Xinjian Fan | Environmental Science | Best Researcher Award

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Mr. Xinjian Fan | Environmental Science | Best Researcher Award

Associate Professor from Lanzhou University of Technology, China

Dr. Fan Xinjian is an esteemed associate professor and master’s supervisor specializing in water conservancy and hydropower engineering. He currently serves as the Director of the Department of Water Conservancy and Hydropower Engineering at Lanzhou University of Technology. A graduate with a Ph.D. in Engineering from the Nanjing Hydraulic Research Institute, Dr. Fan has significantly contributed to the academic and professional landscape of hydraulic engineering in China. With a research portfolio spanning over 50 national, provincial, and enterprise-level projects, his work has brought forth practical solutions to some of the field’s most complex problems, including high arch dam flood discharge and energy dissipation mechanisms. As a dedicated educator, he integrates scientific research with hands-on learning experiences for students, having led numerous teaching and innovation projects. His contribution is well-recognized through various awards and honors in both research and teaching. Dr. Fan’s expertise in ecological hydraulics, computational hydraulics, and sediment dynamics makes him a leading authority in his field. His profile is a model of how academic leadership, research excellence, and practical application can come together to support national infrastructure and environmental goals, making him a strong candidate for the Best Researcher Award.

Professional Profile

Education

Dr. Fan Xinjian holds a Doctorate in Engineering from the prestigious Nanjing Hydraulic Research Institute. His advanced education laid a strong foundation in the theoretical and applied aspects of water resources and hydraulic engineering. At the doctoral level, he received specialized training in computational and ecological hydraulics, river basin management, sediment transport dynamics, and energy dissipation mechanisms. His academic training was reinforced with hands-on research experience, equipping him to tackle real-world engineering problems with a research-driven approach. Dr. Fan’s formal education combined rigorous academic coursework with practical application, which played a key role in developing his expertise in high-head hydropower systems, open channel flow analysis, and hydraulic structure optimization. The interdisciplinary exposure during his Ph.D. has enabled him to effectively bridge theory and practice, particularly in hydrological modeling, flow dynamics, and flood risk mitigation. His educational background continues to inform his ongoing research, teaching, and innovation work, as he trains the next generation of hydraulic engineers. His ability to translate complex hydraulic theories into practical designs and policies is a direct reflection of the quality of education he received and the dedication he has shown throughout his academic journey.

Professional Experience

Dr. Fan Xinjian brings over two decades of academic and research experience in hydraulic and water resources engineering. He serves as the Director of the Department of Water Conservancy and Hydropower Engineering at Lanzhou University of Technology. He also leads the provincial experimental teaching demonstration center and coordinates the Hongliu First-Class Major in Water Conservancy and Hydropower Engineering. His professional journey includes leadership of more than 50 national and provincial-level projects, including the National Natural Science Foundation, National Science and Technology Support Plan, and international cooperative research initiatives. Dr. Fan is a member of key professional bodies such as the Chinese Hydraulic Society, the Gansu Hydraulic Society, and the Chinese Hydropower Engineering Society. In his academic capacity, he has developed and delivered core undergraduate and graduate-level courses, including “Introduction to Water Conservancy Engineering” and “Hydraulic Structures.” He has also supervised numerous graduation theses, practical internships, and student design projects. His leadership in project management, educational innovation, and engineering applications exemplifies a strong blend of research, teaching, and community engagement. Dr. Fan’s professional experience highlights his comprehensive understanding of the hydraulic engineering landscape, making him a well-respected figure in both academic and engineering circles.

Research Interest

Dr. Fan Xinjian’s primary research interests lie in the fields of computational hydraulics, ecological hydraulics, hydraulic structures, and river basin sediment dynamics. His research is driven by the need to address real-world water conservancy challenges, especially in mountainous terrains and regions with high-head dams. One of his key interests is the study and optimization of flood discharge and energy dissipation systems for large-scale hydropower structures. He has made significant contributions to this area through research on the Jinping I high arch dam and Longkoukou dam systems. His work extends to understanding the interactions between water and vegetation in open channels, particularly under the influence of submerged flexible vegetation. This research sheds light on resistance, flow patterns, and sediment transport—critical elements for ecological conservation and hydraulic modeling. He is also keenly interested in developing digital simulation systems that integrate ecological and engineering hydraulics for better river management. These interests align closely with the pressing global issues of sustainable water infrastructure, flood management, and river ecosystem restoration. Dr. Fan’s multi-disciplinary approach enables him to contribute novel insights and engineering solutions that combine hydrodynamics, environmental science, and computational modeling.

Research Skills

Dr. Fan Xinjian possesses a broad range of research skills that enable him to approach hydraulic engineering problems from both theoretical and applied perspectives. He is highly proficient in computational modeling and simulation, which he uses to analyze complex water flow and energy dissipation systems. His skills include the development of numerical models to assess flood discharge, turbulence, and sediment transport in both natural and engineered waterways. He is adept at laboratory-based experimental research, having led physical modeling studies on high-velocity flow and bottom plate energy dissipation devices. In addition, Dr. Fan is skilled in data analysis, using modern hydraulic measurement tools and statistical software to interpret flow dynamics and optimize hydraulic structures. He also has experience in drafting technical reports, scientific papers, and patent documentation. With strong collaborative abilities, he has coordinated interdisciplinary projects involving engineers, ecologists, and government agencies. His grant writing skills have helped secure major national and provincial funding. Dr. Fan’s mentorship abilities further amplify his research capacity, as he actively involves students in experimentation, fieldwork, and competitions. His wide-ranging skill set allows him to produce high-impact research with direct applications in dam safety, environmental conservation, and water resource management.

Awards and Honors

Dr. Fan Xinjian has received multiple prestigious awards in recognition of his outstanding contributions to research and teaching in hydraulic engineering. His research has been honored with three first prizes and one second prize from the Gansu Water Conservancy Science and Technology Progress Awards, reflecting the practical impact and innovation of his work. In the educational domain, he has secured two second prizes in provincial and ministerial teaching achievement awards, in addition to a third prize in the National University Teachers’ Teaching Innovation Competition. His recognition extends to intellectual property as well, with three national invention patents, five utility model patents, and one software copyright, showcasing his inventive and solutions-oriented research approach. Beyond formal awards, Dr. Fan has earned distinctions such as the Teaching Excellence Award, Graduation Design Outstanding Instructor Award, Teaching Quality Excellence Award, and the Three Education Awards. He has also led student teams to win more than 20 national and provincial science and technology innovation competitions, highlighting his excellence in student mentorship. These accolades not only affirm his research excellence but also his holistic contributions to education, innovation, and professional development in hydraulic engineering.

Conclusion

Dr. Fan Xinjian exemplifies the profile of a high-impact researcher and educator whose work bridges theoretical research and real-world application. His expertise in hydraulic and ecological engineering has led to significant advancements in the understanding and management of complex water systems, particularly in flood control and sediment transport. With more than 50 national and provincial research projects under his leadership or participation, he has developed practical engineering solutions that have been applied to iconic structures such as the Jinping I high arch dam. His recognition through numerous awards and patents highlights his influence and innovation. Furthermore, his dedication to student mentorship and educational excellence reflects his commitment to shaping the next generation of engineers. Through his administrative roles and academic leadership, he contributes actively to national capacity-building in hydraulic engineering. His profile presents a rare integration of research, teaching, and leadership, making him a compelling candidate for the Best Researcher Award. Dr. Fan’s continued contributions are expected to further advance the development of sustainable and intelligent water infrastructure in China and beyond.

GUO Yuxi | Biological Sciences | Best Researcher Award

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Dr. GUO Yuxi | Biological Sciences | Best Researcher Award

Shaanxi University of Science and Technology, China

GUO Yuxi is an emerging scholar with a dynamic research profile focused on edible mushrooms, polysaccharides, and gut microbiota. She has demonstrated significant scholarly productivity and impact early in her academic career, with a high H-index of 19 and over 15 peer-reviewed articles in high-impact journals. Her work bridges fundamental biochemistry and applied food science, particularly emphasizing the bioactivity of natural compounds, postharvest preservation, and polysaccharide-based health benefits. Notably, several of her publications are listed as ESI Highly Cited Papers, reflecting the recognition and influence of her research within the scientific community. Despite still pursuing her Ph.D. at Jiangnan University, she has assumed leading roles in various studies, publishing as both first and corresponding author. Her dedication to translational research, combining biological mechanisms with practical food applications, has distinguished her as a young innovator. Her scientific contributions not only advance knowledge but also have the potential for broad application in the nutraceutical and food industries. With a focused trajectory, impactful publications, and early leadership in research, GUO Yuxi stands as a promising candidate for prestigious research awards and recognition in the field of food science, biotechnology, and nutrition.

Professional Profile

Education

GUO Yuxi has built her academic foundation through a progressive and focused educational journey within China. She earned her Bachelor of Science degree in 2018 from Shandong University of Technology, where she likely gained her initial training in food science, chemistry, or biological sciences. This foundational experience was followed by a Master of Science degree from Shaanxi University of Science and Technology in collaboration with the Institute of Microbiology at the Guangdong Academy of Sciences, completed in 2022. This interdisciplinary academic setup allowed her to integrate microbiological insights with applied food and health science research. Currently, she is pursuing her Ph.D. at Jiangnan University, one of the top institutions in China for food science and technology. Her doctoral work continues to explore the bioactivity of edible mushrooms and polysaccharides, focusing on their digestion, fermentation, and biological effects. Her continuous academic progression through reputable universities demonstrates both consistency and depth in her educational background. It also highlights her growing specialization in food bioactives and gut-organ interactions. The combination of strong academic institutions and relevant disciplines has equipped her with both theoretical and experimental skills essential for leading independent research in the field of functional foods and nutraceuticals.

Professional Experience

Though still a Ph.D. candidate, GUO Yuxi has demonstrated a professional level of research competence, undertaking responsibilities typically reserved for more senior researchers. Throughout her postgraduate and doctoral studies, she has been engaged in extensive experimental and publication-driven work. As a Master’s student at Shaanxi University of Science and Technology, she conducted collaborative research with the Guangdong Academy of Sciences, where she gained practical experience in microbiology and advanced food biochemistry. During this time, she began to publish high-quality research, signaling early scientific maturity. Her current Ph.D. work at Jiangnan University involves complex investigations into the structural and functional properties of edible mushroom polysaccharides, in vitro digestion models, and bioactivity assays. Notably, she has acted as both first and corresponding author for numerous peer-reviewed journal articles, demonstrating leadership in project design, data analysis, manuscript preparation, and submission. These activities indicate a level of independence, professionalism, and academic rigor that goes beyond the expectations of a typical doctoral student. Her ability to manage multiple studies and lead research efforts affirms her readiness for more advanced academic or industry-based roles. This trajectory underscores her suitability for awards recognizing young researchers with outstanding early-career achievements.

Research Interests

GUO Yuxi’s research interests center around bioactive compounds derived from edible and medicinal mushrooms, with a special focus on polysaccharide chemistry, biological activity, and digestive behavior. A significant portion of her work involves characterizing the structural properties of mushroom polysaccharides and elucidating their mechanisms in promoting health outcomes such as antidepressant, hypoglycemic, and antiviral effects. She is particularly interested in how these compounds behave in human digestion and how they interact with gut microbiota during in vitro fermentation, aiming to explore their potential in regulating metabolic and inflammatory pathways. Her focus on postharvest preservation strategies for mushrooms also aligns with the sustainable and functional food movement, emphasizing natural preservatives and edible coatings to maintain quality and extend shelf life. Furthermore, she is exploring cutting-edge topics such as the gut-organ axis and using advanced tools like gut-on-chip technology to better understand systemic effects. These multidisciplinary interests sit at the intersection of food science, microbiology, nutrition, and biotechnology, giving her research both scientific depth and societal relevance. Through her work, she aims to contribute to the development of functional foods and therapeutic agents that are rooted in natural products and traditional dietary elements, reimagined through modern scientific approaches.

Research Skills

GUO Yuxi possesses a robust set of research skills that reflect her multidisciplinary expertise in food chemistry, microbiology, and biomedical sciences. Her technical abilities include polysaccharide extraction, purification, and structural characterization using techniques such as FTIR, NMR, and HPLC. She is proficient in designing and executing in vitro digestion and fermentation experiments, enabling her to simulate human gastrointestinal conditions and evaluate bioactivity post-digestion. Her skillset also includes biochemical assays for antioxidant, anti-inflammatory, hypoglycemic, and antidepressant properties, often validated using cell culture models and metabolomic analyses. As a corresponding author, she demonstrates strong scientific writing, data interpretation, and research project management skills. She is experienced in working across multiple teams and disciplines, showcasing excellent collaborative ability. Her work also includes applications of gut-on-chip technology, indicating familiarity with organ-on-chip systems and emerging biotechnological platforms. In addition, her contributions to postharvest food preservation highlight practical knowledge in developing bioactive films and coatings. These skills position her well for both academic and industrial research environments, particularly those focusing on functional foods, nutraceuticals, and natural product pharmacology. Overall, her technical competencies, combined with critical thinking and innovation, enable her to undertake complex research projects with high scientific and translational value.

Awards and Honors

Although specific details of awards or formal honors are not provided, GUO Yuxi’s research has been distinguished by the recognition of multiple publications as ESI Highly Cited Papers, which reflects exceptional citation performance within the top 1% of her field. This distinction underscores the scientific impact and relevance of her work, which is uncommon for researchers at the doctoral stage. Publishing extensively as both first and corresponding author in high-impact journals further indicates recognition from the academic community and peer reviewers. Additionally, her rapid accumulation of publications in Q1 and Q2 journals and an H-index of 19 demonstrate excellence in research productivity. These achievements likely qualify her for institutional or national-level awards for outstanding graduate research, though such accolades are not listed. Nevertheless, her trajectory suggests she is on track to receive formal recognition for her work in the near future. With more exposure to international collaborations and academic conferences, she is well-positioned to compete for early-career researcher awards, young scientist honors, and best paper awards at scholarly events. Her current academic output already surpasses typical benchmarks for graduate researchers, highlighting her eligibility for awards that honor innovation, impact, and scientific leadership at the early stage of a research career.

Conclusion

GUO Yuxi stands out as a highly capable and promising early-career researcher whose contributions have already had a notable impact in the field of food science and bioactive compounds. With a focused research agenda on edible mushroom polysaccharides, gut microbiota interaction, and natural food preservation, she has carved out a niche at the intersection of fundamental science and practical application. Her publication record, including multiple ESI Highly Cited Papers and an H-index of 19, is extraordinary for a Ph.D. candidate and reflects deep commitment, innovation, and scientific excellence. She has shown leadership by taking on first and corresponding author roles, and she has demonstrated a range of advanced experimental and analytical skills. While further international exposure and formal award recognitions could enhance her profile, her current achievements already place her among the most productive and impactful young researchers in her field. Her scientific contributions hold promise for significant advancements in functional foods and natural therapeutics. In conclusion, GUO Yuxi is an excellent candidate for a Best Researcher Award and represents the future of interdisciplinary, health-driven food research with both academic and translational impact.

Publications Top Notes

  • Structural characterization and hypoglycemic activity of Cordyceps sinensis polysaccharide (CSP-3)
    Authors: Pin Gong, Yingying Ke, Xiaojuan Wang, Hui Long, Wenjuan Yang, Jing Wang, Nan Li, Yanni Zhao, Fuxin Chen, Yuxi Guo
    Year: 2024

  • Siraitia grosvenorii As a Homologue of Food and Medicine: A Review of Biological Activity, Mechanisms of Action, Synthetic Biology, and Applications in Future Food
    Authors: Yuxi Guo, Xuefeng Chen, Pin Gong, Hui Long, Jiating Wang, Wenjuan Yang, Wenbo Yao
    Year: 2024

  • Recent advances in quality preservation of postharvest golden needle mushroom (Flammulina velutiper)
    Authors: Yuxi Guo, Xuefeng Chen, Pin Gong, Zhenfang Deng, Zhuoya Qi, Ruotong Wang, Hui Long, Jiating Wang, Wenbo Yao, Wenjuan Yang et al.
    Year: 2023

  • Protective Effect of Astragaloside IV against Cadmium-Induced Damage on Mouse Renal Podocytes (MPC5)
    Authors: Pin Gong, Shan Yue, Fuxiong Shi, Wenjuan Yang, Wenbo Yao, Fuxin Chen, Yuxi Guo
    Year: 2023

  • Structure Characterization, In Vitro Antioxidant and Anti-Tumor Activity of Sulfated Polysaccharide from Siraitia grosvenorii
    Authors: Pin Gong, Mengrao Wang, Yuxi Guo, Hui Long, Zhineng Wang, Dandan Cui, Wenbo Yao, Wenjuan Yang, Fuxin Chen, Jianwu Xie
    Year: 2023

  • Advances in Postharvest Storage and Preservation Strategies for Pleurotus eryngii
    Authors: Yuxi Guo, Xuefeng Chen, Pin Gong, Ruotong Wang, Zhuoya Qi, Zhenfang Deng, Aoyang Han, Hui Long, Jiating Wang, Wenbo Yao et al.
    Year: 2023

  • Emerging Nanoparticles in Food: Sources, Application, and Safety
    Authors: Jian Chen, Yuxi Guo, Xianlong Zhang, Jianghua Liu, Pin Gong, Zhuoqun Su, Lihua Fan, Guoliang Li
    Year: 2023

  • The Gut–Organ-Axis Concept: Advances the Application of Gut-on-Chip Technology
    Authors: Yuxi Guo, Xuefeng Chen, Pin Gong, Guoliang Li, Wenbo Yao, Wenjuan Yang
    Year: 2023

  • Advances in the Role and Mechanisms of Essential Oils and Plant Extracts as Natural Preservatives to Extend the Postharvest Shelf Life of Edible Mushrooms
    Authors: Yuxi Guo, Xuefeng Chen, Pin Gong, Ruotong Wang, Aoyang Han, Zhenfang Deng, Zhuoya Qi, Hui Long, Jiating Wang, Wenbo Yao et al.
    Year: 2023

  • In vitro digestion and fecal fermentation of Siraitia grosvenorii polysaccharide and its impact on human gut microbiota
    Authors: Yuxi Guo, Xuefeng Chen, Pin Gong, Mengrao Wang, Wenbo Yao, Wenjuan Yang, Fuxin Chen
    Year: 2022

 

 

Teresa Maria Morganti | Environmental Science | Best Researcher Award

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Dr. Teresa Maria Morganti | Environmental Science | Best Researcher Award

Postdoc from Marine Science Institute of Barcelona (ICM), Spain

Dr. Teresa Maria Morganti is a distinguished marine ecologist and biochemist whose research delves into the feeding ecology and metabolism of benthic organisms, particularly marine sponges. Her work emphasizes the pivotal role these organisms play in nutrient and carbon cycling within marine ecosystems. Currently, she is a postdoctoral researcher at the Marine Science Institute of Barcelona (ICM-CSIC), where she evaluates Carbon Dioxide Removal (CDR) options from a natural science perspective, focusing on potential side effects on marine ecosystems. Dr. Morganti’s expertise encompasses ecophysiology, thermal biology, environmental stresses, and energy metabolism. Her interdisciplinary approach combines fieldwork, laboratory experiments, and modeling to understand the complex interactions within marine environments. Her contributions have been instrumental in advancing our knowledge of benthic-pelagic coupling and the ecological functions of sponges in carbon sequestration processes.

Professional Profile

Education

Dr. Morganti’s academic journey began with a focus on natural sciences, leading her to specialize in marine science. She pursued her Ph.D. in Marine Science at the Institut de Ciències del Mar (ICM-CSIC) in Barcelona, Spain, from December 2011 to July 2016, where she concentrated on ecophysiology. Her doctoral research provided insights into the metabolic processes of benthic organisms and their role in marine ecosystems. Prior to her Ph.D., she completed her undergraduate studies in natural sciences, laying a strong foundation for her future research endeavors. Her academic background has equipped her with a comprehensive understanding of marine biology, biochemistry, and ecological modeling, enabling her to contribute significantly to the field of marine science.

Professional Experience

Dr. Morganti has amassed extensive professional experience in marine research institutions across Europe. Since November 2017, she has held a postdoctoral position at the Marine Science Institute of Barcelona (ICM-CSIC), where she investigates the ecological implications of CDR strategies. Additionally, she is affiliated with the Max Planck Institute for Marine Microbiology in Bremen, Germany, as part of the HGF-MPG Joint Research Group for Deep-Sea Ecology and Technology. Her previous roles include serving as a Ph.D. student at the Institut de Ciències del Mar, where she conducted in-depth studies on sponge metabolism and nutrient cycling. Dr. Morganti’s professional trajectory reflects her commitment to understanding and mitigating the impacts of climate change on marine ecosystems through interdisciplinary research and collaboration.

Research Interests

Dr. Morganti’s research interests are centered on the ecophysiology of benthic organisms, with a particular emphasis on marine sponges. She explores how these organisms contribute to energy and nutrient transfer within marine ecosystems, focusing on their role in benthic-pelagic coupling and carbon cycling. Her work investigates the physiological responses of sponges to environmental stresses, such as temperature fluctuations and nutrient availability, to understand their adaptability and resilience. Additionally, Dr. Morganti is involved in assessing the feasibility and ecological consequences of marine-based CDR methods, aiming to inform sustainable climate mitigation strategies. Her research integrates field observations, laboratory experiments, and ecological modeling to provide a holistic understanding of marine ecosystem dynamics.

Research Skills

Dr. Morganti possesses a diverse skill set that encompasses various aspects of marine science. Her expertise includes ecophysiology, thermal biology, environmental stress analysis, and energy metabolism. She is proficient in underwater photography, which she utilizes to document and analyze benthic organisms in their natural habitats. Dr. Morganti is adept at conducting laboratory experiments to assess metabolic rates and physiological responses of marine species. Her skills extend to ecological modeling, allowing her to simulate and predict ecosystem responses to environmental changes. Additionally, she has experience in evaluating CDR processes, contributing to interdisciplinary research on climate change mitigation. Her comprehensive skill set enables her to address complex ecological questions and contribute valuable insights to marine science.

Awards and Honors

While specific awards and honors for Dr. Morganti are not detailed in the available information, her affiliations with prestigious research institutions such as the Marine Science Institute of Barcelona (ICM-CSIC) and the Max Planck Institute for Marine Microbiology underscore her recognition in the scientific community. Her involvement in significant research projects, including assessments of marine CDR methods, reflects her contributions to addressing global environmental challenges. Dr. Morganti’s work has been cited extensively, indicating her influence and impact within the field of marine ecology and biogeochemistry.

Conclusion

Dr. Teresa Maria Morganti’s career exemplifies a profound dedication to understanding the complexities of marine ecosystems and their responses to environmental changes. Through her research on the ecophysiology of benthic organisms and the evaluation of CDR strategies, she contributes to the development of sustainable solutions for climate change mitigation. Her interdisciplinary approach, combining fieldwork, laboratory analysis, and modeling, provides comprehensive insights into the functioning of marine ecosystems. Dr. Morganti’s work not only advances scientific knowledge but also informs policy and conservation efforts aimed at preserving marine biodiversity and ecosystem services. Her ongoing research continues to shed light on the vital roles of benthic organisms in maintaining the health and stability of our oceans.

Publications Top Notes

  • A community perspective on the concept of marine holobionts: current status, challenges, and future directions
    Authors: SM Dittami, E Arboleda, JC Auguet, A Bigalke, E Briand, P Cárdenas, …
    Journal: PeerJ
    Year: 2021
    Citations: 101

  • Size is the major determinant of pumping rates in marine sponges
    Authors: TM Morganti, M Ribes, G Yahel, R Coma
    Journal: Frontiers in Physiology
    Year: 2019
    Citations: 91

  • Trophic niche separation that facilitates co‐existence of high and low microbial abundance sponges is revealed by in situ study of carbon and nitrogen fluxes
    Authors: T Morganti, R Coma, G Yahel, M Ribes
    Journal: Limnology and Oceanography
    Year: 2017
    Citations: 89

  • Giant sponge grounds of Central Arctic seamounts are associated with extinct seep life
    Authors: TM Morganti, BM Slaby, A de Kluijver, K Busch, U Hentschel, …
    Journal: Nature Communications
    Year: 2022
    Citations: 39

  • Bacterial precursors and unsaturated long-chain fatty acids are biomarkers of North-Atlantic deep-sea demosponges
    Authors: A de Kluijver, KGJ Nierop, TM Morganti, MC Bart, BM Slaby, U Hanz, …
    Journal: PLOS ONE
    Year: 2021
    Citations: 31

  • In situ pumping rate of 20 marine demosponges is a function of osculum area
    Authors: TM Morganti, M Ribes, R Moskovich, J Weisz, G Yahel, R Coma
    Journal: Frontiers in Marine Science
    Year: 2021
    Citations: 31

  • In situ observation of sponge trails suggests common sponge locomotion in the deep central Arctic
    Authors: TM Morganti, A Purser, HT Rapp, CR German, MV Jakuba, L Hehemann, …
    Journal: Current Biology
    Year: 2021
    Citations: 24

  • VacuSIP, an improved InEx method for in situ measurement of particulate and dissolved compounds processed by active suspension feeders
    Authors: T Morganti, G Yahel, M Ribes, R Coma
    Journal: JoVE (Journal of Visualized Experiments)
    Year: 2016
    Citations: 24

  • The removal of dissolved organic matter by marine sponges is a function of its composition and concentration: An in situ seasonal study of four Mediterranean species
    Authors: M Ribes, G Yahel, C Romera-Castillo, R Mallenco, TM Morganti, R Coma
    Journal: Science of The Total Environment
    Year: 2023
    Citations: 16

  • Habitat types and megabenthos composition from three sponge-dominated high-Arctic seamounts
    Authors: T Stratmann, E Simon-Lledó, TM Morganti, A de Kluijver, A Vedenin, …
    Journal: Scientific Reports
    Year: 2022
    Citations: 16

Tatiana Marrufo | Environmental Science | Best Researcher Award

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Dr. Tatiana Marrufo | Environmental Science | Best Researcher Award

University Fernando Pessoa/Instituto Nacional de Saúde of Mozambique, Mozambique

Dr. Tatiana Jorge Marrufo is a leading public health expert from Mozambique, with over a decade of experience in environmental health, epidemiology, and the intersection of climate change and public health. Holding a PhD in Ecology and Environmental Health from Fernando Pessoa University in Portugal and a Master’s in Public Health from the Science and Technology Higher Education Institute in Mozambique, Dr. Marrufo has made remarkable contributions to health system resilience and climate adaptation. Her work at the National Institute of Health (INS) includes leading the Climate, Environment and Health Platform, directing strategic programs on environmental and occupational health, and coordinating Mozambique’s first National Adaptation Plan for Health. She played a pivotal role in the development of early warning systems for climate-sensitive diseases such as malaria and cholera. Dr. Marrufo has been recognized for her efforts to integrate climate services with public health policy, and her research outputs include high-impact publications on disease modeling, vulnerability assessments, and COVID-19. Her leadership, interdisciplinary skills, and commitment to evidence-based policy-making position her as a key figure in African public health innovation. With her global engagements, she continues to bridge research, policy, and practice, working to safeguard communities from the impacts of environmental change.

Professional Profile

Education

Dr. Tatiana Jorge Marrufo possesses an impressive academic foundation in medicine, public health, and environmental health. She began her journey in the health sciences at Eduardo Mondlane University, where she obtained her degree in Medical Sciences in 2008. This solid grounding in clinical medicine enabled her to understand the practical realities of patient care in Mozambique. Motivated by a broader interest in public health, she pursued a Master’s in Public Health (MPH) at the Science and Technology Higher Education Institute (ISCTEM), completing it in August 2021. Her MPH studies deepened her understanding of health systems, epidemiology, and disease prevention strategies. Dr. Marrufo’s academic pursuits culminated in a PhD in Ecology and Environmental Health from Fernando Pessoa University in Portugal, which she completed in September 2022. Her doctoral research focused on the interrelation between environmental conditions and public health outcomes, particularly within the context of climate-sensitive diseases. Her educational pathway reflects a consistent evolution from clinical knowledge to complex public health challenges influenced by environmental and climate dynamics. Through her interdisciplinary academic training, Dr. Marrufo has developed a unique perspective that integrates ecological, medical, and public health insights—essential for addressing the multifaceted health challenges posed by climate change in Mozambique and beyond.

Professional Experience

Dr. Tatiana Jorge Marrufo has cultivated a distinguished professional career focused on public health and environmental resilience. Since 2015, she has worked at Mozambique’s National Institute of Health (INS), where she has held several high-level roles. From 2016 onward, she led the Climate, Environment and Health Platform of the National Health Observatory, a pioneering initiative assessing climate change impacts on diseases such as malaria and diarrhea. Between 2019 and July 2024, she served as Head of the Central Office of the Technical Secretariat, contributing to national health policy formulation. She currently coordinates the Strategic Program on Environmental Health, which includes Occupational Health, focusing on mitigating environmental risks and enhancing community health responses. Dr. Marrufo has overseen vital initiatives such as the Health Vulnerability and Adaptation Assessment (2019) and the Climate Environment and Health Research Agenda (2022–2031). She also led research on the health impacts of cyclones and has contributed to strengthening health systems’ resilience. Early in her career, she worked at the Centro de Investigação e Desenvolvimento em Etnobotânica and held an academic role at ISCTEM, teaching pharmacology. Through these positions, Dr. Marrufo has consistently demonstrated leadership, vision, and a commitment to integrating scientific evidence into national health strategies.

Research Interests

Dr. Tatiana Jorge Marrufo’s research interests lie at the intersection of climate science, public health, and epidemiology. Her work is particularly focused on understanding how environmental and climatic factors influence the prevalence and distribution of infectious diseases in Mozambique. She is deeply engaged in researching the impacts of extreme weather events—such as heatwaves, floods, and cyclones—on diseases like malaria, cholera, and diarrhea, which remain significant public health challenges in the region. Additionally, Dr. Marrufo is interested in health system resilience, particularly how to design and implement early warning systems for climate-sensitive diseases. Her involvement in the Health Vulnerability and Adaptation Assessment and the development of Mozambique’s Health National Adaptation Plan reflects her dedication to long-term public health planning in the face of climate change. She also explores occupational health, nutrition, and the integration of environmental surveillance into public health systems. Through her research, Dr. Marrufo aims to inform policy and strengthen adaptive capacity in low-resource settings. Her publications address spatial and temporal disease modeling, socio-demographic risk factors during pandemics, and evidence-based approaches to climate-health linkages. These interests position her as a multidisciplinary researcher with a unique perspective on global health, sustainability, and resilience.

Research Skills

Dr. Tatiana Jorge Marrufo possesses a diverse array of research skills that enable her to tackle complex public health challenges related to climate and environmental change. Trained in applied epidemiology at Emory University and in mathematical modeling at the International Center for Theoretical Physics in Italy, she brings a quantitative edge to her research. Her technical capabilities include triangulating environmental, climate, and health data, which she honed during training with the Brazilian Climate and Health Observatory. She is proficient in using statistical tools such as STATA, SPSS, and Epi-Info for data analysis and is skilled in developing and interpreting regression models to assess disease-environment relationships. Dr. Marrufo is adept at vulnerability assessments, impact evaluations, and geographic information system (GIS)-based spatial analysis, which she applies to forecast disease outbreaks and inform early warning systems. Additionally, she has substantial experience in qualitative research methods, mixed-methods studies, and public health systems analysis. Her coordination of the National Health Research Agenda and her leadership in various national adaptation assessments showcase her abilities in project design, stakeholder engagement, and strategic planning. These research competencies, combined with her interdisciplinary academic background, empower her to deliver innovative and actionable insights in the field of environmental and public health.

Awards and Honors

While Dr. Tatiana Jorge Marrufo’s curriculum vitae does not list specific formal awards, her distinguished career and recognition at both national and international levels reflect her status as a leading expert in public health and climate-health intersections in Mozambique. Her selection for advanced training at esteemed institutions like Emory University, FIOCRUZ in Brazil, and the ICTP in Italy attests to her academic excellence and global research relevance. Furthermore, she has been consistently invited to speak at high-profile international conferences and symposiums, such as COP26, the International Conference on Climate Services, and the IANPHI Annual Meeting, demonstrating her thought leadership and recognition among international peers. Her leadership roles within the National Institute of Health—particularly as the Head of the Technical Secretariat and Coordinator of national environmental health programs—represent significant institutional trust in her expertise. The pioneering initiatives she has led, including Mozambique’s first Health Vulnerability and Adaptation Assessment and the Climate Environment and Health Research Agenda, are landmark achievements. Through these accomplishments, Dr. Marrufo has received informal but impactful honors: influence over national policy, academic recognition, and a leadership position within the scientific and health governance communities—making her a strong contender for high-level research accolades.

Conclusion

Dr. Tatiana Jorge Marrufo exemplifies the qualities of a forward-thinking, impactful, and committed public health researcher. Her unique ability to integrate environmental science, public health, and epidemiological modeling makes her work both locally relevant and globally significant. Through her strategic roles at the National Institute of Health and her involvement in national and international research collaborations, Dr. Marrufo has not only advanced scientific knowledge but also driven policy development and public health action. Her contributions to the development of Mozambique’s Health National Adaptation Plan and the Climate and Health Research Agenda reflect her visionary leadership in climate-resilient health systems. Despite not having a long list of formal awards, her influence and recognition through speaking engagements, research leadership, and institutional trust are undeniable testaments to her professional excellence. Her multidisciplinary skills, from data analysis to stakeholder engagement, position her as a catalyst for change in climate-health integration. With her continued dedication and strategic insight, Dr. Marrufo is exceptionally well-suited for the Best Researcher Award. As the world grapples with the health implications of climate change, her work stands as a model of innovation, resilience, and scientific rigor in the Global South.

Publications Top Notes

  • Title: Integration and use of climate data by the national health system in Mozambique

  • Authors: J. Pinto, Judite; N. Cossa, Nelson; M. Ferrari, Mara; T.J. Marrufo, Tatiana J.; A.P. Cardoso, Ana Paula

  • Year: 2025

Kiros Getachew Belachew | Environmental Science | Best Researcher Award

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Assist. Prof. Dr. Kiros Getachew Belachew | Environmental Science | Best Researcher Award

Assistance Professor at Debre Markos University College of Agriculture and Natural Resource, Ethiopia

Dr. Kiros Getachew Belachew is an accomplished academic and researcher specializing in forestry, environmental science, and natural resource management. With over two decades of professional experience, he has contributed significantly to teaching, research, and sustainable agricultural practices in Ethiopia. His extensive work focuses on soil quality improvement, agroforestry systems, and environmental conservation, which has been published in various peer-reviewed journals. A dedicated educator and mentor, Dr. Kiros has shaped the academic journeys of many students through his teaching and postgraduate guidance at Debre Markos University. His expertise, passion for environmental sustainability, and notable academic contributions make him a leader in his field.

Professional Profile

Education

Dr. Kiros holds a Ph.D. in Environmental Science from the University of South Africa (2017), where his dissertation investigated the nutrient release and decomposition of indigenous tree species to improve soil quality. He earned his Master of Science in Tropical Forestry and Management from the Technical University of Dresden, Germany (2005), focusing on nutrient dynamics in forestry. His academic foundation was built at Alemaya University, Ethiopia, where he obtained a Bachelor of Science in Forestry (1997). These qualifications underscore his deep expertise in forestry and environmental sciences, equipping him to address critical ecological challenges in Ethiopia and beyond.

Professional Experience

Currently serving as a lecturer in the postgraduate program at Debre Markos University, Dr. Kiros has been a pivotal figure in teaching forestry and environmental science since 2017. Before this role, he worked as an instructor at the same university, focusing on undergraduate education from 2005 to 2017. Earlier in his career, he served as a Soil and Water Conservation Expert for the Commission for Sustainable Agriculture and Environmental Rehabilitation in Ethiopia from 1997 to 2002. These roles reflect his commitment to education, research, and environmental conservation, demonstrating his ability to bridge academic knowledge with practical applications.

Research Interests

Dr. Kiros’s research interests lie in agroforestry systems, soil quality enhancement, nutrient recycling, and environmental sustainability. His work emphasizes the use of indigenous tree species for nutrient release and soil improvement in agricultural landscapes. He is particularly interested in the socioeconomic and ecological impacts of plantation forestry, sustainable land use practices, and alternative energy production, such as biogas and biofertilizers. His contributions aim to integrate scientific innovation with local environmental challenges to foster sustainable development in Ethiopia.

Research Skills

Dr. Kiros is adept at designing and conducting field-based studies, particularly in agroforestry systems and nutrient dynamics. He has expertise in quantitative and qualitative research methods, data analysis, and interpretation. He is proficient in assessing environmental and agricultural impacts using ecological indicators and has a strong publication record in forestry and environmental journals. His ability to engage in interdisciplinary research and collaborate with stakeholders reflects his commitment to advancing sustainable solutions for environmental challenges.

Awards and Honors

Throughout his career, Dr. Kiros has been recognized for his contributions to environmental research and education. His published works have earned citations in renowned journals, highlighting their impact in the field. While specific awards are not mentioned in his CV, his recognition as an expert in his domain is evident through his leadership roles in teaching and research at Debre Markos University. His academic achievements and continued dedication to sustainable practices underscore his excellence.

Conclusion

Dr. Kiros Getachew Belachew embodies the qualities of a distinguished researcher and educator, with a robust academic background, extensive professional experience, and impactful research contributions. His dedication to environmental sustainability and education makes him a strong candidate for recognition in his field. By addressing critical ecological challenges through innovative research and practical solutions, he continues to inspire and contribute meaningfully to his community and the broader scientific world.

Publication Top Notes

  1. “Effects of Eucalyptus camaldulensis Woodlot Plantation Expansion on Food Security in South Achefer District, West Gojjam, Amhara Region, Ethiopia”
    • Authors: Kiros Getachew Belachew, Alemu Gashe Desta, Ranjeet Kumar Mishra
    • Year: 2025
    • DOI: 10.1155/ijfr/1836605
  2. “Socioeconomic and Environmental Impacts of Eucalyptus Plantations in Ethiopia: An Evaluation of Benefits, Challenges, and Sustainable Practices”
    • Authors: Kiros Getachew Belachew, Wondwosson Kibrie Minale, Ho SoonMin
    • Year: 2025
    • DOI: 10.1155/tswj/1780293
  3. “Retranslocation of Nutrients in Three Indigenous Tree Species in Gozamn Woreda, North Central Ethiopia”
    • Author: Kiros Getachew Belachew
    • Year: 2016
  4. “Evaluation of Locally Available Fertilizer Tree/Shrub Species in Gozamin Woreda, North Central Ethiopia”
    • Author: Kiros Getachew Belachew
    • Year: 2015
  5. “Assessing the Potential for Biogas and Bio-fertilizer Production from Municipal Abattoir Waste in Debre Markos Town, Amhara Region, Ethiopia”
    • Author: Kiros Getachew Belachew
    • Year: 2023

 

 

Jamal Shah | Biological Sciences | Best Researcher Award

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Dr. Jamal Shah | Biological Sciences | Best Researcher Award

Leturer, Abdul Wali Khan University Mardan, Pakistan

Dr. Jamal Shah is an accomplished educator and researcher specializing in agricultural economics. With a robust academic foundation and diverse teaching experience, he is dedicated to enhancing the understanding of economic principles within the agricultural sector. His research focuses on risk management strategies for farmers and the economic factors influencing crop production, contributing valuable insights for policy improvements in Pakistan’s agricultural landscape.

Professional Profile

Scopus Profile

Education

Dr. Jamal Shah completed his PhD in Economic Studies at the University of Dundee, Scotland, from 2016 to 2022. He also holds a Diploma in Agribusiness and Technology from Muscatine Community College, Iowa, USA (2012-2013). Additionally, Dr. Shah earned both his MSc (Hons) and BSc (Hons) in Agricultural Economics from Agricultural University Peshawar, Pakistan, completing his studies there in 2022.

Professional Experience

Dr. Shah is currently a lecturer at Abdul Wali Khan University Mardan (AWKUM), where he has been since September 2022, following a previous role as a lecturer from June 2015 to July 2016. At AWKUM, he has taken on significant responsibilities, including the analysis of economic trends and the development of comprehensive course materials for teaching advanced econometrics to PhD students. He has also supervised and guided various students in their research projects. Prior to this, he worked as an Economics Tutor at the University of Dundee and the International College Dundee, where he developed engaging tutorials and collaborated on curriculum development.

Research Interests

Dr. Shah’s research interests lie in agricultural economics, specifically focusing on risk management strategies among farmers and the economic dynamics of crop production. His work aims to provide insights that can influence agricultural policies and practices.

Research Projects 

PhD Research: His doctoral dissertation, titled “Factors Affecting Farmers’ Choice to Adopt Risk Management Strategies at Farm Level in Pakistan,” utilized various econometric models to explore the influences on farmers’ decisions regarding risk management. The findings are intended to inform policy development and implementation in agricultural risk management.

MSc Research: For his Master’s research, he conducted a comprehensive study titled “The Economics of Wheat Production in District Peshawar.” This project involved analyzing the key factors affecting wheat productivity using econometric methods, with implications for agricultural efficiency and policy enhancements.

Publications Top Notes

Optimizing performance: Achieving high capacitance and cycling durability in alkaline electrolyte with SnO2/SnSe||AC/KOH-based aqueous hybrid supercapacitor

Authors: Shah, M.Z.U., Shah, J., Hayat, K., Al-Saeedi, S.I., Shah, A.

Year: 2024

Journal: Journal of Energy Storage

Volume: 75

Article Number: 109662

Citations: 4

Conventional and Metal Oxide-Based Inverted Polymer Solar Cells: A Comparative Experimental Study

Authors: Shah, S.K., Ahmad, I., Shah, J., Haq, T., Hayat, K.

Year: 2023

Journal: Journal of Electronic Materials

Volume: 52

Issue: 2

Pages: 1400–1409

Citations: 2

Facile hydrothermal synthesis of zinc sulfide nanowires for high-performance asymmetric supercapacitor

Authors: Rauf, M., Shah, S.S., Shah, S.K., Aziz, M.A., Hayat, K.

Year: 2022

Journal: Journal of Saudi Chemical Society

Volume: 26

Issue: 4

Article Number: 101514

Citations: 46

Conclusion

Based on his academic achievements, research output, and technical skills, Dr. Shah demonstrates the qualities of a dedicated and skilled researcher. His contributions align well with the goals of a “Best Researcher Award,” recognizing individuals who produce research with broad applications and societal relevance.

 

 

 

 

 

 

Marcelo Cohen | Environmental Science | Best Researcher Award

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Prof. Marcelo Cohen | Environmental Science | Best Researcher Award

Full Professor at Federal University of Para, Brazil.

Prof. Marcelo Cohen is a highly skilled researcher in the field of geosciences, possessing expertise in data analysis, interdisciplinary research, fieldwork, laboratory techniques, statistical analysis, literature review, communication, and problem-solving. With a strong foundation in geology, geochemistry, and oceanography, he employs an interdisciplinary approach to tackle complex environmental questions. Prof. Cohen’s proficiency in data analysis, both in the field and laboratory, ensures the accuracy and reliability of his research findings. His ability to integrate diverse perspectives and conduct rigorous statistical analyses enables him to generate comprehensive insights into environmental dynamics. Through effective communication and collaboration, Marcelo disseminates his findings and contributes to the advancement of knowledge in geosciences. Overall, his research skills, coupled with his dedication and commitment, position him as a respected figure in the scientific community, driving impactful research and addressing critical challenges in the field.

Professional Profiles:

Education:

Prof. Marcelo Cohen pursued his academic journey with zeal and dedication, culminating in a remarkable educational background. He attained his Ph.D. in Geochemistry from the Federal University of Pará, Brazil, marking the beginning of his scholarly pursuits. Following this, he embarked on a postdoctoral program at the University of São Paulo, Brazil, further enriching his expertise in his field. Driven by a quest for knowledge, he then pursued another Ph.D. at the University of Bremen, Germany, where he excelled in his studies, earning magna cum laude honors. Prior to his doctoral pursuits, Marcelo earned his Master’s degree in Geology and Geochemistry, as well as his Bachelor’s degree in Geology, both from the Federal University of Pará, Brazil. These educational milestones laid a strong foundation for his illustrious career in academia and research.

Research Experience:

Prof. Marcelo Cohen’s research experience is extensive and spans various geographical and interdisciplinary domains. With a focus on paleoclimatology, paleoecology, and sea-level changes, he has conducted pioneering research that contributes to our understanding of Earth’s history and its implications for the future. His expertise extends to the Holocene history of mangrove dynamics, particularly in the Brazilian coast, Gulf of Mexico, and Caribbean regions. Through meticulous analysis of remote sensing data, fossil pollen, stable isotopes, and sedimentary features, Marcelo reconstructs paleoenvironments affected by climate and sea-level changes over decadal to millennial timescales. His work on the impacts of extreme weather events on mangroves underscores the urgency of climate resilience measures. Prof. Cohen’s research is characterized by its interdisciplinary nature, drawing from fields such as geology, geochemistry, and oceanography. His contributions have not only advanced scientific knowledge but also provided valuable insights for policymakers and environmental practitioners grappling with the challenges of climate change.

Research Interest:

Prof. Marcelo Cohen’s research interests are diverse and deeply rooted in understanding the complex interactions between Earth’s systems and climate dynamics. His primary focus lies in the fields of paleoclimatology, paleoecology, and sea-level changes. By delving into the past, Marcelo seeks to unravel the intricate patterns of environmental change and their implications for the present and future. He is particularly intrigued by the Holocene history of mangrove dynamics, a critical ecosystem that serves as a barometer for climate variability and resilience. Through innovative methodologies such as remote sensing, fossil pollen analysis, stable isotopes, and sedimentary features, Marcelo reconstructs past environments with precision, shedding light on the drivers of change over different temporal scales. Additionally, his research delves into the impacts of extreme weather events on mangroves, providing valuable insights into ecosystem responses to climate variability. Prof. Cohen’s interdisciplinary approach, combining insights from geology, geochemistry, and oceanography, positions him at the forefront of scientific inquiry into Earth’s past and its implications for the future.

Award and Honors:

Prof. Marcelo Cohen’s dedication and contributions to the field of geosciences have been recognized through numerous awards and honors. As an affiliate member and Young Scientist of the Brazilian Academy of Sciences from 2011 to 2015, he was acknowledged for his outstanding research and scholarly achievements. This prestigious recognition underscores his commitment to advancing scientific knowledge and understanding. Additionally, his appointment as a Researcher of Scientific Productivity and Ad Hoc Consultant of the National Council of Scientific and Technological Development (CNPQ) at Level 1B since 2004 reflects his ongoing impact and influence in the field. Prof. Cohen’s work has also been acknowledged internationally, as evidenced by his membership in the Commission on Stratigraphy and Chronology (SACCOM) of the International Union for Quaternary Research (INQUA). These honors reflect not only his individual achievements but also the broader recognition of his contributions to the scientific community.

Research Skills:

Prof. Marcelo Cohen’s research skills are a testament to his proficiency and dedication in the field of geosciences. With a strong foundation in data analysis, he navigates complex datasets with precision, extracting valuable insights that contribute to a deeper understanding of environmental dynamics. His interdisciplinary approach, combining expertise in geology, geochemistry, and oceanography, enables him to integrate diverse perspectives and generate comprehensive research outcomes. Proficient in fieldwork techniques, he conducts meticulous observations and sample collection, enriching his research with firsthand data. In the laboratory, Marcelo’s adeptness in various analytical methods ensures the accuracy and reliability of his findings, while his statistical acumen allows for rigorous interpretation of results. Coupled with his talent for synthesizing existing knowledge through literature reviews, he identifies research gaps and formulates impactful research questions. Through effective communication and problem-solving skills, Marcelo disseminates his findings and fosters collaboration within the scientific community. Overall, Prof. Cohen’s research skills exemplify his commitment to advancing knowledge and addressing critical challenges in geosciences.

Publications:

  1. A 1500-year multi-proxy record of subtropical mangrove dynamics in relation to sea level and climate changes on Babitonga Bay, Southern Brazil
    • Authors: Torres, A.E.C.; França, M.C.; Borges da Silva, F.A.; …; Pessenda, L.C.R.; Macario, K.
    • Year: 2024
  2. Miocene tropical storms: Carbonate framework approaches and geochemistry proxies in a reservoir model
    • Authors: Aguilera, O.; De Araújo, O.M.O.; Lopes, R.T.; …; Giraud-López, M.J.; Kütter, V.T.
    • Citations: 4
    • Year: 2023
  3. Eco-morphological evolution of the Bolivar Peninsula (Texas, U.S.A.) during the last 2,000 years: A multi-proxy record of coastal environmental changes
    • Authors: Yao, Q.; Liu, K.-B.; Fan, D.; …; De Oliveira, P.E.; Rodrigues, E.
    • Year: 2023
  4. Assessment the Impacts of Sea-Level Changes on Mangroves of Ceará-Mirim Estuary, Northeastern Brazil, during the Holocene and Anthropocene
    • Authors: Nunes, S.P.D.Q.; França, M.C.; Cohen, M.C.L.; …; Magalhães, E.A.S.; Silva, F.A.B.
    • Citations: 2
    • Year: 2023
  5. What Are the Most Effective Proxies in Identifying Storm-Surge Deposits in Paleotempestology? A Quantitative Evaluation From the Sand-Limited, Peat-Dominated Environment of the Florida Coastal Everglades
    • Authors: Yao, Q.; Liu, K.-B.; Zhang, Z.; …; Maiti, K.; Yang, Y.
    • Citations: 2
    • Year: 2023
  6. A palynological record of mangrove biogeography, coastal geomorphological change, and prehistoric human activities from Cedar Keys, Florida, U.S.A.
    • Authors: Yao, Q.; Liu, K.-B.; Rodrigues, E.; Fan, D.; Cohen, M.
    • Citations: 8
    • Year: 2023
  7. Pollen atlas and identification dataset from Santa Catarina, south Brazil
    • Authors: Rodrigues, E.; Cohen, M.C.L.; Figueiredo, B.L.; Liu, K.-B.; Yao, Q.
    • Citations: 1
    • Year: 2023
  8. A timely method for post-disaster assessment and coastal landscape survey using drone and satellite imagery
    • Authors: Cohen, M.C.L.; de Souza, A.V.; Liu, K.-B.; Yao, Q.
    • Citations: 4
    • Year: 2023
  9. Death and Regeneration of an Amazonian Mangrove Forest by Anthropic and Natural Forces
    • Authors: Cardenas, S.M.M.; Cohen, M.C.L.; Ruiz, D.P.C.; …; Pessenda, L.C.R.; Culligan, N.
    • Citations: 6
    • Year: 2022
  10. Mangrove expansion at poleward range limits in North and South America: Late-Holocene climate variability or anthropocene global warming?
    • Authors: Yao, Q.; Cohen, M.; Liu, K.-B.; …; Yin, D.; Carlos Ruiz Pessenda, L.
    • Citations: 12
    • Year: 2022