Pembinaan dan Simulasi Prospek Budidaya Maggot BSF dengan Sistem Dinamik di Kecamatan Cimenyan Bandung

Authors

  • Vita Sarasi Fakultas Ekononomi dan Bisnis Universitas Padjadjaran
    Indonesia
  • Iman Chaerudin Universitas Padjadjaran, Indonesia
    Indonesia
  • Joval Ifghaniyafi Farras Universitas Padjadjaran, Indonesia
    Indonesia

DOI:

https://doi.org/10.23917/warta.v25i4.613

Keywords:

BSF maggot cultivation, circular economy, simulation, system dynamics

Abstract

Cimenyan District has a problem in the form of accumulation of waste which pollutes the environment and endangers health. Another problem is the very high price of animal feed because it has to be imported from abroad. An alternative solution to these two problems is to use the Maggot Black Soldier Fly (BSF). BSF maggot is proven to be able to decompose organic waste, it is also animal feed that has high nutrition. Research objectives: (1) to describe the implementation of community development activities regarding how to cultivate BSF maggot in Cimenyan District, (2) to analyze the results of a simulation on the future prospects for BSF maggot cultivation to motivate training participants and readers regarding its potential. This coaching involved 17 participants which was carried out online and offline. Participants were given modules and then guided to carry out cultivation practices. The author also simulated the prospects for BSF maggot cultivation using the dynamic system method. The output of this research is how to cultivate BSF maggot and simulation results using a dynamic system which shows the potential for very good BSF maggot cultivation in the next ten years that the government needs to consider both in reducing organic waste, as a substitute for animal feed, and as a business product to create a circular economy and also support the Sustainable Development Goals (SDGs) targetsCimenyan District has a problem in the form of accumulation of waste which pollutes the environment and endangers health. Another problem is the very high price of animal feed because it has to be imported from abroad. An alternative solution to these two problems is to use the Maggot Black Soldier Fly (BSF). BSF maggot is proven to be able to decompose organic waste, it is also animal feed that has high nutrition. Research objectives: (1) to describe the implementation of community development activities regarding how to cultivate BSF maggot in Cimenyan District, (2) to analyze the results of a simulation on the future prospects for BSF maggot cultivation to motivate training participants and readers regarding its potential. This coaching involved 17 participants which was carried out online and offline. Participants were given modules and then guided to carry out cultivation practices. The author also simulated the prospects for BSF maggot cultivation using the dynamic system method. The output of this research is how to cultivate BSF maggot and simulation results using a dynamic system which shows the potential for very good BSF maggot cultivation in the next ten years that the government needs to consider both in reducing organic waste, as a substitute for animal feed, and as a business product to create a circular economy and also support the Sustainable Development Goals (SDGs) targets.

Downloads

Download data is not yet available.

Author Biographies

Iman Chaerudin, Universitas Padjadjaran, Indonesia

Fakultas Ekonomi dan Bisnis

Joval Ifghaniyafi Farras, Universitas Padjadjaran, Indonesia

Fakultas Ekonomi dan Bisnis

References

Alif & Ryan. (2021). Kota Bogor Ekspor 7 Ton Maggot ke Inggris. Pusat Informasi dan Koordinasi Covid-19 Pemerintah Kota Bogor http://www.covid19.kotabogor.go.id/ index.php/post/single/56 (Diakses 7-12-2022)

Cicilia, A. P., & Susila, N. (2018). Potensi Ampas Tahu terhadap Produksi Maggot (Hermetia illucens) sebagai Sumber Protein Pakan Ikan. Anterior Jurnal, 18(1), 40-47.

Dermawan, R., Permana, A. D., & Faizal, A. (2020). Pemberdayaan Kelompok Wanita Tani (KWT) melalui Pemanfaatan Lalat Tentara Hitam dan Trichoderma Sp. sebagai Agen Biofungisida dan Pembuatan Pupuk Organik di Makassar, Sulawesi Selatan. Jurnal Dinamika Pengabdian (JDP), 5(2), 101-113.

Handayani, D., Naldi, A., Larasati, R. R., Khaerunnisa, N., & Budiatmaka, D. D. (2021, March). Management of increasing economic value of organic waste with Maggot cultivation. In IOP Conference Series: Earth and Environmental Science, 716(1), 012026). IOP Publishing.

Hidayah, F. F. T., Rahayu, D. N., & Budiman, C. (2020). Pemanfaatan Larva Black Soldier Fly (Hermatia illucens) sebagai Penanggulangan Sampah Organik melalui Budidaya Magot. Jurnal Pusat Inovasi Masyarakat (PIM), 2(4), 530-534.

Hutapea, N. E. B., Junus, L., Ningrum, P. P., Isnaini, H. W., Ilman, M. Z., Aziz, N., & Harwanto, D. (2022). Increasing Production Efficiency of Maggot with Integrated IoT Censor for Effective, Efficient, and Organized Prototype for Natural Feed in Aquaculture. Omni-Akuatika, 18(S1), 14-23.

Kastolani, W. (2008). Pengembangan Wisata Terpadu Berdasarkan Daya Tarik Kawasan Konservasi di Kecamatan Cimenyan. Jurnal Geografi GEA, 8(1). https://ejournal.upi.edu/index.php/gea/ issue/view/228

Kemenperin. (2019). “Kemenperin: Industri Berperan Ciptakan Indonesia Bersih Lewat Konsep ‘Circular Economy’”. https://kemenperin.go.id/artikel/20324/Industri-Berperan-Ciptakan-Indonesia- Bersih-Lewat-Konsep-’Circular-Economy’ (Diakses 7-12-2022)

Kinasih, I., Suryani, Y., & Yuliawati, A. (2017). Konversi Limbah Organik oleh Larva Lalat Tentara Hitam (Hermetia illucens) menjadi Sumber Protein Terbarukan bagi Produksi Pakan Ternak Organik. UIN Sunan Gunung Djati Bandung.

Mertenat, A., Diener, S., & Zurbrügg, C. (2019). Black Soldier Fly Biowaste Treatment–Assessment of Global Warming Potential. Waste Management, 84, 173-181.

Mokolensang, J. F., Hariawan, M. G., & Manu, L. (2018). Maggot (Hermetia illunces) sebagai Pakan Alternatif pada Budidaya Ikan. E-Journal Budidaya Perairan, 6(3).

Nasution, A., & Pasymi, P. (2022). Kinerja Maggot dalam Pendegradasian Sampah Organik: Pengaruh Rasio Maggot-Sampah_Arveni. Abstract of Undergraduate Research, Faculty of Industrial Technology, Bung Hatta University, 19(4), 1-2. https://ejurnal.bunghatta.ac.id/index.php/JFTI/ article/view/20075

Prahasta, E. (2018). Systems Thinking & Pemodelan Sistem Dinamis. Informatika.

Rukmana, A. N., Amaranti, R., & Shakira, M. A. (2020). Penetapan Potensi Unggulan Kecamatan Di Kabupaten Bandung. Journal of Research and Technology, 6(1), 23-32.

Sarasi, V., Yulianti, D., & Farras, J.I. (2021). Pengantar Berpikir Sistem dan Dinamika Sistem. ISBN 978- 623-6415-28-3. Yayasan Sahabat Alam Rafflesia.

Septiawati, R., Astriani, D., & Ariffianto, M. A. (2021). Pemberdayaan Ekonomi Masyarakat melalui Pengembangan Potensi Lokal Budidaya Black Soldier Fly (Maggot) di Desa Sukaratu Karawang. Al-Kharaj: Jurnal Ekonomi, Keuangan & Bisnis Syariah, 3(2), 219-229. https://doi.org/10.47467/ alkharaj.v3i2.339

Silmina, D., Edriani, G., & Putri, M. (2011). Efektifitas Berbagai Media Budidaya terhadap Pertumbuhan Maggot Hermetia illucens. https://repository.ipb.ac.id/bitstream/handle/123456789/43974/ ISI.pdf?sequence=17 (Diakses 8-12-2022).

Soemarwoto, O. (2001). Ekologi, Lingkungan Hidup dan. Pembangunan. Jakarta: Penerbit Djambatan.

Yanuartono, A. N., Soedarmanto, I., Purnamaningsih, H., & Ramandani, D. (2020). Meat Bone Meal as an Alternative Animal Feed: A Brief Review. Jurnal Peternakan Sriwijaya, 9(1), 35-54.

Downloads

Submitted

13-04-2022

Accepted

09-12-2022

Published

09-12-2022

How to Cite

Sarasi, V., Chaerudin, I., & Farras, J. I. (2022). Pembinaan dan Simulasi Prospek Budidaya Maggot BSF dengan Sistem Dinamik di Kecamatan Cimenyan Bandung . Warta LPM, 25(4), 421–432. https://doi.org/10.23917/warta.v25i4.613