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You are here: Home > Journals > AN > EA07017
REVIEW
Contents Vol 47(9)

Nutrient budgeting as an approach to improving nutrient management on Australian dairy farms

C. J. P. Gourley A E , J. M. Powell B , W. J. Dougherty C and D. M. Weaver D
+ Author Affiliations
- Author Affiliations

A Department of Primary Industries, Ellinbank Centre, 1301 Hazeldean Road, Ellinbank, Vic. 3821, Australia.

B USDA Agricultural Research Service, US Dairy Forage Research Center, 1925 Linden Drive West, University of Wisconsin, Madison, WI 53706, USA.

C NSW Department of Primary Industries, Locked Bag 4, Richmond, NSW 2753, Australia.

D Department of Agriculture and Food, Western Australia, 444 Albany Highway, Albany, WA 6330, Australia.

E Corresponding author. Email: cameron.gourley@dpi.vic.gov.au

Australian Journal of Experimental Agriculture 47(9) 1064-1074 https://doi.org/10.1071/EA07017
Submitted: 27 January 2007  Accepted: 8 March 2007   Published: 6 August 2007

Abstract

Dairy farming in Australia continues to intensify. Increased stocking rates have resulted in increased milk production per ha, but have also required greater inputs of purchased feed and fertiliser. The imbalance between nutrient inputs, primarily as feed and fertiliser, and nutrient outputs, in milk and livestock, has resulted in significant nutrient accumulation on dairy farms and, consequently, a greater risk of nutrient loss to the environment.

Nutrient budgeting is a technique used to quantify or predict nutrient deficits or surpluses, either at a whole-farm or field scale, in an attempt to improve nutrient use efficiency and reduce nutrient losses from agriculture. A broad range of nutrient budgeting approaches are used internationally, and depending on their purpose, they vary from the very simple to the very complex. Nutrient budgeting has been widely used to assist on-farm nutrient management decisions, in research to identify major nutrient pools, transformations and losses, to enable farmers to access cost-sharing support from governments, and in some countries as a major regulatory tool.

The changing nature of Australian dairy operations, the increasing societal pressure on the farming community to reduce nutrient losses to water and air, and the need to provide evidence that farm practices are meeting environmental standards, justifies the need for improved nutrient management practices on Australian dairy farms. This paper describes different types of nutrient budgeting approaches used internationally and assesses the benefits of developing a practical, scientifically rigorous and nationally standardised nutrient budgeting approach for the Australian dairy industry.

Additional keywords: nitrogen, phosphorus.


Acknowledgements

The authors wish to acknowledge financial support from Dairy Australia and The Babcock Institute for International Dairy Research and Development (CSREES USDA Special Grant 2005-34266-16416). Technical input was provided by many members of the Accounting for Nutrients on Australian Dairy Farms national project team. In particular we wish to thank Sharon Aarons, Lucy Burkitt and Ken Peverill for their helpful comments on the manuscript. The farm-scale nutrient distribution maps were prepared by Paul Durling, DPI Victoria.


References


Aarons SR (2001) Cycling of organic phosphorus in grazed dairy pastures. Final report. Dairy Australia, Melbourne.

Aarons SR, O’Connor CR, Gourley CJP (2004a) Dung decomposition in temperate dairy pastures. I. Change in soil chemical properties. Australian Journal of Soil Research 42, 107–114.
Crossref | GoogleScholarGoogle Scholar | [Verified 28 May 2007]

ABARE (2006) Production systems, productivity, profit and technology. Australian Bureau of Agriculture and Resource Economics paper 06.1, October 2006. Available at www.abareconomics.com [Verified 28 May 2007]

Anon.  (2001) Sustaining our natural resources – dairying for tomorrow. Dairy Research and Development Corporation project report. National Land and Water Resources Audit 2001. Available at http://www.greeningaustralia.org.au/nativevegetation/pages/pdf/Authors%20S/15_Dairy_RDC.pdf [Verified 28 May 2007]

Anon.  (2005) Final report of the international conference on element balances as a tool for sustainable land management, Tirana, Albania. 13–19 March 2005. Available at http://www.pe.ipw.agrl.ethz.ch/research/Conf_pres/Final_Report_Tirana_DEF.pdf [Verified 28 May 2007]

Anon.  (2007) Nutritive values of feeds. New South Wales Department of Primary Industries. Available at http://www.agric.nsw.gov.au/tools/fes/index.html [Verified 28 May 2007]

Bennett EM, Carpenter SR, Caraco NF (2001) Human impact on erodable phosphorus and eutrophication: a global perspective. Bioscience 51, 227–234.
Crossref | GoogleScholarGoogle Scholar | [Verified 28 May 2007]

Fortune S, Lu J, Addiscott TM, Brookes PC (2005) Assessment of phosphorus leaching losses from arable land. Plant and Soil 269, 99–108.
Crossref | GoogleScholarGoogle Scholar | [Verified 28 May 2007]

Ledgard SF (2001) Nitrogen cycling in low input legume based agriculture, with emphasis on legume/grass pastures. Plant and Soil 228, 43–59.
Crossref | GoogleScholarGoogle Scholar | [Verified 28 May 2007]

Martin P, Puangsumalee P (2004) Farm performance in the Australian and New Zealand dairy industries. In ‘Proceedings of the Gippsland regional agribusiness outlook conference.’ Australian Bureau of Agriculture and Resource Economics paper 04.13. Available at http://www.abareconomics.com/publications_html/livestock/livestock_04/cp04_13.pdf [Verified 28 May 2007]

Mekken JC, Swink SN, Ketterings QM (2006) Statewide and county-based phosphorus balances for New York State. Available at http://nmsp.css.cornell.edu/publications/articles/extension.asp [Verified 28 May 2007]

Melland A, Love S, Gourley CJP, Eckard RJ (2005) The development of trust in the development and delivery of a tool to reduce environmental nutrient losses from pasture systems. In ‘Proceedings of the Modsim conference’. Available at http://www.mssanz.org.au/modsim05/papers/melland.pdf [Verified 28 May 2007]

Mulier A, Hofman G, Baecke E, Carlier L, De Brabander D , et al. (2003) A methodology for the calculation of farm level nitrogen and phosphorus balances in Flemish agriculture. European Journal of Agronomy 20, 45–51.
Crossref | GoogleScholarGoogle Scholar | [Verified 11 July 2007]

NRC (2001) ‘Nutrient requirements of dairy cattle.’ 7th edn. (National Academy Press: Washington DC)

Oborn I, Edwards AC, Witter E, Oenema O, Ivarsson K, Withers PJA, Nilsson SI, Richert-Stinzing A (2003) Element balances for sustainable nutrient management: a critical appraisal of their merits and limitations within an agronomic and environmental context. European Journal of Agronomy 20, 211–225.
Crossref | GoogleScholarGoogle Scholar | [Verified 27 May 2007]

Reuter DJ (2001) Nutrients – farm gate nutrient balances. Australian National Land and Water audit 2001. Available at http://audit.ea.gov.au/ANRA/land/farmgate/Nutrient_Balance.pdf [Verified 27 May 2007]

Rooney DR, Uren NC, Leaver DD (1977) Some aspects of fertiliser use in relation to animal health and the environment. Australian Veterinary Journal 53, 9–16.
PubMed |
[Verified 27 May 2007]

Van der Meer HG (2001) Reduction of nitrogen losses in dairy production systems: the Dutch experience. In ‘Proceedings of the Babcock Institute’s 3rd technical workshop’. (Eds K Kanwar, R Baggett) pp. 82–97. (Babcock Institute: Madison, WI)

VandeHaar MJ, St-Pierre N (2006) Major advances in nutrition: relevance to the sustainability of the dairy industry. Journal of Dairy Science 89, 1280–1291.
PubMed |
open url image1

Wattiaux MA (2001) A simple model to optimize feeding programs and crop rotation of dairy farms. In ‘Proceedings of the Babcock Institute’s 3rd technical workshop’. (Eds K Kanwar, R Baggett) pp. 54–69. (Babcock Institute: Madison, WI)

Wattiaux MA, Pellerin D, Flis SA, Charbonneau E (2005) Economic and environmental analysis of whole-farm nitrogen and phosphorus balance and cycling in mixed livestock-crop farms. In ‘Proceedings of the AHAT-BSAS international conference, Khon Kaen, Thailand’. (Eds P Rowlinson, C Wachirapakorn, P Pakdee, M Wanapat) pp. 1–12. (AHAT-BSAS (British Society of Animal Science and the Animal Husbandry Association of Thailand): Khon Kaen, Thailand)

Weaver DM, Reed AEG (1998) Patterns of nutrient status and fertiliser practice on soils of the south coast of Western Australia. Agriculture Ecosystems & Environment 67, 37–53.
Crossref | GoogleScholarGoogle Scholar | open url image1

Weaver DM, Neville S, Deeley DM (2005) Addressing off-site nutrient pollution through conventional management actions: a modelling case study. Australian Journal of Water Resources 8, 165–178. open url image1

Wheeler D, Ledgard SF, Monaghan RM, McDowell R, DeKlien C (2006) OVERSEER development – what is it and what it does. In ‘Implementing sustainable nutrient management strategies in agriculture’. Occasional report No. 19. (Eds LD Currie, JA Hanly) pp. 231–236. (Massey University: Palmerston North, New Zealand)