Debesh Das | Plant Stress Physiology | Best Researcher Award

Prof Dr Debesh Das |  Plant Stress Physiology |  Best Researcher Award

Professor at  Khulna University, Bangladesh

Dr. Debesh Das is a distinguished academic at Khulna University, Bangladesh, serving as a Professor in the Agrotechnology Discipline within the School of Life Science. He earned his Ph.D. in Plant Stress Physiology from the Asian Institute of Technology, Thailand, in 2022, and holds an M.S. in Crop Botany from Bangladesh Agricultural University, Mymensingh, completed in 2011, and a B.Sc. in Agriculture (Hons.) from Khulna University, Khulna, obtained in 2008. His research primarily focuses on plant stress physiology, with particular expertise in the effects of salt stress, water management, and the application of mycorrhizal fungi and seaweed extracts in crop production. Dr. Das has authored numerous publications in reputed journals, including Scientia Horticulturae and Journal of Plant Physiology. His notable works explore topics such as the impact of arbuscular mycorrhizal fungi on rice growth under water-deficit conditions and the effectiveness of salt stress alleviation strategies for bell peppers.

Profile:

📚 Education:

  • Ph.D. in Plant Stress Physiology
    Asian Institute of Technology, Thailand (2022)
    CGPA: 3.67/4.00
  • M.S. in Crop Botany
    Bangladesh Agricultural University, Mymensingh (2011)
    CGPA: 3.831/4.00
  • B.Sc. in Agriculture (Hons.)
    Khulna University, Khulna (2008)
    CGPA: 3.85/4.00
  • Higher Secondary Certificate
    Jashore (2002)
    First Division (75.9%)
  • Secondary School Certificate
    Jashore (2000)
    First Division (68%)

🌱 Plant Stress Physiology Research Focus:

  • Salt Stress Alleviation: Investigating the effects of seaweed extracts and arbuscular mycorrhizal fungi in reducing salt stress in crops like bell pepper and rice.
  • Water Deficit and Irrigation Management: Analyzing the impact of different irrigation strategies, including deficit irrigation and alternate wetting and drying, on plant growth, yield, and water productivity, particularly in rice and tomato.
  • Nutrient and Stress Interactions: Studying how the application of nutrients, such as phosphorus and silicon, in conjunction with mycorrhizal inoculation, affects the physiological traits and stress tolerance of plants under conditions of water deficit.
  • Rice and Traditional Landraces: Examining the growth, yield, and resilience of traditional rice landraces from coastal Bangladesh under salt stress, focusing on their adaptation mechanisms and productivity.
  • Morpho-Physiological Responses: Evaluating how different stress factors, including salt and water deficit, influence the morpho-physiological characteristics of crops like rice, and how these responses can be managed to enhance crop performance and sustainability.

Professor Das’s research aims to improve crop resilience and productivity by understanding and managing various stress factors, ultimately contributing to more sustainable agricultural practices.

📊 Citation Metrics

  • Total Citations: 119
  • Citations Since 2019: 116
  • h-index: 6
  • h-index Since 2019: 6
  • i10-index: 5
  • i10-index Since 2019: 5

Publication Top Notes:

  • “Growth, yield and water productivity of tomato as influenced by deficit irrigation water management”
    S. Mukherjee, P.K. Dash, D. Das, S. Das
    Environmental Processes 10 (1), 10 (2023)
    Citations: 22
  • “Interactive effect of silicon and mycorrhizal inoculation on growth, yield and water productivity of rice under water-deficit stress”
    D. Das, N.U. Basar, H. Ullah, K.R. Salin, A. Datta
    Journal of Plant Nutrition 44 (18), 2756-2769 (2021)
    Citations: 20
  • “Growth, yield and water productivity of rice as influenced by seed priming under alternate wetting and drying irrigation”
    D. Das, N.U. Basar, H. Ullah, A. Attia, K.R. Salin, A. Datta
    Archives of Agronomy and Soil Science 68 (11), 1515-1529 (2022)
    Citations: 18
  • “Effect of salinity (NaCl) on germination and seedling growth of mungbean (Vigna radiata L.)”
    S. Podder, J. Ray, D. Das, B.C. Sarker
    Journal of Bioscience and Agriculture Research 24 (2), 2012-2019 (2020)
    Citations: 16
  • “Morpho-physiological responses of tropical rice to potassium and silicon fertilization under water-deficit stress”
    D. Das, H. Ullah, R. Tisarum, S. Cha-um, A. Datta
    Journal of Soil Science and Plant Nutrition (2021)
    Citations: 14
  • “Arbuscular mycorrhizal fungi inoculation and phosphorus application improve growth, physiological traits, and grain yield of rice under alternate wetting and drying irrigation”
    D. Das, H. Ullah, S.K. Himanshu, R. Tisarum, S. Cha-Um, A. Datta
    Journal of Plant Physiology 278, 153829 (2022)
    Citations: 9
  • “Growth, grain yield, and water productivity of traditional rice landraces from coastal Bangladesh, as affected by salt stress”
    D. Adhikary, D. Das, M.Y. Ali, H. Ullah, A. Datta
    Journal of Crop Improvement 37 (1), 60-73 (2023)
    Citations: 4
  • “Seed germination and seedling growth of sunflower (Helianthus annuus L.) under salt stressed conditions”
    S.D. Roy, D. Das, M.E. Kabir
    Khulna University Studies 14, 39-47 (2017)
    Citations: 4
  • “Combined use of seaweed extract and arbuscular mycorrhizal fungi for alleviating salt stress in bell pepper (Capsicum annuum L.)”
    S.C. Pal, M.B. Hossain, D. Mallick, F. Bushra, S.M.R. Abdullah, P.K. Dash, D. Das
    Scientia Horticulturae 325, 112597 (2024)
    Citations: 3
  • “Efficacy of different management practices against tomato fruit borer, Helicoverpa armigera Hubner”
    M.M. Kamal, S. Das, M.H. Sabit, D. Das
    Bangladesh Journal of Agricultural Research (2019)
    Citations: 3
  • “Germination and seedling growth of indigenous Aman rice under salt stress”
    D. Das, M.A. Ali, T.A. Sarkar, M.Y. Ali
    Journal of the Bangladesh Agricultural University 15 (2), 182-187 (2017)
    Citations: 3
  • “Germination and seedling growth of indigenous Aman rice under NaCl salinity”
    P. Mondal, R.N. Remme, D. Das, Y. Ali, E. Kabir
    International Journal of Multidisciplinary Research and Development 2 (5), 251-257 (2015)
    Citations: 3

 

 

Monika Skowrońska | Agricultural | Best Researcher Award

Assoc Prof Dr Monika Skowrońska |  Agricultural  |  Best Researcher Award

PhD, DSc, Assoc. Prof. at  Department of Agricultural and Environmental Chemistry, University of Life Sciences in Lublin, Poland

Dr. Monika Skowrońska is an accomplished academic and researcher specializing in agricultural and environmental chemistry. With over two decades of experience at the University of Life Sciences in Lublin, she has progressed from a Teaching and Research Assistant in 1997 to her current position as an Associate Professor, a role she has held since 2019.

 

Profile:

Education and Training:

2019: Doctor habilitatus (Post-doctoral Degree). 2009: Post-graduate studies in Management of research projects and development work, Catholic University of Lublin. 2003: Ph.D. in Agricultural Sciences, University of Life Sciences in Lublin. 1998: Post-graduate studies in Management and Marketing, Technical University of Lublin. 1997: M.Sc. in Environmental Protection, University of Life Sciences in Lublin

Professional Experience:

2024-present: Project Manager, Healthy Soil Chemistry (SOSoil), HuMUS project. 2023-present: Task Manager, REDUCOST, National Fund for Environmental Protection and Water Management. Various roles as an expert and project partner with entities like the European Green Deal, WWF, and the European Agricultural Fund for Rural Development.

Honours and Awards:

Multiple Rector’s Awards for organizational and scientific achievements. Scientific award for her book on soil acidification and liming. OECD Fellowship and the prestigious Dr. and Mrs. A. S. Dekaban Foundation Scholarship

Agricultural Research Focus:

Dr. Monika Skowrońska is an expert in agricultural and environmental chemistry, with a particular focus on sustainable agricultural practices, soil chemistry, and nutrient management. Her research spans various critical areas:

  1. Soil Chemistry and Health:
    • Soil Acidification and Liming: Dr. Skowrońska has conducted extensive research on soil acidification and its mitigation through liming, which earned her a scientific award in the Lublin region.
    • Healthy Soil Chemistry: Currently, she leads the “Healthy Soil – Healthy Soil Chemistry (SOSoil)” project, which is part of the broader HuMUS project aimed at promoting healthy municipal soils.
  2. Nutrient Management:
    • Carbon and Nitrogen Cycles: She has managed projects investigating the transformation processes of nitrogen and carbon in soil, focusing on the effects of organic waste and plant residue applications.
    • Fertilizer Development: Dr. Skowrońska has worked on developing environmentally friendly fertilizers, including technologies for producing potassium thiosulphate and multi-component fertilizers.
  3. Climate Change Mitigation:
    • Adaptation Practices: As an expert for the World Wildlife Fund (WWF), she has analyzed the economic and environmental value of adaptation and mitigation practices to address climate change.
    • Climate Care Cattle Farming System: She contributed to the CCCFarming project, which integrates climate-friendly practices in cattle farming.
  4. Pollution Reduction:
    • Air Pollution Emissions: Dr. Skowrońska is involved in the REDUCOST project, which assesses the potential for reducing air pollution emissions from agricultural practices, considering technical, financial, and social aspects.
  5. Sustainable Agriculture:
    • Low-Workload Systems: She has been a main contractor for projects developing low-workload and environment-friendly fertilization systems, particularly for crops like maize.
  6. International Collaboration:
    • Global Networks: Dr. Skowrońska is an active member of international networks and working groups, such as the Coalition of Action 4 Soil Health (CA4SH) and the European Compost Network, contributing to global efforts in sustainable agriculture and soil health.

Through her comprehensive research, Dr. Skowrońska aims to enhance sustainable agricultural practices, improve soil health, and mitigate the environmental impacts of farming, thus contributing significantly to the field of agricultural and environmental chemistry.

Citations:

  • Citations: 335 citations by 331 documents.
  • Publications: 22 documents.
  • h-index: 8 (indicating significant influence in her field).

Publication Top Notes:

  • The mineral fertilizer-dependent chemical parameters of soil acidification under field conditions
    • Authors: Tkaczyk, P., Mocek-Płóciniak, A., Skowrońska, M., Kuśmierz, S., Zawierucha, E.
    • Journal: Sustainability (Switzerland), 2020, 12(17), 7165
    • Citations: 20
    • Summary: This open-access article examines the effects of mineral fertilizers on soil acidification under field conditions. It provides insights into how different fertilizers impact soil chemistry and the long-term implications for soil health.
  • Hemp-based phytoaccumulation of heavy metals from municipal sewage sludge and phosphogypsum under field conditions
    • Authors: Zielonka, D., Szulc, W., Skowrońska, M., Rutkowska, B., Russel, S.
    • Journal: Agronomy, 2020, 10(6), 907
    • Citations: 13
    • Summary: This open-access study explores the use of hemp for the phytoaccumulation of heavy metals from municipal sewage sludge and phosphogypsum. The research highlights hemp’s potential for environmental remediation.
  • An integrated assessment of the long-term impact of municipal sewage sludge on the chemical and biological properties of soil
    • Authors: Skowrońska, M., Bielińska, E.J., Szymański, K., Antonkiewicz, J., Kołodziej, B.
    • Journal: Catena, 2020, 189, 104484
    • Citations: 52
    • Summary: This article provides an in-depth assessment of the long-term effects of municipal sewage sludge on soil properties. It discusses both chemical and biological changes in soil, offering valuable data for sustainable soil management practices.
  • Cultivar and foliar feeding of plants as factors determining the chemical composition of spelt (Triticum aestivum ssp. spelta L.) grain
    • Authors: Andruszczak, S., Kraska, P., Kwiecińska-Poppe, E., Skowrońska, M.
    • Journal: Applied Ecology and Environmental Research, 2020, 18(2), pp. 2949–2958
    • Citations: 1
    • Summary: This open-access study investigates how different cultivars and foliar feeding methods influence the chemical composition of spelt grain. It offers practical insights for improving crop quality and nutritional value.