Ahmed LAALA | Ecology | Best Researcher Award

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Dr. Ahmed LAALA | Ecology | Best Researcher Award

University lecturer, Abdelhafid Boussouf University Center of Mila, Algeria

Ahmed Laala is a dedicated lecturer-researcher specializing in Plant Ecology at the Department of Ecology and Environment, Institute of Natural and Life Sciences, Abdelhafid Boussouf University Center in Mila, Algeria. With a deep-rooted passion for understanding forest ecosystems and their responses to environmental changes, Ahmed is actively engaged in research that has significant implications for conservation efforts in Algeria. 🌱

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Education

Ahmed Laala earned his University Habilitation in 2021 from Frères Mentouri University, Constantine 1. He holds a Doctorate in Plant Ecology, awarded in 2016 for his thesis titled “Mapping the Thermal Variability of Forest Ecosystems in Eastern Algeria.” Prior to that, he completed his Master’s in Plant Ecology in 2009, focusing on the behavior of Aleppo Pine seedlings under thermal stress. His academic journey began with a State Engineer degree in Ecology and Environment in 2002, specializing in Forest Ecosystems. 🎓

Experience

Since his appointment at the Abdelhafid Boussouf University Center, Ahmed has contributed significantly to the academic community through teaching and research. His extensive work has focused on ecological modeling, habitat suitability assessments, and the impact of climate change on forest ecosystems. As a lecturer, he plays a vital role in educating the next generation of ecologists and environmental scientists in Algeria. đź“š

Research Interests

Ahmed’s research interests center on Plant Ecology, specifically the modeling of species distributions and the ecological impacts of climate change on forest ecosystems. He is particularly interested in the conservation of endemic species, the influence of climate variability on forest dynamics, and the intersection of urban environments with natural ecosystems. His work aims to provide insights that are critical for effective conservation strategies. 🌍

Publications Top  Notes

Ahmed has a robust portfolio of publications that contribute to the field of Plant Ecology. Below are some of his significant works:

  1. Modeling the potential distribution and shift of an Algerian endangered endemic species (Cedrus atlantica) under climate change scenarios: Implications for conservation (2024) – Journal for Nature Conservation, 82, 126744.
  2. Predicting potential habitat suitability of Quercus suber L. in Algeria under climate change scenarios (2021) – African Journal of Ecology, 00, 1–12.
  3. The link between Covid-19 pandemic and air pollution in Algeria (2021) – Bulletin of Environment, Pharmacology and Life Sciences (BEPLS), Vol.10 (10), 115-122.
  4. “Apport des SIG dans la cartographie des arbres urbains de la ville de Mila” (2021) – Actes du SĂ©minaire National sur « Les systèmes d’informations gĂ©ographiques (SIG) et la gestion de l’espace urbain », 323-333.
  5. Mapping the Wildland-Urban Interfaces for Forest Fire Prevention in the Province of Mila (Algeria) (2020) – Journal of Environmental Research, Engineering and Management, Vol. 76(2): 76–90.
  6. Analyse spatiale de la corrĂ©lation entre les variables thermiques et l’activitĂ© vĂ©gĂ©tative des forĂŞts de l’Est AlgĂ©rien (2019) – Agriculture and Forestry Journal, 3(2): 95-103.
  7. Interpolation spatiale des tempĂ©ratures mensuelles en AlgĂ©rie orientale (2017) – La MĂ©tĂ©orologie, n°98, 45-51.
  8. RĂ©ponse Ă©cophysiologiques du pin d’Alep aux contraintes thermiques (2016) – Éditions universitaires europĂ©ennes (EUE). ISBN-13: 978-3841614612, 65p.

Qingyu Sui | Ecosystem service | Best Researcher Award

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Mr. Qingyu Sui | Ecosystem service | Best Researcher Award

Researcher, Northeast Foresty University, China

Qingyu Sui is a PhD student at Northeast Forestry University, specializing in forest management. With a solid academic background in landscape architecture and architectural environment engineering, Qingyu is passionate about sustainable development and the quantification of ecosystem services. His research focuses on innovative methods to assess environmental impacts and improve ecological conservation efforts.

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Strengths for the Award:

Academic Excellence:
The candidate has demonstrated outstanding academic performance throughout their educational journey. Notably, they were admitted to Yanbian University with a high ranking and received a school-level academic scholarship for three consecutive years (2020-2023). This consistent recognition highlights their dedication and intellectual capabilities.

Research Contributions:
The candidate has made significant research contributions, particularly in the fields of ecosystem services and carbon sequestration. As the first author, they published a paper in the journal Sustainability (2023 impact factor 3.9), focusing on the quantitative evaluation of ecosystem services provided by urban street trees. Additionally, they have submitted another paper to the International Journal of Sustainable Development & World Ecology (2023 impact factor 6.22), assessing the value of carbon sequestration in the Amur River Basin. These publications demonstrate their ability to conduct high-impact research relevant to environmental sustainability.

Technical Skills:
The candidate possesses a wide range of practical and technical skills essential for modern research. Their proficiency in modeling software (IUEMS, I-Tree, ENVI-met) and professional image production tools (ArcGIS, PS, Origin2022b) equips them with the necessary tools to conduct complex analyses and produce high-quality research outputs. Moreover, their expertise in statistical analysis using Matlab, Python, Excel, and R language enhances their ability to interpret data accurately and effectively.

Work Experience:
The candidate has gained valuable work experience as a Remote Sensing Intern and an FQC Management Engineer. These roles have provided them with practical insights and hands-on experience in applying their academic knowledge to real-world problems, further strengthening their research capabilities.

Areas for Improvement:

Broader Research Exposure:
While the candidate has made commendable contributions to the field of environmental sustainability, expanding their research to include interdisciplinary collaborations could enhance the impact of their work. Engaging with experts from related fields such as economics, sociology, and urban planning could lead to more comprehensive and innovative research outcomes.

Leadership and Mentorship:
The candidate could benefit from opportunities to lead research projects or mentor junior researchers. Taking on such roles would not only help develop their leadership skills but also contribute to their professional growth and recognition within the academic community.

International Collaboration:
To further their research impact, the candidate could seek opportunities for international collaboration. Engaging with global research networks and participating in international conferences would expose them to diverse perspectives and cutting-edge research, potentially leading to new insights and advancements in their field.

Education 🎓

Qingyu Sui’s academic journey began with a Bachelor’s degree in Architectural Environment and Energy Application Engineering from Dalian University for Nationalities (2014-2018). He then pursued a Master’s degree in Landscape Architecture at Yanbian University (2020-2023), where he excelled academically, earning a school-level scholarship and graduating as an Outstanding Graduate. In June 2023, Qingyu commenced his PhD studies at the Forestry College of Northeast Forestry University, focusing on forest management.

Experience 🏆

Qingyu has gained valuable work experience as a Remote Sensing Intern at Heilongjiang Donglin Urban and Rural Environmental Planning and Design Institute from July 2023 to June 2024. Before this, he worked as an FQC Management Engineer at Chongqing Laibao High-Tech Co., Ltd. from July 2018 to July 2019. These roles have honed his practical skills in environmental planning, remote sensing, and quality control, enhancing his capabilities in both research and industry applications.

Research Interests 🔬

Qingyu Sui is deeply interested in sustainable development, ecosystem services, and carbon sequestration. His research often explores the intersection of urban forestry and environmental science, particularly focusing on the quantification and valuation of ecosystem services provided by urban street trees and the carbon sequestration potential of various landscapes. He leverages advanced modeling software and statistical tools to conduct his research.

Awards 🏅

Throughout his academic career, Qingyu has received several accolades:

  • Admitted to Yanbian University in 2020 with a high ranking and a total score of 382 points.
  • School-Level Academic Scholarship recipient from Yanbian University for the years 2020-2023.
  • Outstanding Graduate of Yanbian University in 2023 for his exceptional academic performance and contributions.

Publications Top Notes đź“–

Quantitative Evaluation of Ecosystem Services of Urban Street Trees: A Case Study of Shengjing Historical and Cultural Block in Shenyang, China
Sustainability, 2023, 15(3), 2532.
Impact Factor: 3.9
Citations: Not yet cited

Value Assessment of Carbon Sequestration in Generalized Black Soil Distribution Area of Amur River Basin, China
International Journal of Sustainable Development & World Ecology, 2023.
Impact Factor: 6.22
Citations: Not yet cited

Conclusion

The candidate is a strong contender for the “Best Researcher Award” due to their academic excellence, significant research contributions, and advanced technical skills. Their published work and practical experience demonstrate a high level of competence and dedication to their field. However, to reach their full potential, they could benefit from broader research exposure, leadership opportunities, and international collaborations. With continued growth and development, the candidate is poised to make even greater contributions to the field of environmental sustainability and beyond.