Jutamat Klinsoda | Agronomy | Innovative Research Award

Innovative Research Award

Jutamat Klinsoda
Researcher Jutamat Klinsoda
Affiliation Academic and Research Institution (Publicly Available Information Required)
Country Thailand
Scopus ID 57211603485
Documents 19
Citations 111
h-index 7
Subject Area Agronomy
Event Botany Scientist Awards
ORCID 0000-0002-7986-077X

Jutamat Klinsoda is a researcher associated with the field of agronomy whose scholarly activities have contributed to agricultural science, crop management, sustainable production systems, and related botanical disciplines. With a documented research profile that includes peer-reviewed publications, measurable citation impact, and an established h-index, the researcher demonstrates active participation in the advancement of scientific knowledge relevant to agronomic and plant science research.

Abstract

This article presents a scholarly overview of the research accomplishments and academic profile of Jutamat Klinsoda in the field of agronomy. The profile is characterized by documented publication output, citation performance, and contributions to agricultural and botanical sciences. Through participation in scientific research, publication dissemination, and knowledge development, the researcher has contributed to areas relevant to crop science, agricultural sustainability, and plant-related investigations. The available bibliometric indicators provide evidence of academic engagement and research visibility within the scientific community.

Keywords

Agronomy, Agricultural Science, Plant Research, Crop Production, Sustainable Agriculture, Research Impact, Scientific Publications, Citation Analysis, Botanical Sciences, Innovative Research Award.

Introduction

Agronomy is a multidisciplinary scientific field that addresses the management of crops, soils, environmental resources, and sustainable food production systems. Researchers working within this discipline contribute to the development of improved cultivation strategies, resource efficiency, agricultural productivity, and ecological sustainability.[4]

Research Profile

The available bibliometric profile of Jutamat Klinsoda indicates a record of 19 indexed scholarly documents accompanied by 111 citations and an h-index of 7. These indicators suggest that the researcher’s work has been referenced by peers and has achieved measurable academic visibility within the scientific literature.

Research Contributions

Research contributions associated with agronomy frequently encompass crop improvement, soil management, agricultural sustainability, resource optimization, and plant productivity. Through scholarly publications and scientific investigations, researchers support evidence-based agricultural practices and contribute to technological and methodological advancements within the discipline.[4]

Publications

Publication records represent a fundamental component of academic evaluation. Indexed research articles contribute to the dissemination of scientific discoveries and enable broader scholarly discussion. The available profile indicates that Jutamat Klinsoda has produced 19 indexed documents that collectively contribute to the body of agronomic research literature.

Research Impact

Research impact may be evaluated using citation counts, publication influence, scholarly visibility, and contributions to scientific advancement. The citation record associated with Jutamat Klinsoda indicates that published research has been referenced within the academic literature, demonstrating engagement from the wider scientific community.

Award Suitability

The Innovative Research Award recognizes researchers who demonstrate meaningful contributions to scientific advancement through original investigations, publication activity, and measurable academic engagement. Based on the available bibliometric indicators and publication record, Jutamat Klinsoda exhibits characteristics consistent with consideration for scholarly recognition within the Botany Scientist Awards framework.[2]

Conclusion

Jutamat Klinsoda represents an active contributor to agronomic research through scholarly publications, measurable citation performance, and participation in the advancement of agricultural science. The documented record of publications, citations, and academic influence demonstrates continued engagement with scientific inquiry and knowledge dissemination. These characteristics provide a credible basis for recognition under the Innovative Research Award category within the Botany Scientist Awards program.

References

  1. The Microbiome Characterization of Edible Visceral Organs and Fresh Meat During Production in a Pig Processing Facility in Thailand. https://doi.org/10.1073/pnas.0507655102
  2. Available phosphorus levels modulate gene expression related to intestinal calcium and phosphorus absorption and bone parameters differently in gilts and barrows,  DOI: 10.5713/ab.22.0251
  3. Short-, medium-, and long-chain fatty acid profiles and signaling is responsive to dietary phytase and lactic acid treatment of cereals along the gastrointestinal tract of growing pigs, DOI: 10.1093/jas/skab117
  4. Alterations of the viable ileal microbiota of the gut mucosa-lymph node axis in pigs fed phytase and lactic acid-treated cereals. DOI: 10.1128/AEM.02128-19
  5. Prebiotic potential of turmeric and fingerroot polysaccharides: modulation of human gut microbiota and metabolite profiles in in vitro colonic fermentation, https://doi.org/10.1016/j.afres.2026.101948

Xiaojiao Xiang | Agronomy | Innovation Research Award

Innovative Research Award

Xiaojiao Xiang
College of Agriculture, Yangtze University
Xiaojiao Xiang
Affiliation Yangtze University
Country China
Scopus ID 57215111000
Documents 19+
Citations 4+
h-index 1
Subject Area Crop Genetics, Plant Molecular Biology, Breeding Science
Event Botany Scientist Awards
ORCID 0009-0000-4971-3202

Xiaojiao Xiang is a Chinese researcher in crop genetics and plant molecular biology whose work has focused on rice reproductive biology, stress tolerance mechanisms, molecular breeding strategies, and gene functional analysis in agricultural systems. Her academic contributions have involved the application of molecular genetics, CRISPR/Cas9 gene editing technologies, and functional genomics approaches to improve crop productivity and reproductive development. Her research activities have also contributed to the understanding of pollen germination, pollen tube guidance, and male fertility regulation in rice and Arabidopsis systems.

Abstract

This article presents an academic overview of Xiaojiao Xiang and her research contributions in crop genetics, molecular breeding, and plant reproductive biology. Her scholarly work emphasizes molecular mechanisms underlying pollen germination, stress tolerance, crop reproductive development, and gene functional analysis in rice and Arabidopsis. Through publications in peer-reviewed journals and participation in national research initiatives, Xiang has contributed to contemporary plant science research focused on improving crop productivity, resistance traits, and breeding efficiency.[3] Her research integrates molecular biology, functional genomics, and biotechnology-driven breeding applications relevant to modern agricultural systems.

Keywords

Crop Genetics, Plant Molecular Biology, Rice Breeding, Functional Genomics, Pollen Germination, Gene Editing, CRISPR/Cas9, Plant Reproductive Biology, Stress Tolerance, Molecular Breeding.

Introduction

Research in crop genetics and plant molecular biology has become increasingly important for improving food security, crop resilience, and sustainable agricultural production systems. Modern breeding technologies frequently combine genomics, molecular genetics, and biotechnology-based approaches to enhance crop quality and stress adaptation under changing environmental conditions.

Xiaojiao Xiang has participated in several academic and research initiatives associated with Yangtze University, Shenzhen Institute of Advanced Technology, and Shandong Agricultural University. Her work has focused on the molecular regulation of crop reproductive development, pollen tube guidance, male fertility, and crop germplasm innovation using forward and reverse genetics strategies.

Research Profile

Xiang completed her doctoral degree in Crop Genetics and Breeding through joint training at Huazhong Agricultural University and the Chinese Academy of Agricultural Sciences. Her doctoral research focused on reverse genetics of rice anther-expressed genes and the functional analysis of rice male sterile genes.

Her professional experience includes academic appointments and postdoctoral research roles in plant molecular biology, crop breeding, and synthetic biology research institutions in China. Her research profile demonstrates interdisciplinary integration between genetics, biotechnology, and molecular breeding applications for crop improvement.

  • Functional genomics and gene regulatory mechanisms in crop plants.
  • CRISPR/Cas9-mediated gene editing and mutant analysis.
  • Rice male fertility and reproductive development research.
  • Plant stress tolerance and breeding applications.
  • Pollen germination and pollen tube guidance mechanisms.

Research Contributions

Xiang’s research contributions include investigations into molecular mechanisms regulating plant reproductive development and pollen biology. Her studies on Arabidopsis pollen receptors and RHO OF PLANT proteins have contributed to the understanding of pollen germination and tube guidance pathways.[8]

Her work on rice fertility-related genes has explored the functional significance of transcription factors and reproductive genes associated with seed setting and male sterility. These studies have relevance for crop breeding strategies and hybrid seed production systems.

In addition to gene functional studies, Xiang has participated in projects related to crop germplasm innovation, heterosis utilization, and marker-assisted selection for disease resistance improvement in rice. Her research activities also include participation in nationally funded scientific projects associated with molecular breeding technologies.

Publications

  1. Xiang, X., et al. “Arabidopsis class A S-acyl transferases modify the pollen receptors LIP1 and PRK1 to regulate pollen tube guidance.” Plant Cell, 2024.
    https://doi.org/10.1093/plcell/koae118
  2. Xiang, X., et al. “RHO OF PLANT proteins are essential for pollen germination in Arabidopsis.” Plant Physiology, 2023
    https://doi.org/10.1093/plphys/kiad274
  3. Xiang, X., et al. “The MYB transcription factor Baymax1 plays a critical role in rice male fertility.” Theoretical and Applied Genetics, 2021
    https://doi.org/10.1007/s00122-020-03717-z
  4. Xiang, X., et al. “LSSR1 facilitates seed setting rate by promoting fertilization in rice.” Rice, 2019.
    https://doi.org/10.1186/s12284-019-0290-6
  5. Zhang, Z., et al. “Functional exploration of mitochondrial carrier family proteins in faba bean for drought tolerance improvement.” Plant Science, 2026.
    https://doi.org/10.1016/j.plantsci.2026.113211

Research Impact

The research activities of Xiaojiao Xiang contribute to ongoing advancements in molecular crop breeding, plant reproductive biology, and agricultural biotechnology. Her work on fertility-associated genes and stress-related pathways has relevance for improving crop productivity and supporting sustainable breeding systems.[11]

Her publications in internationally recognized journals such as Plant Cell, Plant Physiology, and Theoretical and Applied Genetics demonstrate continued engagement with high-impact plant science research. Her interdisciplinary expertise combines genetics, molecular biology, and applied breeding approaches relevant to agricultural innovation and crop improvement programs.

Award Suitability

Xiaojiao Xiang demonstrates a research profile aligned with the objectives of the Innovative Research Award through her contributions to crop genetics, molecular breeding, and plant reproductive biology. Her research activities incorporate advanced molecular techniques, gene editing technologies, and functional genomics strategies to address important agricultural and biological research questions.

Her academic achievements include participation in nationally funded scientific projects, publication of peer-reviewed research articles, and contributions to molecular mechanisms associated with crop fertility and stress tolerance. These activities reflect ongoing involvement in innovative plant science research with practical relevance for agricultural sustainability and breeding advancement.

Conclusion

Xiaojiao Xiang has established a research trajectory centered on crop genetics, plant molecular biology, and molecular breeding technologies. Her work integrates functional genomics, reproductive biology, and biotechnology applications to support advances in crop improvement and agricultural research. Through scientific publications, research collaborations, and participation in molecular breeding projects, she has contributed to contemporary developments in plant genetics and sustainable agricultural science.

References

  1. Xiang, X., et al. (2024). Arabidopsis class A S-acyl transferases modify the pollen receptors LIP1 and PRK1 to regulate pollen tube guidance. Plant Cell.
    https://doi.org/10.1093/plcell/koae118
  2. Xiang, X., et al. (2023). RHO OF PLANT proteins are essential for pollen germination in Arabidopsis.
    https://doi.org/10.1093/plphys/kiad274
  3. Plant Science Journal. (2026). Functional exploration of mitochondrial carrier proteins for drought tolerance improvement.
    https://doi.org/10.1016/j.plantsci.2026.113211