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Food, fibre and pharmaceuticals from animals
RESEARCH ARTICLE

Evolution of mixed farming systems for the delivery of triple bottom line outcomes: a synthesis of the Grain & Graze program

R. B. Hacker A E , M. J. Robertson B , R. J. Price C and A. M. Bowman D
+ Author Affiliations
- Author Affiliations

A Industry and Investment NSW, PMB 19, Trangie, NSW 2823, Australia.

B CSIRO Sustainable Ecosystems, PMB 5, PO Wembley, WA 6913, Australia.

C Kiri-ganai Research, GPO Box 103, Canberra, ACT 2601, Australia.

D Industry and Investment NSW, Pine Gully Road, Wagga Wagga, NSW 2650, Australia.

E Corresponding author. Email: ron.hacker@industry.nsw.gov.au

Animal Production Science 49(10) 966-974 https://doi.org/10.1071/AN09091
Submitted: 5 June 2009  Accepted: 5 August 2009   Published: 16 September 2009

Abstract

The continued evolution of mixed farming systems will depend on the development of technology which addresses the basic biophysical constraints of the agro ecological zone within which these systems have developed. However, the application of these technologies will increasingly depend on the extent to which they address all dimensions of the social–economic–environmental system within which mixed farmers operate. The Grain & Graze program has accelerated the adoption of several technologies that can provide a basis for continuing evolution of mixed farming systems (e.g. grazing of cereals, drought containment of livestock, perennial pastures) while initiating the development and exploration of others whose potential will be realised in the longer term (e.g. pasture cropping, integrated pest management in mixed farming systems, cover cropping and alley farming with old man saltbush). Some technologies capable of supporting continued evolution were not addressed comprehensively by the program but remain opportunities for future development, particularly technologies for feed demand management and inter-seasonal feed transfer. The program made considerable progress in fostering the explicit consideration of the ‘triple bottom line’ consequences of new technology. It has confirmed that no universal solution to the question of profitability and sustainability is to be expected but has also demonstrated that methodology is available to make the formal consideration of this question much more robust. Clearer definition of the institutional requirements for support of change in complex systems, and for effective management of large national projects, will provide key underpinnings to ensure that subsequent programs achieve the benefits of scale in RD&E that Grain & Graze has convincingly demonstrated. In addition, we argue that ongoing evolution of mixed farming systems that will deliver triple bottom line outcomes will require policies that achieve appropriate cost sharing for delivery of environmental benefits and increased capacity for structural adjustment within the industry itself, to account for changes in demography, infrastructure and farm management arrangements.


Acknowledgement

The comments of an anonymous referee contributed substantially to the refinement of the original manuscript and are gratefully acknowledged.


References


Abadi A , Lefroy EC , Cooper D , Hean R , Davies C (2006) Profitability of Agroforestry in the Medium to Low Rainfall Cropping Zone. Rural Industries Research and Development Corporation Publication No. 05/181. Joint Venture Agroforestry Program, Greening Australia, and Land & Water Australia, Canberra.

Badgery W , Millar G (2009) Pasture cropping. Primefact 875. Factsheet. NSW Department of Primary Industries, Orange.

Bathgate A , Byrne F , Young J , Hoque Z (undated) The economic value of improving pasture production on saltland in southern Australia. Report. Land Water & Wool. Available at http://www.landwaterwool.gov.au/products/pn22098 [Verified 31 May 2009]

Bathgate A, Seddon J, Finlayson J, Hacker R (2009) Managing catchments for multiple objectives: the implications of land use change for salinity, biodiversity and economics. Animal Production Science 49, 852–859. [Verified 31 May 2009]

Coutts J , Roberts K (2003) Extension models and best practice in extension. Australasian Pacific Extension Network Forum, Hobart, November 2003. (Australasian Pacific Extension Network: Albury) Available at http://www.regional.org.au/au/apen/2003 [Verified 27 July 2009]

Doole GJ, Bathgate AD, Robertson MJ (2009a) Labour scarcity restricts the potential scale of grazed perennial plants in the Western Australian wheatbelt. Animal Production Science 49, 883–893. [Verified 16 January 2009]

Grain & Graze (2009) Integrated pest management for crop and pasture. Available at http://www.grainandgraze.com.au/Research_Projects/Integrated_Pest_Management_for_Crop_and_Pastures/indexdl_5116.htm [Verified 31 May 2009]

Hacker R , Badgery W , Briggs S , Dean J , Maccallum R , Milthorpe P , Michalk D , Millar G (2008) Grain & Graze Regional Initiative Central West/Lachlan; Final Report – Phase I. NSW Department of Primary Industries, Orange.

Harris R , Hirth J , Ransom K , Crawford M , Naji R (2003) Farmers’ experiences with the companion cropping of lucerne in North Central Victoria. In ‘Solutions for a better environment’. Proceedings of the 11th Australian Agronomy Conference, 2–6 February 2003, Geelong, Victoria. (Australian Society of Agronomy: Geelong) (CD-ROM)

Harris RH, Hirth JR, Crawford MC, Bellotti WD, Peoples MB, Norng S (2007) Companion crop performance in the absence and presence of agronomic manipulation. Australian Journal of Agricultural Research 58, 690–701.
Crossref | GoogleScholarGoogle Scholar | [Verified 31 May 2009]

Moore G , Sanford P , Wiley T (2007) ‘Perennial pastures for Western Australia.’ (Department of Agriculture and Food: South Perth)

Moore AD, Bell LW, Revell DK (2009) Feed gaps in mixed-farming systems: insights from the Grain & Graze program. Animal Production Science 49, 736–748. [Verified 16 January 2009]