Qiqige Bademu | Ecology and Conservation | Research Excellence Award

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Mrs. Qiqige Bademu | Ecology and Conservation | Research Excellence Award

Researcher | China Geological Survey Comprehensive Survey Command Center for Natural Resources | China

Mrs. Qiqige Bademu has established a notable scientific presence through her sustained contributions to Ecology and Conservation, demonstrating a strong commitment to advancing ecological understanding and ecosystem restoration. Her work in Ecology and Conservation reflects a comprehensive engagement with grassland environments, where she investigates vegetation dynamics, soil properties, and microbial communities under varying ecological pressures. With a research foundation grounded in grassland systems, she has produced valuable insights into how grazing intensity shapes the interactions among vegetation, soil, and microorganisms, reinforcing the broader significance of Ecology and Conservation in safeguarding fragile ecosystems. Her scientific contributions to Ecology and Conservation extend to exploring arbuscular mycorrhizal fungi and their ecological functions, providing deeper clarity on how microbial communities influence productivity and stability across diverse grassland types. Mrs. Qiqige Bademu has strengthened the field of Ecology and Conservation through regional surveys, controlled field experiments, and collaborative work that enhances understanding of degraded landscapes. Her research in Ecology and Conservation includes examining microbial diversity, ecological restoration strategies, and natural resource assessments across multiple grassland regions. She has contributed to peer-reviewed SCI publications addressing microbial diversity, vegetation–soil interactions, and rhizosphere ecology, reinforcing her credibility within Ecology and Conservation. Her collaborative engagements further extend the impact of her work, supporting the development of sustainable land-management strategies and evidence-based ecological planning. Across her research pathway in Ecology and Conservation, she consistently integrates multidisciplinary approaches that strengthen environmental resilience and inform future conservation frameworks. Mrs. Qiqige Bademu continues to contribute meaningfully to Ecology and Conservation through applied ecological research, natural resource investigation, and impactful scientific outputs that support long-term environmental sustainability. Her portfolio reflects a professional dedication to improving ecological restoration practices and advancing microbial–plant–soil interaction studies within the global discourse on Ecology and Conservation. Scopus profile of 20 Citations, 6 Documents, 3 h-index.

Profile: Scopus

Featured Publication

1. Effects of heavy grazing on soil microbial diversity and its drivers in different types of grasslands. (2025). Chinese Science Bulletin.

Prof. Dr. Maya Petrova Stoyneva | Ecology and Conservation | Best Researcher Award

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Prof. Dr. Maya Petrova Stoyneva | Ecology and Conservation | Best Researcher Award

Head of the Group Systematics of Algae and Fungi | Sofia University "St Kliment Ohridski" | Bulgaria

Prof. Dr. Maya Petrova Stoyneva is a distinguished scholar in Botany whose expertise in Ecology and Conservation has significantly advanced research on algology, mycology, lichenology, hydrobiology, and limnology. Her academic journey includes a Ph.D. and a DrSc in Biology from Sofia University “St. Kliment Ohridski,” where she has also served in leadership roles such as Head of the Department of Botany and Director of the Algological Cultural Collection. Her professional experience is deeply connected to Ecology and Conservation through national and international collaborations, including projects with UNESCO, Swiss Biodiversity Programs, Erasmus exchanges, and COST networks like CYANOCOST, ParAqua, and CYANOACTION. With a prolific output of over 250 scientific publications, numerous citations, and editorial contributions, she has earned recognition in Ecology and Conservation at both national and global levels. She is a member of several professional societies, including the International Association for Phytoplankton Taxonomy and Ecology and the Bulgarian Botanical Society, which highlights her commitment to advancing Ecology and Conservation. Her awards, memberships, and contributions to scientific networks reflect her strong dedication to Ecology and Conservation in protecting biodiversity and managing aquatic ecosystems. She possesses remarkable research skills in taxonomy, protistology, and ecological restoration that have been applied in both academic and applied Ecology and Conservation projects. In conclusion, Prof. Dr. Maya Petrova Stoyneva exemplifies excellence in Ecology and Conservation through her education, professional leadership, research interests, skills, awards, and lifelong dedication to preserving natural ecosystems. Her Google Scholar citations 2273, h-index 25, i10-index 79, showcasing measurable research impact.

Profiles: Google Scholar | ORCID | Scopus

Featured Publications

1. Stoyneva, M. P. (2003). Steady-state phytoplankton assemblages in shallow Bulgarian wetlands. Hydrobiologia, 502(1), 169–176.

2. Descy, J. P., Darchambeau, F., Lambert, T., Stoyneva‐Gaertner, M. P., Bouillon, S., & others. (2017). Phytoplankton dynamics in the Congo River. Freshwater Biology, 62(1), 87–101.

3. Michev, T. M., & Stoyneva, M. P. (2007). Inventory of Bulgarian wetlands and their biodiversity: Non-lotic wetlands. Elsi-M.

4. Kamenarska, Z., Ivanova, A., Stancheva, R., Stoyneva, M., Stefanov, K., & others. (2006). Volatile compounds from some Black Sea red algae and their chemotaxonomic application. Biochemical Systematics and Ecology, 34(1), 47–56.

5. Stoyneva, M. P. (1994). Shallows of the lower Danube as additional sources of potamoplankton. Hydrobiologia, 289(1), 171–178.

Yifan Wang | Soil Pollution | Best Researcher Award

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Assoc. Prof. Dr. Yifan Wang | Soil Pollution | Best Researcher Award

Associate Professor at School of Resources and environment, northeast Agricultural University, China

wang yifan is an associate professor at the School of Resources and Environment, Northeast Agricultural University. With a strong background in soil pollution research, he is a key member of the “Outstanding Talents and Innovation Team of Agricultural Research” under the Ministry of Agriculture. His expertise lies in ecological remediation and soil health, and he has published over 30 research papers. He has led projects such as the National Natural Science Youth Fund and won the prestigious First Prize of Heilongjiang Agricultural Science and Technology 🏆. His work focuses on sustainable agricultural practices and environmental restoration. 🌍🌾

Professional Profile

Education & Experience 🎓👨‍🏫

Bachelor’s & Master’s – Jinan University 🏛️
Ph.D. – Northeast Agricultural University 🎓
Associate Professor – School of Resources and Environment, Northeast Agricultural University 🏫
Member – “Outstanding Talents and Innovation Team of Agricultural Research,” Ministry of Agriculture 🌿
Senior Member – Chinese Society of Agricultural Engineering 🏗️

Professional Development 🚀📚

wang yifan is dedicated to advancing sustainable agricultural solutions through innovative research. He has successfully led multiple national and provincial projects, particularly focusing on soil pollution remediation. His expertise spans biochar technology, nitrogen transformation, and ecological restoration. He is actively involved in developing multi-functional soil management strategies to enhance agricultural productivity in Northeast China 🌾. His ongoing research explores biological networks in fertile soil and heavy metal passivation in contaminated land. As an influential scholar, he continuously collaborates with industry partners to bridge scientific research with practical agricultural applications. 🔬🌍

Research Focus Areas 🔬🌱

wang yifan’s research primarily revolves around soil pollution control and environmental sustainability. His work addresses pressing issues such as:
🌿 Soil Remediation – Developing innovative techniques for restoring contaminated farmland
🌾 Biochar Technology – Enhancing soil fertility and mitigating pollution with modified biochar
⚗️ Heavy Metal Passivation – In-situ chemical treatment of polluted soil to reduce toxicity
🌱 Soil Fertility Enhancement – Constructing biological networks in middle and low-yield fields
🌎 Sustainable Agriculture – Promoting eco-friendly practices to balance productivity and conservation

Awards & Honors 🏆🎖️

🏅 First Prize – Heilongjiang Agricultural Science and Technology Award 🏆
📜 National Natural Science Youth Fund Grant – Principal Investigator 🎯
🌍 Outstanding Talents & Innovation Team of Agricultural Research – Ministry of Agriculture 🌱
🏗️ Senior Member – Chinese Society of Agricultural Engineering 🚜
📚 30+ Research Publications – Significant contributions in soil science and environmental sustainability 🌾

Publication Top Notes

  • “Ball-milled phosphate/micro zero-valent iron/biochar for lead and cadmium removal and stabilization in water and soil: Performance, mechanisms, and environmental applications”

    • Authors: D. Tuyiringire, X. Liu, Q. Zheng, J. Qu, Y. Zhang
    • Journal: Separation and Purification Technology
    • Year: 2025
    • Citations: 0
    • Summary: This study introduces a novel composite, P-mZVIBC500, synthesized through ball milling of phosphate, macroscale zero-valent iron, and biochar. The composite demonstrated high adsorption capacities for lead (243.57 mg/g) and cadmium (132.67 mg/g), effectively reducing their presence in contaminated water and soil systems.
      X-MOL

  • “Microwave-assisted synthesis of polyethyleneimine and carbon disulfide co-modified magnetic lignosulfonate for efficient Pb(II) and Cr(VI) removal: Preparation, performance, and mechanisms”

    • Authors: K. Li, W. Zhang, Z. Dong, J. Qu, Y. Zhang
    • Journal: Separation and Purification Technology
    • Year: 2025
    • Citations: 0
    • Summary: This research presents the development of a magnetic lignosulfonate co-grafted with polyethyleneimine and carbon disulfide using microwave-assisted synthesis. The modified material exhibited excellent removal capabilities for Pb(II) and Cr(VI) ions from contaminated water, with maximum adsorption capacities of 206.81 mg/g and 456.80 mg/g, respectively.
      OUCI

  • “Biochar rich in amino ligand for copper selective recollection in wastewater”

    • Authors: S. Li, Y. Wen, Y. Wang, Z. Zhou, N. Zhou
    • Journal: Separation and Purification Technology
    • Year: 2025
    • Citations: 0
    • Summary: This article explores the use of amino-rich biochar for the selective recovery of copper ions from wastewater. The functionalized biochar demonstrated high affinity and selectivity towards copper, suggesting its potential application in wastewater treatment processes.

  • “Aging mechanism of biochar based on fluorescence spectroscopy: Assessing soil dissolved organic matter (DOM) dynamics and Cd bioavailability”

    • Authors: J. Li, Q. Li, S. Liang, Y. Zhang, Y. Wang
    • Journal: Chemical Engineering Journal
    • Year: 2025
    • Citations: 0
    • Summary: This study investigates the aging mechanisms of biochar using fluorescence spectroscopy to assess the dynamics of soil dissolved organic matter and the bioavailability of cadmium. The findings provide insights into how biochar aging affects soil chemistry and heavy metal mobility.

  • “Analysis on pollutants removal and sludge characteristics of a novel two-phase anaerobic/aerobic/integrated deoxygenated and anoxic reactor associated with membrane process for treating pesticide wastewater”

    • Authors: S. Zhuang, Z. Chen, Z. Liang, Y. Wang, S. Cui
    • Journal: Science of the Total Environment
    • Year: 2024
    • Citations: 0
    • Summary: This research analyzes the efficiency of a novel reactor combining two-phase anaerobic/aerobic processes with an integrated deoxygenated and anoxic system, coupled with a membrane process, for the treatment of pesticide-contaminated wastewater. The study focuses on pollutant removal efficiencies and the characteristics of the resulting sludge.