Karim Kadr | Biotechnology | Excellence in Research

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Dr. Karim Kadr | Biotechnology | Excellence in Research

Dr at Regional Research Center on Oasis Agriculture, Tunisia

Karim Kadri,Ā  has devoted his career to advancing agricultural science in arid regions. After starting as an engineer at the National Institute of Agronomic Research of Tunisia in 2004, he transitioned to the Regional Research Center for Oasis Agriculture (CRRAO) in Degache, Tozeur, in 2007. Here, he now leads the Date Palm Genetic Resources and Biotechnology Laboratory. Kadriā€™s work focuses on preserving and enhancing date palm genetic resources through morphological, physiological, and molecular studies. Passionate about adapting agriculture to climate change, his research targets sustainable practices for oasis systems. Beyond work, Karim enjoys tennis, travel, and cultural explorations.

Profile

Scopus

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Education šŸŽ“

PhD in Biology (2016): Faculty of Science of Tunisia, focusing on plant biotechnology. Master in Genetic and Molecular Biology (2005): Faculty of Sciences of Tunisia, specializing in molecular research methodologies. National Engineer Diploma in Bioindustry (2003): National Institute of Applied Sciences of Tunis, providing a foundation in applied bioindustrial processes. High School Graduation (1997): A-level in Natural Sciences from the Secondary School of Abou Kacem CHEBBI, Tozeur.

Ā Experience šŸ’¼

2004-2006: Contract Engineer at the National Institute of Agronomic Research of Tunisia, focusing on morpho-physiological evaluation of barley under salt stress. 2006-2007: Contract Researcher in the Biotechnology and Plant Physiology Laboratory, contributing to significant plant physiology projects. Since August 2007: Researcher and Laboratory Head at CRRAO, Degache, Tozeur, Tunisia. Overseeing research in date palm genetic resources, Kadri has led numerous initiatives on genetic preservation and climate resilience.

Awards and Honors šŸ†

Recognition for significant contributions to date palm research and conservation efforts. Acknowledged as a leading researcher in Tunisia for advancements in agricultural biotechnology. Commended by various academic institutions for efforts in promoting sustainability in oasis ecosystems. Recipient of regional accolades for research addressing climate change adaptation strategies.

Research Focus šŸ”

Karim Kadriā€™s research primarily focuses on the genetic conservation and enhancement of date palms, crucial for sustainable agriculture in oasis systems. He delves into morphological, physiological, and molecular analyses to safeguard and improve date palm cultivars. With climate change posing increased threats, Kadriā€™s work has pivoted toward selecting resilient date palm pollinators to bolster the oasis ecosystem’s sustainability. His research aims at improving both the quality and quantity of date palm production to support regional agricultural resilience.

Conclusion šŸ“

Dr. Karim Kadriā€™s profound dedication to biotechnology, especially in the context of date palm genetic resources and climate change adaptation, makes him a strong candidate for the Excellence in Research Award. His leadership, innovative contributions, and sustainable focus are exemplary. With targeted improvements in language proficiency and international engagement, his already impactful career could achieve even greater recognition and influence.

Publications šŸ“š

  • Effect of Pollen Quantity on Fruit Set, Seed Germination, and Plantlet Vigor of Date Palm cv. Deglet Nour
    • Authors: M. Mesnoua, M. Roumani, M. Tahirine, K. Kadri, A. Parmar
    • Publication: Agricultural Research
    • Year: 2024
    • Key Insight: This study examines how varying pollen quantities impact the development of fruit and subsequent seed germination and vigor in the ‘Deglet Nour’ variety of date palm.

 

  • Genetic Analysis of Anthracnose Resistant and Heat Tolerant Chili Inbred Lines Based on Morpho-Physiological Characteristics
    • Authors: M. Chowdhury, F. Nazneen, M.Y. Rafii, S.I. Ismail, S.I. Ramlee, M. Hosen, et al.
    • Publication: Chilean Journal of Agricultural Research
    • Year: 2023
    • Focus: Highlights genetic resilience in chili lines, combining resistance to anthracnose and heat tolerance through morpho-physiological assessments.

 

  • The Genetic Diversity Analysis of Tunisian Male Date Palm Cultivars (Phoenix dactylifera L.) Revealed by Phenotypic and Molecular Markers
    • Authors: K. Karim, H. Hamza, H. Tiba, M. Elsafy
    • Publication: European Journal of Biology and Biotechnology
    • Year: 2022
    • Summary: Explores the genetic diversity of male date palm cultivars in Tunisia using phenotypic and molecular analysis.

 

  • Transcriptional Changes in Salt-Responsive Genes of Barley Subjected to Salt Stress
    • Authors: K. Karim, N. Amani Ben, N. Mā€™Barek Ben
    • Journal: International Journal of Innovation and Applied Studies
    • Year: 2014
    • Findings: Investigates gene expression changes in barley in response to salt stress, contributing to understanding stress tolerance mechanisms.

 

  • RAPD Markers and Morpho-Physiological Characterization of Some Tunisian Barley Ecotypes
    • Authors: K. Karim, A. Rawda, C.M. Hatem, B.N. Mā€™barek
    • Publication: Biological Diversity and Conservation
    • Year: 2010
    • Details: Utilizes RAPD markers to characterize barley ecotypes, shedding light on genetic variation within the species.

 

  • Study on the Effects of Pollen Sources on the Agronomic, Biochemical, Mineral, and Pomological Traits of Date Palm (Phoenix dactylifera L.) cv ‘Deglet Nour’ Fruits
    • Authors: K. Kadri, M. Jemni, M. Mesnoua, S.S. Sharma, A.A. Malik, S. Makhlouf, et al.
    • Publication: Genetic Resources and Crop Evolution
    • Year: 2024
    • Implication: Analyzes how different pollen sources affect key traits of the ‘Deglet Nour’ variety.

 

  • Genetic Diversity of Tunisian and Indian Date Palm Cultivars and Genotypes Revealed by AFLP Markers
    • Authors: K. Karim, A.A. Malik, H. Hamza, E. Mohamed, S.S. Sharma
    • Year: 2023
    • Contribution: Uses AFLP markers to explore genetic diversity across Tunisian and Indian date palm cultivars.

 

 

  • Effect of Pollination Technique on Agronomic and Physicochemical Characteristics of Date Palm Fruits (Phoenix dactylifera L.) cv. ‘Deglet Nour’
    • Authors: K. Karim, A. Karim, H. Hamza, A. Manar, C. Karmous, T. Bettaieb
    • Publication: Horticultural Science and Technology
    • Year: 2022
    • Outcome: Discusses the impacts of various pollination techniques on fruit quality and yield.

 

 

Kazuyoshi Tsuchiya | Bio Engineering | Best Researcher Award

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Ā  Prof Dr. Kazuyoshi Tsuchiya | Bio Engineering | Best Researcher AwardĀ 

Prof Dr at Tokai University,Ā  Japan

Prof. Kazuyoshi Tsuchiya is a distinguished professor in the Department of Precision and Mechanical Engineering at Tokai University, Japan. He is also a board member of the Japan Society of Precision Engineering. With over 100 publications in peer-reviewed journals and conference proceedings, his research focuses on biocompatible microneedles, piezoelectric thin film actuators, and sensors for BioMEMS. He is particularly interested in developing sensor systems that monitor biological information, such as pH levels. Prof. Tsuchiya has accumulated twenty years of academic experience in Japanese universities, specializing in MEMS and nanotechnology, utilizing super precision machining techniques like ion beam sputtering. His expertise includes practical design and production skills for MEMS and nanotechnology.

profile:

 

Scopus

Orcid

Scholar

 

šŸŽ“Education

Ph.D. in Engineering University of Warwick, UK (1995-1999) Thesis: ā€œFabrication of TiNi Shape Memory Alloy Microactuators by Ion Beam Sputter Depositionā€. Master of Engineering Tokai University, Japan (1993-1995) Thesis: ā€œImprovement of Surface Roughness by Ion Beam Sputteringā€. Bachelor of Engineering Tokai University, Japan (1989-1993) Thesis: ā€œSurface Machining for Lens by Ion Beam Sputteringā€

šŸ’¼Work Experience

Professor, Department of Precision Engineering, Micro/Nano Technology Center Tokai University, Tokyo, Japan (April 2022-Present). Professor, Precision Engineering, Micro/Nano Technology Center Tokai University, Tokyo, Japan (April 2015-March 2021). Professor, Precision Engineering Tokai University, Tokyo, Japan (April 2014-March 2015). Associate Professor, Precision Engineering Tokai University, Tokyo, Japan (April 2007-March 2014). Senior Research Fellow University of Warwick, Coventry, UK (April 2012-October 2012). Research Assistant, Bio Venture Centre Osaka Institute of Technology, Osaka, Japan (April 2001-March 2005). Research Assistant, Satellite Venture Business Laboratory Ibaraki University, Hitachi, Japan (May 1999-March 2001)

šŸ”¬Research Focus

Prof. Tsuchiyaā€™s research involves: Development of pain quantitative assessment techniques for microneedle design., Simulation and development of valveless micropumps for lab-on-a-chip applications., Quantitative assessment of biocompatibility using first principle methods., Production of titanium microneedles and PZT thin film micro actuators using ion sputtering., Design of micropumping systems for drug delivery and health monitoring.

Publication:šŸ“

  1. Title: Influence of Al Doping on the Structural, Morphological, Optical, and Gas Sensing Properties of ZnO Nanorods
    • Authors: M. Navaneethan, G. K. Mani, S. Ponnusamy, K. Tsuchiya, et al.
    • Journal: Journal of Alloys and Compounds
    • Volume: 698
    • Pages: 555-564
    • Year: 2017
    • Citations: 166

 

  1. Title: Development of Blood Extraction System for Health Monitoring System
    • Authors: K. Tsuchiya, N. Nakanishi, Y. Uetsuji, E. Nakamachi
    • Journal: Biomedical Microdevices
    • Volume: 7
    • Pages: 347-353
    • Year: 2005
    • Citations: 129

 

  1. Title: ZnO-Based Microfluidic pH Sensor: A Versatile Approach for Quick Recognition of Circulating Tumor Cells in Blood
    • Authors: G. K. Mani, M. Morohoshi, Y. Yasoda, S. Yokoyama, H. Kimura, K. Tsuchiya
    • Journal: ACS Applied Materials & Interfaces
    • Volume: 9 (6)
    • Pages: 5193-5203
    • Year: 2017
    • Citations: 74

 

  1. Title: Microneedle pH Sensor: Direct, Label-Free, Real-Time Detection of Cerebrospinal Fluid and Bladder pH
    • Authors: G. K. Mani, K. Miyakoda, A. Saito, Y. Yasoda, K. Kajiwara, M. Kimura, K. Tsuchiya
    • Journal: ACS Applied Materials & Interfaces
    • Volume: 9 (26)
    • Pages: 21651-21659
    • Year: 2017
    • Citations: 64

 

  1. Title: Development of an Acetone Sensor Using Nanostructured Coā‚ƒOā‚„ Thin Films for Exhaled Breath Analysis
    • Authors: P. Srinivasan, A. J. Kulandaisamy, G. K. Mani, K. J. Babu, K. Tsuchiya, et al.
    • Journal: RSC Advances
    • Volume: 9 (52)
    • Pages: 30226-30239
    • Year: 2019
    • Citations: 50

 

  1. Title: Development of RF Magnetron Sputtering Method to Fabricate PZT Thin Film Actuator
    • Authors: K. Tsuchiya, T. Kitagawa, E. Nakamachi
    • Journal: Precision Engineering
    • Volume: 27 (3)
    • Pages: 258-264
    • Year: 2003
    • Citations: 50

 

  1. Title: Investigation on CHā‚„ Sensing Characteristics of Hierarchical Vā‚‚Oā‚… Nanoflowers Operated at Relatively Low Temperature Using Chemiresistive Approach
    • Authors: V. Mounasamy, G. K. Mani, D. Ponnusamy, K. Tsuchiya, P. R. Reshma, et al.
    • Journal: Analytica Chimica Acta
    • Volume: 1106
    • Pages: 148-160
    • Year: 2020
    • Citations: 48

 

  1. Title: Design and Development of a Biocompatible Painless Microneedle by the Ion Sputtering Deposition Method
    • Authors: K. Tsuchiya, S. Jinnin, H. Yamamoto, Y. Uetsuji, E. Nakamachi
    • Journal: Precision Engineering
    • Volume: 34 (3)
    • Pages: 461-466
    • Year: 2010
    • Citations: 48

 

  1. Title: Development and Fluidic Simulation of Microneedles for Painless Pathological Interfacing with Living Systems
    • Authors: S. Chakraborty, K. Tsuchiya
    • Journal: Journal of Applied Physics
    • Volume: 103 (11)
    • Year: 2008
    • Citations: 40