Geoffrey Hammond | Agricultural Biotechnology | Best Researcher Award

Posted on by sciencefather

Prof. Dr. Geoffrey Hammond | Agricultural Biotechnology | Best Researcher Award

Professor Emeritus at University of Bath, United Kingdom

Prof. Geoffrey P. Hammond is Professor Emeritus at the University of Bath and the founding Director of the Institute for Sustainable Energy & the Environment (I•SEE). A mechanical engineer with a rich interdisciplinary background in environmental protection and business management, his career spans decades of impactful research and leadership.

Profile:

🎓 Academic Background & Career:

Professor Geoffrey Hammond is Professor Emeritus of Mechanical Engineering at the University of Bath** and founding Director of the Institute for Sustainable Energy & the Environment (I•SEE). He began his academic journey after early engineering work in the UK refrigeration industry and teaching in Uganda under Voluntary Services Overseas.

🔬 Research Interests & Contributions:

Prof. Hammond’s work spans technology assessment of energy systems, industrial decarbonisation, and low-carbon transition pathways. His multidisciplinary approach blends thermodynamics, environmental footprinting, and life-cycle assessment.
He co-originated the widely-used Inventory of Carbon and Energy (ICE) and has published extensively on sustainable energy.

📚 Honors & Awards:

He is the recipient of multiple prestigious awards, including:
🏅 Dufton Silver Medal (1984)
🏅 George Stephenson Prize (2009)
🏅 James Watt Medal (2015 & 2021)
🏅 Baker Medal (2019 & 2023)
In 2019, he was awarded a Doctor of Science (DSc) for his significant contributions to sustainable energy and the environment.

🌍 Policy & Advisory Roles:

Prof. Hammond has advised UK Government departments such as BEIS, Defra, and the Climate Change Committee. He has contributed internationally through consulting in Sri Lanka and Taiwan, and served on various regional environmental and climate action boards in the UK.

📝 Editorial & Academic Leadership:

He is Editor-in-Chief of the ICE journal “Energy” and serves on editorial boards for several energy and environment journals. He was also appointed Output Assessor on Energy and Sustainability for the UK Research Excellence Framework (REF 2014).

📣 Keynote Engagements:

He has delivered keynote addresses at high-profile international conferences, including the opening keynote at ICAE2018 in Hong Kong.

📊 Citation Metrics:

  • Total Citations: 9,535

  • Citations since 2020: 3,784

  • h-index: 51

  • h-index since 2020: 32

  • i10-index: 104

  • i10-index since 2020: 67

Publication Top Notes:

  • Embodied energy and carbon in construction materials
    G.P. Hammond, C.I. Jones
    Proceedings of the Institution of Civil Engineers – Energy, 161(2), 87–98
    2008Citations: 1371

  • Developing transition pathways for a low carbon electricity system in the UK
    T.J. Foxon, G.P. Hammond, P.J.G. Pearson
    Technological Forecasting and Social Change, 77(8), 1203–1213
    2010Citations: 483

  • Development of design for remanufacturing guidelines to support sustainable manufacturing
    W.L. Ijomah, C.A. McMahon, G.P. Hammond, S.T. Newman
    Robotics and Computer-Integrated Manufacturing, 23(6), 712–719
    2007Citations: 453

  • Embodied carbon
    G. Hammond, C. Jones, E.F. Lowrie, P. Tse
    The Inventory of Carbon and Energy (ICE), Version 2.0, 16
    2011Citations: 390

  • Exergy analysis of the United Kingdom energy system
    G.P. Hammond, A.J. Stapleton
    Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy
    2001Citations: 352

  • Improved data correlations for buoyancy-driven convection in rooms
    F. Alamdari, G.P. Hammond
    Building Services Engineering Research and Technology, 4(3), 106–112
    1983Citations: 281

  • Time to give due weight to the ‘carbon footprint’ issue
    G. Hammond
    Nature, 445(7125), 256
    2007Citations: 226

  • Techno-economic appraisal of fossil-fuelled power generation systems with carbon dioxide capture and storage
    G.P. Hammond, S.S.O. Akwe, S. Williams
    Energy, 36(2), 975–984
    2011Citations: 224

  • Environmental life cycle assessment of lignocellulosic conversion to ethanol: a review
    A.L. Borrion, M.C. McManus, G.P. Hammond
    Renewable and Sustainable Energy Reviews, 16(7), 4638–4650
    2012Citations: 223

  • Sustainability and the built environment at and beyond the city scale
    M.R.C. Doughty, G.P. Hammond
    Building and Environment, 39(10), 1223–1233
    2004Citations: 187

 

Supriya Ambawat | Agricultural Biotechnology | Women Researcher Award

Posted on by sciencefather

Dr Supriya Ambawat |  Agricultural Biotechnology | Women Researcher Award

Assistant Professor at Agriculture University, Jodhpur, India

Dr. Supriya is an Assistant Professor specializing in Plant Biotechnology at the PC Unit, ICAR-AICRP on Pearl Millet, Agriculture University, Jodhpur, India. Her research focuses on crop improvement, genetic enhancement, and biotechnology applications in pearl millet. Passionate about advancing sustainable agricultural practices, she actively contributes to research initiatives aimed at enhancing millet productivity and resilience.

Profile:

🎓 Academic Background:

  • Ph.D. (2010) – CCS HAU, Hisar (Research at ICRISAT, Hyderabad)

    • Genetic diversity analysis & QTL mapping in pearl millet using DArT

  • M.Sc. (2006) – CCS HAU, Hisar

    • Biotechnology & Molecular Biology (Isolation of drought-related MYB transcription factor gene from Brassica carinata)

  • B.Sc. (2004) – Kurukshetra University

🏆 Awards & Recognitions:

  • SPR-Springer Young Scientist Award (2024) – Society for Plant Research

  • Excellence Research Fellow Award (2021) – APSR, Plantica Foundation

  • Young Scientist Award (2020) – International Conference on GNRSA

  • Outstanding Woman in Agricultural Sciences (2019) – Venus International Foundation

  • Emerging Scientist Award (2018) – Society for Science and Nature

  • Multiple Best Oral & Poster Presentation Awards at national & international conferences

🔬 Research Focus:

  • Plant Biotechnology & Molecular Biology

  • Genetic Diversity & QTL Mapping in Pearl Millet

  • Drought Tolerance Mechanisms in Plants

🏅 Notable Contributions:

  • Established a Common Facility Lab at PC Unit, Jodhpur

  • Principal Investigator (PI) for multiple research initiatives in plant biotechnology

  • Recognized for contributions to moisture conservation & yield improvement in pearl millet

Citations:

Citations: 2,120 (since 2020: 1,422)
h-index: 16 (since 2020: 14)
i10-index: 23 (since 2020: 19)

Publication Top Notes:

  • MYB Transcription Factor Genes as Regulators for Plant Responses: An Overview

  • Pearl Millet: A Climate-Resilient Nutricereal for Mitigating Hidden Hunger and Providing Nutritional Security

  • Pearl Millet [Pennisetum glaucum (L.) R. Br.] Consensus Linkage Map Constructed Using Four RIL Mapping Populations and Newly Developed EST-SSRs

  • Development of a Molecular Linkage Map of Pearl Millet Integrating DArT and SSR Markers

  • Water-Saving Traits Co-Map with a Major Terminal Drought Tolerance Quantitative Trait Locus in Pearl Millet [Pennisetum glaucum (L.) R. Br.]

  • Mitochondrial DNA: A Tool for Phylogenetic and Biodiversity Search in Equines

  • QTL Mapping of Pearl Millet Rust Resistance Using an Integrated DArT- and SSR-Based Linkage Map

  • Development of Genome-Wide Informative Simple Sequence Repeat Markers for Large-Scale Genotyping Applications in Chickpea and Development of Web Resource

  • Stage-Specific Comparative Transcriptomic Analysis to Reveal Gene Networks Regulating Iron and Zinc Content in Pearl Millet [Pennisetum glaucum (L.) R. Br.]

  • Validation of Molecular Markers for Marker-Assisted Pyramiding of White Rust Resistance Loci in Indian Mustard (Brassica juncea L.)

  • Identification, Characterization, Validation, and Cross-Species Amplification of Genic-SSRs in Indian Mustard (Brassica juncea)

  • Genetic Analysis of Morphological and Physiological Traits in Indian Mustard (Brassica juncea L.)

  • Screening and Estimation of Allelic Differentiation in Indian Mustard Using SSR Markers for Background Selection

  • Development and Evaluation of Double Low Quality Lines in Indian Mustard (Brassica juncea L. Czern & Coss.)

  • Micronutrient-Rich Pearl Millet for Nutritionally Secure India

  • Genetic Structure Identification and Assessment of Interrelationships Between Brassica and Allied Genera Using Newly Developed Genic-SSRs of Indian Mustard (Brassica juncea L.)

  • Genomic Designing for Abiotic Stress Tolerance in Pearl Millet [Pennisetum glaucum (L.) R. Br.]

  • Biotechnological Applications for Improvement of the Pearl Millet Crop

  • Pearl Millet-Hybrids and Varieties

  • Identification and Characterization of New Resistance Sources Against Sclerotinia Stem Rot (Sclerotinia sclerotiorum) in Oilseed Brassica

  • Morphological and Molecular Diversity Among Full-Sib Progenies of Indian Mustard (Brassica juncea L.)

  • Use of Library Resources and Services by Students of PESITM and JNN College of Engineering in Shivamogga: A Comparative Study

 

 

Chikezie Onuora Ene | Genotypes | Young Scientist Award

Posted on by sciencefather

Dr. Chikezie Onuora Ene | Genotypes | Young Scientist Award

Lecturer II of Alex Ekwueme-Federal University, Nigeria

Dr. Chikezie Onuora Ene is a passionate researcher and educator in the field of crop science. He is focused on enhancing crop yields and quality under challenging environmental conditions through advanced molecular breeding techniques. With a strong academic background and practical experience in teaching and research, Dr. Ene is committed to advancing agricultural science and improving food security. 🌾🌱👨‍🏫

Profile :

Educational Background :

  • Ph.D. in Plant Breeding (2019-2023) – Jimma University, Ethiopia. Thesis: “Genetic analysis and quantitative trait loci mapping for selected quantitative traits in tomato (Solanum spp.)” (GPA: 3.86/4.00).
  • M.Sc. in Plant Breeding and Genetics (2013-2017) – University of Nigeria, Nsukka, Enugu State, Nigeria. Thesis: “Variability and heritability studies in cucumber (Cucumis sativus L.)” (CGPA: 4.91/5.00).
  • B.Sc. in Crop Production and Protection (2006-2011) – Abia State University, Uturu, Abia State, Nigeria. Thesis: “Performance of three soybean (Glycine max L. Merril) varieties under varying weeding regimes” (CGPA: 4.62/5.00) – First Class Honours.

Professional Experience :

Since 2017, Dr. Ene has been a Lecturer in the Crop Science Department at Alex Ekwueme-Federal University, Ndufu-Alike Ikwo (AE-FUNAI), Ebonyi State, Nigeria. He teaches a range of crop science courses including Crop Taxonomy, Anatomy and Physiology, Arable Crops Production, Principle of Crop Protection, Crop Breeding and Genetics, Principle of Crop Production, Permanent Crop Production, and bio-statistics/Field experimentation. Previously, he worked as a Research/Laboratory Assistant at the National Root Crops Research Institute (NRCRI) in Umudike, Abia State, Nigeria (2009-2010), conducting research on yam breeding, plant protection, tissue culture, and in-vitro propagation and multiplication of cassava, cocoyam, yam, and other crops. He also served as a Field Enumerator/Farm Attendant for the Ministry of Agriculture, Abia State (2009-2010), where he collated data on rural cassava farmers and related stakeholders. Additionally, Dr. Ene taught agricultural science at Kono Secondary School, Rivers State, Nigeria, as part of the National Youth Service Corps (2012-2013).

Research Focus :

Dr. Chikezie Onuora Ene is dedicated to improving fruit and grain yields and the quality of vegetables (cucumber, pepper, tomato) and cereals (maize) under various abiotic stresses such as heat stress, salinity, drought, and humidity. He focuses on plant molecular breeding techniques, particularly marker-assisted selection.

Publication Top Notes:

  • Ogah O., Ene C.O., Ebenyi L.N., Frederick O.O., Okpuru I.G., Nwankwo, S.E. (2024). Comparative assessment for nutritional and antinutritional qualities revealed better performance of traditional white-fleshed sweet potatoes than orange-fleshed sweet potatoes. 120/2: 1-17. Acta Agriculturae Slovenica. doi: https://doi.org/10.14720/aas.2024.120.2.15297 (WOS) (SCOPUS)
  • Ene, C.O., Abtew, W.G., Oselebe, H.O., Chukwudi, U.P., Okechukwu, E.C., Menamo, T.M., Ozi, F.U., Ene,K., Atugwu, A.I. (2024). Selfing revealed potential for higher yield performance than backcrossing among tomato segregating populations of Solanum lycopersicum × S. Pimpinellifolium crosses under tropical humid climate. Journal of Agriculture and Food Research. 15(2024): 100993. doi: https://doi.org/1016/j.jafr.2024.100993 (WOS) (SCOPUS)
  • Nwankwo, M.C., Ogwo, N., Oti, V.O., Nweze, N.O., Ohabuiro, A.A., Ene, O.C. (2023). Effects of indole butyric acid and coconut liquid endosperm on rooting of Crateva adansonii Journal of Biological Research & Biotechnology (Bio-Research). 21(2): 2003-2018. doi: https://dx.doi.org/10.4314/br.v21i2.7s
  • Ene, C.O., Abtew, W.G., Oselebe, H.O., Ozi, F.U., Ogah, O., Okechukwu, E.C., Chukwudi, U.P. (2023). Hybrid vigour and heritability estimates in tomato crosses involving Solanum lycopersicum × pimpinellifolium under cool tropical monsoon climate. International Journal of Agronomy. Article ID 3003355. doi: https://doi.org/10.1155/2023/3003355 (WOS) (SCOPUS)
  • Ahaiwe, M.C, Nwoko, M.C., Ogwo, N., Ene, C.O. (2022). Effect of pasteurization techniques on productivity, morphology and mycochemical composition of Pleurotus ostreatus (JACQ.) fruit-bodies cultured on Andropogon gayanus Journal of Food and Fibre Production. 3(3): 15-25.
  • Ene, C.O., Abtew W.G., Oselebe, H.O., Ozi, F.U., Ikeogu, U.N. (2022). Genetic characterization and quantitative trait relationship using multivariate techniques reveals diversity among tomato germplasms. Food Science and Nutrition. 10: 2426-2442. doi: https://doi.org/10.1002/fsn3.2850 (WOS) (SCOPUS)
  • Inyang, P., Ene, C.O., Emmanuel, A., Chukwudi, U.P., Ikeogu, U.N. (2021). Environmental impact and genetic expressions of new drought-tolerant maize genotypes in derived savannah agro-ecology. Notulae Scientia Biologicae. 13(1): 10691. doi: https://doi.org/10.15835/nsb13110691 (SCOPUS)
  • Onyia, V.N., Chukwudi, U.P., Ezea, A.C., Atugwu, A.I., Ene, C.O. (2020). Correlation and path coefficient analyses of yield and yield components of eggplant (Solanum melongena) in a coarse-textured Ultisol. Information Processing in Agriculture. 7: 173–181. doi: https://doi.org/10.1016/j.inpa.2019.03.005 (SCOPUS)
  • Ogwo, N., Ene, C.O.,Ahaiwe, M.C., Chukwudi, U.P. (2019). Influence of varying preservation methods on the shelf life and proximate composition of Pleurotus plumonarius (Fr) Quel cultivated on Andropogon gayanus International Journal of Agriculture, Environment and Food Sciences. 3(3): 162-170. doi: https://doi.org/10.31015/jaefs.2019.3.8
  • Uzoigwe, D.A., Muoneke, C.O., Nwokoro, C.C., Ene, C.O. (2019). Benefit cost analysis of orange fleshed sweet potato (Ipomoea batatas) varieties under varying planting density. Notulae Scientia Biologicae. 11(1): 145-148. doi: https://doi.org/10.15835/nsb11110381 (SCOPUS)

 

Ahmad Sharifi | Plant Biotechnology | BioAgri Innovator Excellence Award

Posted on by sciencefather

Assist Prof Dr Ahmad Sharifi |  Plant Biotechnology  |  BioAgri Innovator Excellence Award

Research Institute for Industrial Biotechnology, Iranian Academic Centre for Education, Culture and Research (ACECR)- Khorasan Razavi Branch at  Horticultural Plants Biotechnology Department,  Iran

Dr. Ahmad Sharifi is a dedicated faculty member at the Ornamental Plant Biotechnology Department of the Iranian Academic Center for Education, Culture & Research (ACECR). With a PhD in Agricultural Biotechnology from Ferdowsi University of Mashhad (2015), Dr. Sharifi also holds an MSc (2003) and a BSc (2000) in Agricultural Sciences from Ferdowsi University of Mashhad and the Agricultural Sciences and Natural Resources University of Gorgan, respectively.

Profile:

Academic Qualifications:

🎓 BSc: Agricultural Sciences and Natural Resources, University of Gorgan, 2000
🎓 MSc: Ferdowsi University of Mashhad, 2003
🎓 PhD: Ferdowsi University of Mashhad, 2015

 

Areas of Expertise:

🌿 Plant Biotechnology
🌱 Plant Tissue Culture

 

Research Focus: Plant Biotechnology

  • Plant Tissue Culture:
    • Development and optimization of in vitro culture techniques for ornamental plants.
    • Somatic embryogenesis and organogenesis in various plant species.
    • Micropropagation protocols for large-scale production of disease-free plants.
  • Genetic Engineering:
    • Genetic transformation methods to enhance desirable traits in ornamental plants, such as disease resistance and improved flower quality.
    • CRISPR/Cas9 and other gene-editing technologies for targeted genetic modifications.
  • Molecular Biology:
    • Analysis of gene expression patterns and molecular pathways involved in plant growth and development.
    • Use of molecular markers for plant breeding and genetic diversity studies.
  • Biotechnological Applications:
    • Production of secondary metabolites and phytochemicals through biotechnological approaches.
    • Application of biotechnology for sustainable agricultural practices and environmental conservation.
  • Bioreactor Systems:
    • Utilization of bioreactor systems for the mass propagation of ornamental plants.
    • Scaling up plant tissue culture techniques for commercial applications.

Publication Top Notes:

1. Optimization of the in-vitro culture protocol of Haworthiopsis viscosa and Haworthia truncata var. truncate

  • Authors: Kharrazi, M., Sargazi Moghaddam, Z., Moradian, M., Khadem, A., Sharifi, A.
  • Journal: South African Journal of Botany, 2024, 169, pp. 506–514

2. Micropropagation and ex vitro rooting of three ZZ plant (Zamioculcas zamiifolia Engl.) cultivars

  • Authors: Kharrazi, M., Moradian, M., Moghaddam, Z.S., Khadem, A., Sharifi, A.
  • Journal: In Vitro Cellular and Developmental Biology – Plant, 2023, 59(1), pp. 129–139

3. Role of AGAMOUS Gene in Increasing Tepals of Amaryllis

  • Authors: Dastmalchi, S., Moshtaghi, N., Sharifi, A.
  • Journal: Journal of Agricultural Science and Technology, 2023, 25(4), pp. 975–988

4. Auxin sensitivity improves production of rosmarinic acid in transformed hairy roots of Lavandula angustifolia

  • Authors: Khadem, A., Bagheri, A., Moshtaghi, N., Akhar, F.K., Sharifi, A.
  • Journal: Biological Communications, 2022, 67(3), pp. 160–167

5. In vitro propagation and callus induction of medicinal endangered plant meadow rue (Thalictrum minus L.) for producing berberine

  • Authors: Moghaddam, Z.S., Moshtaghi, N., Sharifi, A., Zahedi, A., Khadem, A.
  • Journal: Journal of Medicinal Plants, 2022, 21(81), pp. 92–101