Xuefeng Shen | Sustainable Crop Production Systems | Best Researcher Award | 3695

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Prof. Xuefeng Shen | Sustainable Crop Production Systems | Best Researcher Award

Professor / Associate Dean at Guangdong Ocean University, China

Prof. Xuefeng Shen is a distinguished academic and researcher at Guangdong Ocean University, holding the position of Professor and Associate Dean. He earned his doctoral degree in agriculture from China Agricultural University, specializing in crop cultivation and stress physiology. Prof. Shen has led multiple research projects funded by the National Natural Science Foundation of China and the Provincial Natural Science Foundation. With over 60 published academic papers and 6 national invention patents, his contributions to agricultural research have been significant. He is also the author of two books, Agricultural Standardized System and Peanut High-efficiency Cultivation. In recognition of his work, Prof. Shen has received the third prize for agricultural technology promotion in Guangdong Province and an award for young teachers from the 16th Huo Yingdong Education Foundation. He actively participates in the cultivation of salt-tolerant crops and weed control, and serves as Vice Chairman of the Zhanjiang Tropical Agriculture Society.

Professional Profile :

Scopus Profile

Education :

Prof. Xuefeng Shen earned his doctoral degree in agriculture from China Agricultural University, one of the leading institutions in China. His academic journey has been focused on crop cultivation and stress physiology, areas in which he has made significant contributions through both research and innovation. Throughout his education, Prof. Shen developed a deep understanding of agricultural sciences, particularly the challenges and solutions related to crop growth under stress conditions. His educational foundation laid the groundwork for his successful career as a researcher and educator. Over the years, he has continued to build on his academic expertise, leading multiple research projects funded by both the National Natural Science Foundation of China and the Provincial Natural Science Foundation. His academic background has also enabled him to author several influential publications, including books on agricultural systems and high-efficiency cultivation, further solidifying his position as a leading figure in the field of agricultural research.

Professional Experience:

Prof. Xuefeng Shen is an accomplished academic with extensive experience in agricultural research, particularly in crop cultivation and stress physiology. He holds the position of Professor and Associate Dean at Guangdong Ocean University, where he has led several groundbreaking research projects. Prof. Shen has successfully presided over five projects funded by the National Natural Science Foundation of China and the Provincial Natural Science Foundation. He has published over 60 academic papers and holds six national invention patents, demonstrating his strong research capabilities and innovative approach. In addition to his research, Prof. Shen has authored books such as Agricultural Standardized System and Peanut High-efficiency Cultivation, contributing valuable knowledge to the field. His leadership extends beyond academia as he serves as the Vice Chairman and Executive Director of the Zhanjiang Tropical Agriculture Society. His recognition includes prestigious awards, such as the third prize for agricultural technology promotion in Guangdong Province and the Young Teacher Award from the Huo Yingdong Education Foundation.

Research Interest:

Prof. Xuefeng Shen’s research interests primarily focus on crop cultivation and stress physiology, with a particular emphasis on improving agricultural productivity under challenging environmental conditions. His work explores the mechanisms by which crops respond to abiotic stresses, such as drought, salinity, and extreme temperatures, aiming to develop more resilient and high-yielding crop varieties. Prof. Shen has been involved in several projects related to the cultivation of salt-tolerant crops and weed control in farmland, addressing key challenges in modern agriculture. He has contributed significantly to the development of agricultural technologies that enhance crop stress resistance and efficiency. In addition to his research on crop physiology, Prof. Shen’s work extends to the creation of agricultural standardized systems and the promotion of high-efficiency cultivation techniques, particularly in peanuts. His innovative approach is reflected in his numerous publications and national patents, which have the potential to revolutionize agricultural practices and improve food security.

Award and Honor:

Prof. Xuefeng Shen has received numerous prestigious awards and honors for his outstanding contributions to the field of crop cultivation and stress physiology. Notably, he was awarded the third prize for agricultural technology promotion in Guangdong Province, recognizing his significant impact on advancing agricultural practices. Additionally, Prof. Shen was honored with the Young Teacher Award from the 16th Huo Yingdong Education Foundation, which acknowledges his excellence in teaching and his dedication to nurturing the next generation of agricultural scientists. These accolades, alongside his impressive academic achievements, including over 60 published papers and six national invention patents, underscore his leadership in agricultural research. Prof. Shen’s work continues to influence the agricultural community, and his role as a member of the Youth Editorial Committee of Guangdong Agricultural Science and his position as Vice Chairman of the Zhanjiang Tropical Agriculture Society further solidify his standing as a respected figure in agricultural science.

Conclusion:

Prof. Xuefeng Shen is a distinguished researcher with a remarkable track record in crop cultivation and stress physiology. His leadership in multiple projects funded by the National Natural Science Foundation of China and the Provincial Natural Science Foundation underscores his expertise and ability to secure significant research funding. With over 60 published academic papers and six national invention patents, Prof. Shen has made notable contributions to the agricultural field. His recognition through awards such as the third prize for agricultural technology promotion in Guangdong Province and the Young Teacher Award from the Huo Yingdong Education Foundation further solidifies his reputation as an accomplished researcher and educator. While expanding his industry collaborations and international presence could enhance the practical impact of his work, Prof. Shen’s research has already made a substantial contribution to advancing agricultural science. He is undoubtedly a strong candidate for the Best Researcher Award, with the potential for even greater global influence.

Publications Top Noted:

  • Mitigation Effect of Exogenous Nano-Silicon on Salt Stress Damage of Rice Seedlings
    Authors: Xiong, J., Yang, X., Sun, M., Zhao, L., Shen, X.
    Year: 2025
    Citations: 0
  • Effects of Exogenous Spermidine on Seed Germination and Physiological Metabolism of Rice Under NaCl Stress
    Authors: Yang, X., Xiong, J., Du, X., Zheng, D., Shen, X.
    Year: 2024
    Citations: 0
  • Spermidine augments salt stress resilience in rice roots potentially by enhancing OsbZIP73’s RNA binding capacity
    Authors: Shen, X., Dai, S., Chen, M., Huang, Y.
    Year: 2024
    Citations: 2
  • Optimizing Nitrogen Dosage and Planting Density to Improve Japonica Rice Yield
    Authors: Zhao, L., Zhou, H., Tang, L., Feng, N., Shen, X.
    Year: 2024
    Citations: 0
  • Transcriptomic and Lipidomic Analysis Reveals Complex Regulation Mechanisms Underlying Rice Roots’ Response to Salt Stress
    Authors: Xue, Y., Zhou, C., Feng, N., Liu, Y., Zhang, R.
    Year: 2024
    Citations: 2
  • Integrated transcriptome and metabolome analysis of salinity tolerance in response to foliar application of choline chloride in rice (Oryza sativa L.)
    Authors: Huo, J., Yu, M., Feng, N., Zhao, L., Meng, F.
    Year: 2024
    Citations: 1
  • Plant growth regulators mitigate oxidative damage to rice seedling roots by NaCl stress
    Authors: Wang, Y., Zhao, L.-M., Feng, N., Lu, X., Deng, P.
    Year: 2024
    Citations: 1
  • Comparative transcriptome analysis of gene responses of salt-tolerant and salt-sensitive rice cultivars to salt stress
    Authors: Fang, X., Mo, J., Zhou, H., Xu, J., Yang, S.
    Year: 2023
    Citations: 9
  • Global Responses of Autopolyploid Sugarcane Badila (Saccharum officinarum L.) to Drought Stress Based on Comparative Transcriptome and Metabolome Profiling
    Authors: Yang, S., Chu, N., Feng, N., Shen, X., Zheng, D.
    Year: 2023
    Citations: 9
  • Physiological mechanisms of ABA-induced salinity tolerance in leaves and roots of rice
    Authors: Chen, G., Zheng, D., Feng, N., Meng, F., Huang, A.
    Year: 2022
    Citations: 49

 

Weibo Qin | Agricultural Insects | Best Researcher Award

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Dr Weibo Qin | Agricultural Insects |  Best Researcher Award

Jilin Agricultural University,  China

Weibo Qin is a dedicated student specializing in Agricultural Insects and Pest Control. He is currently pursuing his Ph.D. at the College of Plant Protection, Jilin Agricultural University, where he also serves as a student. Weibo’s academic journey reflects a strong commitment to advancing agricultural science and pest management.

Profile:

Education:

Master’s Degree

  • Institution: Yunnan Agricultural University
  • Location: Kunming, Yunnan, China
  • Faculty: Big Data Academy
  • Duration: September 1, 2020 – July 1, 2022

PhD

  • Institution: Jilin Agricultural University
  • Location: Changchun, Jilin, China
  • Faculty: Plant Protection Institute
  • Duration: September 1, 2022 – July 1, 2026

Area of Specialization:

Weibo Qin specializes in Agricultural Insects and Pest Control, focusing on innovative methods to protect crops and enhance agricultural productivity through the management of pest populations.

Academic Achievements:

During his academic career, Weibo Qin has pursued rigorous training and research, particularly in the integration of big data analytics with agricultural practices to improve pest control measures. His dedication to advancing the field of agricultural pest management has been demonstrated through various projects and research initiatives.

Experience:

Weibo Qin has accumulated significant knowledge and expertise in the field of plant protection, especially in agricultural insects and pest control. His education at prominent agricultural universities in China has equipped him with the skills necessary to contribute to sustainable agricultural practices.

Research Focus on Agricultural Insects:

Weibo Qin’s research primarily centers around Agricultural Insects and Pest Control, with a specific focus on the following areas:

Integrated Pest Management (IPM)

Weibo Qin investigates comprehensive strategies to manage pest populations effectively. His research aims to combine biological, cultural, mechanical, and chemical tools to minimize the economic, health, and environmental risks associated with pest control.

Biological Control Methods

A significant portion of Weibo Qin’s research is dedicated to exploring biological control agents such as predators, parasitoids, and pathogens. He studies their effectiveness in reducing pest populations without harming the environment, aiming to develop sustainable pest control practices.

Impact of Climate Change on Pest Dynamics

Weibo Qin examines how changing climate conditions affect the behavior, distribution, and lifecycle of agricultural pests. His research includes modeling the potential impacts of climate change on pest outbreaks and developing adaptive pest management strategies to mitigate these effects.

Use of Big Data in Pest Management

Leveraging his background in Big Data from his Master’s degree, Weibo Qin integrates data analytics into pest control research. He focuses on the use of big data to predict pest outbreaks, monitor pest populations, and assess the effectiveness of pest control measures in real-time.

Insect-Plant Interactions

Understanding the interactions between agricultural insects and their host plants is crucial for developing effective pest control methods. Weibo Qin’s research delves into the mechanisms of plant resistance and susceptibility to insect pests, aiming to enhance crop protection through the development of pest-resistant plant varieties.

Sustainable Agricultural Practices

Weibo Qin is committed to promoting sustainable agricultural practices that reduce reliance on chemical pesticides. His research supports the development and implementation of environmentally friendly pest control methods that ensure long-term agricultural productivity and ecosystem health.

Through his research, Weibo Qin contributes to advancing the field of agricultural pest management, aiming to enhance crop protection and promote sustainable agricultural practices.

 

Publication Top Notes:

Identification of Cotton Pest and Disease Based on CFNet-VoV-GCSP-LSKNet-YOLOv8s: A New Era of Precision Agriculture

  • Journal: Frontiers in Plant Science
  • Year: 2024
  • DOI: 10.3389/FPLS.2024.1348402
  • Contributors: Li, Rujia; He, Yiting; Li, Yadong; Qin, Weibo; Abbas, Arzlan; Ji, Rongbiao; Li, Shuang; Wu, Yehui; Sun, Xiaohai; Yang, Jianping
  • Abstract: This study presents a novel approach for identifying cotton pests and diseases using an advanced combination of CFNet, VoV-GCSP, LSKNet, and YOLOv8s. This integrated model represents a breakthrough in precision agriculture, offering enhanced accuracy and efficiency in pest and disease detection.

Lightweight Network for Corn Leaf Disease Identification Based on Improved YOLO v8s

  • Journal: Agriculture
  • Year: 2024
  • DOI: 10.3390/agriculture14020220
  • Contributors: Rujia Li; Yadong Li; Weibo Qin; Arzlan Abbas; Shuang Li; Rongbiao Ji; Yehui Wu; Yiting He; Jianping Yang
  • Abstract: The paper introduces an improved YOLO v8s-based lightweight network designed for the identification of corn leaf diseases. This innovation aims to provide a more efficient and accessible solution for farmers to detect and manage corn diseases promptly.

Dietary Assessment Across Various Life Stages of Seven-Spotted Lady Beetle (Coccinella septempunctata) (Coleoptera: Coccinellidae)

  • Journal: The Journal of Basic and Applied Zoology
  • Year: 2023
  • DOI: 10.1186/S41936-023-00348-4
  • Contributors: Abbas, Sohail; Abbas, Muneer; Alam, Aleena; Feng, Xiao; Raza, Ali; Shakeel, Muhammad; Qin, Weibo; Han, Xiao; Chen, Rizhao
  • Abstract: This research investigates the dietary habits and requirements of the seven-spotted lady beetle across its various life stages. The findings provide valuable insights into the nutritional ecology of this beneficial insect, which plays a crucial role in biological pest control.

 

 

Mar Carreras-Sempere | Crop Production Systems | Best Researcher Award

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Ms Mar Carreras-Sempere |  Crop Production Systems | Best Researcher Award

Researcher at IRTA , Spain

Maria del Mar is a highly qualified professional in agronomic and environmental sciences, specializing in sustainable fertilization, plant nutrition, and soil microbiology. She holds a Bachelor’s degree in Biology with a focus on cellular biology and genetics from Universitat Autònoma de Barcelona (2005-2010), followed by a Master’s degree in Soil and Water Management from the Universidad de Lleida (2016-2018). Maria completed her Doctorate in agronomic and environmental science, focusing on the recovery of fertilizers from urban wastewater treatment plants for use in fertigation systems for horticultural crops (2019-2022) at the Institut de Recerca i Tecnologia Agroalimentària (IRTA).

Profile:

🎓 Education:

Maria del Mar holds a Bachelor’s Degree in Biology, specializing in Cellular Biology and Genetics, from Universitat Autònoma de Barcelona (2005-2010). She pursued an Erasmus Internship in Oulu, Finland, and later obtained a Master’s Degree in Secondary Education and Vocational Training from Universidad Internacional de La Rioja (UNIR) in 2011.

🔬 Professional Experience:

With a diverse background, Maria del Mar has worked in various laboratories, including Hospital Clínic’s Primary Hemostasis Laboratory and Silliker Netherlands B.V. as a microbiology laboratory technician. She also served as a field and laboratory technician at INSTITUT DE RECERCA I TECNOLOGÍA AGROALIMENTÁRIA (IRTA), where she conducted soil microbiological analysis and supported experimental trials in molecular biology.

📊 Skills:

Maria del Mar possesses strong teamwork and communication skills, along with proficiency in laboratory techniques and software such as Excel, Word, PowerPoint, Outlook, R-studio, and SAS enterprise.

 

Publication Top Notes:

  1. “Effect of Fertigation with Struvite and Ammonium Nitrate on Substrate Microbiota and N2O Emissions in a Tomato Crop on Soilless Culture System” (Agronomy, 2024)
    • This study likely investigates the impact of using struvite and ammonium nitrate in fertigation on the microbiota of substrates and N2O emissions in tomato crops grown in soilless culture systems. It addresses the sustainability and environmental implications of fertigation practices.
  2. “The use of recovered struvite and ammonium nitrate in fertigation in a horticultural rotation: agronomic and microbiological assessment” (Environmental Technology, 2022)
    • This article likely assesses the agronomic and microbiological aspects of using recovered struvite and ammonium nitrate in fertigation within a horticultural rotation. It examines the feasibility and effectiveness of utilizing recycled nutrients in sustainable horticulture systems.
  3. “Use of Recovered Struvite and Ammonium Nitrate in Fertigation in Tomato (Lycopersicum esculentum) Production for boosting Circular and Sustainable Horticulture” (Agriculture, 2021)
    • This publication explores the utilization of recovered struvite and ammonium nitrate in fertigation specifically for tomato production, with the aim of promoting circular and sustainable horticulture practices. It likely discusses strategies for enhancing nutrient efficiency and minimizing environmental impacts.
  4. “Recovery of Phosphorus from Wastewater Profiting from Biological Nitrogen Treatment: Upstream, Concomitant or Downstream Precipitation Alternatives” (Agronomy, 2020)
    • Although not directly related to fertigation, this study focuses on the recovery of phosphorus from wastewater in conjunction with biological nitrogen treatment. It demonstrates an interest in sustainable nutrient management practices and the circular economy principles applied to agricultural systems.