RESTORASI LUMBUNG PANGAN MELALUI TRANSFORMASI SISTEM PERTANIAN DAN PETERNAKAN BERTEEKNOLOGI TERBARUKAN

Anak Agung Gde Ekayana; I Dewa Putu Gede Wiyata Putra; I Dewa Gede Aristana; Gede Widayana; Ketut Srie Marhaeni Julyasih; I Nengah Suarmanayasa; Ida Bagus Putu Mardana; Gede Arya Amerta; Anak Agung Gde Suyoga Wiguna; Ida Bagus Putu Putra Mahartana

doi:10.31764/jmm.v10i2.38352

RESTORASI LUMBUNG PANGAN MELALUI TRANSFORMASI SISTEM PERTANIAN DAN PETERNAKAN BERTEEKNOLOGI TERBARUKAN

Anak Agung Gde Ekayana, I Dewa Putu Gede Wiyata Putra, I Dewa Gede Aristana, Gede Widayana, Ketut Srie Marhaeni Julyasih, I Nengah Suarmanayasa, Ida Bagus Putu Mardana, Gede Arya Amerta, Anak Agung Gde Suyoga Wiguna, Ida Bagus Putu Putra Mahartana

Abstract

Abstrak: Wilayah mitra sasaran menghadapi penurunan produktivitas pertanian dan peternakan akibat keterbatasan air, rendahnya efisiensi teknologi, serta meningkatnya kerentanan usaha tani. Program pengabdian Kosabangsa ini bertujuan meningkatkan produktivitas, efisiensi sumber daya, dan kapasitas teknis mitra melalui penerapan teknologi tepat guna berbasis energi terbarukan dan pendekatan partisipatif. Kegiatan dilaksanakan menggunakan metode Participatory Action Learning System (PALS) yang meliputi sosialisasi, pelatihan, penerapan teknologi, pendampingan dan evaluasi, serta dan penguatan kelembagaan dan keberlanjutan, dengan melibatkan dua kelompok mitra sektor pertanian dan peternakan sebanyak 50 orang. Evaluasi dilakukan melalui pre–post assessment keterampilan, observasi lapangan, dan pencatatan perubahan kinerja produksi. Hasil program menunjukkan peningkatan produktivitas pertanian sebesar 25%, peningkatan efisiensi penggunaan air sebesar 35%, serta penurunan tingkat penyakit ternak sebesar 50%. Selain itu, terjadi peningkatan hardskill mitra dalam pengelolaan teknologi dan praktik usaha tani berkelanjutan.

Abstract: The target partner area faces declining agricultural and livestock productivity due to limited water, low technological efficiency, and increasing vulnerability of farming businesses. The Kosabangsa community service program aims to increase productivity, resource efficiency, and technical capacity of partners through the application of appropriate technology based on renewable energy and a participatory approach. Activities are implemented using the Participatory Action Learning System (PALS) method, which includes socialization, training, technology application, mentoring and evaluation, and institutional strengthening and sustainability, involving two groups of 50 agricultural and livestock sector partners. Evaluation is carried out through pre-post skills assessments, field observations, and recording changes in production performance. The program results show a 25% increase in agricultural productivity, a 35% increase in water use efficiency, and a 50% decrease in livestock disease rates. In addition, there has been an increase in partners' hard skills in technology management and sustainable farming practices.

Keywords

Rice Productivity; Irrigation Efficiency; Integrated Waste Management; PALS; Livestock Health.

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References

Bathaei, A., & Štreimikienė, D. (2023). Renewable Energy and Sustainable Agriculture: Review of Indicators. Sustainability (Switzerland), 15(19), 1-24. https://doi.org/10.3390/su151914307

Dutta, M., Gupta, D., Tharewal, S., Goyal, D., Sandhu, J. K., Kaur, M., Alzubi, A. A., & Alanazi, J. M. (2025). Internet of Things-Based Smart Precision Farming in Soilless Agriculture: Opportunities and Challenges for Global Food Security. IEEE Access, 13(1), 34238–34268. https://doi.org/10.1109/ACCESS.2025.3540317

Khairi, F., Astuti, P., & Santoso, A. (2025). Renewable energy transformation from livestock manure biogas as an independent resource for sustainable farming. International Journal for Science Review, 2(10), Article 77-85. https://doi.org/10.71364/ijfsr.v2i10.77

Majeed, Y., Khan, M. U., Waseem, M., Zahid, U., Mahmood, F., Majeed, F., Sultan, M., & Raza, A. (2023). Renewable energy as an alternative source for energy management in agriculture. Energy Reports, 10(1), 344–359. https://doi.org/10.1016/j.egyr.2023.06.032

Mohamed, Z. E., Afify, M. K., Badr, M. M., & Omar, O. A. (2026). IoT-driven smart irrigation system to improve water use efficiency. Scientific Reports, 16(1), 1–16. https://doi.org/10.1038/s41598-025-33826-6

Naman, Yashabh, & Kaundal, M. (2025). Renewable Energy Integration in Agriculture, Food Security and Allied Sectors. Journal of Scientific Research and Reports, 31(7), 1083–1098. https://doi.org/10.9734/jsrr/2025/v31i73323

Pananrangi M, A., Ismail, A. M. I., & Nurlia. (2024). Inovasi Teknologi Pertanian Berkelanjutan: Pemberdayaan Kelompok Masyarakat Petani dan Peternak “Bintang Sejahtera” dengan Pompa Air Tenaga Surya untuk Meningkatkan Efisiensi Penggunaan Air di Kelurahan Lalolang. Journal of Human And Education, 4(5), 192–204. https://jahe.or.id/index.php/jahe/index

Pilarski, K., Pilarska, A. A., & Pietrzak, M. B. (2025). Biogas Production in Agriculture: Technological, Environmental, and Socio-Economic Aspects. Energies, 18(21), 1–36. https://doi.org/10.3390/en18215844

Raj, M., & Prahadeeswaran, M. (2025). Revolutionizing agriculture: a review of smart farming technologies for a sustainable future. Discover Applied Sciences, 7(9), 937-943. https://doi.org/10.1007/s42452-025-07561-6

Rehman, A. U., Alamoudi, Y., Khalid, H. M., Morchid, A., Muyeen, S. M., & Abdelaziz, A. Y. (2024). Smart agriculture technology: An integrated framework of renewable energy resources, IoT-based energy management, and precision robotics. Cleaner Energy Systems, 9(May), 100132. https://doi.org/10.1016/j.cles.2024.100132

Rejekiningrum, P., & Kartiwa, B. (2020). Pengembangan Sistem Irigasi Pompa Tenaga Surya Hemat Air Dan Energi Untuk Antisipasi Perubahan Iklim Di Kabupaten Bantul, Daerah Istimewa Yogyakarta. Jurnal Tanah Dan Iklim, 41(2), 159. https://doi.org/10.21082/jti.v41n2.2017.159-171

Song, Y., Qiao, W., Westerholm, M., Huang, G., Taherzadeh, M. J., & Dong, R. (2023). Microbiological and technological insights on anaerobic digestion of animal manure: A review. Fermentation, 9(5), 436-441. https://doi.org/10.3390/fermentation9050436

Sharma, R., & Das, V. (2024). A Review of Sustainable Agriculture and Renewable Energy Pathways for Reducing Environmental Degradation. Journal of Energy & Environmental Policy Options, 7(3), 14–22.

Singh, V. (2025). Integrating renewable energy in sustainable agriculture practices. International Journal of Agriculture Sustainable Farming, 1(5), 14–17. https://doi.org/10.1016/j.egyr.2023.06.032.

Yantahin, M., Zain, S. G., Nfh, A., Gay, F., & Sabrina, E. (2025). Pemberdayaan Petani Desa Bontorea dengan Teknologi Irigasi Hemat Air Berbasis IoT dan Energi Surya. 6(2), 235–242.

DOI: https://doi.org/10.31764/jmm.v10i2.38352

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