Kinetics of Moisture Content and Precentage of Feces Based Compost from Azolla Sp's Fed Cattle

Pantura Pantura; Agustinah Setyaningrum; Pambudi Yuwono

doi:10.20884/1.angon.2021.3.1.p74-80

Pantura Pantura Fakultas Peternakan Universitas Jenderal Soedirman, Purwokerto
Agustinah Setyaningrum Fakultas Peternakan Universitas Jenderal Soedirman, Purwokerto
Pambudi Yuwono Fakultas Peternakan Universitas Jenderal Soedirman, Purwokerto

DOI: https://doi.org/10.20884/1.angon.2021.3.1.p74-80

Keywords: water content, yield, azolla sp, compost, beef cattle

Abstract

Background. The research entitled kinetics of water content and percentage of compost yieldmade from beef cattle feces enriched with Azolla sp was carried out on August 3 to August 28 at UD Sapi Amanah Farm (Beef and sheep fattening), Karang Gintung village,Sumbang sub-district, Banyumas district, and Laboratory of Animal Foodstuff Science, Faculty of Animal Husbandry, Jenderal Soedirman University, Purwokerto. The purpose of this study was to assess the kinetics of water content during composting, determine the moisture content in the compost and the yield were beef cattle feces compost enriched with Azolla sp. Materials and methods. The treatments given in this study were P0 (control), and P1 addedAzolla sp at control (P0) by 10%. The method used in this research was experimental. Data were analyzed by Repeated Measure Analysis of Variance (RMA) for moisture content and data to determine the addition of Azolla sp to compost yield were analyzed by t Test. The variables measured were kinetics of water content and percentage of compost yield. Results. The result showed water the kinetics was the water level at the end of composting was still above the SNI standard, namely P0 was 55.739 ± and P1 was 56.554 ± The yield mean at P0 was 60.7617 ±

References

Amalia, W.D., and P. Widiyaningrum. 2016. Penggunaan EM4 dan Mol Limbah Tomat sebagai Bioaktivator pada Pembuatan Kompos . Life Science 5(1):18-24.
Atkana Y., R.H.S. Siburian and A. Noya. 2019. Analisis Kompos Sampah Organik dan Aplikasinya Terhadap Anakan Gaharu. Enviroscienteae 15(2):263-270.
Hanafi, Y., Yulipriyanto, and B. Ocatvia. 2014. Pengaruh Penambahan Air Lindi terhadap Laju Dekomposisi Sampah Daun yang dikomposkan dalam Vessel. Jurnal BIOEDUKATIKA 2(2):28-33.
Hartati, A., T. Wuryasandari., Y. Wulandari. 2013. Analisis Varian Dua Faktor dalam Rancangan Pengamatan Berulang (Repeated Measures). Jurnal Gaussian. 2(4): 280-288.
Kusumawati, N. 2011. Evaluasi Perubahan Temperatur, pH dan Kelembaban Media Pada Pembuatan Vermikompos Dari Campuran Jerami Padi Dan Kotoran Sapi Menggunakan Lumbricus Rubellus. Jurnal Inovasi dan Apliaksi Teknologi. 15(1): 45-56.
Setyaningrum, A., N Amrullah., and P. Yuwono. 2019. Physiological Conditions of Decomposition Process and Quality of Compost Based on Beef Cattle Feces Enriched with Azolla sp. In: The 1st Animal Science and Food Technology Conference (AnSTC) 2019Faculty of Animal Science Jenderal Soedirman University, Purwokerto, Indonesiadoi:10.1088/1755-1315/372/1/012038
Sudjana, B., 2014. Pengunaan Azolla Untuk Pertanian Berkelanjutan. Jurnal Ilmiah Solusi. 1(2): 72- 81.
Widawati, S. 2005. Daya Pacu Aktivator Fungi Asal Kebun Biologi Wamena Terhadap Kematangan Hara Kompos, Serta Jumlah Mikroba Pelarut Fosfat Dan Penambat Nitrogen. Jurnal Biodiversitas. 6(4): 238-241.
Yanqoritha, N.2013. Optimasi Aktivator dalam Pembuatan Kompos Organik dari Limbah Kakao. MEKTEK 15(2):103-108.