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Submitted
26 November 2024
Accepted
23 May 2025
Published
31 July 2025
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Abstract

Pendahuluan: Penyakit karat merah pada tanaman buah dan tanaman keras menyebabkan penurunan kualitas dan kuantitas hasil panen. Penggunaan pestisida kimia secara tidak bijak berisiko menimbulkan residu berbahaya. Kegiatan ini bertujuan meningkatkan pengetahuan petani tentang organisme pengganggu tanaman (OPT) hortikultura tahunan serta keterampilan membuat biopestisida berbasis metabolit sekunder dari agensia hayati. Metode: Sasaran kegiatan adalah Gapoktan Berkah Abadi di Desa Pagerandong, Kecamatan Mrebet, Purbalingga. Teknologi ditransfer melalui pendidikan dan pelatihan pembuatan metabolit sekunder dari agensia hayati secara sederhana. Hasil: Kegiatan berhasil meningkatkan pengetahuan petani tentang OPT dan pengendaliannya. Petani juga mampu memproduksi metabolit sekunder secara mandiri. Kesimpulan: Sosialisasi meningkatkan pengetahuan petani lebih dari 75%, dan pelatihan meningkatkan keterampilan dalam memperbanyak Trichoderma sp., serta membuat biopestisida dan metabolit sekunder.

Keywords

Agens Hayati Biopestisida Karat Merah Metabolit Sekunder

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© 2025 Oleh authors. Lisensi Jurnal SOLMA, LPPM-Uhamka, Jakarta. Artikel ini bersifat open access yang didistribusikan di bawah syarat dan ketentuan Creative Commons Attribution (CC BY) license. (http://creativecommons.org/licenses/by/4.0/).

How to Cite
Rahayuniati, R. F., Manan, A., Mugiastuti, E., & Soesanto, L. (2025). Teknologi Pembuatan Metabolit Sekunder Agens Hayati Secara Sederhana Untuk Mengendalikan Penyakit Karat Merah . Jurnal SOLMA, 14(2), 2213–2222. https://doi.org/10.22236/solma.v14i2.17216
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References

  1. Badan Pusat Statistik, P. (2024). Kabupaten Purbalingga Dalam Angka 2024. In B. Purbalingga (Ed.), Badan Pusat Statistik Kabupaten Purbalingga (Vol. 41, Issue 1). Badan PUsat Statistik Kabupaten Purbalingga. http://scioteca.caf.com/bitstream/handle/123456789/1091/RED2017-Eng-8ene.pdf?sequence=12&isAllowed=y%0Ahttp://dx.doi.org/10.1016/j.regsciurbeco.2008.06.005%0Ahttps://www.researchgate.net/publication/305320484_SISTEM_PEMBETUNGAN_TERPUSAT_STRATEGI_MELESTARI
  2. Barra-Bucarei, L., Iglesias, A. F., González, M. G., Aguayo, G. S., Carrasco-Fernández, J., Castro, J. F., & Campos, J. O. (2020). Antifungal activity of Beauveria bassiana endophyte against Botrytis cinerea in two Solanaceae crops. Microorganisms, 8(1), 1–15. https://doi.org/10.3390/microorganisms8010065
  3. Baysal-Gurel, F., Bika, R., Jennings, C., Palmer, C., & Simmons, T. (2020). Comparative performance of chemical and biological-based products in management of algal leaf spot on magnolia. HortTechnology, 30(6), 733–740. https://doi.org/10.21273/HORTTECH04692-20
  4. Buddhika, U. V. A., & Abeysinghe, S. (2020). Secondary Metabolites from Microbes for Plant Disease Management 15. In K. P. Singh, S. Jahagirdar, & B. K. Sarma (Eds.), Emerging Trends in Plant Pathology (pp. 1–844). https://doi.org/10.1007/978-981-15-6275-4
  5. Fabrice, D. H., Elie, D. A., Kobi, D. O., Valerien, Z. A., Thomas, H. A., Joëlle, T., Maurille, E. I. A. T., Dénis, O. B., & Manuele, T. (2020). Toward the efficient use of Beauveria bassiana in integrated cotton insect pest management. Journal of Cotton Research, 3(24), 1–21.
  6. Huang, Y. C., Tsai, C. Y., & Wang, C. L. (2023). Host Invasion Type Is a Phylogenetically Conserved Characteristic of Cephaleuros. Plant Disease, 107(10), 3222–3229. https://doi.org/10.1094/PDIS-10-22-2338-RE
  7. Islam, S. M. N., Chowdhury, M. Z. H., Mim, M. F., Momtaz, M. B., & Islam, T. (2023). Biocontrol potential of native isolates of Beauveria bassiana against cotton leafworm Spodoptera litura (Fabricius). Scientific Reports, 13(1), 1–13. https://doi.org/10.1038/s41598-023-35415-x
  8. Manan, A., Mugiastuti, E., & Soesanto, L. (2018). Kemampuan Campuran Bacillus sp., Pseudomonas fluorescens, dan Trichoderma sp. untuk Mengendalikan Penyakit Layu Bakteri pada Tanaman Tomat. Jurnal Fitopatologi Indonesia, 14(2), 63. https://doi.org/10.14692/jfi.14.2.63
  9. Manan, A., Soesanto, L., Mugiastuti, E., & Rahayuniati, R. F. (2024). Pendampingan Demplot Teknik Budidaya Bawang Merah pada Musim Hujan Secara Ramah Lingkungan. Jurnal SOLMA, 13(1), 452–459. https://doi.org/10.22236/solma.v13i1.13551
  10. Patrice, N. D. J., Bertrand, M. S., Alain, H., Norbert, K. T. W., Baba, A. D., Brice, T. T. D., Bouba, D., & Zachee, A. (2021). Characterization of Red Rust Disease Caused By Cephaleuros Virescens Kunze on Cashew Nutin Thesudano-Sahelian Ecological Zone of Cameroon. Pakistan Journal of Phytopathology, 33(1), 17–27. https://doi.org/10.33866/PHYTOPATHOL.033.01.0634
  11. Pedrini, N. (2022). The Entomopathogenic Fungus Beauveria bassiana Shows Its Toxic Side within Insects: Expression of Genes Encoding Secondary Metabolites during Pathogenesis. Journal of Fungi, 8(5). https://doi.org/10.3390/jof8050488
  12. Riyaz, M., Shah, R. A., & Sivasankaran, K. (2021). Pesticide Residues: Impacts on Fauna and the Environment. IntechOpen. https://doi.org/10.5772/intechopen.98379
  13. Siahaan, P., Wongkar, J., Wowiling, S., & Mangais, R. (2021). Patogenisitas Beauveria bassiana (Bals.) Viull. yang Diisolasi dari Beberapa Jenis Inang Terhadap Kepik Hijau, Nezara viridula L. (Hemiptera: Pentatomidae). Jurnal Ilmiah Sains, 21(1), 26. https://doi.org/10.35799/jis.21.1.2021.31172
  14. Sinambela, B. R. (2024). Dampak Penggunaan Pestisida Dalam Kegiatan Pertanian Terhadap Lingkungan Hidup dan Kesehatan. Jurnal Agrotek, 8(2), 178–187. https://doi.org/10.33096/agrotek.v8i2.625
  15. Soesanto, L., Mugiastuti, E., & Khoeruriza. (2019). Granular formulation test of Pseudomonas fluorescens P60 for controling bacterial wilt (Ralstonia solanacearum) of tomato in planta. Agrivita, 41(3), 513–523. https://doi.org/10.17503/agrivita.v41i3.2318
  16. Soesanto, L., Pradiptha, C. N., & Mugiastuti, E. (2021). Raw Secondary Metabolites of Chitosan-enriched Pseudomonas fluorescens P60 to Control Corn Sheath Blight. Biosaintifika: Journal of Biology & Biology Education, 13(1), 113–120. https://doi.org/10.15294/biosaintifika.v13i1.28775
  17. Soesanto, L., Saputra, D. A., Wisnu, M., Sastyawan, R., Mugiastuti, E., Suprapto, A., & Rahayuniati, R. F. (2023). Secondary metabolites of the granular form of Pseudomonas fluorescens P60 and its applications to control tomato bacterial wilt. Biodiversitas, 24(4), 2475–2482. https://doi.org/10.13057/biodiv/d240463
  18. Vermelho, A. B., Moreira, J. V., Akamine, I. T., Cardoso, V. S., & Mansoldo, F. R. P. (2024). Agricultural Pest Management: The Role of Microorganisms in Biopesticides and Soil Bioremediation. Plants, 13(2762), 49p. https://doi.org/10.3390/plants13192762
  19. Wang, H., Peng, H., Li, W., Cheng, P., & Gong, M. (2021). The Toxins of Beauveria bassiana and the Strategies to Improve Their Virulence to Insects. Frontiers in Microbiology, 12(August), 1–11. https://doi.org/10.3389/fmicb.2021.705343