CONCENTRATIONS TEST OF METHANE GAS FROM SWAMP FORAGE SILAGE WITH IN VITRO METHOD

Authors

  • Sofia Sandi Department of Animal Husbandry, Faculty of Agriculture, Sriwijaya University
  • Nuni Gofar Department of Soil Science, Faculty of Agriculture, Sriwijaya University
  • Meisji Liana Sari Department of Animal Husbandry, Faculty of Agriculture, Sriwijaya University
  • Fitra Yosi Department of Animal Husbandry, Faculty of Agriculture, Sriwijaya University
  • Budi Untari Department of Pharmacy, Faculty of Mathematics and Natural sciences, Sriwijaya University
  • Erra Kartika Students of Management of The Environment, Graduate Program, Sriwijaya University

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DOI:

https://doi.org/10.24233/BIOV.3.2.2017.69

Abstract

Aims of this study to concentration test of methane gas from swamp forage silage with in vitro methods.This study used Completely Randomized Design with 3 treatments and each treatment consisted of 5 replications. The treatments used are as follows: P1 (100% kumpai tembaga grass (Hymenachne acutigluma)), P2 (50% kumpai tembaga grass (Hymenachne acutigluma) + 50% kemon air (Neptunia oleracea lour)), P3 (100% kemon air ( Neptunia oleracea lour)). The parameters observed N-Ammonia, total gas production, methane gas concentrations in vitro and VFA partially. The results of variance showed that treatment significantly different (P <0.05) with methane concentration  in vitro with highest gas concentration treatment of silage made from 50%  kumpai tembaga grass (Hymenachne acutigluma) and  50% kemon air (Neptunia oleracea lour).

Keywords: Concentration, Methane, Silage Forage Swamp, In Vitro.

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References

European Commission.2014. A policy framework for climate and energy in the period from 2020 to 2030. COM / 2014/015 final. 1-18.

Khodijah NS. 2015. The relationship between climate change and rice production in swampland in southern Sumatra. Enviagro, Journal of Agriculture and Environment, Vol. 8 No.2. Pp 83-91.

Jaelani, A., Rostini T., Zakir MI, Jonathan. 2014. Influence of Fermentation Swamp Foliage Against Peanut Appearance Goat (Capra hircus). Livestock Science Vol. 12 (2). September: 76-85

Jayanegara, A., Sofyan A. 2008. Determination of tannins biological activity in vitro using Hohenheim gas test with polyethylene glycol as the determinant". Pet Med. 31 (1). 44-52.

Juanga, J. 2005. Optimizing Dry Anaerobic Digestion of Organic Fraction of Municipal Solid Waste. Asian Institute Technology, Thailand. Master Thesis.

Steel, RGD, JH Torrie. 1991. Principles and Procedures of Statistics. Translation. 2nd Edition. Publisher PT. Gramedia Pustaka, Jakarta.

Herlinae. 2015 .Physical characteristics of silage mixture of cassava leaves (manihot esculenta) and kumpai grass (hymenachine ampleexicaulis). Journal of Tropical Animal Science, 2 (4). December 2015.

Kamaruddin A. and T. Sutardi. 1997. Degradation of rice straw and grass in buffalo and cattle rumen fluid. Bulletin Feed ". 3 (1). Pp 220-228.

Conway, RNF. 1997. An Introduction to Cognitive Education: Theory and Applications. London: Routledge.

Kurniawati A. 2004. rumen microbial growth and nitrogen utilization efficiency in silage Red clover (Trifolium pratense cv Sabtron). Minutes of the Seminar on Scientific Research and Development Application of Isotopes and Radiation.

Tilman AD, H Hartadi, S Reksohadiprodjo and S Lebdosoekojo and S Lebdosoekojo. 1989. GeneralAnimal Feed Science. Gadjah Mada University Press, Yogyakarta. Hal: 249-267.

Moss, AR, Jouany JP, and Newbold J. 2000. Methane production by ruminants: its contribution to global warming. Ann. Zootech. . 49: 231-253.

Suherman K, Suparwi, and Widyastuti. 2013. The concentration of total VFA and ammonia on cassava fermented with Aspergillus niger in vitro. A Scientific Ranch 1. (3): 827-834.

Vervaeren, H., Hostyn, K., GHEKIERE, G., Willems, B. 2010. Biological ensilage additives as pretreatment for maize to increase of the biogas production. Renewable Energy 35. 2089-2093.

Published

30-11-2017

How to Cite
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Sandi, S., Gofar, N., Sari, M. L., Yosi, F., Untari, B., & Kartika, E. (2017). CONCENTRATIONS TEST OF METHANE GAS FROM SWAMP FORAGE SILAGE WITH IN VITRO METHOD. BIOVALENTIA: Biological Research Journal, 3(2), 13–18. https://doi.org/10.24233/BIOV.3.2.2017.69

Issue

Vol. 3 No. 2 (2017)

Section

Vol 3, No 2 (2017): November 2017

Copyright (c) 2017 Sofia Sandi, Nuni Gofar, Meisji Liana Sari, Fitra Yosi, Budi Untari, Erra Kartika

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