Neha Ghanshyam Paserkar | Plant Breeding | Best Scholar Award

Published on by Plant Scientist

Best Scholar Award

Neha Ghanshyam Paserkar – McGill University, Canada

Neha Ghanshyam Paserkar
Affiliation McGill University
Country Canada
Scopus ID 58143747000
Documents 59
Citations 59
h-index 3
Subject Area Plant Breeding
Event International Plant Scientist Awards

Neha Ghanshyam Paserkar is a researcher associated with McGill University whose scholarly activities span plant breeding, agricultural biotechnology, nanotechnology applications, and sustainable biological systems. Her work reflects interdisciplinary approaches that combine plant science, microbial interactions, and emerging technologies to address challenges relevant to agriculture and food systems. Her academic contributions are documented through peer-reviewed publications and collaborative research initiatives within the broader field of life sciences.[1]

Abstract

This article presents an overview of the academic profile and scholarly contributions of Neha Ghanshyam Paserkar. Her research interests encompass plant breeding, agricultural biotechnology, nanotechnology-enabled biological applications, and environmental sustainability. Through collaborative investigations and peer-reviewed publications, she has contributed to scientific discussions involving crop improvement, microbial interactions, food preservation technologies, and genome-based agricultural innovations.[2]

Keywords

Plant Breeding, Agricultural Biotechnology, Nanotechnology, Crop Improvement, Food Preservation, Biofilms, Genome Editing, Sustainable Agriculture.

Introduction

Modern agricultural research increasingly requires multidisciplinary perspectives that integrate biological sciences, biotechnology, and sustainable production systems. Neha Ghanshyam Paserkar has participated in research initiatives that align with these objectives by examining plant-focused technologies and biological innovations. Her publication record demonstrates engagement with contemporary scientific challenges relevant to food security, crop productivity, and environmental stewardship.[3]

Research Profile

Paserkar’s research profile includes contributions across plant breeding, microbial science, nanotechnology, and agricultural biotechnology. Her scholarly activities emphasize collaborative investigations and knowledge generation applicable to both fundamental and applied scientific contexts. Indexed publications and citation records indicate active participation in international research communication and dissemination.[1]

Research Contributions

  • Research on nanotechnological applications for food preservation and shelf-life enhancement.
  • Studies examining nanocomposites and their role against biofilm-associated infections.
  • Gene coexpression analysis related to chlorophyll and water-content traits in pearl millet.
  • Contributions to genome editing approaches targeting bacterial plant pathogens.
  • Scholarly work addressing biosafety and environmental concerns of engineered biofilms.

Publications

Neha Ghanshyam Paserkar has contributed to several peer-reviewed publications and scholarly book chapters spanning plant science, nanotechnology, biotechnology, and agricultural research. Her published work includes investigations into nanotechnological applications for improving food shelf life, the use of nanocomposites against biofilm-associated infections, and gene coexpression analysis related to chlorophyll content and water-use traits in pearl millet. She has also contributed to academic literature addressing biosafety considerations of engineered biofilms and genome editing strategies targeting bacterial plant pathogens. These publications demonstrate an interdisciplinary research portfolio focused on advancing scientific understanding in plant breeding, biotechnology, sustainable agriculture, and applied biological sciences.[4]

Research Impact

The available scholarly record highlights contributions to emerging research areas involving agricultural biotechnology and nanotechnology applications. Publications addressing food preservation, biofilm management, genome editing, and crop-related genetic analysis contribute to ongoing scientific dialogue. Such work supports knowledge advancement across interconnected fields of plant science and biological innovation.[4]

Award Suitability

Based on documented scholarly activities, publication output, and interdisciplinary research engagement, Neha Ghanshyam Paserkar demonstrates characteristics commonly associated with academic recognition programs in plant science. Her contributions align with the thematic objectives of the International Plant Scientist Awards, particularly in areas involving innovation, sustainability, and applied biological research.[5]

Conclusion

Neha Ghanshyam Paserkar’s academic portfolio reflects participation in diverse research areas relevant to contemporary plant and agricultural sciences. Through peer-reviewed publications and collaborative scholarship, she has contributed to scientific understanding in biotechnology, nanotechnology, and crop improvement. Her body of work represents a developing research trajectory with relevance to sustainable agricultural advancement and innovation.

References

  1. Elsevier. (n.d.). Scopus author details: Neha Ghanshyam Paserkar, Author ID 58143747000. Scopus.https://www.scopus.com/authid/detail.uri?authorId=58143747000
  2. Saini, R., Paserkar, N., Varma, A., et al. (2025). Emerging Nanotechnological Applications in Preserving and Improving the Shelf Life of Food. Pharmaceutical Nanotechnology.http://dx.doi.org/10.2174/0122117385260631231016102111
  3. Varma, A., Warghane, A., Dhiman, K. N., et al. (2023). The role of nanocomposites against biofilm infections in humans. Frontiers in Cellular and Infection Microbiology, 13, 1104615.https://doi.org/10.3389/fcimb.2023.1104615
  4. Shinde, H., Dudhate, A., Sathe, A., et al. (2023). Gene coexpression analysis identifies genes associated with chlorophyll content and relative water content in pearl millet. Plants, 12(6), 1412.https://www.mdpi.com/2223-7747/12/6/1412
  5. Warghane, A., Paserkar, N., & Bhose, S. (2024). The Genome Editing against Bacterial Plant Pathogens. Bentham Science.https://doi.org/10.2174/9789815223798124010004

Dalrene Teresa Keerthika James | Plant science | Best Researcher Award

Published on by Plant Scientist

Dr. Dalrene Teresa Keerthika James | Plant science | Best Researcher Award

South and City College Birmingham | United Kingdom

This researcher is a dedicated academic and environmental engineer specializing in sustainable water resource management, wastewater treatment, and greywater reuse technologies. With strong expertise in developing alternative sources of irrigation water, their work integrates civil engineering, environmental management, and agroecology. They have contributed significantly to conferences, journals, and community-focused projects, presenting innovative solutions for sustainable water use across urban, domestic, and agricultural systems. Currently serving as a lecturer in the UK, they actively teach and mentor students while continuing impactful research. Their academic journey demonstrates commitment to addressing global water challenges and promoting sustainability in construction and environmental sciences.

Author Profile

Google Scholar

Education 

The researcher’s academic journey reflects a comprehensive background in civil and environmental engineering. They earned a PhD in Agroecology, Water, and Resilience from Coventry University, focusing on sustainable irrigation using greywater and roof-derived stormwater. Their MSc in Civil Engineering and Environmental Management from the University of South Wales emphasized water collection and reuse systems. Additionally, they completed a Graduate Diploma in Civil Engineering accredited by the UK Engineering Council. Early studies included advanced-level mathematics and sciences, providing a strong foundation in analytical skills. This multidisciplinary education has enabled them to integrate engineering principles with sustainability and environmental research.

Professional Experience 

The researcher has diverse academic and teaching experience in higher education and technical training. Currently, they work as a lecturer in Professional Construction at South City College Birmingham, delivering modules in construction technology, site engineering, and surveying, while designing assignments and supervising practical sessions. Previously, they taught at Solihull College, covering a wide range of subjects in the built environment, civil engineering, and mathematics. In addition, they have worked as a supply teacher and SEN teaching assistant, gaining valuable classroom management and mentoring experience. These roles demonstrate their ability to combine academic expertise with practical teaching excellence.

Awards and Recognition 

The researcher has been recognized for their contributions through active participation in international conferences, oral presentations, and poster sessions. They have presented at renowned platforms such as the International Water Association conferences in the UK, France, and Italy, where their innovative work on greywater treatment and sustainable water systems gained significant visibility. Their research has been published in peer-reviewed journals, highlighting its impact in the field of sustainability and environmental engineering. Recognition includes invitations to present doctoral research at internal academic competitions and conferences. Such achievements reflect their growing reputation and potential for future research excellence.

Research Skills 

The researcher possesses strong skills in water and wastewater treatment technologies, environmental chemical analysis, and sustainability-driven design. Their expertise includes operating advanced laboratory instruments such as inductively coupled plasma spectrometry, LC-MS/MS, and Hach-Lange spectrophotometry, alongside practical experience with nutrient and water quality assessments. They are adept at developing low-cost materials for greywater reclamation, blue-green roof water systems, and simple sorptive filtration techniques. Their approach integrates experimental design, material development, and environmental monitoring with engineering solutions for real-world water challenges. This multidisciplinary skill set enables them to address pressing global needs in sustainable water management and resource conservation.

Publications

James, D.T.K., Surendran, S., Ifelebuegu, A.O., Ganjian, E., & Kinuthia, J. (2016). “Grey water reclamation for urban non-potable reuse–challenges and solutions.

James, D.T.K., & Ifelebuegu, A.O. (2018). “Low cost sustainable materials for grey water reclamation” in Water Science and Technology.

James, D.T.K. (2022). “Alternative sources of irrigation water for domestic, horticultural and landscape gardening: the use of blue-green roof water and greywater treated by a simple sorptive system”

Coupe, S., James, D., Newman, A.P., & Trenchard, L. (2023). “Landscape and Horticultural Fertigation Using Roof-Derived Storm Water:

James, D.T.K., Coupe, S., Mbanaso, F., & Newman, A. (2021). “Landscape and Horticultural Irrigation Using Roof-Derived Stormwater”

James, D.T.K., Coupe, S., Newman, A.P., & Mbanaso, F. (2019). “Greywater Reclamation is a Sustainable Solution for Flats and Housing Developments”

Conclusion 

In conclusion, this researcher demonstrates an outstanding blend of academic expertise, practical engineering knowledge, and teaching excellence. Their research addresses global water scarcity by exploring alternative irrigation sources and sustainable treatment methods. With a strong record of publications, conference presentations, and collaborative projects, they have contributed to advancing innovative solutions for water reuse and resource management. As a lecturer, they continue to inspire students while actively expanding research impact. Their dedication to sustainability, coupled with technical competence and global outlook, positions them as a valuable academic and researcher committed to solving water and environmental challenges worldwide.

Saeid Pourmanafi | Crop Science | Best Researcher Award

Published on by Plant Scientist

Assoc. Prof. Dr. Saeid Pourmanafi | Crop Science | Best Researcher Award

Isfahan University of Technology | Iran

Assoc. Prof. Dr. Saeid Pourmanafi is a leading environmental and geospatial researcher at Isfahan University of Technology, focusing on arid region landscapes and sustainable planning. He integrates remote sensing, spatial modeling, and machine learning to address ecological, agricultural, and urban challenges in central Iran. His work spans wetland conservation, habitat suitability, soil erosion, and urban sustainability. Through interdisciplinary collaboration, he contributes to environmental monitoring, landscape planning, and decision support systems. His research leverages satellite imagery analysis (Landsat, Sentinel‑2, WorldView‑3) and spatial classification tools to inform evidence‑based ecological restoration, urban land use policy, and biodiversity protection in arid ecosystems.

Author Profile

Education 

Dr. Pourmanafi holds advanced training in environmental science, geoinformatics, and remote sensing with emphasis on ecological applications in arid landscapes. His education equipped him with proficiency in GIS, multi-source satellite image classification, and time-series analysis for ecosystem monitoring. He developed expertise in machine learning approaches such as regression neural networks, classification algorithms, and connectivity modeling methods (GARP, DOMAIN, NPMR). He also learned to apply ecological decision frameworks—MEDALUS for desertification, RUSLE for erosion, MCDA/NSGA‑II/MOLA for conservation zoning, and InVEST for habitat quality modeling. His academic foundation bridges environmental modeling, spatial analytics, and sustainable planning tailored to semi-arid ecosystems.

Professional Experience 

With a robust track record of applied research, Dr. Pourmanafi has led projects on habitat mapping for wetlands, desertification modeling, and spatial evaluation of urban land use. He has implemented soil erosion assessments using RUSLE, salinity monitoring via OLI sensor data, and thermal power plant suitability modeling using GIS-based multi-criteria analysis. He has contributed to wetland restoration prioritization using MC‑SDSS, crop type mapping via Landsat and Sentinel‑2, and connectivity modeling for endangered ungulates. His experience includes assessing ecotourism potential with NSGA‑II, evaluating urban sustainability through neighborhood-scale spatial modeling, and integrating ecosystem services hotspots into land-use planning in central Iran.

Awards and Recognition 

While specific awards are not reported, Dr. Pourmanafi’s consistent publication record in high-impact journals—Scientific Reports, Global Change Biology, Ecological Indicators, Sustainable Cities and Society, International Journal of Applied Earth Observation, and Journal of Arid Environments—demonstrates academic esteem. His application of innovative methodologies in areas such as machine learning, classification algorithms, and multi-criteria spatial planning underscores his scholarly recognition. The breadth and quality of multi-author and international collaborations reflect trust in his expertise. Frequent citations of his studies on habitat connectivity, climate‑driven land cover changes, and ecological modeling further highlight his standing in environmental geoinformatics and integrated landscape management.

Research Skills 

Dr. Pourmanafi excels in remote sensing, ecosystem modeling, and spatial decision support. His core competencies include satellite data analysis (Landsat, Sentinel‑2, WorldView‑3), hybrid and hierarchical image classification, and regression neural networks. He is skilled in RUSLE-based erosion analysis, MEDALUS desertification assessment, connectivity modeling (GARP, DOMAIN, NPMR), and habitat quality evaluation through InVEST. Advanced proficiency in multi-criteria decision analysis (MCDA), MOLA, NSGA‑II, and ecosystem services hotspot mapping equips him to design conservation zoning and ecotourism suitability models. He also employs GWR modeling for carbon sequestration mapping and integrates land cover change detection techniques to inform climate adaptability and sustainable land management.

Publications

Pourmanafi, S., et al. (2025). “Predicting soil chemical characteristics in the arid region of central Iran using remote sensing and machine learning models” in Scientific Reports.

Pourmanafi, S., et al. (2025). “Employing Sentinel‑2 time‑series and noisy data quality control enhance crop classification in arid environments: A comparison of machine learning and deep learning methods” in International Journal of Applied Earth Observation and Geoinformation.

Pourmanafi, S., et al. (2025). “Multivariate analysis of dynamic correlations between urban form and air pollution: Implications for sustainable urban planning” in Sustainable Cities and Society.

Pourmanafi, S., et al. (2025). “Impacts of Climate‑Land Dynamics on Global Population and Sub‑Populations of a Desert Equid” in Global Change Biology (Cited by 1).

Conclusion 

Assoc. Prof. Dr. Pourmanafi’s body of work exemplifies excellence at the intersection of environmental geoinformatics, ecological modeling, and spatial planning. His interdisciplinary approach blends remote sensing, machine learning, and multi-criteria frameworks to address challenges in arid landscapes—from wetland dynamics to habitat connectivity and urban sustainability. His consistent scholarly output across leading journals demonstrates a strong impact and methodological innovation. With technical skillsets transferable to policy and management, he is a key contributor to evidence-based planning and conservation. His research trajectory promises continued contributions to sustainable land use, biodiversity protection, and integrated environmental decision support across semi‑arid and urban ecosystems.