José Fernandes Bezerra-Neto | Limnology | Distinguished Academic Leadership Award

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Assoc. Prof. Dr. José Fernandes Bezerra-Neto | Limnology | Distinguished Academic Leadership Award

Assoc. Prof. Dr. José Fernandes Bezerra-Neto | Limnology – Associate Professor at Federal University of minas Gerais, Brazil

José Fernandes Bezerra Neto is a distinguished academic in the field of environmental sciences, specializing in biogeochemistry, ecology, and aquatic ecosystems. His work primarily focuses on the dynamics of dissolved organic matter (DOM), biogeochemical cycles, and greenhouse gas emissions (CO2 and CH4) from tropical aquatic environments. As an Associate Professor at the Federal University of Minas Gerais (UFMG), he has significantly contributed to the understanding of ecosystem metabolism, water balance, and organic matter degradation in tropical lakes. His scholarly contributions have not only advanced scientific knowledge but have also influenced environmental policies and management strategies. With a remarkable career spanning several research areas, including limnology and ecological modeling, he continues to lead groundbreaking studies that impact both local and global environmental sustainability.

Profile:

Orcid | Scopus

Education:


José Fernandes Bezerra Neto’s educational journey began with a Bachelor’s degree in Biological Sciences from the Federal University of Minas Gerais (UFMG) in 1999, where he developed a keen interest in ecological research. He further advanced his academic expertise with multiple postdoctoral fellowships. His first postdoctoral experience at UFMG focused on limnology and ecosystem ecology, and he later pursued additional postdoctoral work at the University of Alberta, Canada, under the support of the National Council for Scientific and Technological Development (CNPq), Brazil. His academic training has provided him with a comprehensive understanding of ecological systems, making him a prominent figure in his field. Throughout his education, he built a robust foundation for his current research on tropical aquatic systems and environmental sustainability.

Experience:

José Fernandes Bezerra Neto’s academic and professional experiences have been marked by both leadership and impactful research. He has been serving as a professor at UFMG since 2015, where he holds a position in the Department of Biological Sciences. Throughout his career, he has had the opportunity to mentor a diverse group of students and researchers, guiding them through complex ecological and environmental challenges. His extensive research experiences, including his involvement in tropical ecosystem modeling and his contributions to the understanding of dissolved organic matter in aquatic systems, have earned him recognition in academic circles. Bezerra Neto’s leadership has extended to securing funding from notable Brazilian research agencies such as CNPq, CAPES, and FAPEMIG, allowing him to advance his projects and collaborate with both national and international scientists. This combination of teaching, research, and leadership positions him as a leader in environmental sciences.

Research Interests:


Bezerra Neto’s research interests center on the biogeochemistry of carbon, focusing on the degradation processes of dissolved organic matter (DOM) in tropical aquatic environments. His work explores the effects of environmental factors on the emission and oxidation of greenhouse gases such as CO2 and CH4. He is also interested in understanding ecosystem metabolism, water balance, and the dynamics of organic matter in lakes. His studies are pivotal for understanding tropical ecosystems’ role in global biogeochemical cycles, especially regarding the impact of human activity and climate change on water quality and greenhouse gas emissions. Additionally, his expertise in the optics of water and the thermal structure of aquatic systems contributes to a more nuanced understanding of environmental processes in freshwater bodies.

Awards:


José Fernandes Bezerra Neto’s scholarly contributions have earned him various recognitions in the scientific community. He has been awarded several prestigious research grants from Brazilian agencies such as CNPq and CAPES, allowing him to carry out significant studies on tropical aquatic systems. Although he has not yet received the “Distinguished Academic Leadership Award,” his body of work demonstrates the level of dedication and innovation that is deserving of such an honor. His leadership and contributions to advancing the understanding of tropical ecosystems, both in terms of scientific knowledge and in the application of environmental policies, make him an exemplary candidate for such recognition. His continued focus on interdisciplinary research further solidifies his standing as a respected leader in his field.

Publications:


Bezerra Neto’s research has led to a significant number of influential publications. Here are seven of his most notable works:

  1. “Forest-lake ecotones in a tropical forest: Terrestrial invertebrate inputs to lakes decrease with forest distance” (2022) – Freshwater Biology 🧑‍🔬📚
    Cited by: 1
  2. “Modelling the abundance of a non-native mollusk in tropical semi-arid reservoirs” (2022) – Hydrobiologia 🐚📖
    Cited by: 3
  3. “Rainfall and drainage basin shape strongly control temporal and spatial variation of dissolved organic matter in a tropical lake” (2022) – Limnology 🌧️💧
    Cited by: 7
  4. “Characteristics of hydroclimatic conditions in the Rio Doce State Park (MG)” (2022) – Biota 🌳🌊
    Cited by: 2
  5. “Dams pose a critical threat to rivers in Brazil’s Cerrado hotspot” (2022) – Water 🌍⚠️
    Cited by: 1
  6. “Water quality evaluation and dissolved organic matter characterization of a tropical hypereutrophic reservoir” (2021) – Environmental Science and Pollution Research 💧📊
    Cited by: 8
  7. “Is it stochastic? Chaoborus larvae bioturbation likely affect the timing of daily methane (CH4) ebullitive flux in a tropical reservoir” (2020) – Hydrobiologia 🌾💨
    Cited by: 6

Conclusion:


José Fernandes Bezerra Neto’s academic journey is a testament to his leadership in environmental science and his impactful contributions to the understanding of tropical aquatic ecosystems. His research not only advances scientific knowledge but also holds immense practical value for the conservation of aquatic environments and the management of greenhouse gases in the context of global climate change. His extensive publication record, mentorship, and leadership in the academic community highlight his deserving candidacy for the “Distinguished Academic Leadership Award.” Bezerra Neto’s dedication to both research and education underscores his ongoing influence in environmental sciences, making him a highly respected figure within his field.

Wenyan Liang | Wastewater treatment | Best Researcher Award

Posted on by Academic achievements

Ms. Wenyan Liang | Wastewater treatment | Best Researcher Award

Associate Professor at Beijing Forestry University, China.

Dr. Wenyan Liang is an Associate Professor at the College of Environmental Science & Engineering, Beijing Forestry University, China. With over two decades of experience in environmental science, her research focuses on electrochemistry in environmental pollution control, treatment of fluoride and other pollutants in drinking water, algae and algal metabolites pollution control, and physical and chemical treatment processes. Dr. Liang received her Ph.D. from Beijing Forestry University, where she conducted research at the Research Center for Eco-Environmental Science, Chinese Academy of Sciences. She has also studied algae biodiesel at the State University of New York, advised by Dr. Gregory L. Boyer. Dr. Liang has published over 60 papers and authored five professional books.

Profile Verification

Scopus 

Education

Dr. Wenyan Liang earned her Ph.D. in Environmental Science from Beijing Forestry University (2002-2005). Her doctoral research, completed at the Research Center for Eco-Environmental Science, Chinese Academy of Sciences, focused on the inactivation of Microcystis aeruginosa and the degradation of microcystins using electrooxidation and electromagnetic fields. This research marked a significant step in her career, laying the foundation for her expertise in water pollution control and treatment technologies. Following her Ph.D., she pursued a Master’s degree in Environmental Engineering at Beijing Polytechnic University (1997-2000), where she honed her skills in environmental monitoring and engineering practices. Dr. Liang’s undergraduate studies in Environmental Monitoring (1987-1992) at the same institution equipped her with a solid grounding in environmental science fundamentals. These academic achievements have provided her with a comprehensive understanding of environmental science and engineering, making her a well-rounded expert in her field.

Experience

Dr. Wenyan Liang has accumulated extensive experience in both academia and environmental management:

2000–Present, College of Natural Resource & Environment, Beijing Forestry University: At Beijing Forestry University, Dr. Liang has been an Associate Professor, teaching and conducting research in environmental science and engineering. Her work focuses on electrochemistry, water treatment technologies, and pollution control. She mentors graduate and undergraduate students and contributes to the development of curricula in environmental science.

1994–1997, Environmental Protection Bureau of Jiangxi Province: During her tenure at the Environmental Protection Bureau of Jiangxi Province, Dr. Liang worked on implementing environmental regulations and monitoring pollution sources. Her role involved assessing environmental impacts, enforcing compliance, and coordinating with local industries to mitigate pollution.

1992–1994, Environmental Monitoring Center of Jiangxi Province: As part of the Environmental Monitoring Center of Jiangxi Province, Dr. Liang was responsible for environmental monitoring and data analysis. She conducted fieldwork to assess pollution levels, collected samples, and analyzed data to inform policy decisions. This experience laid the foundation for her career in environmental science and provided valuable insights into the challenges and methodologies of environmental monitoring.

Research Interests

Dr. Wenyan Liang’s research interests revolve around environmental pollution control using electrochemical techniques and treatment of water pollutants. Her primary focus includes the inactivation of harmful algae such as Microcystis aeruginosa and the degradation of toxic microcystins through electrooxidation methods. This work is aimed at improving the quality of drinking water and reducing the environmental impact of algae blooms. Additionally, Dr. Liang investigates the treatment of fluoride and other pollutants in drinking water, aiming to develop effective, sustainable, and cost-efficient removal technologies. She also explores the role of algae and algal metabolites in environmental pollution, particularly in relation to their biofuel potential and impact on water quality. Her research encompasses physical and chemical treatment processes, contributing to a broader understanding of water treatment technologies and their application in real-world scenarios. Through her work, Dr. Liang aims to advance the field of environmental science by developing innovative solutions to tackle pollution challenges.

Awards and Honors

Dr. Wenyan Liang has been widely recognized for her outstanding contributions to environmental science and engineering. She has received several prestigious awards and honors that reflect her dedication and achievements in the field. In 2011-2013, she was awarded a National Natural Science Foundation Grant, which supported her research on electrochemistry in environmental pollution control. This was followed by a National High Technology Research and Development Program (863 Program) grant (2009-2012), acknowledging her efforts in developing advanced technologies for water pollution control. In 2015-2018, Dr. Liang was honored with the National Water Pollution Control and Management Technology Major Projects grant, which provided funding for her work on algae biofuel technology, aiming to reduce environmental impacts and promote sustainability. Her research contributions have also been supported by the Fundamental Research Funds for the Central Universities (2016-2019) and the Environment Public Welfare Scientific Research Project (2017-2020) from the Ministry of Environmental Protection, recognizing her role in advancing algae metabolites pollution control and environmental protection strategies. These awards highlight Dr. Liang’s leadership and innovative approach in addressing critical environmental challenges.

Publications

Efficient degradation and Ni recovery from Ni-EDTA wastewater by Ni/GAC electrodes

Authors: Yang, T., Lu, H., Qin, Y., …, Han, X., Liang, W.

Citations: 0

Year: 2024

Catalytic applications of amorphous alloys in wastewater treatment: A review on mechanisms, recent trends, challenges, and future directions

Authors: Liu, Y., Lu, H., Yang, T., …, Han, X., Liang, W.

Citations: 1

Year: 2024

Photosynthetic microalgae microbial fuel cells for bioelectricity generation and microalgae lipid recovery using Gd-Co@N-CSs/NF as cathode

Authors: Qin, L., Qin, Y., Cui, N., …, Yang, T., Liang, W.

Citations: 1

Year: 2024

Synthesis of chitosan-based grafting magnetic flocculants for flocculation of kaolin suspensions

Authors: Liu, C., Wang, X., Du, S., Liang, W.

Citations: 13

Year: 2024

Chitosan-Based Grafted Cationic Magnetic Material to Remove Emulsified Oil from Wastewater: Performance and Mechanism

Authors: Du, S., Liu, C., Cheng, P., Liang, W.

Citations: 0

Year: 2024

Electrocatalytic degradation of nitrogenous heterocycles on confined particle electrodes derived from ZIF-67

Authors: Liu, Y., Qin, L., Qin, Y., …, Zhang, Q., Liang, W.

Citations: 6

Year: 2024

Electrocatalysis degradation of biochemical tail water from coking wastewater using particle electrode with persulphate

Authors: Lu, H., You, X., Yang, T., …, Han, X., Liang, W.

Citations: 0

Year: 2024

Fabrication and mechanism of La/Al bimetallic organic frameworks for phosphate removal

Authors: Zhu, Z., Qin, L., Liu, Y., …, Cheng, P., Liang, W.

Citations: 15

Year: 2024

Magnetic coagulation and flocculation of kaolin suspension using Fe3O4 with plant polyphenol self-assembled flocculants

Authors: Liu, C., Wang, X., Du, S., Cheng, P., Liang, W.

Citations: 6

Year: 2023

Binary regulation of photoelectron-heterojunction Sg-CN/BMO using sulfur-doping and oxygen vacancy construction for boosting chloroquine degradation

Authors: Qin, Y., Qin, L., Zhu, Z., …, Zhang, Q., Liang, W.

Citations: 7

Year: 2023

 

Conclusion

Dr. Wenyan Liang is a strong candidate for the Best Researcher Award due to her significant contributions to environmental science, particularly in water pollution control and algae biofuels. Her extensive publication record and leadership in funded research projects position her as a distinguished researcher with the potential to make further impactful contributions in the field. Continued interdisciplinary collaboration and strategic expansion of funding opportunities could further enhance her research impact.

Ahmet Kurunc | Irrigation and water Quality | Best Researcher Award

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Prof. Ahmet Kurunc | Irrigation and water Quality | Best Researcher Award

Prof. Ahmet Kurunc | Irrigation and water Quality – Professor Doctor at Akdeniz University, Turkey

Professor Ahmet Kurunç is a distinguished researcher and academic leader in the field of agricultural science, specializing in irrigation and soil quality management. With a career spanning over three decades, he has made notable contributions to the fields of irrigation water quality, water stress, salt-affected soils, and sustainable wastewater use in agriculture. His expertise has garnered international recognition, reflecting his dedication to addressing critical challenges in agriculture through advanced research and innovative solutions. Serving as a Professor in the Department of Agricultural Structures and Irrigation at Akdeniz University, Prof. Kurunç has held various leadership roles, including Dean of the Faculty of Agriculture and Chair of the department, demonstrating his commitment to advancing agricultural education and research. His research initiatives have contributed to sustainable agricultural practices, enhancing crop productivity in challenging environments. His work is widely published, with his findings having a meaningful impact on both academia and practical agricultural applications globally.

Profile Verification

Google Scholar

Education

Professor Kurunç’s academic journey began with a Bachelor’s degree in Agricultural Structures and Irrigation from Ankara University, followed by a Master’s degree in the same discipline, where he focused on innovative solutions to irrigation challenges. He further pursued a Ph.D. in Agronomy at New Mexico State University, where his doctoral research explored water stress management, irrigation practices, and the long-term impacts of salinity on agricultural productivity. This rigorous academic background laid a strong foundation for his research career, equipping him with the knowledge and technical skills essential to tackle pressing issues in irrigation science and agricultural water management. His international education and exposure to diverse agricultural environments have allowed him to incorporate global perspectives into his work, making his research relevant in both local and international contexts.

Experience

Professor Kurunç has a wealth of academic and professional experience, having held various teaching and research roles at Akdeniz University. His career progression from a Teaching Assistant to a full Professorship demonstrates his dedication to academia and research excellence. As a former Dean of the Faculty of Agriculture, he led initiatives to strengthen the faculty’s research output and improve student engagement in agricultural studies. His tenure as Chair of the Department of Agricultural Structures and Irrigation focused on enhancing curriculum standards and fostering a research-driven environment. He also served as an Advisor to the Rector, where he played a vital role in institutional development. Throughout his career, Prof. Kurunç has collaborated with international scholars and institutions, advancing his research on water management, soil conservation, and sustainable agriculture. His extensive experience has shaped him into a seasoned researcher with an impressive academic footprint.

Research Interest

Professor Kurunç’s research interests encompass critical areas in sustainable agriculture, including irrigation and water stress management, irrigation water quality, salt stress, soil conservation, and wastewater use in agriculture. He has devoted significant efforts to studying the effects of salinity on crop productivity, exploring how saline conditions influence water use efficiency, crop growth, and evapotranspiration. His research also investigates agricultural pollution, focusing on the sustainable use of wastewater in crop production, which has implications for water conservation and soil health. By identifying effective soil management practices, Prof. Kurunç aims to mitigate the adverse effects of salt stress on soils, thus supporting sustainable agricultural practices in arid and semi-arid regions. His work in agricultural water quality management and salt-affected soils contributes to developing resilient agricultural systems, making him a pivotal figure in his field.

Awards

Throughout his career, Professor Kurunç has received numerous accolades for his contributions to agricultural science. His awards highlight his dedication to pioneering research and his impact on sustainable agricultural practices. His achievements underscore his commitment to advancing knowledge in irrigation management and soil conservation, making him a respected figure in both academia and agricultural communities.

Publications

“Effects of salinity on eggplant (Solanum melongena L.) growth and evapotranspiration” (2010, Irrigation and Drainage), cited 210 times.
“Performance of two stochastic approaches for forecasting water quality and streamflow data from Yeşilırmak River, Turkey” (2005, Environmental Modelling & Software), cited 151 times.
“Salinity and drought affect yield response of bell pepper similarly” (2011, Acta Agriculturae Scandinavica), cited 96 times.
“Identification of nitrate leaching hot spots in a large area with contrasting soil texture and management” (2011, Agricultural Water Management), cited 77 times.
“Growth and Evapotranspiration of Okra (Abelmoschus Esculentus L.) as Influenced by Salinity of Irrigation Water” (2008, Journal of Irrigation and Drainage Engineering), cited 77 times.
“Testing the residuals of an ARIMA model on the Cekerek Stream Watershed in Turkey” (2005, Turkish Journal of Engineering & Environmental Sciences), cited 80 times.
“Effects of long-term salt stress on antioxidant system, chlorophyll and proline contents in pea leaves” (2012, Romanian Biotechnological Letters), cited 74 times.

Conclusion

Professor Ahmet Kurunç’s extensive research, leadership experience, and commitment to sustainable agricultural practices position him as an outstanding candidate for the Best Researcher Award. His academic contributions have advanced the fields of irrigation management, salt stress mitigation, and sustainable water usage in agriculture, directly addressing global challenges in food security and environmental sustainability. Prof. Kurunç’s dedication to education and mentorship further highlights his role in shaping the future of agricultural science. His groundbreaking research and commitment to excellence make him a highly deserving nominee for this recognition.