Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Animal Production Science Animal Production Science Society
Food, fibre and pharmaceuticals from animals
RESEARCH ARTICLE

Productivity and profitability of alternative steer growth paths resulting from accessing high-quality forage systems in the subtropics of northern Australia: a modelling approach

M. K. Bowen A C and F. Chudleigh B
+ Author Affiliations
- Author Affiliations

A Department of Agriculture and Fisheries, Rockhampton, PO Box 6014, Red Hill, Qld 4701, Australia.

B Department of Agriculture and Fisheries, PO Box 102, Toowoomba, Qld 4350, Australia.

C Corresponding author. Email: maree.bowen@daf.qld.gov.au

Animal Production Science 59(9) 1739-1751 https://doi.org/10.1071/AN18311
Submitted: 15 May 2018  Accepted: 28 November 2018   Published: 18 December 2018

Abstract

Beef producers have to determine the best allocation of a limited resource of high-quality forage. This analysis assessed the most profitable way of incorporating high-quality forages into the whole-of-life steer growth path on forage systems in central Queensland, using property-level, regionally relevant herd models that determine whole-of-business productivity and profitability over a 30-year investment period. Twenty-two growth paths (liveweight change over time) from weaning to marketing were investigated for steers grazing buffel grass (Cenchrus ciliaris) pastures with and without access to leucaena–grass pastures (Leucaena leucocephala spp. glabrata + perennial, tropical grass (C4) species) or forage oats (Avena sativa) for varying intervals throughout their growth path. The production, economic and financial effect of each growth path was assessed by comparison to a base scenario that produced finished, slaughter steers (605 kg) from buffel grass pastures. The relative profitability of marketing steers at feedlot entry (feed-on) weight (474 kg) instead of slaughter weights was also assessed. The growth paths were applied within two beef enterprises, namely (1) steer turnover and (2) breeding and finishing. For both enterprises, grazing steers on leucaena-grass pastures from weaning until they achieved feedlot entry weight (474 kg) was substantially more profitable than any other growth path. Compared with the base scenario, this optimal growth path improved profitability by 121% and 37% for the steer turnover and the breeding and finishing enterprises respectively. The purchase of additional breeders for the latter enterprise was required to optimise utilisation of the leucaena–grass pastures immediately. Incorporating leucaena–grass pastures at any steer age improved the profitability of the steer turnover enterprise (AU$7368–AU$106 508 extra profit/annum), and similarly for the breeding and finishing enterprise (AU$1754–AU$31 383 extra profit/annum) except for two scenarios where leucaena–grass pastures were provided to older steers targeted at the feed-on market (AU$4816 and AU$23 886 less profit/annum). However, incorporation of leucaena–grass into steer growth paths also resulted in increased peak deficit levels and financial risk to the business compared with buffel grass-only production systems, with payback periods for the most profitable growth path of 8 and 14 years for the steer turnover and the breeding and finishing enterprise respectively. All growth paths that incorporated forage oats and leucaena–grass resulted in lower economic and financial performance than did comparable growth paths that incorporated leucaena–grass only. Furthermore, incorporating oats into buffel grass-only growth paths always reduced the enterprise profitability. There was no relationship, across scenarios within an enterprise, between change in profit and the number of extra weaners produced or the amount of extra beef produced per hectare.

Additional keywords: beef cattle, dryland cropping, farm management economics, leucaena, oats, tropical forages, tropical pastures.


References

ABS (Australian Bureau of Statistics) (2018) ‘7503.0 value of agricultural commodities produced, Australia, 2016–17.’ Available at http://www.abs.gov.au/AUSSTATS/abs@.nsf/DetailsPage/7503.02016-17?OpenDocument [Verified November 2018]

Barbi E, Moravek T, Anderson A (2016) The 2011–14 reef catchments beef industry survey report. State of Queensland, Department of Agriculture and Fisheries, Brisbane, Qld.

Bell LW, Hayes RC, Pembleton KG, Waters CM (2014) Opportunities and challenges in Australian grasslands: pathways to achieve future sustainability and productivity imperatives. Crop and Pasture Science 65, 489–507.
Opportunities and challenges in Australian grasslands: pathways to achieve future sustainability and productivity imperatives.Crossref | GoogleScholarGoogle Scholar |

Beutel TS, Tindall D, Denham R, Trevithick R, Scarth P, Abbott B, Holloway C (2014) Getting ground cover right: thresholds and baselines for a healthier reef. Report to the Reef Rescue Research and Development Program. Reef and Rainforest Research Centre Limited, Cairns, Qld.

Beutel TS, Corbet DH, Hoffmann MB, Buck SR, Kienzle M (2018) Quantifying leucaena cultivation extent on grazing land. The Rangeland Journal 40, 31–38.
Quantifying leucaena cultivation extent on grazing land.Crossref | GoogleScholarGoogle Scholar |

Bowen MK, Chudleigh F (2017) ‘Productivity and profitability of a range of alternative steer growth paths resulting from manipulating the pasture feed base in central Queensland.’ (State of Queensland, Department of Agriculture and Fisheries: Brisbane, Qld) Available at https://futurebeef.com.au/wp-content/uploads/2018/01/Optimal-cattle-growth-pathways-in-central-Queensland-Bowen-and-Chudleigh-2017.pdf [Verified May 2018]

Bowen MK, Chudleigh F (2018) Productivity and profitability of alternative steer growth paths resulting from accessing high quality forage systems in central Queensland: a modelling approach. In ‘Proceedings of the 32nd biennial conference of the Australian Society of Animal Production’, 2–4 July 2018, Wagga Wagga, NSW. (Australian Society of Animal Production: Wagga Wagga, NSW)

Bowen MK, Buck SR, Gowen R (2010) High-output forage systems for meeting beef markets: Phase 1. Project B.NBP.0496 final report. Meat and Livestock Australia, Sydney.

Bowen M, Buck S, Chudleigh F (2015a) ‘Feeding forages in the Fitzroy. A guide to profitable beef production in the Fitzroy River catchment.’ (State of Queensland, Department of Agriculture and Fisheries: Brisbane, Qld)

Bowen MK, Chudleigh F, Buck S, Hopkins K, Brider J (2015b) High-output forage systems for meeting beef markets: Phase 2. Project B.NBP.0636 final report. Meat and Livestock Australia, Sydney.

Bowen MK, Chudleigh F, Buck S, Hopkins K (2018) Productivity and profitability of forage options for beef production in the subtropics of northern Australia. Animal Production Science 58, 332–342.
Productivity and profitability of forage options for beef production in the subtropics of northern Australia.Crossref | GoogleScholarGoogle Scholar |

Buck S (2017) ‘Pasture dieback: past activities and current situation across Queensland. Agric.-science Queensland innovation opportunity.’ (State of Queensland, Department of Agriculture and Fisheries: Brisbane, Qld)

Campbell HF, Brown RP (2003) ‘Benefit–cost analysis. Financial and economic appraisal using spreadsheets.’ (Cambridge University Press: Cambridge, UK)

Chudleigh F, Oxley T, Cowley T, McGrath T, Moravek T, Sullivan M (2016) The impact of changing breeder herd management and reproductive efficiency on beef enterprise performance. Project B.NBP.0763 final report. Meat and Livestock Australia, Sydney.

Corbet D, Beutel T, Buck S (2016) A novel way to measure leucaena coverage in the Fitzroy. In ‘Proceedings of the Northern Beef research update conference’, Rockhampton, Qld, 15–18 August 2016. p. 208. (North Australia Beef Research Council: Gympie, Qld)

Cox H (2009) ‘The nitrogen book. Principles of soil nitrogen fertility management in central Queensland farming systems.’ (The State of Queensland, Employment, Economic Development and Innovation: Brisbane, Qld)

Dalzell S, Shelton M, Mullen B, Larsen P, McLaughlin K (2006) ‘Leucaena. A guide to establishment and management.’ (Meat and Livestock Australia: Sydney)

Dalzell SA, Burnett DJ, Dowsett JE, Forbes VE, Shelton HM (2012) Prevalence of mimosine and DHP toxicity in cattle grazing Leucaena leucocephala pastures in Queensland, Australia. Animal Production Science 52, 365–372.
Prevalence of mimosine and DHP toxicity in cattle grazing Leucaena leucocephala pastures in Queensland, Australia.Crossref | GoogleScholarGoogle Scholar |

Queensland Government, Department of Natural Resources and Mines (DNRM) (2010) ‘Queensland spatial catalogue – QSpatial. Grazing land management land types, Fitzroy.’ Available at http://qldspatial.information.qld.gov.au/catalogue/custom/search.page?q=%22Grazing%20land%20management%20land%20types%20-%20Fitzroy%22 [Verified February 2018]

Queensland Government, Department of Natural Resources and Mines (DNRM) (2017a) ‘QImagery.’ Available at https://qimagery.information.qld.gov.au/ [Verified May 2017]

Queensland Government, Department of Natural Resources and Mines (DNRM) (2017b) ‘Queensland spatial catalogue – QSpatial. Land use mapping: 1999 to current, Queensland.’ Available at http://qldspatial.information.qld.gov.au/catalogue/custom/search.page?q=%22Land%20use%20mapping%20-%201999%20to%20Current%20-%20Queensland%22 [Verified February 2018]

Dove H, McLennan SR, Poppi DP (2010) Application of nutrient requirement schemes to grazing animals. In ‘Proceedings of the 4th grazing livestock nutrition conference’, 9–10 July 2010, Estes Park, USA. (Eds BW Hess, T Delcurto, JGP Bowman, RC Waterman) pp. 133–149. (Western Section American Society of Animal Science: Champaign, IL)

Elledge A, Thornton C (2012) The Brigalow Catchment Study: Comparison of soil fertility, forage quality and beef production from buffel grass vs. leucaena–buffel grass pastures. In ‘Proceedings of the 5th joint Australian and New Zealand soil science conference: soil solutions for diverse landscapes’, 2–7 December 2012. (Eds LL Burkitt, LA Sparrow) pp. 181–184. (Australian Society of Soil Science Inc.: Massey University, New Zealand)

Ferris A, Malcolm B (1999) Sense and nonsense in dairy farm management economic analysis. In ‘Proceedings of the annual conference of Australian Agricultural and Resource Economics Society’. (Australian Agricultural and Resource Economics Society: Sydney) Available at http://ageconsearch.umn.edu/bitstream/123803/2/FerrisMalcolm.pdf [Verified May 2018]

Gittinger JP (1982) ‘Economic analysis of agricultural projects. EDI series in economic development.’ (The Economic Development Institute of the World Bank, John Hopkins University Press: Baltimore, MD)

Henderson A, Perkins N, Banney S (2012) Determining property level rates of breeder cow mortality in northern Australia. Project B.NBP.0664 final report. Meat and Livestock Australia, Sydney.

Holmes WE, Chudleigh F, Simpson G (2017) ‘Breedcow and Dynama herd budgeting software package. A manual of budgeting procedures for extensive beef herds.’ (State of Queensland, Department of Agriculture and Fisheries: Brisbane, Qld) Available at https://www.daf.qld.gov.au/animal-industries/beef/breedcow-and-dynama-software [Verified May 2017]

Hunt L, Ash A, MacLeod ND, McDonald CK, Scanlon J, Bell LW, Cowley R, Watson I, McIvor J (2014) Research opportunities for sustainable productivity improvement in the northern beef industry: a scoping study. Project B.BSC.0107 final report. Meat and Livestock Australia, Sydney.

Keating BA, Carberry PS, Hammer GL, Probert ME, Robertson MJ, Holzworth D, Huth NI, Hargreaves JNG, Meinke H, Hochman Z, McLean G, Verburg K, Snow V, Dimes JP, Silburn M, Wang E, Brown S, Bristow KL, Asseng S, Chapman S, McCown RL, Freebairn DM, Smith CJ (2003) An overview of APSIM, a model designed or farming systems simulation. European Journal of Agronomy 18, 267–288.
An overview of APSIM, a model designed or farming systems simulation.Crossref | GoogleScholarGoogle Scholar |

Makeham JP, Malcolm LR (1993) ‘The farming game now.’ (Cambridge University Press: Cambridge, UK)

Malcolm B (2000) Farm management economic analysis: a few disciplines, a few perspectives, a few figurings, a few futures. In ‘Proceedings of the annual conference of Australian Agricultural and Resource Economics Society’. (Australian Agricultural and Resource Economics Society: Sydney) Available at https://ageconsearch.umn.edu/bitstream/171920/2/malcolm.pdf [Verified May 2018]

McCown RL, Hammer GL, Hargreaves JNG, Holzworth DP, Freebairn DM (1996) APSIM: a novel software system for model development, model testing and simulation in agricultural systems research. Agricultural Systems 50, 255–271.
APSIM: a novel software system for model development, model testing and simulation in agricultural systems research.Crossref | GoogleScholarGoogle Scholar |

McGowan M, McCosker K, Fordyce G, Smith D, O’Rourke P, Perkins N, Barnes T, Marquart L, Morton J, Newsome T, Menzies D, Burns B, Jephcott S (2014) Northern Australian beef fertility project: CashCow. Project B.NBP.0382 final report. Meat and Livestock Australia, Sydney.

McKeon GM, Ash AJ, Hall WB, Stafford-Smith M (2000) Simulation of grazing strategies for beef production in north-east Queensland. In ‘Applications of seasonal climate forecasting in agricultural and natural systems: the Australian experience’. (Eds G Hammer, N Nichols, C Mitchell) pp. 227–252. (Kluwer Academic Press: Dordrecht, The Netherlands)

McKiernan B, Gaden B, Sundstrom B (2007) ‘Dressing percentages for cattle. Primefact 340.’ (State of New South Wales, Department of Primary Industries: Sydney) Available at http://www.dpi.nsw.gov.au/__data/assets/pdf_file/0006/103992/dressing-percentages-for-cattle.pdf [Verified May 2017]

McLean I, Blakeley S (2014) Animal equivalent methodology. A methodology to accurately and consistently calculate cattle grazing loads in northern Australia. Project B.NBP.0779 final report. Meat and Livestock Australia, Sydney.

McLennan SR (2014) Optimising growth paths of beef cattle in northern Australia for increased profitability. Project B.NBP.0391 final report. Meat and Livestock Australia, Sydney.

McLennan SR, Poppi DP (2005) Improved prediction of the performance of cattle in the tropics. Project NBP.331 final report. Meat and Livestock Australia, Sydney.

McLennan SR, Poppi DP (2016) ‘QuikIntake version 5 spreadsheet calculator.’ (State of Queensland, Department of Agriculture and Fisheries: Brisbane, Qld)

MLA (Meat and Livestock Australia) (2017) Market reports and prices. Available at https://www.mla.com.au/prices-markets/Market-reports-prices/ [Verified June 2017]

NRDR (2007) ‘Nutrient requirements of domesticated ruminants.’ (CSIRO Publishing: Melbourne)

Peck GA, Buck SR, Hoffman A, Holloway C, Johnson B, Lawrence DN, Paton CJ (2011) Review of productivity decline in sown grass pastures. Project B.NBP.0624 final report. Meat and Livestock Australia, Sydney.

Peck G, Chudleigh F, Guppy C, Johnson B, Lawrence D (2015) Use of phosphorus fertiliser for increased productivity of legume-based sown pastures in the Brigalow Belt region: a review. Project B.NBP.0769 final report. Meat and Livestock Australia, Sydney.

Peck G, Buck S, Johnson B, O’Reagain J (2017) Improving productivity of rundown sown grass pastures. Vol. 1: project overview, key findings and recommendations. Project B.NBP.0639 final report. Meat and Livestock Australia, Sydney.

Queensland Department of Primary Industries (QDPI) (2003) ‘Rainman StreamFlow V 4.3.’ (Department of Agriculture, Fisheries and Forestry: Brisbane Qld) Available at https://www.daf.qld.gov.au/plants/field-crops-and-pastures/broadacre-field-crops/cropping-efficiency/rainman/download [Verified May 2017]

Quirk M, McIvor J (2003) ‘Grazing land management: technical manual.’ (Meat and Livestock Australia: Sydney)

Radrizzani A, Dalzell SA, Kravchuk O, Shelton HM (2010) A grazier survey of the long-term productivity of leucaena (Leucaena leucocephala)–grass pastures in Queensland. Animal Production Science 50, 105–113.
A grazier survey of the long-term productivity of leucaena (Leucaena leucocephala)–grass pastures in Queensland.Crossref | GoogleScholarGoogle Scholar |

Radrizzani A, Shelton HM, Kravchuk O, Dalzell SA (2016) Survey of long-term productivity and nutritional status of Leucaena leucocephala-grass pastures in subtropical Queensland. Animal Production Science 56, 2064–2073.
Survey of long-term productivity and nutritional status of Leucaena leucocephala-grass pastures in subtropical Queensland.Crossref | GoogleScholarGoogle Scholar |

Rickert KG, Stuth JW, McKeon GM (2000) Modelling pasture and animal production. In ‘Field and laboratory methods for grassland and animal production research’. (Eds L ’t Mannetje, RM Jones) pp. 29–66. (CABI Publishing: New York)

Robinson LJ, Barry PJ (1996) ‘Present value models and investment analysis.’ (The Academic Page: Northport, AL)

Shelton HM, Franzel S, Peters M (2005) Adoption of tropical legume technology around the world: analysis of success. Tropical Grasslands 39, 198–209.

Spiegel N (2016) ‘Developing an RD&E project to address loss of productivity in Queensland pastures invaded by Indian couch (Bothriochloa pertusa).’ (State of Queensland, Department of Agriculture and Fisheries: Brisbane, Qld)

Thornton C, Elledge A (2013) Runoff nitrogen, phosphorus and sediment generation rates from pasture legumes: an enhancement to reef catchment modelling. Project RRRD009 report to Reef Rescue Water Quality Research and Development Program. Reef and Rainforest Research Centre Limited, Cairns, Qld.

Tomkins NW, Harper GS, Bruce HL, Hunter RA (2006) Effect of different post-weaning growth paths on long-term weight gain, carcass characteristics and eating quality of beef cattle. Australian Journal of Experimental Agriculture 46, 1571–1578.
Effect of different post-weaning growth paths on long-term weight gain, carcass characteristics and eating quality of beef cattle.Crossref | GoogleScholarGoogle Scholar |

Whish G (2011) ‘Land types of Queensland. Version 2.0.’ Prepared by the Grazing Land Management Workshop Team, PRO7-3212. (Department of Employment, Economic Development and Innovation: Brisbane, Qld) Available at http://www.futurebeef.com.au/knowledge-centre/land-types-of-queensland/ [Verified May 2017]

Wythes JR, Brown MJ, Shorthose WR, Clarke MR (1983) Effect of method of sale and various water regimens at saleyards on the liveweight, carcass traits and muscle properties of cattle. Australian Journal of Experimental Agriculture and Animal Husbandry 23, 234–242.

Yin RK (1994) ‘Case study research: design and methods.’ 2nd edn. (Sage Publications: Thousand Oaks, CA)