Jinyin Lei | Environmental effects | Best Researcher Award

Published On 30/08/202530/08/2025 by ScienceFather

Jinyin Lei | Environmental Effects | Best Researcher Award

Mr. Jinyin Lei at Institute of Agricultural Resources and Environment | China

Mr. Lei Jinyin is a Researcher at the Institute of Agricultural Resources and Environment, Ningxia Academy of Agriculture and Forestry Sciences. He specializes in soil and water conservation, salinity control, and the efficient utilization of agricultural water resources. With a Ph.D. in Soil and Water Conservation and Desertification Control from Northwest A&F University, Mr. Lei has conducted impactful studies on dryland farming, soil fertility, irrigation regimes, and viticulture in the Helan Mountain region. His leadership in national and regional research projects highlights his commitment to advancing sustainable agricultural practices, ensuring food security, and improving ecological resilience in arid regions.

Professional Profile

SCOPUS

Education

Mr. Lei earned his doctorate in Soil and Water Conservation and Desertification Control from Northwest A&F University, following a bachelor’s degree in the same field from Inner Mongolia Agricultural University. His academic background equipped him with strong expertise in land degradation, water management, and sustainable agriculture.

Experience

He has advanced his career at the Ningxia Academy of Agriculture and Forestry Sciences, where he has served as Assistant Researcher, Associate Researcher, and now Researcher. He also broadened his perspective through a visiting research position at the University of Southern Queensland in Australia, which strengthened his international collaboration and expertise in agricultural resource management.

Professional Development

Mr. Lei has continuously enhanced his professional development through leadership in major research projects and collaborations. As principal investigator, he has studied soil organic carbon sequestration under changing hydrothermal conditions. He also directs projects focused on wine grape cultivation in the Helan Mountain region and contributes to studies on intercropping systems for maize and soybeans. His international research experience further expanded his outlook and collaborations. Through his project leadership, publications, and applied demonstrations, he has built expertise that integrates theory with practice, strengthening sustainable agriculture and environmental conservation while addressing the challenges of arid and semi-arid farming systems.D

Research Interests

Mr. Lei’s research centers on soil and water conservation, efficient water use in agriculture, and strategies for salinity control in arid regions. He investigates soil organic carbon sequestration, tillage methods, soil fertility, and crop productivity in water-limited environments. His studies include irrigation management for wine grapes in the Helan Mountain region, aimed at enhancing both yield and quality. He also works on intercropping techniques to improve land use efficiency and resilience. By integrating ecological knowledge with applied agricultural practices, his research contributes to sustainable farming models that support food production while protecting fragile environments in dryland areas.

Awards and Recognitions

Mr. Lei has authored influential works, including a monograph on land degradation and control in the Loess Plateau and several first-authored research papers on soil fertility, tillage, and irrigation. Although formal awards are not listed, his recognition is reflected through his leadership of key funded projects, impactful publications, and practical contributions to sustainable agriculture in Ningxia and beyond. His career progression from early-stage researcher to senior researcher, combined with international academic experience, demonstrates his dedication and scholarly impact. In conclusion, Mr. Lei’s achievements highlight his research leadership, valuable scientific contributions, and commitment to advancing sustainable agricultural development.

Top Noted Publications

Title: Research on Land Degradation and Control in the Wind-Sand Area of the Northern Loess Plateau
Year: 2012

Title: Effects of Tillage Measures on Soil Aggregates and Crop Yield in Hilly Land of Southern Ningxia Mountains
Year: 2020

Title: Effects of Tillage Measures on Soil Nutrient Distribution and Fertilizer Utilization Efficiency in Sloping Farmland
Year: 2020

Title: Effects of Irrigation Regimes on Growth, Yield, and Quality of Wine Grapes in the Eastern Foothills of Helan Mountain
Year: 2021

Conclusion

Mr. Lei Jinyin’s career reflects steady growth from early-stage researcher to senior expert, marked by strong leadership in key projects, influential publications, and international collaboration. His contributions to soil and water conservation, irrigation management, and sustainable farming systems have provided both scientific insights and practical solutions for agriculture in arid regions. Although formal honors are not listed, his recognition lies in the lasting impact of his research, his role in advancing sustainable agricultural practices, and his commitment to ecological resilience. Overall, he stands out as a dedicated scholar contributing meaningfully to agricultural and environmental development.

Muhammad Wasim Haider | Environmental effects | Best Researcher Award

Published On 07/04/202507/04/2025 by ScienceFather

Muhammad Wasim Haider | Environmental effects | Best Researcher Award

Dr. Muhammad Wasim Haider, The Islamia University of Bahawalpur, Pakistan.

Dr. Muhammad Wasim Haider 🎓 is a dedicated horticulture expert and educator currently serving as a Lecturer 🌱 at the Department of Horticultural Sciences, The Islamia University of Bahawalpur 🇵🇰. He holds a Ph.D. in Horticulture from the University of Agriculture, Faisalabad, with specialized experience in potato production, dormancy management, and vegetable value chains 🥔🍅. Fluent in Urdu, English, Punjabi, and Saraiki 🗣️, he has trained at USDA 🇺🇸 and actively mentors undergraduate to doctoral students 📘. His research is deeply rooted in sustainable crop improvement 🌿 and value chain development for community upliftment 🧑‍🌾.

Publication Profile

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🔹 Education & Experience

🎓 Education:

📚 Ph.D. in Horticulture (Vegetable Sciences), University of Agriculture, Faisalabad (2012–2018)
📘 M.Sc. (Hons.) in Agriculture (Horticulture), UAF (2009–2011)
🎒 B.Sc. (Hons.) in Agriculture (Horticulture), UAF (2005–2009)

🧑‍🏫 Experience:

📍 Lecturer (BPS-18), Islamia University of Bahawalpur (2022–Present)
📍 Assistant Professor (IPFP), IUB (2021–2022)
🔬 Research Officer, ACIAR-funded Project on Vegetable Value Chains, UAF (2018–2020)
🇺🇸 Research Scholar, USDA Potato Breeding Project, USA (2016)
🧪 Research Scholar, UAF (2012–2018)
🧪 Postgraduate Researcher, UAF (2009–2011)

Suitability Summary

Dr. Muhammad Wasim Haider, a dedicated horticulture scientist and academic, is a highly deserving candidate for the Best Researcher Award owing to his significant contributions to sustainable vegetable production, potato research, and agricultural development. Currently serving as a Lecturer at the Department of Horticultural Sciences, The Islamia University of Bahawalpur, Dr. Haider has continuously demonstrated excellence in both research and academia. His academic journey is marked by a Ph.D. in Horticulture from the University of Agriculture, Faisalabad, and a portfolio of national and international research collaborations.

Professional Development

Dr. Haider has actively pursued international and national training to enhance his research and teaching capacities 🌍📚. His participation in the USDA’s potato breeding project through IRSIP 🇺🇸 has equipped him with advanced techniques in pollen handling, artificial pollination, and seed production 🌾. He has contributed significantly to ACIAR-funded programs, developing training modules and conducting extensive field research across Pakistan 🇵🇰. As an HEC-approved Ph.D. supervisor and reviewer for several renowned journals 📑🧠, he continues to stay updated with scientific innovations and agricultural strategies aimed at uplifting farming communities 👨‍🌾📈.

Research Focus

Dr. Haider’s research lies in the realm of Vegetable Science with a strong focus on potato dormancy, production improvement, and stress mitigation strategies 🥔💡. His studies explore sustainable solutions for enhancing yield and quality, including salinity tolerance, seed viability, and nutrient optimization 🌱💧. He is passionate about integrating biotechnological tools like plant tissue culture and hormone analysis (HPLC) into crop improvement 🔬🧬. With a keen interest in postharvest physiology and the vegetable supply chain, his goal is to bridge the gap between research and rural impact, ensuring better livelihoods through science 🚜📦.

Awards & Honors🔹:

🧠 HEC Approved Ph.D. Supervisor (2021–22)
🌐 Reviewer at top journals including Scientific Reports, BMC Plant Biology, European Journal of Potato Research
🎓 HEC Indigenous Ph.D. Fellowship (Phase II, Batch II, 2013–14)
🏅 Merit Scholarship during M.Sc. (Hons.), UAF (2010–11)
🌎 IRSIP Fellowship – Research Training at USDA, USA (2016–17)

Publication Top Notes

📈 Impact of foliar application of seaweed extract on growth, yield and quality of potato (Solanum tuberosum L.) – 112 citations, 2012
🫑 Combined application of hot water treatment and methyl salicylate mitigates chilling injury in sweet pepper (Capsicum annuum L.) fruits – 54 citations, 2021
🥔 Potato tuber yield and quality in response to different nitrogen fertilizer application rates under two split doses in an irrigated sandy loam soil – 47 citations, 2019
🌱 Postharvest dormancy-related changes of endogenous hormones in relation to different dormancy-breaking methods of potato (Solanum tuberosum L.) tubers – 38 citations, 2022
🌶️ Postharvest Aloe vera gel coating application maintains the quality of harvested green chilies during cold storage – 33 citations, 2021
🍅 Assessment of various growth and yield attributes of tomato in response to pre-harvest applications of calcium chloride – 33 citations, 2012
🍊 The combined application of Arabic gum coating and γ-aminobutyric acid mitigates chilling injury and maintains eating quality of ‘Kinnow’ mandarin fruits – 28 citations, 2023

Zahra Taheri Sarteshnizi | Environmental effects | Best Researcher Award

Published On 29/01/2025 by ScienceFather

Dr.Zahra Taheri Sarteshnizi | Environmental effects | Best Researcher Award

member of Dr. Farid’s research team at Boise State University, Iran

Dr. Zahra Taheri Sarteshnizi is a highly accomplished researcher and academic in the field of Water Engineering and Sciences, with a Ph.D. focused on Hydraulic Structures. Her research interests span various areas, including the erosion of cohesive beds by fluid flow, machine learning applications in environmental engineering, and the transport of organic chemicals and PFAS in sediment. Dr. Taheri Sarteshnizi has extensive teaching experience at multiple universities, covering a wide range of civil engineering subjects such as fluid mechanics, soil mechanics, and hydraulic design. Proficient in Python, GIS, MATLAB, and R, she has applied her skills to impactful research projects, including studies on wastewater effects on sediment properties and soil stabilization. With a solid academic background, an interdisciplinary approach to research, and a growing professional network, she is a promising candidate for recognition as a top researcher in her field.

professional profile

google scholar

Education

Dr. Zahra Taheri Sarteshnizi holds a Ph.D. in Water Engineering and Sciences, specializing in Hydraulic Structures, which she completed at Ferdowsi University of Mashhad, Iran, from 2014 to 2019. Her doctoral research focused on the impact of mixing urban refined wastewater and sediment flow on erosion threshold shear stress in water transmission networks. She also earned a Master’s degree in Water Engineering and Sciences (Hydraulic Structures) from Gorgan Agricultural Sciences and Natural Resources University (2010–2012), where she investigated the effects of straw and plastic waste materials on soil properties and shear strength. Dr. Taheri Sarteshnizi’s academic journey began with a Bachelor’s degree in Water Engineering and Sciences from Shahrekord University (2004–2008), where she studied the optimization of cutoff wall placement to reduce pressure and leakage discharge in water structures. Her diverse educational background has laid a strong foundation for her interdisciplinary research and teaching career.

Professional Experience

Dr. Zahra Taheri Sarteshnizi has a robust professional experience that spans both academia and research. From 2017 to 2023, she served as an Adjunct Professor at Azad University of Shahrekord, where she taught various civil engineering courses, including statics, fluid mechanics, soil mechanics, and hydraulic systems. She also held teaching positions at Azad University of Farsan (2015–2020) and Payame Nour University (2012–2014). In addition to her teaching roles, Dr. Taheri Sarteshnizi has been actively involved in research projects, particularly focusing on hydraulic structures, wastewater impact on sediment properties, and soil stabilization techniques. Her work includes leading research teams and conducting experiments related to erosion and sediment behavior in water systems. Her contributions to both education and research have made her a key figure in her field, providing a bridge between theoretical knowledge and practical applications in civil and environmental engineering.

Research Interest

Dr. Zahra Taheri Sarteshnizi’s research interests are centered around key challenges in environmental and hydraulic engineering, with a particular focus on the erosion of cohesive beds by fluid flow and the impact of wastewater on sediment properties. Her work integrates cutting-edge techniques like machine learning to address complex environmental issues such as soil stabilization and the transport of organic chemicals, including Per-and Polyfluoroalkyl Substances (PFAS), in sediment. Additionally, she is interested in the fate and transport of contaminants in the vadose zone, which plays a critical role in water and soil management. Dr. Taheri Sarteshnizi’s interdisciplinary approach combines traditional hydraulic studies with modern computational tools, aiming to improve the sustainability and resilience of water infrastructure and environmental systems.

Award and Honor

Dr. Zahra Taheri Sarteshnizi has made significant contributions to her field, earning recognition for her research and academic achievements. She has been honored with the Senior Fellow status from the Higher Education Academy in the United Kingdom, reflecting her commitment to excellence in higher education. Additionally, Dr. Taheri Sarteshnizi was awarded the Bahari Visiting Fellowship in the Persian Arts of the Book for the 2016–2017 academic year at the Bodleian Library, University of Oxford, highlighting her expertise in Persian literature and manuscript studies. Her research has been cited 148 times, indicating the impact and relevance of her work in the academic community.

Conclusion

Zahra Taheri Sarteshnizi has demonstrated exceptional expertise and dedication to her field through her academic achievements, interdisciplinary research interests, and teaching experience. She is well-qualified for the Best Researcher Award, particularly due to her ability to apply technical solutions to environmental challenges. By focusing on expanding her research output, building international collaborations, and increasing her public engagement, Zahra could further enhance her standing as a top-tier researcher in her field.

Publications Top Noted

Experimental Study on the Threshold Shear Stress of Fine Sediments (Case Study: Karkeh Reservoir Dam Sediments)
Authors: M Khastar, R Fattahi, M Ghasemi, Z Taheri
Year: 2018
Citation: Journal of Hydraulics, 13(3), 107-115
Experimental Investigation of the Effect of Consolidation Time on Erosion Rate of Cohesive Sediment
Authors: Z Taheri, K Esmaili, H Samadi Borujeni, SR Khodashenas
Year: 2020
Citation: Irrigation Sciences and Engineering, 43(2), 171-186
Using Food Industry Byproduct to Stabilize an Expansive Clay
Authors: ZTS, Nicole L. Shaw, Arvin Farid
Year: 2024
Citation: Waste
Experimental Investigation of Cohesive Sediments Erosion in the Presence of Bed Coarse-Gran Size Sediments
Authors: M Khastar, H Samadi-Boroujeni, M Ghasemi, Z Taheri
Year: 2020
Citation: Sharif Journal of Civil Engineering, 36(3.2), 19-28
The Role of Urban Wastewater on the Rate of Cohesive Sediment Erosion in Water Transfer Channels
Authors: Z Taheri, K Esmaili, H Samadi, SR Khodashenas
Year: 2020
Citation: Journal of Hydraulics, 14(4), 35-49
Experimental Investigation of Cohesive Sediments Erosion in the Presence of Bed Coarse-Grain Size Sediments
Authors: M Khastar, H Samadi-Boroujeni, M Ghasemi, Z Taheri
Year: 2020
Citation: Sharif Journal of Civil Engineering, 36(3.2), 19-28
Experimental Study of the Effect of Urban Wastewater Treatment on the Process of Deposition and Consolidation of Cohesive Sediments in Water Transfer Systems
Authors: Z Taheri, K Esmaili, B.H Samadi, S Khodashenas
Year: 2019
Citation: Journal of Hydraulics, 13(4), 81-92
Experimental Study on the Fine Sediments Shear Stress Erosion Threshold (Case Study: Karkeh Reservoir Dam)
Authors: S Samadi-Boroujeni, K Khastar, R Fattahi, M Ghasemi, Z Taheri
Year: 2018
Citation: Journal of Hydraulics, 13(3), 107-115
Research Note; Experimental Study on the Fine Sediments Shear Stress Erosion Threshold (Case Study: Karkeh Dam Reservoir)
Authors: B.H Samadi, B.M Khastar, R Fattahi, M Ghasemi, Z Taheri
Year: 2018
Citation: Journal of Hydraulics, 13(3), 107-115

Laxmi Raj Joshi | Biodiversity | Best Researcher Award

Published On 22/01/202522/01/2025 by ScienceFather

Laxmi Raj Joshi | Biodiversity | Best Researcher Award

Mr. Laxmi Raj Joshi, National Trust for Nature Conservation, Nepal.

Mr. Laxmi Raj Joshi is a Nepalese conservationist with extensive expertise in biodiversity research, human-wildlife coexistence, and community engagement. Currently serving as a Senior Conservation Officer at the National Trust for Nature Conservation (NTNC), Nepal, he oversees wildlife research and conservation awareness programs. He holds an MSc in Science from Tribhuvan University, specializing in subalpine-nival gradient plant distribution. Passionate about conservation, he has supervised diverse research projects and contributed to international collaborations. He is also a recipient of multiple scholarships and awards, reflecting his dedication to addressing climate change and biodiversity challenges .

Publication profile

Scopus

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Googlescholar

Education and Experience

Education

2023-ongoing: Master’s in Applied Ecology, University of Inland Norway (INN)
2013: Master’s in Science (Distinction), Tribhuvan University, Nepal
2008: Bachelor’s in Science, Tribhuvan University, Nepal

Professional Experience

Senior Conservation Officer, NTNC, Nepal (2024–present)
Conservation Officer, NTNC, Nepal (2016–2023)
Research Officer, Southasia Institute of Advanced Studies (2014–2015)
Teaching Assistant, Sanothimi Multiple Campus, TU (2013–2015)
Researcher, Himalayan Climate Initiatives (2012–2013)
Executive Editor, Hamro Sampada National Monthly (2008–2013)

Suitability For The Award

Mr. Laxmi Raj Joshi, a Senior Conservation Officer at the National Trust for Nature Conservation (NTNC), Nepal, is a distinguished researcher and conservation expert who has made outstanding contributions to biodiversity conservation and sustainable development. His dedication to addressing key environmental challenges and promoting human-wildlife coexistence positions him as an exceptional candidate for the Best Researcher Award. Mr. Joshi’s innovative approach to wildlife research, community engagement, and conservation science has garnered recognition in both national and international academic circles.

Professional Development

Mr. Joshi is a skilled conservationist actively involved in leading wildlife research, community engagement, and conservation awareness programs at NTNC. He has successfully designed over a dozen projects focused on species conservation, human-wildlife coexistence (HWC), and combating illegal wildlife trade (IWT). An experienced academic supervisor, he has supported students from international and national institutions in conducting impactful research. His expertise spans topics like climate change adaptation, biodiversity dynamics, and sustainable community development, reflecting his commitment to tackling pressing global environmental challenges

Research Focus

Mr. Laxmi Raj Joshi’s research focuses on biodiversity conservation, climate change adaptation, and human-wildlife coexistence. His studies explore the dynamics of species conservation, invasive plants, and wildlife-habitat interactions, emphasizing the need for sustainable practices. He actively leads programs addressing challenges like illegal wildlife trade (IWT) and human-wildlife conflicts, ensuring conservation awareness and livelihood support for affected communities. His work integrates science and community engagement, contributing to a greener and more sustainable future

Publications Top Notes

Distribution and impact of invasive alien plant species in Bardia National Park, western Nepal
Environmental Conservation 47 (3), 197-205, 2020
Cited by: 49
Adapting in the shadow of Annapurna: a climate tipping point
Journal of Ethnobiology 35 (3), 449-471, 2015
Cited by: 49
Characterisation of biomass resources in Nepal and assessment of potential for increased charcoal production
Journal of Environmental Management 223, 358-370, 2018
Cited by: 25
Sapindus mukorossi Gaertn. Sapindaceae
Ethnobotany of the Himalayas, 1775-1783, 2021
Cited by: 24
Fire and forage quality: Postfire regrowth quality and pyric herbivory in subtropical grasslands of Nepal
Ecology and Evolution 12 (4), e8794, 2022
Cited by: 20
Ecological factors associated with hispid hare (Caprolagus hispidus) habitat use and conservation threats in the Terai Arc Landscape of Nepal
Global Ecology and Conservation 43, e02437, 2023
Cited by: 7
Flora of Kailash sacred landscape Nepal: An annotated checklist
Research Centre for Applied Science and Technology, Tribhuvan University, Nepal, 2021
Cited by: 6
Justicia adhatoda L. Acanthaceae
Ethnobotany of the Himalayas, 1163-1171, 2021
Cited by: 5

Jiacong Li | Decarbonization | Best Researcher Award

Published On 24/09/202424/09/2024 by ScienceFather

Jiacong Li | Decarbonization | Best Researcher Award

Mr. Jiacong Li , Tsinghua University, China

Jiacong Li is a dedicated Ph.D. candidate in Environmental Science and Engineering at Tsinghua University, specializing in energy system decarbonization using carbon capture, utilization, and storage (CCUS) technologies. His research investigates the synergies between flexible carbon capture power plants and renewable energy within large-scale power systems. Jiacong’s work on enhancing the flexibility of these systems to optimize carbon capture has been published in Applied Energy. He holds a Bachelor of Engineering and a Bachelor of Philosophy from Tsinghua University and is actively involved in projects focused on carbon neutrality.

Publication Profile

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Suitability For The Award

Jiacong Li is a dedicated Ph.D. student at Tsinghua University, specializing in environmental science and engineering. His research focuses on energy system decarbonization, particularly through the application of carbon capture, utilization, and storage (CCUS) technologies. His innovative approach and significant contributions position him as a strong candidate for the Best Researcher Award.

Education and Experience:

Ph.D. in Environmental Science and Engineering
Tsinghua University, ongoing

Bachelor of Engineering
Tsinghua University

Bachelor of Philosophy
Tsinghua University

Research Focus:
Energy system decarbonization, carbon capture, utilization, and storage (CCUS)

Published in Applied Energy:
Assessing flexible carbon capture power plants’ synergies with renewable energy

Professional Development

Jiacong Li has actively contributed to cutting-edge research on the decarbonization of power systems, focusing on the flexible operation of carbon capture and storage technologies. His current projects explore the integration of renewable energy sources like wind and solar with carbon capture systems to enhance power system flexibility. Jiacong is involved in collaborations with the Tsinghua-Toyota Joint Research Institute and the Ordos-Tsinghua Innovative & Collaborative Research Program, advancing carbon neutrality goals. His ongoing work on decarbonizing the coal-to-methanol industry showcases his dedication to developing sustainable energy solutions for the future.

Research Focus

Jiacong Li’s research is centered on decarbonizing energy systems through flexible carbon capture and storage (CCS) technologies. His work explores the synergy between CCS power plants and renewable energy sources such as wind and solar, focusing on large-scale power systems. His research aims to optimize the flexibility of CCS operations, ensuring that energy generation remains efficient while reducing carbon emissions. By examining the economic and environmental benefits, Jiacong’s studies provide insights into how CCS can be deployed in the near term, offering a pathway toward a carbon-neutral future.

Awards and Honors

Best Researcher Award Nominee – 2024

Research Publication in Applied Energy – 2025

Tsinghua-Toyota Joint Research Institute Cross-discipline Program

Ordos-Tsinghua Collaborative Research in Carbon Neutrality

Publications

Assessing the synergies of flexibly-operated carbon capture power plants with variable renewable energy in large-scale power systems – Applied Energy (2025)
Cited by: N/A

Combined solar power and storage as cost-competitive and grid-compatible supply for China’s future carbon-neutral electricity system – Proceedings of the National Academy of Sciences (2021)
Cited by: N/A

Conclusion

Jiacong Li’s academic achievements, robust research contributions, and innovative approach to energy decarbonization align well with the criteria for the Best Researcher Award. His ongoing efforts to advance CCUS technologies and his ability to publish impactful research highlight his potential to make significant contributions to the field of environmental science and engineering. Recognizing his work with this award would not only honor his achievements but also encourage further innovation in sustainable energy solutions.