ASESMEN PENGGAMBARAN CIRI FENOTIPE DAN LUBANG SARANG Tetragonula laeviceps OLEH KECERDASAN ARTIFISIAL STABLE DIFFUSION

  • Priyambodo Jurusan Biologi Fakultas MIPA Universitas Lampung
  • Nindy Permatasari Jurusan Budidaya Tanaman Perkebunan, Politeknik Negeri Lampung
Keywords: asesmen, ciri fenotipe, T. laeviceps, stable diffusion

Abstract

Tetragonula laeviceps merupakan salah satu jenis lebah tanpa sengat yang sering dibudidayakan di Indonesia. Organisme T. laeviceps dapat menghasilkan madu, propolis, beebread, dan produk lainnya, di samping dapat berperan sebagai polinator bagi berbagai tumbuhan, termasuk bagi tanaman perkebunan. Pengenalan akan ciri fenotipe T. laeviceps sangat dibutuhkan masyarakat guna mengoptimalkan peran T. laeviceps di masyarakat. Penggunaan kecerdasan artifisial yang semakin meningkat menjadi tantangan tersendiri. Stable diffusion, merupakan salah satu kecerdasan artifisial yang dapat memberikan gambaran dari perintah teks yang diberikan kepadanya. Penelitian ini menguji stable diffusion dalam memberikan visualisasi atas karakter fenotipe dan lubang sarang T. laeviceps. Asesmen atas hasil visualisasi stable diffusion menunjukkan bahwa ada ketidaktepatan hasil visualisasi stable diffusion apabila dibandingkan dengan referensi ilmiah. Hal ini menunjukkan perlunya peningkatan performa pengembang stable diffusion, dan kebijaksanaan dalam penggunaan hasil visualisasi stable diffusion, khususnya untuk kepentingan karakterisasi ilmiah.

References

Abduh, M. Y., Shafitri, T. R., & Elfahmi, E. (2024). Chemical profiling, bioactive compounds, antioxidant, and anti-inflammatory activities of Indonesian propolis extract produced by Tetragonula laeviceps. Heliyon, 10(19).
Abou-Shaara, H. F. (2013). Wing venation characters of honey bees. Journal of Apiculture, 28(2), 79-86.
Ador, K., Gobilik, J., & Benedick, S. (2023). Phylogenetic and Morphological Characteristics Reveal Cryptic Speciation in Stingless Bee, Tetragonula laeviceps sl Smith 1857 (Hymenoptera; Meliponinae). Insects, 14(5), 438.
Anaktototy, Y., Priawandiputra, W., Sayusti, T., Lamerkabel, J. S., & Raffiudin, R. (2021). Morfologi dan variasi morfometrik stingless bees di Kepulauan Maluku, Indonesia. Jurnal Entomologi Indonesia, 18(1), 10-10.
Brown, W. J. (1944). Some new and poorly known species of Coleoptera, II. The Canadian Entomologist, 76(1), 4-10.
Cao, Y., Abdul Aziz, A., & Mohd Arshard, W. N. R. (2024). Stable diffusion in architectural design: Closing doors or opening new horizons?. International Journal of Architectural Computing, 14780771241270257.
Direktorat Jenderal Pendidikan Tinggi, Riset, dan Teknologi, Kementerian Pendidikan, Kebudayaan, Riset, dan Teknologi. (2024). Buku Panduan Penggunaan Generative Artificial Intelligence pada Pembelajaran di Perguruan Tinggi. Jakarta.
Efin, A., Atmowidi, T., & Prawasti, T. S. (2019). Short communication: Morphological characteristics and morphometric of stingless bee (Apidae: Hymenoptera) from Banten Province, Indonesia. Biodiversitas, 20(6).
Emil, M. F. P., Priawandiputra, W., Kahono, S., & Atmowidi, T. (2024). Diversity and nesting ecology of Indo-Malayan stingless bees (Hymenoptera: Apidae) in Aceh Province, Indonesia. Biodiversitas Journal of Biological Diversity, 25(10).
Foottit, R. G., & Adler, P. H. (Eds.). (2009). Insect biodiversity: science and society. John Wiley & Sons.
Jasmi. (2023). Nesting preferences of tetragonula laeviceps (Hymenoptera: Melliponinae) colony in west sumatera. Jurnal Biologi Indonesia, 19(1), 1–8. https://doi.org/10.47349/jbi/19012023/1
Jezeera, M. A., Tichit, P., Balamurali, G. S., Baird, E., Kelber, A., & Somanathan, H. (2022). Spatial resolution and sensitivity of the eyes of the stingless bee, Tetragonula iridipennis. Journal of Comparative Physiology A, 1-14.
Kozmus, P., Virant-Doberlet, M., Meglič, V., & Dovč, P. (2011). Identification of Bombus species based on wing venation structure. Apidologie, 42, 472-480.
Krinsky, W. L., & Oliver, M. K. (2005). Ground Beetles of Connecticut (Coleoptera: Carabidae, excluding Cicindelini): An Annotated Checklist. American Entomologist.
Laksono, P., Raffiudin, R., & Juliandi, B. (2020, February). Stingless bee Tetragonula laeviceps and T. aff. biroi: geometric morphometry analysis of wing venation variations. In IOP Conference Series: Earth and Environmental Science (Vol. 457, No. 1, p. 012084). IOP Publishing.
Li, Y. R., Wang, Z. W., Yu, Z. R., & Corlett, R. T. (2021). Species diversity, morphometrics, and nesting biology of Chinese stingless bees (Hymenoptera, 103 Apidae, Meliponini). Apidologie, 52(6).
Manarudin, M. F., & Prawasti, T. S. (2021). Karakteristik Morfologi Lebah Tanpa Sengat (Apidae: Meliponinae) Asal Pandeglang, Banten. Majalah Ilmiah Biologi BIOSFERA: A Scientific Journal, 38(3).
Mubin, N., Kusmita, A. O., Rohmah, A., & Nurmansyah, A. (2022). Economic values of pollination service of open pollination with the help of Tetragonula laeviceps (Hymenoptera: Apidae: Meliponini) on tomato and chili. Biodiversitas: Journal of Biological Diversity, 23(5).
Nurdiansyah, M. A., Abduh, M. Y., & Permana, A. D. (2023). Effects of meliponiculture Tetragonula laeviceps on pollinator diversity and visitation rate and citrus productivity in West Java, Indonesia. Biodiversitas Journal of Biological Diversity, 24(10).
Paracha, R. Z., Obaid, A., & Ali, A. (2017). Phenotyping in precision medicine. In Progress and Challenges in Precision Medicine (pp. 55-77). Academic Press.
Park, J., Ko, B., & Jang, H. (2024). Text-to-Image Synthesis for Any Artistic Styles: Advancements in Personalized Artistic Image Generation via Subdivision and Dual Binding. arXiv preprint arXiv:2404.05256.
Priyambodo & Permatasari, N. (2024). Evaluation of ChatGPT Visualisation in Characterising Phenotypic Traits of Heterotrigona itama as a Coffee Pollinator Agent. BIO-CONS: Jurnal Biologi dan Konservasi, 6(2),
500-511.
Putra, R. E., Novitasari, N., Rosmiati, M., Husna, I. Z., Setiyarni, E., & Kinasih, I. (2024). Efisiensi Penyerbukan Tetragonula laeviceps Pada Budi Daya Tumpang Sari Tomat Dan Mentimun di Greenhouse. Al-Kauniyah: Jurnal Biologi, 17(2), 293-302.
Purba, M. S., Lamerkabel, J. S., & Patty, J. A. (2023). Karakter morfologi dan morfometrik lebah sosial (Aphidae) di Pertanian Organik Beema Honey Bogor. Jurnal Pertanian Kepulauan, 7(2), 97-103.
Razafimandimby, H., Gautier, L., Bouvet, J. M., Danthu, P., & Ramamonjisoa, L. (2017). Characterization of the phenotypic diversity of tsiperifery (Piper spp.), the wild pepper from Madagascar under-studied in spite of its international fame. In International Symposium on Survey of Uses of Plant Genetic Resources to the Benefit of Local Populations 1267 (pp. 39-44).
Sunny, S., Abdulla, F., Nazrin, F., Mahin, M., Parveen, I. (2024). Enhancing Virtual Try-Ons with Stable Diffusion: A Review. Indian Scientific Journal of Research In Engineering And Management 8(4).
Trianto, M., & Purwanto, H. (2020). Morphological characteristics and morphometrics of stingless bees (Hymenoptera: Meliponini) in Yogyakarta, Indonesia. Biodiversitas Journal of Biological Diversity, 21(6).
Wootton, R. J. (2002). Design, function and evolution in the wings of holometabolous insects. Zoologica Scripta, 31(1), 31-40.
Withaningsih, S., Diaz, F., Rozi, F., & Parikesit, P. (2023). Distribution and Characteristics of Two Species of Stingless Bee Hives (Tetragonula spp.) in the Rural Landscape of Sumedang Regency (Indonesia). Diversity, 15(9), 1018.
Wulandari, A. P., Atmowidi, T., & Kahono, S. (2017). Peranan lebah Trigona laeviceps (Hymenoptera: Apidae) dalam produksi biji kailan (Brassica oleracea var. alboglabra). Jurnal Agronomi Indonesia (Indonesian Journal of Agronomy), 45(2), 196-203.
Yadav, N., Sinha, A., Jain, M., Agrawal, A., & Francis, S. (2024). Generation of Images from Text Using AI.
Zhan, G., Zheng, C., Xie, W., & Zisserman, A. (2023). What Does Stable Diffusion Know about the 3D Scene?. arXiv preprint arXiv:2310.06836.
Zhang, C., Wang, L., & Liu, A. (2024). Revealing Vulnerabilities in Stable Diffusion via Targeted Attacks. arXiv preprint arXiv:2401.08725.
Zhao, Y., Wang, D., Tong, J., Sun, J., & Zhang, J. (2018). Research on Biomimetic Models and Nanomechanical Behaviour of Membranous Wings of Chinese Bee Apis cerana cerana Fabricius. Applied Bionics and Biomechanics, 2018(1), 2014307.
Published
2025-04-27
How to Cite
Priyambodo, & Permatasari, N. (2025). ASESMEN PENGGAMBARAN CIRI FENOTIPE DAN LUBANG SARANG Tetragonula laeviceps OLEH KECERDASAN ARTIFISIAL STABLE DIFFUSION. JURNAL BIOSENSE, 8(2), 76-89. https://doi.org/10.36526/biosense.v8i2.4876