The study was conducted in 2012 and 2013 in Tamanbogo Experimental Farm consists of 3 activities, namely 1). To evaluate the kind and amount of feed consumed by 20 heads of cattle and the amount of manure produced, 2). To evaluate the amount of biogas, sludge and slurry produced by digester, and 3). To study the application of manure, dried sludge manure, and NPK fertilization on the growth and yield of hybrid maize of Pioneer 27 (P27). The research results showed that the total weight of feed consumed in the rainy season and in the dry season has already achieved to the recommendation of 10% of the body weight of cattle. The average production of manure and urine were 11.25 kg head^-1 day^-1 with the biogas production of 3 m³ day^-1 was sufficient for cooking and lighting for 5 members of family daily. The by-product of biogas production was 8 kg day^-1 of sludge and 127 L day^-1 of slurry. The grain yield of P27 with application of dried sludge accompanied with 50 % of NPK fertilizer recommendation dose gave the highest yield of P27 (4.45 t ha^-1) with a profit Rp. 3,466,000 ha^-1 and B/C of 1.5

Adnyana, M.O. 2005. Development of waste-free livestock-plant integrated system in KP Muara (in Indonesian). Crops Research and Development Centre. Bogor.

Alberta, Agriculture and Rural Development. 2005. Manure composting manual. Revised January 2005, http://wwwl.agric.gov. ab.ca/$department/depdocs.ns/all/agdex8875.

Amankwah, E. 2011. Integration of biogas technology into farming system of the three northern region of Ghana. Journal of Economics and Sustainable Development, Vol.2, No.4, 2011, ISSN 2222-1700 Ammankwah and ISSN 2222-2855 (Online).

Ames, G.C.W. 1976. Can organic manures improve crop production in Southern India? Compost Science, 17(2).

Dwiyanto, K and B. Haryanto. 1999. Enviro-friendly agricultural development: Development prospect in integrated livestock (in Indonesian). (A concept of thoughts and discussion).

Graminha, E.B.N, A.Z/L. Goncalves, R.D.P.B. Pirota and M.A.A Balsalobre. 2008. Enzyme production by soild-state fermentation: application to animal nutrition. Animal Feed Science and Technology 144:1-22.iogas Substrates Using Different Techniques-a review. Bioresource Technology 95:1-10.

Gupta, V., P. K. Rai and K.S. Risam. 2012. Integrated crop-livestock farming systems: A strategy for resource conservation and environmental sustainability. Indian Research Journal of Extension Education, Special Issue (Volume II), 2012.

Hobson, P.N., S. Bousfield and R. Summer. 1981. Methane production from agricultural and domestic wastes. Applied Science Publishers Ltd, London.

Haryanto, B. 2009. Technological innovation in the system of fodder plant integration-free livestock waste supports efforts to increase meat production (in Indonesian). Jurnal of Pengembangan Inovasi Pertanian 2 (3): 163-176.

Idnani, M.A. and S. Varadarajan. 1974. Fuel gas and manure by anaerobic fermentation of organic materials. ICAR Technical Bulletin No. 46.

Karsini, 1981. Biogas from waste (in Indonesian). Industrial Department, Industrial Research and Development Institute. A Project of Industrial Education Centre, Jakarta.

Liu, G.G. 2010. Potential of biogas production from livestock manure in China. GHG emission abatement from manure-biogas-digestate system. Master’s Thesis within the Industrial Ecology Programme, Department of Energy and Environment Division of Energy Technology, Chalmers University of Technology, Göteborg, Sweden 2010.

Massotti, Z. 2003. Biogas technical and econo-mical viability in farms. Epagri, Brazil. available at: http://www.cnpsa.embrapa. br/pnma/pdf_doc/10-Massotti.pdf

Muryanto. 2008. Development of biogas in cow farming industries to support land conservation in Central Java (in Indonesian). A Paper of Seminar ENAFE. Sebelas Maret University, Surakarta.

Nitis, I.M. 1995. Research methodology for semiarid crop-animal system in Indonesia. In Devendra, C. And C. Sevilla (eds). Crop-animal interaction. IRRI Discussion Paper series No. 6. IRRI. Manila. Philippines.

Pohekara, S.D, D. Kumara and M. Ramachandrana. 2005. Dissemination of cooking energy alternatives in India: a review. Renewable and Sustainable Energy Reviews 2005; 9:379-93.

Ramon, C.L., J.F. Rudolf and C.S. Philip. 1991. SAS system for linear models. SAS Series in Statistical Applications, Third Edition. Cary NC: SAS Institute Inc. 329 pp.

Werner, U., U. Stöhr and N. Hees. 1989. Biogas plants In Animal husbandry. A Publication of the Deutsches Zentrum für Entwicklungs Technologien_GATE, a Division of the Deutsche Gesellschaft für Technische Zusammenarbeit (GTZ) GmbH.

Yadvika, Santosh, T.R. Sreekrishnan, S. Kohli and V. Rana. 2004. Enhancement of biogas production from solid substrates using different techniques a review. Bioresource Technology 95: 1–10.

Zhang, F.S. and J.Q. Wang. 2008. Present situation and future improvement of apparent recovery efficiency of applied fertilizer for Chinese major crop Vol. 45 (5):9.