Research Excellence Award
| Conny Herholz |
| Affiliation |
Berner Fachhochschule BFH, HAFL |
| Country |
Switzerland |
| Scopus ID |
7003443476 |
| Documents |
34 |
| Citations |
387 |
| h-index |
9 |
| Subject Area |
Agricultural Biotechnology |
| Event |
Biotechnology Scientist Awards |
Conny Herholz
Berner Fachhochschule BFH, HAFL
Conny Herholz, affiliated with Berner Fachhochschule BFH, HAFL, Switzerland. Her academic activities are associated with agricultural biotechnology, applied biological sciences, and interdisciplinary research supporting innovation within sustainable agricultural systems. The recognition is presented within the framework of the Biotechnology Scientist Awards, which highlight researchers demonstrating measurable scientific productivity, citation impact, and contributions to knowledge dissemination within their respective disciplines.[1]
Abstract
Conny Herholz has established a research profile characterized by contributions to agricultural biotechnology and related life-science disciplines. Through peer-reviewed publications, collaborative scientific activities, and knowledge transfer initiatives, her work contributes to the advancement of sustainable agricultural systems and biotechnology-driven innovation. Bibliometric indicators associated with her scholarly record demonstrate a sustained level of research engagement and scientific visibility within the international academic community.[1][2]
Keywords
- Agricultural Biotechnology
- Sustainable Agriculture
- Biotechnology Research
- Scientific Impact
- Research Excellence
- Applied Biological Sciences
Introduction
Research excellence awards are designed to acknowledge investigators whose scientific output demonstrates originality, relevance, and measurable impact. Within agricultural biotechnology, researchers play a significant role in addressing challenges associated with food production, environmental sustainability, biological resource management, and technological innovation. Conny Herholz’s publication record and citation profile indicate active engagement in scientific inquiry and scholarly communication within these areas.[1]
Research Profile
Based at Berner Fachhochschule BFH, HAFL in Switzerland, Conny Herholz has contributed to research activities connected with agricultural and biotechnology-related disciplines. Her academic record includes 34 indexed documents and a citation count of 387, accompanied by an h-index of 9. These indicators reflect both productivity and the continued relevance of her work within the scholarly literature.[1]
- Affiliation: Berner Fachhochschule BFH, HAFL
- Country: Switzerland
- Scopus Author ID: 7003443476
- Indexed Documents: 34
- Citations: 387
- h-index: 9
Research Contributions
The research contributions associated with Conny Herholz reflect engagement with agricultural biotechnology and interdisciplinary scientific collaboration. Her work supports the generation of evidence-based knowledge relevant to biological systems, agricultural sustainability, and biotechnology applications. Through peer-reviewed dissemination, research findings have contributed to academic discussions and practical developments within the field.[2]
The cumulative impact of these contributions is reflected through citation activity and continued scholarly reference to published findings. Such engagement indicates the relevance of the research to ongoing scientific investigations and knowledge development initiatives.[1]
Publications
The publication portfolio attributed to Conny Herholz consists of peer-reviewed scholarly works indexed within internationally recognized academic databases. These publications collectively contribute to the literature in agricultural biotechnology and related scientific domains. Representative scholarly outputs include journal articles, collaborative studies, and applied research publications.[1]
- Peer-reviewed journal articles.
- Collaborative interdisciplinary research papers.
- Applied biotechnology and agricultural science studies.
- Scientific publications contributing to sustainable agricultural development.
Research Impact
Research impact may be evaluated through bibliometric indicators, scholarly influence, and knowledge dissemination outcomes. With 387 citations and an h-index of 9, Conny Herholz demonstrates measurable scientific visibility within her field. Citation metrics suggest that her publications have contributed to ongoing academic discussions and have been referenced by researchers working on related scientific topics.[1]
The integration of research findings into broader scientific dialogue represents an important indicator of scholarly relevance. Such influence contributes to the advancement of biotechnology research and supports continued innovation in agricultural systems and biological sciences.[3]
Award Suitability
The Research Excellence Award recognizes individuals whose academic achievements demonstrate quality, consistency, and influence. Based on available publication metrics, citation performance, and contributions within agricultural biotechnology, Conny Herholz presents characteristics commonly associated with academic recognition programs. Her scholarly activities align with the objectives of the Biotechnology Scientist Awards, which emphasize scientific advancement, research dissemination, and professional contribution to biotechnology-related disciplines.[1][3]
Conclusion
Conny Herholz’s academic profile reflects sustained engagement in agricultural biotechnology research and scholarly communication. Through a record of indexed publications, documented citations, and interdisciplinary contributions, she has participated in advancing scientific knowledge relevant to biotechnology and sustainable agriculture. Her research accomplishments provide a foundation for recognition through the Research Excellence Award within the Biotechnology Scientist Awards program.[1]
External Links
References
- Scopus author details: Conny Herholz, Author ID 7003443476. Scopus. https://www.scopus.com/authid/detail.uri?authorId=7003443476
- Airborne dust and microorganisms from hay produced on intensively and extensively managed grasslands in Switzerland.
https://www.sciencedirect.com/science/article/pii/S2451943X26001365
- Large Temporal Variations of Functional Properties of Outdoor Equestrian Arena Surfaces and a New Concept of Evaluating Reactivity With Light Weight Deflectometer Settlement Curves.
https://www.sciencedirect.com/science/article/pii/S0737080623007256