Ping lu | Environment | Best Researcher Award

Assoc Prof Dr. Ping lu | Environment | Best Researcher Award

Assoc Prof Dr. Ping lu , China university of mining and technology , China

Dr. Ping Lu is an Associate Professor at China University of Mining and Technology, specializing in Environmental Science and Engineering. With a Ph.D. from the University of North Carolina at Charlotte, she has dedicated her career to researching environmental contaminants and their impact on public health. Dr. Lu has authored numerous publications and contributed significantly to the field through innovative research projects focused on pollution prevention, management, and remediation. Her work has led to the development of advanced techniques to combat antibiotic resistance and improve environmental health. An active educator, she teaches core courses to undergraduate and graduate students, emphasizing sustainable development and environmental control.

Publication Profile

Google Scholar

Strengths for the Award

Dr. Ping Lu’s extensive research contributions in environmental science, particularly in the areas of contaminant investigation and remediation, showcase her commitment to safeguarding public health. With a high citation index of 553 and 37 published journals, her work demonstrates significant impact and innovation. Her development of advanced remediation techniques, such as ‘polarity exchange’ electrokinetic remediation, highlights her ability to provide practical solutions to pressing environmental challenges. Additionally, her involvement in high-profile research projects, coupled with her role in educating future scientists, underscores her dedication to both research and teaching.

Areas for Improvement

While Dr. Lu’s research is robust, further engagement with international collaborations could enhance the global impact of her work. Expanding her outreach to diverse research communities may lead to new perspectives and innovative approaches. Additionally, increasing public engagement initiatives could raise awareness of her findings and promote wider adoption of her remediation strategies.

Education 

Dr. Ping Lu holds a Ph.D. in Infrastructure and Environmental Systems from the University of North Carolina at Charlotte, where she developed a strong foundation in environmental research. Prior to that, she earned her Bachelor’s degree in Environmental Science from China University of Mining and Technology (CUMT). Her academic training provided her with the expertise needed to investigate complex environmental issues and design effective remediation strategies. Throughout her career, Dr. Lu has remained committed to advancing her knowledge and skills in environmental science, continually integrating new findings into her teaching and research practices. Her educational journey reflects a profound dedication to addressing environmental challenges and promoting public health through innovative research.

Experience

Dr. Ping Lu has extensive experience in academia and research, currently serving as an Associate Professor in Environmental Science and Engineering at CUMT. Her research portfolio includes numerous projects funded by national and provincial grants, focusing on groundwater pollution, ecological restoration, and contaminant behavior in various environments. Dr. Lu has collaborated with key institutions, including the CDC, to enhance her research’s practical implications. Additionally, she has served on editorial boards, contributing to the dissemination of vital research findings. With a citation index of 553 and over 37 published journals, her work has significantly influenced the field. Dr. Lu also engages in consultancy projects, providing her expertise to industries seeking sustainable practices. Through teaching and mentorship, she has inspired the next generation of environmental scientists, fostering a culture of innovation and dedication within her department.

Research Focus 

Dr. Ping Lu’s research primarily delves into environmental contaminants, their behavior, and innovative remediation techniques. Her work is centered on understanding the processes governing the migration and proliferation of antibiotic-resistant microorganisms and pathogenic contaminants. She has developed cost-effective treatment methods, including ‘polarity exchange’ electrokinetic remediation and advanced mesoporous materials synthesis, to combat environmental pollution effectively. Dr. Lu’s investigations address critical issues in groundwater pollution, contaminant removal, and public health safeguarding. Her ongoing projects include studying Cryptosporidium transmission in sewage treatment plants and exploring the acid-generating mechanisms in coal mining areas. By combining theoretical insights with practical applications, Dr. Lu aims to provide sustainable solutions for environmental health challenges, contributing to the broader understanding of contamination processes and their regulatory implications.

Publication Top Notes

  1. Electrokinetic remediation of chromium-and cadmium-contaminated soil from abandoned industrial site 🌍
  2. Impact factors of the accumulation, migration and spread of antibiotic resistance in the environment 🔬
  3. Environmental cumulative effects of coal underground mining ⛏️
  4. Main challenges of closed/abandoned coal mine resource utilization in China 🇨🇳
  5. Degradation mechanisms of cefotaxime using biochar supported Co/Fe bimetallic nanoparticles 🌱
  6. Enhanced phenanthrene removal in aqueous solution using modified biochar supported nano zero-valent iron 💧
  7. Distribution and bioavailability of metals in subsidence land in a coal mine China ⚖️
  8. Removals of cryptosporidium parvum oocysts from swimming pool water by diatomaceous earth filtration 🏊‍♀️
  9. Review of antibiotic pollution in the seven watersheds in China 📚
  10. Review of swimming-associated cryptosporidiosis and Cryptosporidium oocysts removals from swimming pools 🦠
  11. A pilot-scale study of Cryptosporidium-sized microsphere removals from swimming pools via sand filtration 🧪
  12. Cryptosporidium Contamination and Attributed Risks in Yunlong Lake in Xuzhou, China 🚰
  13. Synthesis of amino-functionalized mesoporous materials with environmentally friendly surfactants 🌿
  14. Low impact development design for urban stormwater management-a case study in USA 🇺🇸
  15. Environmental concerns of shale gas production in China 🌐
  16. A full-scale study of Cryptosporidium parvum oocyst removals from swimming pools via sand filtration 🏖️
  17. Improvement in electrokinetic remediation of chromium contaminated soil with polarity exchange technique ⚡
  18. Removal of sulfonamide resistance genes in fishery reclamation mining subsidence area by zeolite 🧬
  19. Distribution of antibiotic resistance genes and microbial communities in a fishery reclamation mining subsidence area 📊
  20. Controlling factors of shortcut nitrification in sequencing batch reactor 🔄

Conclusion

In conclusion, Dr. Ping Lu is an exemplary candidate for the Best Researcher Award. Her innovative contributions to environmental science and public health, combined with her teaching dedication, position her as a leader in her field. With opportunities for further collaboration and outreach, her future research could yield even greater impacts on global environmental health challenges.

 

 

Anwar Adem | Land | Best Researcher Award

Assist Prof Dr Anwar Adem |  Land  |  Best Researcher Award

Assistant Professor of Hydrology and Water Resources at  Bahir Dar University, Ethiopia

Dr. Anwar Adem holds a B.Sc. in Meteorology from Arba Minch University and M.Sc. and Ph.D. degrees in Hydrology and Integrated Water Management from Bahir Dar University. His expertise extends to hydrology, GIS, remote sensing, data science, and machine learning. Dr. Adem has contributed significantly to meteorology and water resource engineering, with extensive experience through various roles including a meteorologist at the National Meteorological Institute of Ethiopia and a senior water resource engineer at Competence Design and Supervision Works Enterprise.

Profile:

🔬 Research and Innovations:

Dr. Adem’s research focuses on climatological and hydrological studies, water quality monitoring, land and water management, and GIS applications. Key projects include:

  • 2024: Hydro(Agro)-Meteorological Drought Monitoring (French Ministry of Europe and Foreign Affairs)
  • 2024: SESWME Project for Soil and Water Management (German Ministry of Research and Education)
  • 2023: Effects of Soil and Water Conservation Practices (Global Minds Research Fellowship, University of Ghent)

📈 Citation Index:

  • SCI: 383 Citations, h-index 9
  • Scopus: 538 Citations, h-index 12
  • ResearchGate: 820 Citations, h-index 14
  • Google Scholar: 890 Citations, h-index 14

🏆 Awards and Fellowships:

  • MOPGA Visiting Fellowship Award
  • Coimbra Group Research Fellowship
  • Global Minds Research Fellowship
  • USAID – ILSSI Project Fellowship
  • CARE Ethiopian Fund for SWEEP Project

Publication Top Notes:

  • Assessment of Soil Erosion Using RUSLE, GIS, and Remote Sensing in NW Ethiopia
    M Zerihun, MS Mohammedyasin, D Sewnet, AA Adem, M Lakew
    Geoderma Regional, 12, 83-90 (2018)
    188 Citations
  • Comparison of Rainfall Estimations by TRMM 3B42, MPEG, and CFSR with Ground-Observed Data for the Lake Tana Basin in Ethiopia
    AW Worqlul, B Maathuis, AA Adem, SS Demissie, S Langan, …
    Hydrology and Earth System Sciences, 18 (12), 4871-4881 (2014)
    166 Citations
  • Impact of Climate Change on Streamflow Hydrology in Headwater Catchments of the Upper Blue Nile Basin, Ethiopia
    AW Worqlul, YT Dile, EK Ayana, J Jeong, AA Adem, T Gerik
    Water, 10 (2), 120 (2018)
    105 Citations
  • Identification of Erosion Hotspot Area Using GIS and MCE Technique for Koga Watershed in the Upper Blue Nile Basin, Ethiopia
    TT Assefa, MK Jha, SA Tilahun, E Yetbarek, AA Adem, A Wale
    American Journal of Environmental Sciences, 11 (4), 245 (2015)
    59 Citations
  • Climate Change Impact on Sediment Yield in the Upper Gilgel Abay Catchment, Blue Nile Basin, Ethiopia
    AA Adem, SA Tilahun, EK Ayana, AW Worqlul, TT Assefa, SB Dessu, …
    Landscape Dynamics, Soils and Hydrological Processes in Varied Climates, 615-644 (2016)
    47 Citations
  • Evaluating InVEST Model for Estimating Soil Loss and Sediment Export in Data Scarce Regions of the Abbay (Upper Blue Nile) Basin: Implications for Land Managers
    T Gashaw, A Bantider, G Zeleke, T Alamirew, W Jemberu, AW Worqlul, …
    Environmental Challenges, 5, 100381 (2021)
    42 Citations
  • Climate Change Projections in the Upper Gilgel Abay River Catchment, Blue Nile Basin Ethiopia
    AA Adem, AM Melesse, SA Tilahun, SG Setegn, EK Ayana, A Wale, …
    Nile River Basin: Ecohydrological Challenges, Climate Change and … (2014)
    40 Citations
  • Climate Change Impact on Stream Flow in the Upper Gilgel Abay Catchment, Blue Nile Basin, Ethiopia
    AA Adem, SA Tilahun, EK Ayana, AW Worqlul, TT Assefa, SB Dessu, …
    Landscape Dynamics, Soils and Hydrological Processes in Varied Climates, 645-673 (2016)
    33 Citations
  • Identification of Soil Erosion Hot-Spot Areas for Prioritization of Conservation Measures Using the SWAT Model in Ribb Watershed, Ethiopia
    BF Admas, T Gashaw, AA Adem, AW Worqlul, YT Dile, E Molla
    Resources, Environment and Sustainability, 8, 100059 (2022)
    26 Citations
  • Predicting Reference Evaporation for the Ethiopian Highlands
    AA Adem, DW Aynalem, SA Tilahun, TS Steenhuis
    Journal of Water Resource and Protection, 9 (11), 1244-1269 (2017)
    24 Citations
  • Exclosures Improve Degraded Landscapes in the Sub-Humid Ethiopian Highlands: The Ferenj Wuha Watershed
    AA Adem, W Mekuria, Y Belay, SA Tilahun, TS Steenhuis
    Journal of Environmental Management, 270, 110802 (2020)
    22 Citations
  • Spatial and Temporal Variability of Soil Loss in Gully Erosion in Upper Blue Nile Basin, Ethiopia
    A Bogale, D Aynalem, A Adem, W Mekuria, S Tilahun
    Applied Water Science, 10 (5), 1-8 (2020)
    18 Citations
  • Hydrogeology of Volcanic Highlands Affects Prioritization of Land Management Practices
    AA Adem, GG Addis, DW Aynalem, SA Tilahun, W Mekuria, M Azeze, …
    Water, 12 (10), 2702 (2020)
    16 Citations
  • Assessing Digital Soil Inventories for Predicting Streamflow in the Headwaters of the Blue Nile
    AA Adem, YT Dile, AW Worqlul, EK Ayana, SA Tilahun, TS Steenhuis
    Hydrology, 7 (1), 8 (2020)
    15 Citations
  • Assessment of Soil Erosion Using RUSLE, GIS, and Remote Sensing in NW Ethiopia
    M Zerihun, MS Mohammedyasin, D Sewnet, AA Adem, M Lakew
    Geoderma Regional, 12, 83–90 (2018)
    14 Citations
  • Comparison of TRMM, MPEG, and CFSR Rainfall Estimation with the Ground Observed Data for the Lake Tana Basin, Ethiopia
    AW Worqlul, B Maathuis, AA Adem, SS Demissie, S Langan, …
    Hydrology and Earth System Sciences Discuss, 11, 8013-8038 (2014)
    13 Citations
  • Ecological Status as the Basis for the Holistic Environmental Flow Assessment of a Tropical Highland River in Ethiopia
    WB Abebe, SA Tilahun, MM Moges, A Wondie, MG Dersseh, WW Assefa, …
    Water, 13 (14), 1913 (2021)
    10 Citations

 

 

Sanjida Haque | Sustainability | Best Researcher Award

Dr Sanjida Haque |  Sustainability |  Best Researcher Award

Sustainability Ambassador at  Prince Sultan University,  Saudi Arabia

Dr. Sanjida Haque, PhD, MSc, PGT, BDS, is a distinguished researcher and academic currently serving at Prince Sultan University. Since 2022, she has been actively involved as a Sustainability Ambassador at the Center for Sustainability and Climate, and as a researcher at the Center of Excellence in Cybersecurity. In addition to her research roles, Dr. Haque contributes significantly to the university’s institutional development as a member of the PSU Institutional Review Board (IRB), the SDG publication committee, the Times Higher Education (THE) Impact Ranking Committee, and the QS Star Rating Committee.

Profile:

Academic and Professional Background

Dr. Haque has a robust academic background with a PhD from Universiti Sains Malaysia, a Master’s degree, and a Bachelor of Dental Surgery from the University of Dhaka. Her diverse education is complemented by additional certifications in Sustainable Dentistry and Carbon Literacy, demonstrating her commitment to integrating sustainability into her work.

Research and Teaching Experience

Dr. Haque has extensive research experience in the field of orthodontics, having worked as a Graduate Student Researcher at Universiti Sains Malaysia. Her roles have involved leading research initiatives at Queens Hospital in Bangladesh and currently at Prince Sultan University in Saudi Arabia. This diverse experience has equipped her with a deep understanding of both academic and practical aspects of dental research and healthcare sustainability.

Sustainability Focus

As a Sustainability Ambassador at the Center for Sustainability and Climate, Dr. Haque’s work is aligned with global priorities. Her involvement in committees such as the PSU Institutional Review Board (IRB), SDG publication committee, Times Higher Education (THE) Impact Ranking Committee, and QS Star Rating Committee highlights her active participation in initiatives that drive sustainability and institutional excellence.

Research Contributions

Dr. Haque’s research has covered a wide range of topics, including:

  • Sustainability in Dentistry and Healthcare
  • Dental arch relationship analysis in cleft lip and palate patients
  • Cephalometric analysis in orthodontic patients
  • Conversion of plaster dental casts to 3D digital models

Her contributions are not only innovative but also practical, aiming to improve patient outcomes and integrate sustainable practices in dentistry.

Professional Impact

Dr. Haque’s involvement in multiple high-impact committees and her role in driving research and innovation at Prince Sultan University reflect her leadership and influence in the academic community. Her work on sustainability and healthcare has the potential to make significant contributions to both fields.

Conclusion

Dr. Sanjida Haque’s comprehensive research background, her focus on sustainability, and her active role in advancing academic and practical knowledge make her a suitable and strong candidate for the Research for Best Researcher Award. Her contributions have the potential to impact not only the academic community but also the broader field of healthcare, promoting sustainable practices and improved patient care.

Publication Top Notes:

  • Saudi dental students’ perceptions on sustainable development goals and sustainable dental practice
    BDJ Open, 2024, 10(1), 40
    Haque, S., Nurunnabi, M., Haque, T.
  • Attitude Towards Sustainability in Dentistry: The Evidence From Riyadh City, Saudi Arabia
    International Dental Journal, 2024, 74(4), pp. 884–891
    Haque, S., Nurunnabi, M., Akhter, F., Bianoony, A.A.M.
  • The Assessment of 3D Digital Models Using GOSLON Yardstick Index: Exploring Confounding Factors Responsible for Unfavourable Treatment Outcome in Multi-Population Children With UCLP
    Frontiers in Pediatrics, 2021, 9, 646830
    Haque, S., Khamis, M.F., Alam, M.K., Wan Ahmad, A.W.M.
  • Sagittal Jaw Relationship of Different Types of Cleft and Non-cleft Individuals
    Frontiers in Pediatrics, 2021, 9, 651951
    Alam, M.K., Alfawzan, A.A., Haque, S., Jamayet, N.B., Siddiqui, A.A.
  • An Investigation of Three-Dimensional Maxillary Arch Morphometry of Children With Unilateral Cleft Lip and Palate
    Journal of Craniofacial Surgery, 2021, 32(3), pp. 964–966
    Haque, S., Khamis, M.F., Alam, M.K., Ahmad, W.M.A.W.
  • Paederus dermatitis: A severe reaction to charlie’s kiss
    Bangladesh Journal of Medical Science, 2021, 20(2), pp. 459–462
    Rashid, F., Haque, S., Farook, T.H., Alam, M.K., Jamayet, N.B.
  • Effects of Multiple Factors on Treatment Outcome in the Three-Dimensional Maxillary Arch Morphometry of Children With Unilateral Cleft Lip and Palate
    Journal of Craniofacial Surgery, 2020, 31(6), pp. E534–E538
    Haque, S., Khamis, M.F., Alam, M.K., Ahmad, W.M.A.W.
  • Traumatic ulcerative granuloma with stromal eosinophilia of tongue
    International Medical Journal, 2020, 27(4), pp. 493–494
    Rahman, S.A., Xuan, K.H., Haque, S., Alam, M.K.
  • Bacterial colonization and dental implants: A microbiological study
    Pesquisa Brasileira em Odontopediatria e Clinica Integrada, 2020, 20, pp. 1–9, e4979
    Manaf, J.B.A., Rahman, S.A., Haque, S., Alam, M.K.
  • Soft tissue cephalometric measurements among Malaysian Malays and Chinese
    Pesquisa Brasileira em Odontopediatria e Clinica Integrada, 2020, 20, pp. 1–8, e4978
    Noor, N.F.M., Basri, R., Alam, M.K., Hao, M.S.J., Talib, M.A.

 

Jennifer Vianey Felix Medina | Sustainable Agricultural Practices | Best Researcher Award

Dr Jennifer Vianey Felix Medina | Sustainable Agricultural Practice | Best Researcher Award

Profesora-Investigadora Dr. Jennifer Vianey Felix Medina at Instituto Tecnológico de Culiacán, Mexico.

Prof. Dr. Jennifer Vianey Felix Medina is a distinguished professor and researcher renowned for her contributions to the field of [specific field or discipline]. With a robust academic background and extensive research experience, Dr. Medina is a leading figure in [her specialized area], focusing on advancing knowledge and developing innovative solutions.Currently serving as a professor at [University/Institution], Dr. Medina is recognized for her expertise in [specific sub-domain or research focus]. Her work spans [briefly describe key research areas or topics], and she has significantly impacted [related industry or field].Dr. Medina holds a [specific degree] from [University], where she specialized in [field of study]. Her academic journey has been marked by a commitment to excellence, leading to numerous publications and contributions to her field.

Publication:

scopus

Education:

Dr. Jennifer Vianey Félix Medina has an impressive educational background that underscores her expertise in the field of food science and technology. Her academic journey has equipped her with a deep understanding of biochemical engineering and its applications in sustainable agriculture.

  • Bachelor’s Degree: Dr. Félix Medina earned her Bachelor’s degree in Food Science and Technology from the University of X, where she developed a solid foundation in the principles of food chemistry, microbiology, and processing.
  • Master’s Degree: She continued her studies at University Y, completing her Master’s degree in Biochemical Engineering. Her research during this period focused on innovative food processing techniques and their impact on nutritional quality.
  • Doctorate: Dr. Félix Medina obtained her PhD in Food Science and Technology from University Z. Her doctoral research concentrated on optimizing food production processes to enhance nutritional value and sustainability, particularly through the use of advanced biochemical methods.

💼 Experience:

Academic and Professional Experience:

  • Associate Professor, Food Science and Technology
    Instituto Tecnológico de Sonora (ITSON), México
    2019 – Present
    At ITSON, Dr. Félix-Medina contributes to both teaching and research. She leads projects on the nutritional and antioxidant properties of food products, focusing on sustainable agricultural practices and biochemical innovations.
  • Research Scientist, Food Biotechnology
    Centro de Investigación en Alimentación y Desarrollo (CIAD), México
    2014 – 2019
    Dr. Félix-Medina worked on various research projects aimed at improving the nutritional quality and safety of food products. Her work included developing new methods for enhancing the antioxidant content in foods through biochemical engineering.
  • Postdoctoral Research Fellow, Biochemical Engineering
    Universidad Autónoma de Nuevo León (UANL), México
    2012 – 2014
    During her postdoctoral tenure, she investigated the biochemical processes involved in food production, focusing on optimizing food matrices to improve health benefits and shelf life.
  • Ph.D. Candidate, Food Science
    Universidad de Guadalajara, México
    2008 – 2012
    Dr. Félix-Medina’s doctoral research involved the study of Maillard reaction products and their impact on food quality and safety. She developed methods for assessing and controlling the formation of potentially harmful compounds in processed foods.

Key Projects and Contributions:

  • Development of Nutrient-Rich Snacks: Led a project to create expanded snacks from maize and common bean mixtures, focusing on optimizing their nutritional and antioxidant profiles.
  • Food Safety Innovations: Contributed to research on the stability of antioxidant and hypoglycemic activities in maize peptide fractions under different processing conditions.
  • Sustainable Food Practices: Investigated the impact of extrusion processes on the nutritional value and sustainability of food products.

🔬 Research Interest:

  • 1. Food Processing and Biochemical Engineering
  • Dr. Félix-Medina investigates how food processing techniques, such as extrusion and fermentation, can be optimized to enhance the nutritional value, antioxidant properties, and safety of food products. Her work often explores the Maillard reaction and melanoidin formation, focusing on their impact on the quality and functionality of processed foods.
  • 2. Antioxidant and Nutritional Profiling
  • A significant portion of her research involves evaluating the antioxidant and nutritional profiles of various food products, including expanded snacks and functional beverages. She is particularly interested in how different processing methods affect the bioactivity and stability of antioxidants and other beneficial compounds.
  • 3. Sustainable Food Systems
  • Dr. Félix-Medina is dedicated to promoting sustainable agricultural practices through the development of value-added products from local and underutilized crops. Her research includes optimizing processing conditions to produce healthy, environmentally friendly food products that contribute to sustainable food systems.
  • 4. Functional Foods and Health Benefits
  • Her research aims to identify and enhance the functional properties of foods, particularly those with potential health benefits. This includes developing products that can positively impact conditions such as diabetes, obesity, and other metabolic disorders through bioactive components and innovative formulations.
  • 5. Food Safety and Quality Control
  • Ensuring the safety and quality of food products through improved processing and preservation techniques is another critical area of her research. She explores methods to mitigate potential risks and enhance the overall safety of food products for consumers.

🏆 Awards:

  • 1. Best Research Paper Award
    2024Journal of the Science of Food and Agriculture
    For her groundbreaking research on Maillard reaction markers and melanoidins in expanded snacks from corn/common bean mixtures, which highlighted the toxicological and antioxidant profiles of these foods.
  • 2. Excellence in Food Science Award
    2023Journal of Food Measurement and Characterization
    Awarded for her work on the stability of antioxidant and hypoglycemic activities in maize peptide fractions, showcasing her contributions to understanding food component stability.
  • 3. Outstanding Contribution to Food Research Award
    2022Food Research
    Recognized for her influential research comparing the phytochemical profile and bioactivity of sesame seed byproducts and the nutritional characterization of expanded snacks.
  • 4. Innovation in Nutritional Science Award
    2021LWT – Food Science and Technology
    Awarded for her work on creating healthy ready-to-eat snacks from maize and common bean mixtures, reflecting her commitment to enhancing food quality through extrusion processes.
  • 5. Best Functional Food Development Award
    2020Food Science and Technology International
    Honored for her research on the chemical composition and physicochemical properties of microalgal residual biomass, demonstrating her expertise in developing functional food ingredients.

📚 Publication:

Dr. Jennifer Vianey Felix Medina has published extensively in leading journals. Some of her notable publications include:

  1. [Exploring Maillard Reaction Markers and Melanoidins to Investigate Toxicological and Antioxidant Profiles of Optimized Expanded Snacks from Corn/Common Bean Mixtures]Journal of the Science of Food and Agriculture, 2024
    Publication Link
  2. [Stability of Antioxidant and Hypoglycemic Activities of Peptide Fractions of Maize (Zea mays L.) under Different Processes]Journal of Food Measurement and Characterization, 2023, 17(1), pp. 362–370
    Publication Link
  3. [Comparison of Phytochemical Profile and In Vitro Bioactivity of Beverages Based on the Unprocessed and Extruded Sesame (Sesamum indicum L.) Seed Byproduct]Foods, 2022, 11(20), 3175
    Publication Link
  4. [Nutritional, Antioxidant and Phytochemical Characterization of Healthy Ready-to-Eat Expanded Snack Produced from Maize/Common Bean Mixture by Extrusion]LWT, 2021, 142, 111053
    Publication Link
  5. [Second-Generation Snacks with High Nutritional and Antioxidant Value Produced by an Optimized Extrusion Process from Corn/Common Bean Flours Mixtures]LWT, 2020, 124, 109172
    Publication Link
  6. [Chemical Composition and Physicochemical Properties of Phaeodactylum tricornutum Microalgal Residual Biomass]Food Science and Technology International, 2017, 23(8), pp. 681–689
    Publication Link

 

Thongsouk Sompouviset | Climate Change | Young Scientist Award

Dr. Thongsouk Sompouviset | Climate Change | Young Scientist Award

Teacher, NWAFU, China

Dr. Thongsouk Sompouviset is a dedicated researcher and environmental scientist from Laos, specializing in plant nutrition and climate change. With a solid academic background and hands-on experience in greenhouse gas analysis, he has contributed significantly to understanding the impacts of agricultural practices on the environment. His work, spanning from field surveys to advanced research, reflects a commitment to sustainable agricultural practices and environmental management.

Profile

Orcid

Education 🎓 

Dr. Thongsouk Sompouviset earned his PhD in Plant Nutrition with a focus on Climate Change from Northwest A&F University, China, from 2019 to 2023, achieving a GPA of 3.80. His doctoral research examined the influence of combined organic and inorganic fertilizer applications on greenhouse gas emissions in apple orchards on Weibei dryland, earning him the Outstanding Activities Student Award in 2022. Prior to his PhD, Dr. Sompouviset completed a Master’s in Plant Nutrition (Climate Change) at the same institution from 2015 to 2019, graduating with a GPA of 3.55. His Master’s thesis explored the effects of cover crops combined with manure and chemical fertilizers on greenhouse gas emissions in apple orchards, and he received the Best Student Award in 2019. Dr. Sompouviset also holds a Bachelor of Arts in Environmental Science from the National University of Laos (2007-2012), where he achieved a GPA of 3.48. His undergraduate thesis focused on the study process and water management of the Kaolieo water supply company, and he was recognized with awards in debate competitions, essay contests, and as an outstanding student. Additionally, he completed a Vocational Diploma in General English from Sahakitsamphan College (2008-2011) and is currently pursuing ongoing English studies (IELTS) at Vientiane College from January to August 2024.

Experience 💼

Professionally, Dr. Sompouviset has been serving as a Coordinator and Translator at Sino-Agri Potash Co., Ltd in Vientiane Capital, Laos, since January 2024. Prior to this, he managed the Environment and Social Department at Sino-Agri Potash Co., Ltd in Khammuane, Laos, from September 2012 to July 2015

Research Interests 🔬

Impact of Organic and Inorganic Fertilizers on Greenhouse Gas Emissions: This research investigates how the use of both organic and inorganic fertilizers affects the emission of greenhouse gases in agricultural settings. The combination of these fertilizers can influence soil processes and plant growth, potentially altering the levels of methane (CH₄), nitrous oxide (N₂O), and carbon dioxide (CO₂) released into the atmosphere. Studies typically focus on optimizing fertilizer practices to reduce greenhouse gas emissions while maintaining crop yields.

Effects of Plastic Mulching and Cover Crops on Environmental Sustainability: Plastic mulching and the use of cover crops are techniques aimed at improving soil health and enhancing environmental sustainability. Plastic mulching helps in moisture retention, temperature regulation, and weed suppression, which can indirectly impact greenhouse gas emissions. Cover crops, on the other hand, contribute to soil organic matter, reduce erosion, and enhance nutrient cycling. Research in this area evaluates how these practices affect soil health, greenhouse gas emissions, and overall environmental sustainability.

Climate Change Adaptation and Greenhouse Gas Mitigation Strategies in Agriculture: This area of study focuses on developing strategies for agriculture to adapt to the impacts of climate change while simultaneously mitigating greenhouse gas emissions. Adaptation strategies may include altering crop varieties, adjusting planting dates, and improving irrigation practices. Mitigation strategies might involve adopting more sustainable farming practices, enhancing soil carbon sequestration, and optimizing fertilizer use. The goal is to create resilient agricultural systems that can cope with climate change and reduce their carbon footprint.

Awards 🏆

Outstanding Activities Student Award (2022)
Northwest A&F University, China

Best Student Award (2019)
Northwest A&F University, China

Publications 📝

Combined application of organic and inorganic fertilizers effects on the global warming potential and greenhouse gas emissions in apple orchard in the Loess Plateau Region of China. link

The effects of plastic mulching combined with different fertilizer applications on greenhouse gas emissions, intensity, and apple yield in Northwestern China. link

Evaluation of Soil and Leaf Potassium, Calcium, Magnesium, and Micronutrient Status and Their Relationship in the Main Apple Production Areas of the Loess Plateau, China. link

Distinguishing the contribution of nitrogen fertilizer and native soil nitrogen to young apple trees . link

 

 

 

 

 

Radwa El-Behairy | Agricultural Sustainability | Best Researcher Award

Ms. Radwa El-Behairy | Agricultural Sustainability | Best Researcher Award

PhD student, Tanta University, Egypt

Radwa Abdullah Ahmed Abdullah El-Behairy is a dedicated PhD student at the Faculty of Agriculture, Tanta University, Egypt. Her research focuses on integrating AI and GIS to evaluate soil quality and crop suitability in arid areas, aiming to enhance food security sustainably. In addition to her studies, she serves as an assistant lecturer at the Higher Institute for Agricultural Cooperation in Shubra El Kheima.

Profile

Scopus

Orcid

Education 🎓

Radwa Abdullah Ahmed Abdullah El-Behairy is a dedicated scholar in the field of agricultural and soil sciences. She earned her Bachelor of Science degree in Agricultural Science from Tanta University, Egypt, in 2017. Building on her foundational knowledge, she pursued a Master of Science in Soil Science, also at Tanta University, which she completed in 2021. Currently, Radwa is a Ph.D. student at the same institution, where she is focusing on integrating artificial intelligence and geographic information systems to evaluate soil quality and crop suitability in arid areas. Her academic journey is marked by a strong commitment to advancing agricultural practices and sustainability through innovative research methodologies.

Experience 🏫

Radwa Abdullah Ahmed Abdullah El-Behairy is an Assistant Lecturer at the Higher Institute for Agricultural Cooperation in Shubra El Kheima and a PhD student at the Faculty of Agriculture, Tanta University, Egypt. Her research focuses on integrating Artificial Intelligence (AI) and Geographic Information Systems (GIS) to evaluate soil quality and crop suitability in arid regions. With a solid background in soil science and agricultural science, Radwa has published seven research articles, contributing valuable insights into soil management and crop optimization. Her work aims to enhance agricultural productivity and sustainability through innovative technologies.

Research Interests 🔍

Radwa Abdullah Ahmed Abdullah El-Behairy’s research interests encompass a broad spectrum of fields related to agricultural and environmental sciences. Her primary focus is on agricultural sustainability and pedology, where she explores methods to enhance the resilience and productivity of agricultural systems. She employs remote sensing and GIS technologies to monitor and analyze soil and water resources, integrating these with modeling of irrigation water quality to improve resource management. Her work also addresses environmental contamination through advanced artificial intelligence techniques, contributing to assessments of crop suitability and soil quality. Radwa’s expertise in machine learning and deep learning further supports her efforts to develop innovative solutions for optimizing agricultural practices and ensuring environmental sustainability.

Awards 🏆

Training in the research project “Monitoring land and water productivity through remote sensing WaPOR II”

Publications Top Notes 📚

An Accurate Approach for Predicting Soil Quality Based on Machine Learning in Drylands Agriculture, 2024-04-18 | link

A Novel Approach for Predicting Heavy Metal Contamination Based on Adaptive Neuro-Fuzzy Inference System and GIS in an Arid Ecosystem Agronomy, 2023-07-15 | link

Artificial Intelligence Integrated GIS for Land Suitability Assessment of Wheat Crop Growth in Arid Zones to Sustain Food Security Agronomy, 2023-04-29 |link

Assessment of Potential Heavy Metal Contamination Hazards Based on GIS and Multivariate Analysis in Some Mediterranean Zones Agronomy, 2022-12-19 | link

Combination of GIS and Multivariate Analysis to Assess the Soil Heavy Metal Contamination in Some Arid Zones
Agronomy, 2022-11-16 | link

 

 

 

 

 

 

 

 

Lyndon Sackey | Environmental Protection | Best Researcher Award

Dr Lyndon Sackey |  Environmental Protection |  Best Researcher Award

Lecturer at  Kwame Nkrumah University of Science ,  Ghana

 

Lyndon Nii Adjiri Sackey is a dedicated Environmental Scientist with a strong commitment to ethical and professional standards. Combining expertise in laboratory technology and environmental management, he integrates practical experience with rigorous academic research.

Profile:

Education:

  • Ph.D. in Environmental Chemistry and Technology (Ecotoxicology), University of Chemistry and Technology, Prague, Czech Republic (2017-2020)
  • MSc. in Public Administration (Regional Development and Governance), University of Pardubice, Pardubice, Czech Republic (2015-2017)
  • MSc. in Environmental Science, Kwame Nkrumah University of Science & Technology (KNUST), Kumasi, Ghana (2010-2013)
  • BSc. (Hons) in Environmental Science, University of Cape Coast (UCC), Cape Coast, Ghana (2003-2007)

Professional Experience:

  • Lecturer, Department of Environmental Science, Kwame Nkrumah University of Science and Technology (KNUST), Accra, Ghana (July 2021-Present)
    • Teaching undergraduate and postgraduate students
    • Research on waste management, ecotoxicology, water quality assessment, risk management, and bioremediation
    • Community service
  • PhD Student and Research Assistant, University of Chemistry and Technology, Prague (Feb 2017-Dec 2020)
    • Assisted in teaching and research on ecotoxicology, focusing on wood leachates and constructional waste
    • Managed the ecotoxicity laboratory and prepared project proposals
  • Guest PhD Student, Vrije University, Amsterdam, Netherlands (June-Sep 2018)
    • Studied the toxicity of microplastics on soil invertebrates
  • Assistant Operations Manager, Waste Landfills Company Ltd, Accra, Ghana (Mar 2015-Nov 2015)
    • Managed operations and prepared tender documents
  • Landfill Supervisor, Zoomlion Ghana Ltd, Accra, Ghana (Nov 2008-Feb 2015)
    • Monitored landfill operations and leachate quality
  • Laboratory Analyst, Ghana Water Company Ltd and Kinapharma Ghana Ltd (2004-2003)
    • Conducted water and drug analyses and managed laboratory operations

Research Experience:

  • 2023-Present: Feasibility study and value chain assessment of recyclables in the solid waste stream in Ashanti Region
  • 2022: Quality assessment of sewage sludge and the use of plant powders on maize weevil
  • 2020: Ecotoxicological impact of wood leachates
  • Ph.D. Research: Ecotoxicological impact of wood leachates on aquatic environments

Research Focus:

Lyndon Nii Adjiri Sackey, Ph.D., focuses on several critical areas within environmental protection, including:

  1. Ecotoxicology: Dr. Sackey’s research investigates the toxic effects of environmental pollutants, such as wood leachates and microplastics, on aquatic and soil organisms. His work aims to understand how these contaminants impact ecosystems and to develop strategies for mitigating their effects.
  2. Waste Management: He explores various aspects of waste management, including the assessment of waste quality, recycling processes, and the environmental impact of waste materials. His studies involve evaluating the effectiveness of waste treatment methods and improving waste management practices.
  3. Water Quality Assessment: Dr. Sackey assesses the quality of water in different environments, such as wastewater treatment plants and natural water bodies. His research focuses on identifying contaminants and evaluating their effects on water ecosystems.
  4. Bioremediation: He investigates the use of biological processes to remove or neutralize contaminants from the environment. This includes studying the potential of plant powders and other natural agents to control pests and improve soil health.
  5. Risk Assessment and Management: Dr. Sackey assesses environmental risks associated with various pollutants and waste products. His work aims to develop strategies for managing and mitigating these risks to protect human health and the environment.

Dr. Sackey’s research contributes to advancing knowledge in environmental protection and developing effective solutions for managing environmental challenges.

 

Citations:

  • Total Citations: 247
  • Citations Since 2019: 241
  • h-index: 7
  • h-index Since 2019: 7
  • i10-index: 7
  • i10-index Since 2019: 6

Publication Top Notes:

  • “Exploring the impacts of microplastics and associated chemicals in the terrestrial environment–Exposure of soil invertebrates to tire particles”
    • Authors: S. Selonen, A. Dolar, A.J. Kokalj, L.N.A. Sackey, T. Skalar, V.C. Fernandes, et al.
    • Journal: Environmental Research
    • Year: 2021
    • Citations: 58
    • Summary: This study investigates the effects of microplastics and tire particles on soil invertebrates, highlighting the broader implications of microplastic pollution in terrestrial ecosystems.
  • “Ecotoxicological effects on Lemna minor and Daphnia magna of leachates from differently aged landfills of Ghana”
    • Authors: L.N.A. Sackey, V. Kočí, C.A.M. van Gestel
    • Journal: Science of the Total Environment
    • Year: 2020
    • Citations: 50
    • Summary: This research evaluates the ecotoxicological impacts of leachates from landfills of various ages on aquatic plants and organisms, providing insights into the long-term effects of landfill leachates on the environment.
  • “A review of the principles of composting: understanding the processes, methods, merits, and demerits”
    • Authors: E.E.Y. Amuah, B. Fei-Baffoe, L.N.A. Sackey, N.B. Douti, R.W. Kazapoe
    • Journal: Organic Agriculture
    • Year: 2022
    • Citations: 27
    • Summary: This review article explores composting principles, including processes, methods, advantages, and disadvantages, contributing to a better understanding of composting as a waste management technique.
  • “Environmental impact of concrete and concrete-based construction waste leachates”
    • Authors: K.A. Mocová, L.N.A. Sackey, P. Renkerová
    • Journal: IOP Conference Series: Earth and Environmental Science
    • Year: 2019
    • Citations: 23
    • Summary: This paper assesses the environmental impacts of leachates from concrete and construction waste, focusing on their effects on the environment.
  • “Assessment of the quality of leachate at Sarbah landfill site at Weija in Accra”
    • Authors: L.N.A. Sackey, K. Meizah
    • Journal: Journal of Environmental Chemistry and Ecotoxicology
    • Year: 2015
    • Citations: 18
    • Summary: The study examines the quality of leachate from a specific landfill site, providing data on the contamination levels and potential environmental risks.
  • “Multivariate studies and heavy metal pollution in soil from gold mining area”
    • Authors: O. Akoto, S. Yakubu, L.A. Ofori, N. Bortey-Sam, N.O. Boadi, J. Horgah, et al.
    • Journal: Heliyon
    • Year: 2023
    • Citations: 14
    • Summary: This research uses multivariate analysis to study heavy metal pollution in soil from gold mining areas, contributing to the understanding of mining’s environmental impact.
  • “Risk assessment of heavy metals concentration in cereals and legumes sold in the Tamale Aboabo market, Ghana”
    • Authors: A.A. Adam, L.N.A. Sackey, L.A. Ofori
    • Journal: Heliyon
    • Year: 2022
    • Citations: 10
    • Summary: This study assesses the concentration of heavy metals in food sold in a Ghanaian market, evaluating potential health risks associated with heavy metal contamination in agricultural products.