration Ecology, 29(6), e13425.

Al-Ali, Z., Abdullah, M., Asadalla, N. B. A., & Gholoum, M. (2020). A comparative study of remote sensing classification methods for monitoring and assessing desert vegetation using a UAV-based multispectral sensor. Environmental Monitoring and Assessment, 192, Article 370.

Abdullah, M. M., Assi, A. T., & Asadalla, N. B. A. (2019). Integrated ecosystem sustainability approach: Toward a holistic system of thinking of managing arid ecosystems. Open Journal of Ecology, 9(11), 493–508.

Asadalla, N. B. A., Abido, M. S., Abahussain, A., & Shobrak, M. (2015). Assembly of optimum habitats for Asian Houbara Bustard (Chlamydotis macqueenii) in the Arabian Peninsula: The vegetation aspects. International Journal of Biodiversity, 2015, Article 925093.

Richard Beach | Ecology | Best Researcher Award | 13648

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Prof. Richard Beach | Ecology | Best Researcher Award 

University of Minnesota | United States

Professor Richard W. Beach is an internationally respected scholar and Professor Emeritus of English Education at the College of Education and Human Development, University of Minnesota. With a distinguished academic career spanning over five decades, Dr. Beach has been a pioneering voice in the fields of literacy education, literature pedagogy, digital media in education, and adolescent identity in English classrooms. He holds a B.A. in English from Wesleyan University, an M.A. in Education from Trinity College, and a Ph.D. in Education from the University of Illinois at Urbana-Champaign. Professor Beach is the author, co-author, or editor of 30 major academic books, most published by leading educational publishers such as Routledge, Teachers College Press, and the National Council of Teachers of English (NCTE). His body of work reflects a deep and sustained commitment to rethinking how literature, writing, media, and critical inquiry are taught in secondary and post-secondary classrooms. His books such as Teaching Literature to Adolescents, Teaching Climate Change to Adolescents, and Teaching to Exceed the English Language Arts Standards have become foundational texts in English teacher education and are widely used in teacher training programs internationally. His work has garnered broad academic recognition, with an estimated 4,000+ citations and an h-index of 30+, reflecting both the influence and reach of his scholarship across educational research domains. He has collaborated with prominent scholars and co-edited multidisciplinary volumes like Multidisciplinary Perspectives on Literacy Research, and continues to shape the discourse around literacy instruction, digital literacies, and critical pedagogy in the ELA classroom. Dr. Beach’s research is characterized by its responsiveness to changing cultural, technological, and ecological landscapes. He has advocated for student-centered approaches to learning that honor learners’ identities, social worlds, and real-world concerns. His recent work on teaching climate change and fostering critical digital literacies demonstrates a progressive and action-oriented vision for education.

Profiles:  Scopus | Google Scholar

Featured Publications

Beach, R. (1993). A teacher’s introduction to reader-response theories. Urbana, IL: National Council of Teachers of English.

Taylor, B. M., & Beach, R. W. (1984). The effects of text structure instruction on middle-grade students’ comprehension and production of expository text. Reading Research Quarterly, 19(2), 134–146.

Purves, A. C., & Beach, R. (1972). Literature and the reader: Research in response to literature, reading interests, and the teaching of literature. Urbana, IL: National Council of Teachers of English.

Newell, G. E., Beach, R., Smith, J., & VanDerHeide, J. (2011). Teaching and learning argumentative reading and writing: A review of research. Reading Research Quarterly, 46(3), 273–304.

Appleman, D., Beach, R., Simon, R., & Fecho, B. (2016). Teaching literature to adolescents (3rd ed.). New York, NY: Routledge.

Galda, L., & Beach, R. (2001). Response to literature as a cultural activity. Reading Research Quarterly, 36(1), 64–73.

Beach, R. (1976). Self-evaluation strategies of extensive revisers and nonrevisers. College Composition and Communication, 27(2), 160–164.

 

Ying Zhang | Environmental Science | Best Researcher Award

Published on by Research Awards

Assoc. Prof. Dr. Ying Zhang | Environmental Science | Best Researcher Award 

Assoc. Prof. Dr. Ying Zhang, Aerospace Information Research Institute, Chinese Academy of Sciences, China

Assoc. Prof. Dr. Ying Zhang is a renowned expert in atmospheric environment remote sensing at the Aerospace Information Research Institute, Chinese Academy of Sciences, China. She has published over 90 scientific papers and holds multiple patents in the field. Her pioneering work in particulate matter remote sensing and atmospheric composition inversion has been adopted by key institutions, including the China Meteorological Administration. Dr. Zhang has led numerous national and international research projects, received prestigious awards such as the Aerosol Young Scientist Award and China Patent Award, and collaborates globally with top research institutes in advancing environmental and atmospheric monitoring technologies.

Profile

Orcid

🎓 Early Academic Pursuits

Dr. Ying Zhang’s journey into the world of science began with a deep interest in environmental and atmospheric phenomena. Her academic foundation was solidified at the prestigious Institute of Remote Sensing and Digital Earth, Chinese Academy of Sciences (CAS), where she earned her Ph.D. in Remote Sensing. Her doctoral research focused on atmospheric environment remote sensing, laying the groundwork for a career dedicated to environmental monitoring through satellite data and advanced algorithms. Her early academic work reflected a blend of precision, curiosity, and a strong commitment to addressing environmental challenges through scientific innovation.

👩‍💼 Professional Endeavors

Currently serving as an Associate Professor at the Aerospace Information Research Institute, CAS, Dr. Zhang plays a vital role in advancing China’s capabilities in satellite-based environmental monitoring. Her professional journey includes participation in eight major national and international research projects, where she has worked extensively on atmospheric environmental remote sensing, air quality monitoring, and climate change analysis. In addition to her academic roles, she has provided critical consultancy as the Principal Investigator (PI) for three industry-linked projects in the meteorology and environmental protection sectors, bridging the gap between scientific research and practical application.

🔬 Contributions and Research Focus

Dr. Zhang is a pioneer in the field of remote sensing for atmospheric monitoring. Her research introduced the Multi-parameter Particulate Matter Remote Sensing (PMRS) approach, a breakthrough in differentiating anthropogenic and natural sources of air pollution using satellite data. This methodology has since been operationalized by the China Meteorological Administration for real-time haze monitoring via the FY-4 satellite. Furthermore, she developed a remote sensing inversion method for determining the chemical composition of atmospheric particulates—now utilized by over ten institutions through the SONET (Sun-Sky Radiometer Observation Network).

Her academic contributions include the authorship of over 90 scientific papers, 70 of which are indexed in the Web of Science Core Collection, earning her over 1,654 citations. She has also co-authored two monographs, one in English and another in Chinese, showcasing her ability to communicate complex scientific ideas to both domestic and international audiences.

🏆 Accolades and Recognition

Dr. Zhang’s exceptional contributions have earned her numerous prestigious awards that underscore her scientific impact. These include:

  • 🥇 Aerosol Young Scientist Award

  • 🧪 Beijing Natural Science Award

  • 🌱 Environmental Protection Science and Technology Award

  • 💡 China Patent Award for Excellence

These accolades not only highlight her technical excellence but also recognize her contributions to environmental sustainability and public health through improved monitoring systems and methodologies.

🌍 Impact and Influence

Dr. Zhang’s research has had a significant real-world impact. By advancing remote sensing techniques, her work has strengthened China’s environmental monitoring infrastructure, particularly in tracking air pollution and climate change. Her PMRS method is a cornerstone in national haze monitoring operations, while her composition inversion techniques have empowered research institutions and meteorological agencies to better understand and respond to pollution events.

In addition to her scientific output, she has actively shaped the research community through editorial roles, including guest editor positions at Remote Sensing and Atmosphere, and as an editorial board member of China Environmental Monitoring. Her collaborative efforts span across leading international institutions such as the Royal Netherlands Meteorological Institute, Japan Agency for Marine-Earth Science and Technology, University of Lille, and the University of Wisconsin-Madison—promoting global dialogue and cooperation in environmental science.

🧬 Legacy and Future Contributions

Dr. Zhang’s legacy is one of bridging theory and application, with her innovations in remote sensing poised to continue benefiting both scientific communities and policy-making bodies. Her leadership and contributions serve as an inspiration for young scientists, particularly women in STEM, and her methodologies are likely to influence future developments in artificial intelligence-driven remote sensing, big data atmospheric modeling, and international climate change monitoring frameworks.

Looking ahead, Dr. Zhang is expected to further explore multi-source data integration, enhancing the precision and scope of environmental monitoring systems. With 10 invention patents already published and 4 more under process, her work continues to shape the evolving landscape of atmospheric sciences and remote sensing technology.

Publication Top Notes

Inversion of the global carbonaceous aerosol components (CACs) based on ground-based remote sensing of AERONET

ContributorsZhuolin Yang; Ying Zhang; Yisong Xie; Hua Xu; Chaoyu Yan; Tong Hu; Zhengqiang Li
Journal: Environment International
Year: 2025

Aerosol Optical Depth Retrieval Over Land from Particulate Observing Scanning Polarimeter (POSP) Using a New Look-Up Table (LUT) Method

Contributors: Zhe Ji; Zhengqiang Li; Ying Zhang; Yan Ma; Zheng Shi; Xiaoxi Yan; Yisong Xie; Yang Zheng; Zhenting Chen
Journal: Aerosol Science and Engineering
Year: 2024