1 |
World Bank, 2009. The state of food security in the world, Washington, DC, USA. p. 56.
|
2 |
Rosegrant, M. W., M. Fernandez, A. Sinha, J. Alder, H. Ahammad, C. de Fraiture, B. Eickhout, J. Fonseka, J. Huang, O. Koyama and A. M. Omizzene. 2009. Looking into the future of agriculture and AKST (Agricultural knowledge science and technology). In Agriculture at a crossroad (Ed. B. D. McIntyre, H. R. Herren, J. Wakhungu and R. D. Watson). Island Press, Washington DC, USA.
|
3 |
Srivastra, R. K. 1970. Importance of animal production in rural economy. Indian Dairyman 25:223-243.
|
4 |
Sturr, W. W., P. M. Horne, F. A. Gabunada and P. C. Kerridge. 2001. Forage options for smallholder crop-animal systems in Southeast Asia: working with farmers to find solutions. Agric. Syst. 71:75-98.
|
5 |
Suriapernama, S., T. Syamsiah, A. M. Fagi and Atunadja. 1988. Optimase daya dukung lahan dengan ristem minapadi-itek pada lahan dengan ristem minapadi-itek pda saevah beririgasi. Simp. Tananam Pangan 11, Bogor, Indonesia, pp. 21-23.
|
6 |
TAC (Technical Advisory Committee). 1992. Review of CGIAR of Priorities and Strategies. Part 1, TAC Secretariat, FAO, Rome, Italy; p. 250.
|
7 |
Tripati, H., O. N. Kunzru and G. S. Bishat. 1995. Knowledge level of farm women about dairy farm technologies. Indian J. Dairy Sci. 48:346-352.
|
8 |
Trinh Phuc Hao, Ho Quang Do, T. R. Preston and R. A. Leng 2009. Nitrate as a fermentable nitrogen supplement for goats fed forage based diets low in true protein. Livestock Res. for Rural Dev., 21, Article No.10. http://www.lrrd.org/lrrd21/1/trin21010.htm
|
9 |
van Zijderveld, S. M, W. J. J. Gerrits, J. A. Apajalahti, J. R. Newbold, J. Dijkstra, R. A. Leng and H. B. Perdok. 2010a. Nitrate and sulfate: effective alternative hydrogen sinks for mitigation of ruminal methane production in sheep. J. Dairy Sci. 93:5856-5866.
DOI
ScienceOn
|
10 |
van Zijderveld, S. M., J. Dijkstra, W. J. J. Gerrits, J. R. Newbold and H. B. Perdok. 2010b. Dietary nitrate persistently reduces enteric methane production in lactating dairy cows In greenhouse gases and animal agriculture conference October 3-8, 2010 Banff, Canada (Quoted by Hulshof et al 2010).
|
11 |
Preston, T. R. 2009. Environmentally sustainable production of food, feed and fuel from natural resources in the tropics. Trop. Anim. Health Prod. 41:873-888.
DOI
|
12 |
Preston, T. R. and R. A. Leng 1984. Supplementation of diets based on fibrous residues and by-products. In: Straw and other fibrous by-products as feed (Ed. F. Sundstol and E. Owen). Elsevier, Amsterdam, The Netherlands, pp. 373-413.
|
13 |
Sevilla, C. C. 1994. Prospects for sustsinable cattle production in the Philippines. University of the Philippines in Los Banos, Philippines (Mimeograph, 10 pp).
|
14 |
Preston, T. R. and R. A. Leng. 1987. Matching Livestock Systems to Available Resources in the Tropics and Sub -Tropics. Penambul Books, Armidale, Australia, p. 425.
|
15 |
Raghavan, G. V., N. Krishna and M. R. Reddy. 1995. Priorities for feed resources use in the semi-arid Tropics. In Global agenda for livestock research. Proc. of the Consultation for South Asia region (Ed. C. Devendra and P. Gardiner). Patancheru, India, International Livestock Research Institute, Nairobi, Kenya, pp. 37-52.
|
16 |
Ramachandra, K. S., V. K. Taneja, K. T. Sampath, S. Anandan and U. B. Angadi. 2007. Livestock feed resources in different agro ecological zones of India: availability, requirement and their management. National Institute of Animal Nutrition and Physiology, Bangalore, India, pp. 100.
|
17 |
Shrestha, H. R. and D. R. Pradhan. 1995. Research priorities for animal agriculture by agro-ecological zones in Nepal. In: Global agenda for livestock research (Ed. C. Devendra and P. Gardiner). Proc. of the Consultation for South Asia region. Patancheru, India, International Livestock Research Institute, Nairobi, Kenya, pp. 85-102.
|
18 |
Rivera, W. M. and V. R. Sulaiman. 2009. Extension: object of reform, engine for innovation. Outlk. Agric. 38:267-274.
DOI
ScienceOn
|
19 |
Mudgal, V. D. and K. Pradhan. 1988. Animal feed resources and current patterns of utilisation in India. In: Proc. non-conventional feed resources and fibrous crop residues in India (Ed. C. Devendra). International Development Research Centre, Ottawa, Canada, pp. 139-146.
|
20 |
Nellemann, C., M. MacDevette, T. Manders, B. Eickhout, B. Svihus, A. G. Prins and B. P. Kaltenborn. 2009. The environmental food crisis - The environment's role in averting future food crises. A UNEP rapid response assessment. United Nations Environment Programme, GRID-Arendal, www.grida.no
|
21 |
Nitis, I. M., K. Lana, W. Sukanten, M. Suarna and S. Putra 1990. The concept and development of the three- strata forage system. In Shrubs and tree fodders for farm animals (Ed. C. Devendra). International Development Research Centre, IDRC-276e, Ottawa, Canada, pp. 92-102.
|
22 |
Ngoc Huyen Le Thi, H. Q. Do, T. R. Preston and R. A. Leng. 2010. Nitrate as fermentable nitrogen supplement to reduce rumen methane production. Livest. Res. Rural Dev. 22, Article No.146. http://www.lrrd.org/lrrd22/8/huye22146.htm
|
23 |
Nguyen Ngoc Anh, Khuc Thi Hue, Duong Nguyen Khang and T. R. Preston. 2010. Effect of calcium nitrate as NPN source on growth performance and methane emissions of goats fed sugar cane supplemented with cassava foliage. Proc. MEKARN Conf. on Livestock production, climate change and resource depletion. http://www.mekarn.org/workshops/pakse/abstracts/anh_grrc.htm
|
24 |
Nguyen, T., C. Q. Nguyen, X. T. Duong.and M. Sasaki. 1996. Rice-fish-pig production system in Vietnam. In: (Ed. H. Hayakawa, M. Sasaki and K. Kimura). Proc. Symp. Integrated Systems of Anim. Prod. in the Asian Region, Chiba, Japan, pp. 9-22.
|
25 |
Nolan, J. V., R. S. Hegarty, J. Hegarty, J. R. Godwin and R. Woodgate. 2010. Use of supplementary nitrate to mitigate methane production and provide rumen degradable N for ruminants. J. Anim. Sci. 50 (In press).
|
26 |
Parsons, D. J., A. C. Armstrong, J. R. Turnpenny, A. Matthews, K. Cooper and J. A. Clark. 2001. Integrated models of livestock systems for climate change studies. Grazing systems. Glob. Change Biol. 7:93-112.
DOI
ScienceOn
|
27 |
Leng, R. A. 2002. Future directions of animal production in a fossil fuel hungry world. Livest. Res. Rural Dev. 14, No.5, http://www.cipav.org.co/lrrd/lrrd/14/5leng145.htm
|
28 |
Leng, R. A. 2004 Requirements for protein meals for ruminant meat production. In: Protein Sources for the Animal Feed Industry. Expert Consultation and Workshop, Bangkok, FAO, Rome, Italy, pp. 225-254.
|
29 |
Leng, R. A. 2008. The potential of feeding nitrate to reduce enteric methane production in ruminants. A Report to The Department of Climate Change. Commonwealth Government of Australia. Canberra, ACT. Australia. http://www.penambulbooks.com
|
30 |
Leng, R. A. 2005. Metabolisable protein requirements of ruminants fed roughage based diets. In: (Ed. P. Rawlinson, C.Wachirapakorn, P. Pakdee and M. Wanapat) Proc. Int. Conf. on Livestock-Crop Systems to Meet the Challenges of Globalisation, Khon Kaen, Thailand, Vol. 1:330-347.
|
31 |
Leng, R. A. 2009a. Decline in available world resources-implications for livestock production systems. Proc. Int. Symp. on Sustainable Improvement of Anim. Prod. and Hlth., International Atomic Energy Commission, Vienna, Austria (In press).
|
32 |
Leng, R. A. 2009b. Animal protein production in a resource depleted world subject to environmental decline and global climate change, Japan Science Council, Tokyo, Japan. (Mimeograph)
|
33 |
Leng, R. A. and C. Devendra. 1995. Priorities and direction for more effective use of the feed resources by livestock in Asia. Proc. Consultation for the South-East region. In: Global agenda for livestock research, (Ed. C. Devendra and P. Gardiner), International Livestock Research Institute, Nairobi, Kenya, pp. 25-44.
|
34 |
Le Thi Thuy Hang, Ngo Van Man and H. Wiktorsson. 2003. Effects of urea and lime treatment of fresh rice straw on storage stability, and hygienic and nutritional quality. http://www.mekarn.org/msc2003-05/theses05/thuyh_p1.pdf
|
35 |
Mahadevan, P. and C. Devendra. 1986. Present and projected ruminant production systems. South East Asia and the South Pacific, In: Forages in South East Asia and the Pacific. ACIAR Proc. No. 12:1-6.
|
36 |
Hulshof, R. B. A., A. Berndt, J. J. A. A. Demarchi, W. J. J. Gerrits and H. B. Perdok. 2010. Dietary nitrate supplementation reduces methane emission in beef cattle fed sugarcane-based diets. In Greenhouse gases and Anim. Agric. Conf., Banff, Canada (Mimeograph).
|
37 |
Hopkins, A. and A. Del Prado. 2007. Implications of climate change for grassland in Europe: impacts, mitigation, adaptation and mitigation. A review. Forage Sci. 62:118-126.
DOI
ScienceOn
|
38 |
IFAD, 2009. New thinking to solve old problems. http://www.ipsnews.net/africa/nota.asp?idnews=45905. (Accessed on 26th March. 2009).
|
39 |
IMF. 2008. World economic outlook 2008. Research Department, International Monetary Fund, Washington, DC, USA.
|
40 |
IPPC, 2007. Climate change 2007: Contribution of working groups 1, 11 and 111 to the Fourth assessment Report, of the Intergovernmental Panel on Climate Change, Cambridge, United Kingdom and New York, Cambridge University Press
|
41 |
King, J. M., D. J. Parsons, D. T. Turnpenny, J. A. Nyangaga, P. Bakari and C. M. Wathes. 2006. Modelling energy requirements friesians in Kenya smallholdings shows how heat stress and energy stress constrain milk yield and cow replacement rate. Anim. Sci. 82:705-716.
DOI
ScienceOn
|
42 |
Laquihon, G. A., G. Suico and W. A. Laquihon. 1997. Integration of salt management of crop livestock in slopeland areas: the case of "super" SALT (sloping agricultural land technology). Proc. Int. Workshop on Sustainable Crop Livestock Integration in Sloping Lands of Asia. Davao, Philippines; Mimeograph, p. 21.
|
43 |
Leng, R. A. 1990. Factors effecting the utilisation of poor quality forages by ruminants particularly under tropical conditions. Nutr. Res. Rev. 3:277-294.
DOI
ScienceOn
|
44 |
Leng, R. A. 1991. Improving ruminant production and reducing methane emissions from ruminants by strategic supplementation. A report prepared for the Environmental Protection Agency of the USA. EPA/400/1-91/004.
|
45 |
Devendra, C. 2010a. Small farms in Asia. Revitalising agricultural production, food security and rural prosperity. Academy of Sciences Malaysia, Kuala Lumpur, Malaysia, p. 175.
|
46 |
Devendra, C., C. Sevilla and D. Pezo. 2001. Food -feed systems in Asia. Asian- Aust. J. Anim. Sci. 14:733-745.
DOI
ScienceOn
|
47 |
Devendra C. 2010b. Food production from animals in Asia: priority for expanding the development frontiers. Academy of Sciences Malysia Science Journal 4:173-184.
|
48 |
Devendra, C. 2011. Agricultural education and technological change for sustaining productivity enhancement and prosperity in Asia. In: Agricultural Education and Training in Africa (Ed. F. Swanapoel and A. Strobel). University of the Free State, Bloemfontein, South Africa (In press).
|
49 |
Devendra, C. and D. Thomas. 2001. Crop-animal interactions in mixed farming systems in Asia. Agric. Syst. 71:27-40.
|
50 |
Devendra, C., D. Thomas, M. A. Jabbar and H. Kudo. 1997. Improvement of livestock production in crop-animal systems in the rainfed agro-ecological zones of South East Asia., Nairobi, Kenya, p. 107.
|
51 |
Devendra, C., J. F. Morton and B. Rischkovsky. 2005. Livestock systems In: Livestock and Wealth Creation (Ed. E. Owen, A. Kitalyi, M. C. N. Jayasuria and T. Smith). Nottingham University Press, United Kingdom, pp. 29-52.
|
52 |
Devendra, C., D. Thomas, M. A. Jabbar and E. Zerbini. 2000. Improvement of livestock production in crop-animal systems in agro-ecological zones of South Asia. International Livestock Research Institute, Nairobi, Kenya, p. 108.
|
53 |
Egan, A. 1989. Living with, and overcoming limits to, feeding value of high-fibre roughages. In; Draught animals in rural development (Ed. D. Hoffman, J. Nari and R. J. Petram). ACIAR Proc. No 27, Australian Centre for International Agricultural Research, Canberra, Australia, pp. 176-180.
|
54 |
ESCAP, 2008. Economic and social survey of Asia and the Pacific 2008. Sustaining growth and sharing prosperity, Bangkok, Thailand, p. 190.
|
55 |
Devendra, C. 1992. Non- conventional feed resources in Asia and the Pacific (4th Edn) RAPA/APHCA Publication. No.4, FAO Regional Office, Bangkok, Thailand, p. 170.
|
56 |
Devendra, C. 2005. Improvement of crop-animal systems in rainfed agriculture in South East Asia. In Proc. Int. Conf. Livestock-Crop Systems to Meet the Challenges of Globalisation (Ed. P. Rawlinson, C. Wachirapakorn, P. Pakdee and M. Wanapat), Khon Kaen, Thailand, 1:220-231.
|
57 |
Devendra, C. 1996. Overview of integrated, animals-crops-fish production systems: Achievements and future potential. In: (Ed. H. Hayakawa, M. Sasaki and K. Kimura) Proc. Symp. on Integrated Systems of Anim. Prod. in the Asian Region, Chiba, Japan. pp. 9-22.
|
58 |
Devendra, C. 1997. Crop residues for feeding animals in Asia: technology assessment and adoption. In Crop Residues in Sustainable Crop Livestock Farming Systems (Ed. C. Renard). Commonwealth Agricultural Bureau, Wallingford, UK. pp. 24-28.
|
59 |
Devendra, C. 2004. Meeting the increased demand for animal products in Asia: opportunities and challenges for research. In Responding to the livestock revolution. Br. Soc. Anim. Sci. Publ. 33:209-228.
|
60 |
Devendra, C. 2007a. Goats: biology, production and development in Asia. Academy of Sciences Malaysia, Kuala Lumpur, Malaysia, p. 246.
|
61 |
Devendra, C. 2007b. Perspectives on animal production systems in Asia. Livest. Sci. 106:7-20.
|
62 |
Devendra, C. 2007c. Integrated tree-crops ruminant systems: expanding the research and development frontiers in the oil palm. In: Proc. Workshop on integrated tree crops- ruminant systems (ITCRS)/Assessment of status and opportunities in Malaysia (Ed. C. Devendra, S. Shanmugavelu and H. K. Wong). Kuala Lumpur, Academy of Science Malaysia. pp. 5-23.
|
63 |
Devendra, C. 2009. Intensification of integrated oil palm - ruminant systems: enhancing productivity and sustainability in South East Asia. Outlk. Agric. 38:71-81.
DOI
ScienceOn
|
64 |
Carangal, V. R. and C. C. Sevilla. 1993. Crop-animal systems research in Asia. Proc. V11th Wrld. Conf. Anim. Prod. Edmonton, Canada. pp. 367-386.
|
65 |
ADB 2009. The economics of climate change in South East Asia: a regional review. Asian Development Bank, Manila, Philippines, 225 pp.
|
66 |
Banarjee, A. 1994 .Dairying systems in India. Wrld. Anim. Rev. 79:34-41.
|
67 |
Cagauan, A. G., C. Van Hove, E. A. Orden, N. M. Ramilo and R. D. Brankaert. 1996. Preliminary results of a case study on integrated rice-fish-azolla-ducks system in the Philippines. In Proc. Symp. on Integrated Systems of Anim (Ed. H. Hayakawa, M. Sasaki and K. Kimura). Prod. in the Asian Region, Chiba, Japan, pp. 35-62.
|
68 |
CGIAR/TAC (Consultative Group on International Agricultural Research/Technical Advisory Committee). 2000. CGIAR priorities for marginal lands, CGIAR, Washingtion, USA. (Mimeograph).
|
69 |
Cungen L. S. Z., G. Tingshuang and S. Waldron. 1999. The "Straw for Ruminants" project in China. Agricultural and Natural Resource Economics Discussion Paper 4/99. School of Natural and Rural Systems Management, University of Queensland. St. Lucia, Australia (Mimeograph).
|
70 |
Devendra, C. 1982. Malaysian animal production in perspective. Proc. VIth Ann. Conf. Malaysian Society of Animal Production, pp. 201-219.
|
71 |
Devendra, C. 1989. Ruminant production systems in the developing countries: resource utilization. In: Feeding Strategies for Improved Productivity of Ruminant Livestock in Developing Countries, IAEA, Vienna, Austria, pp. 5-30.
|