PUPUK ORGANIK CAIR DARI AIR LIMBAH LELE SISTEM BIOFLOK HASIL FERMENTASI AEROB DAN AN AEROB

  • Dedi Pardiansyah unihaz bengkulu
  • Nasir Ahmad University of Prof. Dr. Hazairin, SH
  • Firman Firman University of Prof. Dr. Hazairin, SH
  • Suharun Martudi University of Prof. Dr. Hazairin, SH

Abstract

The biofloc system catfish wastewater is in the form of accumulation of organic residues from feed residues, catfish manure, feed particles and bacteria and algae, because the biofloc catfish cultivation wastewater can be processed into organic fertilizer especially liquid organic fertilizer. The study used a completely randomized single factor treatment with an aerobic (A) fermentation process and Anaerobic fermentation process (B). Each treatment was repeated 8 times to obtain 16 experimental units. Furthermore, the results of the study data were analyzed by variance at the level of 5 percent.        The results showed that the growth rate of catfish was very good. Where growth continues to increase the 10th day observation until the end of the study. While the content of N, P and K in the POC produced did not show a significant difference between POC fermented by Aerob and Anaerob. POC content fermented by Aerob; N = 1.645, P = 0.326 and K = 1.143 while Anaerobic fermentation; N = 2.189, P = 0.278 and K = 1.165.

Downloads

Download data is not yet available.

References

Andriyeni, Firman dan Nurseha, 2014. Studi Potensi Limbah Budidaya lele sebagai Bahan Utama Pembuatan Pupuk Organik. Laporan penelitian, Lembaga Penelitian dan Pengabdian Universitas Prof. Dr. Hazairin, SH. Bengkulu.
Capah R.L. 2006. Kandungan Nitrogen Dan Fosfor Pupuk Organik Cair Dari Sludge Instalasi Gas Bio Dengan Penambahan Tepung Tulang A Yam DanTepung Darah Sapi. SKRIPSI. Institut Pertanian Bogor.
Crab R., Avnimelech, Y., Defoirdt, T., Bossier, P., Verstracte, W. 2007. Nitrogen removal techniques ini aquaculture for sustainable production. Aquaculture, 270: 1-14
Firman, Yulfiperius, Andriyeni. 2015. Air Limbah Budidaya lele Sebagai Bahan Baku Pupuk Organik; Upaya meningkatan Pendapatan Pembudidaya Lele dan Mendukung Go Organik. Laporan penelitian Hibah Bersaing. Universitas Prof. Dr. Hazairin, SH. Bengkulu. 50 halaman).
Firman, 2016. Pupuk Organik Cair (POC) Air Limbah Budidaya lele (ALBL). Fakultas Pertanian(Leaflet).
Khoirul, M.H. 2013. Pembuatan Pupuk Organik Cair Dari Urin Sapi Dengan Aditif Tetes Tebu (Molasses) Metode Fermentasi SKRIPSI Universitas Negeri Semarang.
Lepongbulan, W, Vanny, M.A Tiwow, Anang Wahid, M. Diah. 2017. Analisis Unsur Hara Pupuk Organik Cair Dari Limbah Ikan Mujair (Oreochromis Mosambicus) Danau Lindu Dengan Variasi Volume Mikroorganisme Lokal (Mol) Bonggol Pisang. J. Akad. Kim. 6(2): 92-97. Palu
Pardiansyah, D, Eddy Supriyono, Daniel Djokosetianto. 2014. Evaluation of integrated sludge worm and catfish farming with biofloc system. Jurnal Akuakultur Indonesia 13 (1), 28-35.
Pardiansyah, D. 2015. Meminimalisir Limbah Nitrogen Dalam Budidaya Ikan Lele (Clarias Sp.) Dengan Budidaya Sistem Bioflok. Jurnal Agroqua Vol. 13 No.1.
Sarjono, E.S. Edu Surya, Netti Herlina. 2013. Pembuatan Pupuk Cair Dan Biogas Dari Campuran Limbah Sayuran. Jurnal Teknik Kimia USU, Vol. 2, No. 3
Yekti, A.H. 2013. Kualitas Dan Kuantitas Kandungan Pupuk Organik Limbah Serasah Dengan Inokulum Kotoran Sapi Secara Semi anaerob. Nakah Publikasi Universitas Muhammadiah Jakarta.
Published
2019-06-15
How to Cite
PARDIANSYAH, Dedi et al. PUPUK ORGANIK CAIR DARI AIR LIMBAH LELE SISTEM BIOFLOK HASIL FERMENTASI AEROB DAN AN AEROB. Jurnal Agroqua: Media Informasi Agronomi dan Budidaya Perairan, [S.l.], v. 17, n. 1, p. 76-81, june 2019. ISSN 2598-4071. Available at: <https://journals.unihaz.ac.id/index.php/agroqua/article/view/507>. Date accessed: 21 aug. 2019. doi: https://doi.org/10.32663/ja.v17i1.507.

Most read articles by the same author(s)