Zeeshan Zafar | Climate Change | Best Researcher Award

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Dr Zeeshan Zafar |  Climate Change | Best Researcher Award

Postdoctoral Researcher at  Wuhan University,  China

 

Dr. Zeeshan Zafar is a physical geographer and researcher with expertise in remote sensing, GIS, and environmental modeling. His work focuses on machine learning applications in hydrology and climate change impact studies, particularly in urban and natural ecosystems. Dr. Zafar has contributed to research publications on carbon storage modeling, LULC, urban heat islands, and soil erosion, and he actively collaborates on projects assessing ecological health risks and sustainable urban planning.

 

Publication Profile

Education:

Dr. Zeeshan Zafar completed his Ph.D. in Physical Geography from Northwest University, Xi’an, China. He holds an M.S. in Remote Sensing & GIS from PMAS Arid Agriculture University, Rawalpindi, Pakistan.

Professional Experience:

Dr. Zafar is currently a Postdoctoral Researcher at Wuhan University, China, where he focuses on advanced GIS and ecological modeling methodologies. Previously, he served as a GIS Manager at GreenAge Services in Pakistan (2016-2018) and as an Instructor at Virtual University, Pakistan (2013-2016), where he developed remote sensing and GIS curricula and trained students in these fields.

Research Interest:

Dr. Zafar’s research integrates machine learning, hydrological modeling, ecosystem services, and climate change impacts. His expertise extends to ecological modeling, land-use/land-cover (LULC) change, urbanization, and land surface temperature modeling. He is proficient in advanced spatial analysis using satellite data, machine learning, deep learning, and statistical modeling.

Author Metrics:

Dr. Zafar has published extensively in reputable journals, including Ecological Informatics, Theoretical and Applied Climatology, and Water Supply. His research, recognized for its impact on understanding climate and urban dynamics, is supported by over 20 peer-reviewed articles and ongoing submissions to high-impact journals. His work is regularly cited by peers in environmental science and remote sensing domains.

Publication Top Notes
  • Selection of medical clinic for disease diagnosis by using TOPSIS method
    RM Zulqarnain, S Abdal, B Ali, L Ali, F Dayan, MI Ahamad, Z Zafar
    International Journal of Pharmaceutical Sciences Review and Research, 61(1), 2020.
  • Application of TOPSIS method in decision making via soft set
    RM Zulqarnain, S Abdal, A Maalik, B Ali, Z Zafar, MI Ahamad, S Younas
    Biomedical Journal of Scientific & Technical Research, 24(3), 18208-18215, 2020.
  • Trend analysis of the decadal variations of water bodies and land use/land cover through MODIS imagery: An in-depth study from Gilgit-Baltistan, Pakistan
    Z Zafar, MS Mehmood, MI Ahamad, A Chudhary, N Abbas, AR Khan
    Water Supply, 21(2), 927-940, 2021.
  • Fostering deep learning approaches to evaluate the impact of urbanization on vegetation and future prospects
    Z Zafar, MS Mehmood, Z Shiyan, M Zubair, M Sajjad, Q Yaochen
    Ecological Indicators, 146, 109788, 2023.
  • Time Series Analyses and Forecasting of Surface Urban Heat Island Intensity Using ARIMA Model in Punjab, Pakistan
    MS Mehmood, Z Zafar, M Sajjad, S Hussain, S Zhai, Y Qin
    Land, 12(1), 142, 2022.
  • Performance assessment of machine learning algorithms for mapping of land use/land cover using remote sensing data
    Z Zafar, M Zubair, Y Zha, S Fahd, AA Nadeem
    The Egyptian Journal of Remote Sensing and Space Sciences, 27(2), 216-226, 2024.
  • Spatial Downscaling and Gap-Filling of SMAP Soil Moisture to High Resolution Using MODIS Surface Variables and Machine Learning Approaches over ShanDian River Basin, China
    AA Nadeem, Y Zha, L Shi, S Ali, X Wang, Z Zafar, Z Afzal, MAUR Tariq
    Remote Sensing, 15(3), 812, 2023.
  • Generalized fuzzy TOPSIS to solve multi-criteria decision-making problems
    RM Zulqarnaın, M Saeed, B Ali, S Abdal, M Saqlaın, MI Ahamad, Z Zafar
    Journal of New Theory, 40-50, 2020.
  • Comprehensive assessment on groundwater quality, pollution characteristics, and ecological health risks under seasonal thaws: Spatial insights with Monte Carlo simulations
    C Jia, AR Altaf, F Li, I Ashraf, Z Zafar, AA Nadeem
    Groundwater for Sustainable Development, 22, 100952, 2023.
  • Mapping flood extend and its impact on land use/land cover and settlements variations: A case study of Layyah District, Punjab, Pakistan
    S Soomro, C Hu, MW Boota, MHAA Soomro, S Jian, Z Zafar, X Li
    Acta Geophysica, 69, 2291-2304, 2021.
  • Application of Intuitionistic Fuzzy Soft Matrices for Disease Diagnosis
    RM Zulqarnain, M Saeed, MI Ahamad, S Abdal, Z Zafar, M Aslam
    International Journal of Discrete Mathematics, 5(1), 4-9, 2020.
  • The spatial coupling effect between urban street network’s centrality and collection & delivery points: A spatial design network analysis-based study
    MS Mehmood, G Li, A Jin, A Rehman, V Wijeratne, Z Zafar, AR Khan
    PLOS One, 16(5), e0251093, 2021.
  • Predictive modeling of regional carbon storage dynamics in response to land use/land cover changes: An InVEST-based analysis
    Z Zafar, M Zubair, Y Zha, MS Mehmood, A Rehman, S Fahd, AA Nadeem
    Ecological Informatics, 102701, 2024.
  • Disease identification using trapezoidal fuzzy numbers by Sanchez’s approach
    RM Zulqarnain, XL Xin, B Ali, S Abdal, A Maalik, L Ali, MI Ahamad, Z Zafar
    International Journal of Pharmaceutical Sciences Review and Research, 61(1), 13-18, 2020.
  • Effects of Temperature and Pressure on Reservoir Fluids and Seismic Properties of Reservoir Rocks
    MI Ahamad, Z Zafar, M Arsalan, A Rehman, M Sajid, RM Zulqarnain
    International Journal of Pharmaceutical Sciences Review and Research, 63, 36-43, 2020.
  • Spatiotemporal dynamics analysis of surface water body and snow cover area to climate change in Gilgit Baltistan, Pakistan
    Z Zafar, MS Mehmood, A Akbar, MA Khan
    Physical Geography, 44(5), 600-619, 2023.
  • Evaluating land use/cover change associations with urban surface temperature via machine learning and spatial modeling: Past trends and future simulations in Dera Ghazi Khan
    MS Mehmood, A Rehman, M Sajjad, J Song, Z Zafar, Z Shiyan
    Frontiers in Ecology and Evolution, 11, 1115074, 2023.
  • SAFER-ET based assessment of irrigation patterns and impacts on groundwater use in the central Punjab, Pakistan
    AA Nadeem, Y Zha, L Shi, Z Zafar, S Ali, Y Zhang, AR Altaf, M Afzal
    Agricultural Water Management, 289, 108545, 2023.
  • Modelling the Climate Change on Crop Estimation in the Semi-Arid Region of Pakistan Using Multispectral Remote Sensing
    Z Zafar, S Farooq, MI Ahamad, MS Mehmood
    Optics, 9(1), 1-7, 2020.
  • Assessment of urbanization impacts on vegetation cover in major cities of Pakistan: Evidence from remotely sensed data
    Z Zafar
    GeoJournal, 89(4), 167, 2024.

 

Younes Rezaee Danesh | Plant Protection | Best Researcher Award

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Prof. Dr Younes Rezaee Danesh |  Plant Protection |  Best Researcher Award

Full Professor at  Van Yuzuncu Yil University, Turkey

Younes Rezaee Danesh is a Full Professor specializing in mycology, plant pathology, and biological control. His work focuses on symbiotic fungi, bio-fertilizers, and eco-friendly plant growth enhancers. He has held academic positions in Iran and Turkey, and led an EU-funded HORIZON 2020 project. With over 1000 citations, he has contributed significantly to sustainable agriculture research, collaborating with international partners and publishing numerous high-impact papers. He is also a member of various scientific societies and editorial boards. His research aims to promote plant resistance against abiotic and biotic stresses through microbial solutions.

Publication Profile

Academic and Professional Background:

Younes Rezaee Danesh has held various academic roles in multiple countries, beginning in 2007 at Urmia University, Iran. He has also led a HORIZON 2020 EU-funded project at the Soil, Fertilizer and Water Resources Central Research Institute in Ankara, Turkey. His research focuses on mycology, plant pathology, and biological control, emphasizing the eco-friendly use of symbiotic fungi as bio-fertilizers and biostimulants. With numerous international collaborations, Younes has over 1000 citations and is a member of several global scientific societies.

Research and Innovations:

  • Completed/Ongoing Research Projects:
    • Leader of 4 completed projects, co-researcher in 4 completed projects.
    • Currently leading 2 projects and acting as co-researcher in 2 others.
  • Citation Index:
    • H-Index: 16
    • More than 1000 citations
  • Consultancy/Industry Projects:
    • Advisor in 2 projects at the Soil, Fertilizer and Water Resources Central Research Institute, Ankara, Turkey.
    • Management Committee Member for COST Action Projects (COST 22158, COST 22142).
  • Books Published (ISBN):
    • Authored and contributed to 10 books and book chapters, including titles published by Springer and Elsevier.
  • Journals Published (SCI, Scopus, etc.):
    • Published 73 papers in indexed journals.
  • Editorial Appointments:
    • Member of editorial boards in journals including International Journal of Agricultural Technology and Frontiers in Physiology.
  • Collaborations:
    • Extensive collaborations with research institutes and universities in countries such as Turkey, Hungary, Italy, and Spain.

Professional Memberships:

  • Life member in various scientific organizations, including the Asian Mycorrhizal Society and the Iranian Society of Plant Pathology.

Areas of Research:

  • Agricultural Sciences, Mycology, Plant Pathology, Biotechnology, Environmental Biology, and Microbial Genetics.

Contributions:

Younes Rezaee Danesh’s work has significantly impacted sustainable agriculture by promoting eco-friendly microbial solutions to enhance plant growth and stress resilience. His research on arbuscular mycorrhizal fungi and plant-microbe interactions has offered innovative biofertilization strategies, improving nutrient uptake and reducing dependence on chemical inputs. These contributions address critical challenges in food security, particularly in regions affected by drought and salinity.

Citations:

  • All time: 1046
  • Since 2019: 601

h-index:

  • All time: 16
  • Since 2019: 13

i10-index:

  • All time: 28
  • Since 2019: 17

Publication Top Notes

  • Mycorrhizal fungi: what we know and what should we know?
    EM Goltapeh, YR Danesh, R Prasad, A Varma
    Mycorrhiza: State of the Art, Genetics and Molecular Biology, Eco-function
    Citations: 121 (2008)
  • Effects of arbuscular mycorrhizal (AM) fungi on growth, essential oil production, and nutrients uptake in basil
    M Rasouli-Sadaghiani, A Hassani, M Barin, YR Danesh, F Sefidkon
    Journal of Medicinal Plants Research, 4(21): 2222-2228
    Citations: 115 (2010)
  • Mycorrhiza: state of the art, genetics and molecular biology, eco-function, biotechnology, eco-physiology, structure and systematics
    A Varma
    Citations: 84 (2008)
  • Fungi as bioremediators
    EM Goltapeh, YR Danesh, A Varma
    Springer Science & Business Media
    Citations: 50 (2013)
  • Effects of heavy metal resistant soil microbes inoculation and soil Cd concentration on growth and metal uptake of millet, couch grass, and alfalfa
    M Rahmanian, K Habib, RD Younes, RS Mir Hasan
    African Journal of Microbiology Research, 5(4): 403-410
    Citations: 31 (2011)
  • Genetic analysis of partial resistance to basal stem rot (Sclerotinia sclerotiorum) in sunflower
    M Amouzadeh, R Darvishzadeh, P Haddadi, BA Mandoulakani
    Genetika (Belgrade), 45(3): 737-748
    Citations: 30 (2013)
  • Bioremediation and genetically modified organisms
    M Jafari, YR Danesh, EM Goltapeh, A Varma
    Fungi as Bioremediators: 433-451
    Citations: 29 (2012)
  • Mycoremediation of heavy metals
    YR Danesh, M Tajbakhsh, EM Goltapeh, A Varma
    Fungi as Bioremediators: 245-267
    Citations: 29 (2012)
  • Biological control of Fusarium basal rot of onion using Trichoderma harzianum and Glomus mosseae
    B Ghanbarzadeh, N Safaie, E Mohammadi Goltapeh, Y Rezaee Danesh
    Journal of Crop Protection, 5(3): 359-368
    Citations: 28 (2016)
  • Optimizing carrot hairy root production for monoxenic culture of arbuscular mycorrhizal fungi in Iran
    YR Danesh, EM Goltapeh, A Alizadeh, MM Sanavy
    Journal of Biological Sciences, 6(1): 87-91
    Citations: 28 (2006)
  • Antagonistic effects of Trichoderma species in biocontrol of Armillaria mellea in fruit trees in Iran
    M Asef, E Goltapeh, Y Danesh
    Journal of Plant Protection Research, 48(2)
    Citations: 26 (2008)
  • Pathogenic interactions between Trichoderma species and Agaricus bisporus
    ME Goltapeh, Y Rezaei Danesh
    Journal of Agricultural Technology, 2: 29-37
    Citations: 24 (2006)
  • Effects of some biological agents on the growth and biochemical parameters of tomato plants infected with Alternaria solani (Ellis & Martin) Sorauer
    G Boyno, S Demir, YR Danesh
    European Journal of Plant Pathology, 162(1): 19-29
    Citations: 23 (2022)
  • Effects of thyme (zaatar) essential oil and some chemical compounds in the control of citrus bacterial canker in Iran
    S Samavi, N Hassanzadeh, MM Faghihi, YR Danesh
    Journal of Plant Pathology: 691-696
    Citations: 21 (2009)
  • Identification of Trichoderma species causing green mould in button mushroom farms, distribution and their relative abundance
    YR Danesh, EM Goltapeh, H Rohani
    Citations: 18 (2001)
  • Studies on interaction between Trichoderma species and Agaricus bisporus mycelium
    EM Goltapeh, YR Danesh
    Citations: 17 (2000)
  • Morphophysiological and biochemical responses of Zinnia elegans to different irrigation regimes in symbiosis with Glomus mosseae
    Z Heidari, MJ Nazarideljou, Y Rezaei Danesh, N Khezrinejad
    International Journal of Horticultural Science and Technology, 3(1): 19-32
    Citations: 15 (2016)
  • The complex interplay between arbuscular mycorrhizal fungi and strigolactone: Mechanisms, synergies, applications and future directions
    G Boyno, Y Rezaee Danesh, S Demir, N Teniz, JM Mulet, R Porcel
    International Journal of Molecular Sciences, 24(23): 16774
    Citations: 14 (2023)
  • Foliar applications of ZnO and its nanoparticles increase safflower (Carthamus tinctorius L.) growth and yield under water stress
    M Ghiyasi, Y Rezaee Danesh, R Amirnia, S Najafi, JM Mulet, R Porcel
    Agronomy, 13(1): 192
    Citations: 14 (2023)
  • Rock phosphate solubilizing potential of soil microorganisms: advances in sustainable crop production
    B Khoshru, AF Nosratabad, D Mitra, M Chaithra, YR Danesh, G Boyno
    Bacteria, 2(2): 98-115
    Citations: 13 (2023)

 

Dhruba Jyoti Sarkar | Sustainable Agriculture and Innovation | Best Researcher Award

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Dhruba Jyoti Sarkar | Sustainable Agriculture and Innovation | Best Researcher Award

Dr Dhruba Jyoti Sarkar, ICAR-Central Inland Fisheries Research Institute, India

Dr. Dhruba Jyoti Sarkar is a distinguished researcher in agricultural chemicals, holding a Ph.D. from the Indian Agricultural Research Institute, where he was a Gold Medalist. Currently, he serves as a Senior Scientist at ICAR-Central Inland Fisheries Research Institute. Awarded the Young Researcher Award in 2022, he has significantly advanced ecosystem health assessment, focusing on microplastics and nutrient formulations. Dr. Sarkar holds patents for innovative superabsorbents and slow-release nanoformulations and has commercialized the “CIFRI ARGCURE” antiparasitic formulation. His impactful research and dedication to addressing environmental challenges make him a leading candidate for the Best Researcher Award. 🌱🏆🔬🌊

Publication Profile

Google Scholar

Educational qualifications

Dr. Dhruba Jyoti Sarkar has a solid educational foundation in agricultural sciences. He earned his Bachelor of Science in Agriculture (Hons.) from Bidhan Chandra Krishi Viswa Vidyalaya, Mohanpur, West Bengal, in 2007. He then pursued his Master of Science in Agricultural Chemicals at the Indian Agricultural Research Institute in New Delhi, graduating in 2009. Dr. Sarkar continued his academic journey at the same institution, where he completed his Ph.D. in Agricultural Chemicals in 2013, earning the prestigious Gold Medal for his outstanding performance. His education equips him with essential knowledge for impactful research in agricultural chemistry. 🎓🌱🏆

Employment Record

Dr. Dhruba Jyoti Sarkar has an extensive employment record in research and teaching within esteemed agricultural institutions. He is currently serving as a Senior Scientist at the ICAR-Central Inland Fisheries Research Institute (ICAR-CIFRI) in Barrackpore, Kolkata, since January 21, 2021. Prior to this, he held the position of Senior Scientist at ICAR-CIFRI from July 1, 2017, to January 21, 2021. Dr. Sarkar also contributed to the Indian Agricultural Research Institute (IARI) in New Delhi, where he worked as a Scientist from January 23, 2012, to July 1, 2017, focusing on research and teaching activities. His career reflects a strong commitment to advancing agricultural research. 🌾🔬📚

Recognition and Awards

Dr. Dhruba Jyoti Sarkar has received numerous accolades for his contributions to agricultural science. He was honored with the Young Researcher Award for 2022 by the Indian Society of Analytical Scientists on October 26, 2023, and the Vigyan Sera Pratibha Award during the Vigyan Utsav on December 4, 2022. Additionally, he received the Best Oral Presentation award at the 1st Indian Fisheries Outlook in March 2022 and was named Scientist of the Year 2021 by ICAR-CIFRI. His recognition also includes the prestigious ICAR-Jawaharlal Nehru Award for his doctoral research in 2013. His work continues to inspire innovation in agriculture. 🏆🌱🔬✨

Projects

Dr. Dhruba Jyoti Sarkar has significantly contributed to various in-house and externally funded projects focused on agricultural innovation and ecosystem health. He played an associate role in several initiatives, including the development of novel agrochemical formulations (2012-2014) and precision farming techniques (2014-2017). Currently, he leads projects on monitoring heavy metals in inland water bodies and remediation techniques for polluted wetlands (2020-present). Externally, he has worked on significant projects, including enhancing phosphorus availability in alfisols and assessing microbial biodiversity in the River Ganga. His leadership in developing biosensors for detecting fish pathogens underscores his commitment to sustainable agriculture. 🌿💧🔬✨

Research Focus

Dr. Dhruba Jyoti Sarkar’s research focuses on environmental chemistry, specifically the assessment and management of pollutants in aquatic ecosystems. His studies examine the spatial distribution of micro and mesoplastics in river sediments, highlighting their role as vectors for heavy metals in wastewater treatment systems. He explores innovative solutions like biosensors and bioremediation techniques for the detection and removal of hazardous compounds, such as polycyclic aromatic hydrocarbons (PAHs). Additionally, Dr. Sarkar investigates the antifungal properties of natural compounds and the efficiency of water treatment processes, contributing to sustainable agricultural practices and environmental health. 🌊🔬♻️✨

Publication Top Notes

Conclusion

Dr. Dhruba Jyoti Sarkar stands out as a leading researcher through his robust educational background, significant awards, and impactful contributions to agricultural chemistry and ecosystem health. His work not only addresses pressing environmental challenges but also leads to practical innovations that benefit society. Therefore, he is highly deserving of the Best Researcher Award.

 

Thongsouk Sompouviset | Climate Change | Young Scientist Award

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Dr. Thongsouk Sompouviset | Climate Change | Young Scientist Award

Teacher, NWAFU, China

Dr. Thongsouk Sompouviset is a dedicated researcher and environmental scientist from Laos, specializing in plant nutrition and climate change. With a solid academic background and hands-on experience in greenhouse gas analysis, he has contributed significantly to understanding the impacts of agricultural practices on the environment. His work, spanning from field surveys to advanced research, reflects a commitment to sustainable agricultural practices and environmental management.

Profile

Orcid

Education 🎓 

Dr. Thongsouk Sompouviset earned his PhD in Plant Nutrition with a focus on Climate Change from Northwest A&F University, China, from 2019 to 2023, achieving a GPA of 3.80. His doctoral research examined the influence of combined organic and inorganic fertilizer applications on greenhouse gas emissions in apple orchards on Weibei dryland, earning him the Outstanding Activities Student Award in 2022. Prior to his PhD, Dr. Sompouviset completed a Master’s in Plant Nutrition (Climate Change) at the same institution from 2015 to 2019, graduating with a GPA of 3.55. His Master’s thesis explored the effects of cover crops combined with manure and chemical fertilizers on greenhouse gas emissions in apple orchards, and he received the Best Student Award in 2019. Dr. Sompouviset also holds a Bachelor of Arts in Environmental Science from the National University of Laos (2007-2012), where he achieved a GPA of 3.48. His undergraduate thesis focused on the study process and water management of the Kaolieo water supply company, and he was recognized with awards in debate competitions, essay contests, and as an outstanding student. Additionally, he completed a Vocational Diploma in General English from Sahakitsamphan College (2008-2011) and is currently pursuing ongoing English studies (IELTS) at Vientiane College from January to August 2024.

Experience 💼

Professionally, Dr. Sompouviset has been serving as a Coordinator and Translator at Sino-Agri Potash Co., Ltd in Vientiane Capital, Laos, since January 2024. Prior to this, he managed the Environment and Social Department at Sino-Agri Potash Co., Ltd in Khammuane, Laos, from September 2012 to July 2015

Research Interests 🔬

Impact of Organic and Inorganic Fertilizers on Greenhouse Gas Emissions: This research investigates how the use of both organic and inorganic fertilizers affects the emission of greenhouse gases in agricultural settings. The combination of these fertilizers can influence soil processes and plant growth, potentially altering the levels of methane (CH₄), nitrous oxide (N₂O), and carbon dioxide (CO₂) released into the atmosphere. Studies typically focus on optimizing fertilizer practices to reduce greenhouse gas emissions while maintaining crop yields.

Effects of Plastic Mulching and Cover Crops on Environmental Sustainability: Plastic mulching and the use of cover crops are techniques aimed at improving soil health and enhancing environmental sustainability. Plastic mulching helps in moisture retention, temperature regulation, and weed suppression, which can indirectly impact greenhouse gas emissions. Cover crops, on the other hand, contribute to soil organic matter, reduce erosion, and enhance nutrient cycling. Research in this area evaluates how these practices affect soil health, greenhouse gas emissions, and overall environmental sustainability.

Climate Change Adaptation and Greenhouse Gas Mitigation Strategies in Agriculture: This area of study focuses on developing strategies for agriculture to adapt to the impacts of climate change while simultaneously mitigating greenhouse gas emissions. Adaptation strategies may include altering crop varieties, adjusting planting dates, and improving irrigation practices. Mitigation strategies might involve adopting more sustainable farming practices, enhancing soil carbon sequestration, and optimizing fertilizer use. The goal is to create resilient agricultural systems that can cope with climate change and reduce their carbon footprint.

Awards 🏆

Outstanding Activities Student Award (2022)
Northwest A&F University, China

Best Student Award (2019)
Northwest A&F University, China

Publications 📝

Combined application of organic and inorganic fertilizers effects on the global warming potential and greenhouse gas emissions in apple orchard in the Loess Plateau Region of China. link

The effects of plastic mulching combined with different fertilizer applications on greenhouse gas emissions, intensity, and apple yield in Northwestern China. link

Evaluation of Soil and Leaf Potassium, Calcium, Magnesium, and Micronutrient Status and Their Relationship in the Main Apple Production Areas of the Loess Plateau, China. link

Distinguishing the contribution of nitrogen fertilizer and native soil nitrogen to young apple trees . link