Sangwook Park | Genetics and Genomics | Innovative Research Award

Published on by Environmental Scientists

Innovative Research Award

Sangwook Park
Sangji University, South Korea

Sangwook Park
Affiliation Sangji University
Country South Korea
Documents 8
Citations 1
Subject Area Genetics and Genomics
Event Environmental Scientists Award
ORCID 0000-0003-2819-8621

Sangwook Park emerging and established scientific researchers whose academic contributions demonstrate originality, interdisciplinary collaboration, and measurable research advancement in environmental and life science domains. Sangwook Park of Sangji University has been associated with research activities in Genetics and Genomics, contributing to the broader scientific understanding of molecular biology, environmental genetics, and genomic applications relevant to sustainability and environmental sciences.[1]

Abstract

This academic recognition article documents the professional profile and scientific relevance of Sangwook Park in relation to the Innovative Research Award under the Environmental Scientists Award platform. The profile highlights research activities connected to Genetics and Genomics, with emphasis on interdisciplinary scientific applications involving environmental systems, genomic analysis, and biological innovation. The article further summarizes institutional affiliation, scholarly visibility, publication contributions, and the broader significance of genomic sciences in environmental research and sustainability initiatives.

Keywords

Innovative Research Award, Genetics and Genomics, Environmental Scientists Award, Sangji University, South Korea, Genomic Research, Environmental Genetics, Molecular Biology, Scientific Recognition, Academic Research Excellence

Introduction

Contemporary environmental and biological sciences increasingly rely on genomic methodologies to investigate ecological adaptation, biodiversity conservation, and molecular-level interactions affecting environmental systems. Genetics and Genomics provide essential frameworks for understanding biological responses to environmental change, supporting developments in sustainability research and biotechnology.[3]

Within this evolving academic landscape, researchers associated with genomic and molecular investigations contribute to interdisciplinary scientific progress. Sangwook Park’s affiliation with Sangji University reflects institutional participation in advancing scientific studies related to genomic sciences and environmental applications.[1]

Research Profile

Sangwook Park is academically associated with Sangji University in South Korea and has contributed to scientific investigations within the domain of Genetics and Genomics. The research profile includes documented scholarly output indexed through academic databases and research identification systems.[1]

  • Affiliation with Sangji University, South Korea
  • Research specialization in Genetics and Genomics
  • Participation in scholarly publication activities
  • Association with international researcher identification systems
  • Contribution to environmental and biological science discussions

Research Contributions

Research contributions associated with Genetics and Genomics commonly involve molecular characterization, genomic sequencing methodologies, gene expression studies, and biological data interpretation. These areas support scientific advancements in environmental monitoring, ecosystem resilience, and biotechnology applications.[4]

Sangwook Park’s academic activities contribute to the growing interdisciplinary integration between environmental sciences and molecular biology. Such contributions are particularly relevant in addressing global scientific challenges involving biodiversity preservation, ecological sustainability, and biological adaptation mechanisms.

Publications

The documented publication output includes scholarly articles associated with genetics, molecular biology, and genomics-related investigations. Publication records indicate participation in peer-reviewed academic communication and scientific dissemination activities.[1]

  • Research articles in Genetics and Genomics
  • Scientific contributions relevant to biological sciences
  • Indexed academic documentation and citation tracking
  • Collaborative scientific publication activities

Research Impact

The integration of genomic methodologies within environmental sciences has significantly expanded scientific understanding of ecological systems, environmental adaptation, and biological interactions. Researchers working within this interdisciplinary framework contribute to data-driven approaches supporting sustainability and environmental management strategies.[4]

The documented scholarly metrics, including publication counts and citation indexing, indicate participation in ongoing scientific communication processes. Such indicators are commonly considered during evaluations for academic recognition and research excellence awards.[1]

Award Suitability

The Innovative Research Award acknowledges researchers demonstrating scientific originality, interdisciplinary engagement, and measurable academic contributions. Sangwook Park’s documented involvement in Genetics and Genomics aligns with the objectives of the Environmental Scientists Award platform, particularly in areas linking molecular science with environmental applications.

Eligibility considerations for such recognition commonly include research relevance, publication activity, scientific contribution, and broader academic engagement. Contributions in genomic sciences are increasingly recognized for their importance in environmental monitoring, ecological resilience studies, and sustainability-oriented research.[3]

Conclusion

The academic profile of Sangwook Park reflects participation in scientific research activities associated with Genetics and Genomics and their interdisciplinary relevance to environmental sciences. Through institutional affiliation, scholarly documentation, and research-oriented engagement, the profile demonstrates alignment with the objectives of the Innovative Research Award and the broader mission of recognizing scientific advancement within environmental and biological disciplines.[1]

References

  1. ORCID. (n.d.). ORCID profile record for Sangwook Park. ORCID Registry.
    https://orcid.org/0000-0003-2819-8621
  2. National Human Genome Research Institute. (n.d.). Genomics and environmental research applications.
  3. Nature Publishing Group. (2011). A framework for variation discovery and genotyping using next-generation DNA sequencing data Applications of genomics in environmental and biological sciences.
    https://doi.org/10.1038/ng.806

Salma Faroug Hussain Elzaki | Genetics | Best Scholar Award

Published on by Environmental Scientists

Dr. Salma Faroug Hussain Elzaki | Genetics | Best Scholar Award

Dr. Salma Faroug Hussain Elzaki | Genetics | University of Khartoum | Sudan

Dr Salma Elzaki is an accomplished geneticist and animal science researcher whose work centers on livestock genomics, genetic diversity, adaptation to environmental stressors, and improving production traits in indigenous cattle breeds, particularly Bos indicus (zebu) cattle such as the Sudanese Butana and its crossbreds. Dr Salma Elzaki earned her academic qualifications in animal genetics and breeding, culminating in advanced research training that laid the foundation for her contributions to bovine genomics and complex trait analysis. Her education equips her with expertise in population genetics, molecular markers, and statistical genomics, enabling her to design and implement comprehensive studies on cattle adaptation and performance. Over the course of her professional career, Dr Salma Elzaki has held research and academic positions at institutions including the Albrecht Daniel Thaer-Institute for Agricultural and Horticultural Sciences at Humboldt-Universität zu Berlin and the University of Khartoum’s Faculty of Animal Production, where she has been involved in collaborative projects on genetic diversity, genome analysis, and trait association studies in cattle. In these roles she has led sample collection, phenotypic data acquisition, genomic sequencing work, and statistical analysis to characterize breed-specific genetic architecture under environmental pressures. Dr Salma Elzaki’s research interests revolve around livestock adaptation to heat stress, disease resistance, genetic markers influencing production traits such as milk yield and mastitis susceptibility, and the development of genomic tools for sustainable breeding programs in challenging environments. Her skill set includes high-throughput genotyping, whole-genome sequencing analysis, SNP association studies, bioinformatics pipelines, and interpretation of genomic selection signatures. She has demonstrated proficiency in using molecular and computational techniques to uncover genetic variants and pathways involved in environmental resilience and productive performance in cattle. Dr Salma Elzaki’s work has garnered recognition in the form of peer-reviewed publications and collaborations, and her contributions have helped inform breeding strategies that balance productivity with adaptation to heat and disease pressures. In conclusion, Dr Salma Elzaki’s scholarly achievements and ongoing research underscore her commitment to advancing livestock genetics, particularly in underrepresented indigenous breeds, and reinforcing the role of genomic insights in improving global food security through resilient and productive animal populations.

Academic Profile: ORCID

Featured Publications:

  1. Neumann, G. B., Korkuć, P., Rahmatalla, S. A., Reißmann, M., Omer, E. A. M., Elzaki, S., & Brockmann, G. A. (2025). Surviving the Heat: Genetic Diversity and Adaptation in Sudanese Butana Cattle. Genes, 16(12), 1429.

  2. Elzaki, S., Korkuć, P., Arends, D., Reissmann, M., & Brockmann, G. A. (2022). Effects of DGAT1 on milk performance in Sudanese Butana × Holstein crossbred cattle. Tropical Animal Health and Production, 54, Article 142.

  3. Elzaki, S., Korkuc, P., Arends, D., Reissmann, M., Rahmatalla, S. A., & Brockmann, G. A. (2022). Validation of somatic cell score-associated SNPs from Holstein cattle in Sudanese Butana and Butana × Holstein crossbred cattle. Tropical Animal Health and Production, 54(1), 50. Cited by 4.

  4. Elzaki, S., Korkuć, P., & Arends, D. (2021). Design and performance of a bovine 200k SNP chip developed for endangered German Black Pied cattle (DSN). BMC Genomics, 22, 8237.