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Citations of Herbal Floras by QR Code Technology – A Sustainable Approach for Biodiversity Conservation

 

https://doi.org/10.63589/pt.3.2.2024.41-47

 

Ganesh Datt Bhatt, Parveen Kumar Jain and Deepali Rana

Abstract: This paper discusses the development and implementation of a QR code-based system for herbal flora
citation. It examines the technical aspects of generating and linking QR codes to robust databases, ensuring data
security, and maintaining the integrity of information. The study also evaluates user engagement and the
effectiveness of this technology in promoting awareness and education about biodiversity conservation.
Preliminary results indicate that the use of QR codes significantly enhances the visibility and accessibility of
information related to herbal flora. This method not only aids in scientific research by providing accurate and easily
retrievable data but also fosters a greater public interest in plant conservation. Additionally, it supports the efforts of
conservationists by streamlining data collection and monitoring of plant populations.
In the herbal garden we have 45 different plants, including shrubs (22), trees (13), herbs (9) and grass (1) etc.
The photographs of each herbal plant were captured using camera. The development of QR codes in herbal garden
includes research, education, awareness, and extension activities.

Keywords: Citations, Herbal Floras, QR Code, Sustainable, Biodiversity, Conservation.

References :

  • Agrawal, A. 1995. Dismantling the divide between indigenous and scientific knowledge. Development and Change, 26(3): 413-439.Aldya, R., Lathifah, A. & Suhartini, S. 2022. Plant identification code: Learning media based on QR-code for plant exploration in P-WEC conservation area. Edubiotik: Journal Pendidikan, Biologi dan Terapan. https://doi.org/10.33503/ebio.v7i02.2068.
  • Bhatt, G. D., Mittapalli Bindhupriya & Salam, J. 2023. Establishment of herbal garden in the Galgotias University campus – An ex-situ conservation approach. International Journal of Plant and Environment, 9(2): 143-149.
  • Bhatt, G. D., Rana, D. &  Singh, M. 2021. Documentation of wild medicinal plants and agriculture crops in part of Doon Valley, Uttarakhand, India. The Indian Forester, 147(1): 71-80.
  • Bridson, D. &  Forman, L. 1992. The Herbarium Handbook. Royal Botanic Gardens, Kew.
  • Diazgranados, M. & Funk, V. 2013. Utility of QR codes in biological collections. PhytoKeys, 25, 21-34. https://doi.org/10.3897/phytokeys. 25.5175.
  • Funk, V. A., Hoch, P. C. &  Prather, L. A. 2005. Systematic Botany: Understanding Evolutio-nary Relationships and Biodiversity. Smithsonian Institution Press.
  • Gao, Y., Liu, T. & Paas, F. 2016. Effects of mode of target task selection on learning about plants in a mobile learning environment: Effortful manual selection versus effortless QR-code selection. Journal of Educational Psychology, 108, 694-704. https://doi.org/10.1037/EDU0000080.
  • Jin-lia, C. (2013). QR code in the interpretation system of botanical gardens: Application and design. Journal of Shenyang Agricultural University.
    Kok, M., Alkemade, R., Bakkenes, M., Eerdt, M., Janse, J., Mandryk, M., Kram, T., Lazarova, T., Meijer, J., Oorschot, M., Westhoek, H., Zagt, R., Berg, M., Esch, S., Prins, A. & Vuuren, D. 2018. Pathways for agriculture and forestry to contribute to terrestrial biodiversity conservation: A global scenario-study. Biological Conservation, 221: 137-150. https://doi.org/10.1016/J.BIOCON.2018.03.003.
  • Lai, H., Chang, C., Wen-Shiane, L., Fan, Y. & Wu, Y. 2013. The implementation of mobile learning in outdoor
    education: Application of QR codes. British Journal of Educational Technology. https://doi.org/10.1111/J.1467-
    8535. 2012.01343.X.
  • Lira, T., Ribeiro, C. & Lopes, J. 2011. Biodiversity information systems using georeferencing and physical identification. Biodiversity Informatics, 255-262. https://doi.org/10.5220/000330010-2550262.
  • Miller, J. S., Funk, V., Wagner, W. L. & Moritz, C. 2004. Plant Conservation: A Natural History Approach. The University of Chicago Press.
  • Preethi, S. & Ponmurugan, P. 2023. Developing a fast, reproducible, and simple protocol for virtual lichen herbarium using barcoding and QR code techniques. Journal of Threatened Taxa. https://doi.org/10.11609/jott.8081.15.7.-23587-23595.
  • Pretty, J. 2002. Agri-Culture: Reconnecting People, Land and Nature. Earthscan.
  • Rabitsch, K., Stepanchuk, S. & Tsyrennikov, V. 2015. International portfolios: A comparison of solution methods.
  • Journal of International Economics, 97, 404-422. https://doi.org/10.1016/J.JINTECO.2015.08.001.
  • Singh, R., Bhatt, G. & Kumar, A. 2023. Traditional knowledge systems and their modern applications. Journal of Sustainable Development, 15(4): 67-78.
  • Soltis, P., Nelson, G. & James, S. 2018. Green digitization: Online botanical collections data answering real world questions. Applications in Plant Sciences, 6. https://doi.org/10.1002/aps3.1028.
  • Stephenson, P. 2020. Technological advances in biodiversity monitoring: Applicability, opportunities, and challenges. Current Opinion in Environmental Sustainability, 45: 36-41. https://doi.org/10.1016/j.cosust.2020.08.005.
  • Tengö, M., Hill, R., Malmer, P., Raymond, C., Spierenburg, M., Danielsen, F., Elmqvist, T. & Folke, C. 2017.
  • Weaving knowledge systems in IPBES, CBD and beyond—Lessons learned for sustainability. Current Opinion in Environmental Sustainability, 26: 17-25. https://doi.org/10.1016/J.COSUST.2016.12.005.