Álvaro López Zaplana | Plant Biotechnology | Young Scientist Award

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Dr. Álvaro López Zaplana | Plant Biotechnology | Young Scientist Award

R+D Manager at 3A BIOTECH,S.L, Spain

Álvaro López Zaplana is a Spanish molecular biologist and biotechnologist specializing in plant and industrial biotechnology. He earned his Biotechnology degree (2013–2017), Master’s in Molecular Biology and Biotechnology (2017–2018), and PhD in Molecular Biology and Biotechnology (2018–2022, summa cum laude with international mention) from the University of Murcia, with part of his doctoral research conducted at the Louvain Institute of Biomolecular Science and Technology.

Profile:

🎓 Academic Background:

  • 🎓 Bachelor’s in Biotechnology – University of Murcia (2017)

  • 🧠 Master’s in Molecular Biology and Biotechnology – IMIB (2018)

  • 🎓 PhD in Molecular Biology and Biotechnology – University of Murcia & CEBAS-CSIC (2022)

  • 📚 Pursuing Double Master’s: Project Management & MBA – ENEB (2025)

🧪 Research Focus:

Álvaro’s expertise centers on aquaporins, transcriptomics, and fermentation bioprocesses. He has contributed to 5 research projects (led 3), authored 12+ scientific articles, and collaborated across Europe, including Louvain Institute of Biomolecular Science and IBMCP-CSIC.

💼 Current Roles:

  • 🧬 R&D Manager – 3A Biotech

  • 🎓 External Collaborator & Thesis Supervisor – International University of Valencia (VIU)

  • ✍️ Guest Editor – MDPI (Journal: Agriculture)

🧑‍🏫 Teaching & Mentorship:

He has supervised 9 Master’s theses in bioinformatics, neurobiology, pharmacology, and omics, actively mentoring students in academic and lab settings since 2018.

📊 Entrepreneurial Spirit:

Beyond science, Álvaro has a strong business inclination:

  • 🏆 Winner of 5 university innovation awards (2020–2022)

  • 💡 Trained in entrepreneurship, leadership & finance

  • 🧠 Courses in cardiogenetics, nutrition, medical care, and digital marketing

🌍 Languages & Skills

  • 🇬🇧 English (B2), 🇫🇷 French (A2)

  • 💻 Bioinformatics, structural modeling, molecular diagnostics

🔬 H-Index: 8 (Google Scholar, 2024)

  • Published in journals like Plant Physiology & Biochemistry, Environmental and Experimental Botany, and Scientific Reports

📊 Citation Metrics (as per Google Scholar):

  • Total Citations: 298

  • Citations Since 2020: 296

  • h-index: 8

  • h-index Since 2020: 8

  • i10-index: 8

  • i10-index Since 2020: 8

Publication Top Notes:

  1. Interrelations of Nutrient and Water Transporters in Plants Under Abiotic Stress
    G. Barzana, J.J. Rios, A. Lopez‐Zaplana, J. Nicolas‐Espinosa, …
    Physiologia Plantarum, 171(4), 595–619, 2021.
    Citations: 71

  2. Confronting Secondary Metabolites With Water Uptake and Transport in Plants Under Abiotic Stress
    J. Nicolas-Espinosa, P. Garcia-Ibañez, A. Lopez-Zaplana, L. Yepes-Molina, …
    International Journal of Molecular Sciences, 24(3), 2826, 2023.
    Citations: 51

  3. Discerning the Mechanism of the Multiwalled Carbon Nanotubes Effect on Root Cell Water and Nutrient Transport
    M.C. Martinez-Ballesta, N. Chelbi, A. Lopez-Zaplana, M. Carvajal
    Plant Physiology and Biochemistry, 146, 23–30, 2020.
    Citations: 49

  4. Relationships Between Aquaporins Gene Expression and Nutrient Concentrations in Melon Plants (Cucumis melo L.) During Typical Abiotic Stresses
    A. Lopez-Zaplana, N. Martinez-Garcia, M. Carvajal, G. Bárzana
    Environmental and Experimental Botany, 195, 104759, 2022.
    Citations: 31

  5. Foliar Mineral Treatments for the Reduction of Melon (Cucumis melo L.) Fruit Cracking
    A. Lopez-Zaplana, G. Bárzana, A. Agudelo, M. Carvajal
    Agronomy, 10(11), 1815, 2020.
    Citations: 27

  6. Genome-Wide Analysis of the Aquaporin Genes in Melon (Cucumis melo L.)
    A. Lopez-Zaplana, J. Nicolas-Espinosa, M. Carvajal, G. Bárzana
    Scientific Reports, 10(1), 22240, 2020.
    Citations: 25

  7. Foliar Application of Boron Nanoencapsulated in Almond Trees Allows B Movement Within Tree and Implements Water Uptake and Transport Involving Aquaporins
    J.J. Rios, A. Lopez-Zaplana, G. Bárzana, A. Martinez-Alonso, M. Carvajal
    Frontiers in Plant Science, 12, 752648, 2021.
    Citations: 17

  8. Aquaporins Involvement in the Regulation of Melon (Cucumis melo L.) Fruit Cracking Under Different Nutrient (Ca, B and Zn) Treatments
    A. Lopez-Zaplana, G. Bárzana, L. Ding, F. Chaumont, M. Carvajal
    Environmental and Experimental Botany, 201, 104981, 2022.
    Citations: 15

  9. Water Relations After Ca, B and Si Application Determine Fruit Physical Quality in Relation to Aquaporins in Prunus
    F. Quirante-Moya, A. Martinez-Alonso, A. Lopez-Zaplana, G. Bárzana, …
    Scientia Horticulturae, 293, 110718, 2022.
    Citations: 7

  10. Gut Microbiota: An Immersion in Dysbiosis, Associated Pathologies, and Probiotics
    V. Origüela, A. Lopez-Zaplana
    Microorganisms, 13(5), 1084, 2025.
    Citations: 2

  11. Deciphering Arabidopsis Aquaporin Networks: Comparative Analysis of the STRING and BioGRID Interactomes
    A. Lopez-Zaplana
    International Journal of Plant Biology, 16(1), 28, 2025.
    Citations: 1

  12. Exploring the Mechanism of Blindness Physiopathy in Brassica oleracea var. italica L. by Comprehensive Transcriptomics and Metabolomics Analysis
    A. Lopez-Zaplana, J. Nicolas-Espinosa, L. Albaladejo-Marico, M. Carvajal
    Plant Physiology and Biochemistry, 206, 108304, 2024.
    Citations: 1

  13. Relationship Between Aquaporins Expression and B Concentration for Conferring Cold Stress Tolerance in Broccoli Cultivars
    A. Lopez-Zaplana, J. Nicolas-Espinosa, M. Carvajal, G. Bárzana
    Environmental and Experimental Botany, 187, 104466, 2021.
    Citations: 1

  14. The Impact of Semi‐Transparent Solar Panels on Tomato and Broccoli Growth
    A. Lopez‐Zaplana, L. Yepes‐Molina, P. Garcia‐Ibañez, …
    Advanced Energy and Sustainability Research, 5(5), 2300175, 2024.

  15. Melon (Cucumis melo L.) Aquaporins as Molecular Markers of Resistance to Abiotic Stresses and Physiopathies
    Á. Lopez-Zaplana
    Proyecto de Investigación, 2022.

  16. Interrelations of Nutrient and Water Transporters in Plants Under Abiotic Stress (Book Chapter or Report)
    G. Bárzana González, J.J. Ríos Ruiz, Á. Lopez-Zaplana, J. Nicolás Espinosa, …
    John Wiley & Sons, 2021.

  17. Aquaporins Involvement in the Regulation of Melon (Cucumis melo L.) Fruit Cracking Under Different Nutrient (Ca, B and Zn) Treatments (Preprint)
    M. Carvajal, A. Lopez-Zaplana, G. Bárzana, L. Ding, F. Chaumont
    Available at SSRN: 4088643

 

Pedro Crugeira | Biotechnology | Innovator of the Year Achievement Award

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Dr. Pedro Crugeira | Biotechnology | Innovator of the Year Achievement Award

Researcher Polytechnic Institute of Braganca Portugal

Pedro Jorge Louro Crugeira (b. 28 March 1972) is a seasoned biotechnologist with a rich academic and research trajectory spanning biotechnology, bioprocess engineering, and photobiomodulation. With over two decades of experience in academia and industry, he has contributed significantly to sustainable bioprocesses for producing high-value bioactives using photostimulation techniques. He currently serves as a researcher at the Mountain Research Centre (CIMO), Polytechnic Institute of Bragança, where he contributes to the OleaChain Project focused on innovation in the traditional olive grove value chain.

Profile

Scopus

Orcid

🎓 Education

Pedro holds a Ph.D. in Biotechnology (2016) and a Master’s in Biotechnology from the Federal University of Bahia (UFBA), Brazil, and completed a post-doctorate in Biotechnology focusing on photostimulation for bioactive production. He also earned a Bachelor’s in Biotechnology from Instituto Superior de Humanidades e Tecnologia and a Degree in Biotechnological Engineering from Universidade Lusófona, Portugal. Additionally, he specialized in Innovation and Quality at the Portuguese Industrial Association.

🧪 Experience

Pedro has worked across Brazil and Portugal in academic and industrial capacities. He held teaching positions at Salvador University Center (UNICEUSA) and SALVADOR COLLEGE (FACSAL). He is currently a Polytechnic Teacher at both the School of Agriculture and the School of Technology and Management, Polytechnic Institute of Braganca . His prior industrial roles include being Technical Director at ATOM Scientific and a consultant at GUIRRE Cosmetics Industry, Brazil. He led innovative projects funded by PETROGAL, FAPEX, and COMPETE2030.

🔬 Research Interest

His research spans industrial and environmental biotechnology, bioprocess microbiology, biophotonics, and bioactive production through photostimulation. He is particularly invested in sustainable strategies for utilizing industrial by-products and developing photostimulated microbial biopolymers. He is also engaged in bioremediation, medical biotechnology, and bioproduct engineering for health and environmental applications.

🏆 Awards & Recognitions

Pedro has been consistently recognized for his contributions to sustainable biotechnology innovation. He was appointed as the Principal Investigator for national and European-funded projects such as INOVOlive and RARISS, under COMPETE2030 and NORTE2020 programs, aimed at value-adding bioresources and improving traceability in agro-industrial systems.

📚 Publications Top Notes:

Pedro has authored multiple book chapters and journal articles that reflect his innovative contributions:

📘 Photostimulation Applied to the Production of Biopolymers (Exopolysaccharides), in Progress in Hydrogen Energy, Fuel Cells, Nano-Biotechnology and Advanced Bioactive Compounds, Springer, 2024.
DOI: 10.1007/978-3-031-75984-0_16
Cited by: 2 articles

📘 Exploring Innovative Exogenous Green Stimulus Methods for Boosting Bioprocesses: Electric, Magnetic and Ultrasound Stimulation Techniques, in Trends and Innovations in Energetic Sources, Functional Compounds and Biotechnology, 2023.
Published in the United States
Cited by: 1 article

📘 Surfactant/Alkali Stress Effect in Exopolysaccharide Production by Xanthomonas and Enterobacter Strains, in Functional Properties of Advanced Engineering Materials and Biomolecules, Springer, 2021.
DOI: 10.1007/978-3-030-62226-8_24
Cited by: 3 articles

📘 Effect of Light Stimulation on a Thermo-Cellulolytic Bacterial Consortium Used for the Degradation of Cellulose of Green Coconut Shells, in Emerging Research in Science and Engineering Based on Advanced Experimental and Computational Strategies, Springer, 2020.
DOI: 10.1007/978-3-030-31403-2_8
Cited by: 4 articles

📘 Disclosing the potential of Cupressus leylandii A.B. Jacks & Dallim, Eucalyptus globulus Labill., Aloysia citrodora Paláu, and Melissa officinalis L. hydrosols as eco-friendly antimicrobial agents

📘 Inactivation of Staphylococcus aureus by antimicrobial photodynamic therapy using 1,9-Dimethyl-Methylene Blue: in vitro and in vivo studies

📘 Copper-induced exopolysaccharide production by Lelliottia amnigena strain LABEM

📘 Exploring Innovative Exogenous Green Stimulus Methods for Boosting Bioprocesses: Electric, Magnetic and Ultrasound Stimulation Techniques