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RESEARCH FRONT

The intensity of grazing management influences lamb production from native grassland

W. B. Badgery A C , G. D. Millar A , D. L. Michalk A , P. Cranney B and K. Broadfoot A
+ Author Affiliations
- Author Affiliations

A NSW Department of Primary Industries, Orange Agricultural Institute, 1447 Forest Road, Orange, NSW 2800, Australia.

B Central Tablelands Local Land Services, Orange Agricultural Institute, 1447 Forest Road, Orange, NSW 2800, Australia.

C Corresponding author. Email: warwick.badgery@dpi.nsw.gov.au

Animal Production Science 57(9) 1837-1848 https://doi.org/10.1071/AN15866
Submitted: 15 December 2015  Accepted: 7 March 2016   Published: 24 May 2017

Abstract

The intensity of grazing management required for optimal pasture and animal production from heterogeneous native grasslands has received little research in the high-rainfall zone of south-eastern Australia. The aim of this experiment was to determine how the intensity of grazing management, from continuous grazing (P01) to flexible 4- and 20-paddock rotational systems (P04 and P20), influenced the productivity and sustainability of a Merino ewe, terminal sire lamb production system run on a native grassland dominated by Microlaena stipoides and Rytidosperma spp. The present paper focuses on the animal production and feed-quality results from this experiment. There was a higher per head animal production for the P01 than the P20, with the P04 being intermediate. The differences were found for ewe liveweight and fat score, lamb growth rates and lamb liveweight at weaning. The P20 was able to run higher ewe numbers, in response to greater feed on offer than for P04 and P01, which enabled lamb production per hectare at weaning to be similar and greasy wool production per hectare to be greater than for P01. The organic matter digestibility of the ewe diet estimated from faecal analysis was lower for P20 and P04 systems than for P01 over a 7-month period and explained differences measured in sheep performance at that time. When lambs were retained after weaning, they could be kept for longer on the P20 and grown to a greater weight than for the P01 and P04, but the criteria for setting stocking rates and selling lambs from systems influenced the production from the systems. Further work is needed to investigate the interaction between stocking rate (ewe numbers and lamb sale time) and grazing management and examine different options for managing rotational grazing systems.

Additional keywords: sheep grazing, sheep nutrition, wool.


References

Adler PB, Raff DA, Lauenroth WK (2001) The effect of grazing on the spatial heterogeneity of vegetation. Oecologia 128, 465–479.
The effect of grazing on the spatial heterogeneity of vegetation.Crossref | GoogleScholarGoogle Scholar |

Allan CJ, Mason WK, Reeve IJ, Hooper S (2003) Evaluation of the impact of SGS on livestock producers and their practices. Australian Journal of Experimental Agriculture 43, 1031–1040.
Evaluation of the impact of SGS on livestock producers and their practices.Crossref | GoogleScholarGoogle Scholar |

Anderson VJ, Briske DD (1995) Herbivore induced species replacement in grasslands: is it driven by herbivory tolerance or avoidance? Ecological Applications 5, 1014–1024.
Herbivore induced species replacement in grasslands: is it driven by herbivory tolerance or avoidance?Crossref | GoogleScholarGoogle Scholar |

Badgery WB, Millar GD, Mitchell D, Cranney P, Priest SM (2010) Predicting pasture production from November temperatures. In ‘25th conference of the The Grassland Society of NSW’, Dubbo, NSW. (Eds C Waters, D Garden) pp. 108–111. (Industry & Investment NSW: Orange, NSW)

Badgery WB, Cranney P, Millar GD, Mitchell D, Behrendt K (2012) Intensive rotational grazing can improve profitability and environmental outcomes. In ‘Proceedings of the Grassland Society of NSW’, Wagga Wagga, NSW. (Eds C Harris, G Lodge, C Waters) pp. 85–91. (Grassland Society of NSW: Orange, NSW)

Badgery W, Sargeant K, Friend M, Glyde S, Sanford P, Behrendt R, Mitchell M, Murphy S, Avery A (2015) EverGraze: a partnership between researchers, farmers and advisors to deliver effective grassland management. In ‘Sustainable use of grassland resources for forage production, biodiversity and environmental protection. Proceedings of the 23rd international grassland congress: keynote lectures’. (Eds D Vijay, MK Srivastava, CK Gupta, DR Malaviya, MM Roy, SK Mahanta, JB Singh, A Maity, PK Gosh) pp. 236–247. (Range Management Society of India: Jhansi, India)

Badgery WB, Mitchell D, Millar GD, Broadfoot K, Michalk DL, Cranney P, Brown W (2017a) Designing a grazing-system experiment for variable native pastures and flexible lamb-production systems. Animal Production Science 57, 1785–1798.
Designing a grazing-system experiment for variable native pastures and flexible lamb-production systems.Crossref | GoogleScholarGoogle Scholar |

Badgery WB, Millar GD, Broadfoot K, Michalk DL, Cranney P, Mitchell D, van de Ven R (2017b) Increased production and cover in a variable native pasture following intensive grazing management. Animal Production Science 57, 1812–1823.
Increased production and cover in a variable native pasture following intensive grazing management.Crossref | GoogleScholarGoogle Scholar |

Bailey DW, Brown JR (2011) Rotational grazing systems and livestock grazing behavior in shrub-dominated semi-arid and arid rangelands. Rangeland Ecology and Management 64, 1–9.
Rotational grazing systems and livestock grazing behavior in shrub-dominated semi-arid and arid rangelands.Crossref | GoogleScholarGoogle Scholar |

Bailey DW, Gross JE, Laca EA, Rittenhouse LR, Coughenour MB, Swift DM, Sims PL (1996) Mechanisms that result in large herbivore grazing distribution patterns. Journal of Range Management 49, 386–400.
Mechanisms that result in large herbivore grazing distribution patterns.Crossref | GoogleScholarGoogle Scholar |

Bell A, Graham P, Blackwood I, Clements B, Meaker G, Allan C, Ayres J, Buckley D, Donald G, Fulkerson B, Gaden B, Hill M, Holdsworth M, McDonald W, Jordan D, Langford C, Love S, Rose H, Simpsoon P, Shands C, Upjohn B, Turner A (2006) ‘PROGRAZE: profitable sustainable grazing.’ (NSW Department of Primary Industries: Dubbo, NSW)

Briske DD, Derner JD, Brown JR, Fuhlendorf SD, Teague WR, Havstad KM, Gillen RL, Ash AJ, Willms WD (2008) Rotational grazing on rangelands: reconciliation of perception and experimental evidence. Rangeland Ecology and Management 61, 3–17.
Rotational grazing on rangelands: reconciliation of perception and experimental evidence.Crossref | GoogleScholarGoogle Scholar |

Briske DD, Ash AJ, Derner JD, Huntsinger L (2014) Commentary: a critical assessment of the policy endorsement for holistic management. Agricultural Systems 125, 50–53.
Commentary: a critical assessment of the policy endorsement for holistic management.Crossref | GoogleScholarGoogle Scholar |

Broadfoot KM, Badgery WB, Millar GD (2017) Post-experimental modelling of grazing systems to improve profit and environmental outcomes using AusFarm. Animal Production Science 57, 1849–1858.
Post-experimental modelling of grazing systems to improve profit and environmental outcomes using AusFarm.Crossref | GoogleScholarGoogle Scholar |

Brown J, Kothmann M (2009) Rotational grazing on rangelands: synthesis and recommendations. Rangelands 31, 37–38.
Rotational grazing on rangelands: synthesis and recommendations.Crossref | GoogleScholarGoogle Scholar |

Chapman DF, McCaskill MR, Quigley PE, Thompson AN, Graham JF, Borg D, Lamb J, Kearney G, Saul GR, Clark SG (2003) Effects of grazing method and fertiliser inputs on the productivity and sustainability of phalaris-based pastures in western Victoria. Australian Journal of Experimental Agriculture 43, 785–798.
Effects of grazing method and fertiliser inputs on the productivity and sustainability of phalaris-based pastures in western Victoria.Crossref | GoogleScholarGoogle Scholar |

Cottle D, Gaden CA, Hoad J, Lance D, Smith J, Scott JM (2013) The effects of pasture inputs and intensive rotational grazing on superfine wool production, quality and income. Animal Production Science 53, 750–764.
The effects of pasture inputs and intensive rotational grazing on superfine wool production, quality and income.Crossref | GoogleScholarGoogle Scholar |

Cox F (2012) Understanding sheep grazing in native pastures to better manage production and natural resource outcomes. PhD Thesis, Charles Sturt University, Orange, NSW.

Cox F, Badgery WB, Kemp DR, Krebs G (2017) Seasonal diet selection by ewes grazing within contrasting grazing systems. Animal Production Science 57, 1824–1836.
Seasonal diet selection by ewes grazing within contrasting grazing systems.Crossref | GoogleScholarGoogle Scholar |

Dowling PM, Kemp DR, Ball PD, Langford CM, Michalk DL, Millar GD, Simpson PC, Thompson RP (2005) Effect of continuous and time-control grazing on grassland components in south-eastern Australia. Australian Journal of Experimental Agriculture 45, 369–382.
Effect of continuous and time-control grazing on grassland components in south-eastern Australia.Crossref | GoogleScholarGoogle Scholar |

Freer M, Dove H, Nolan JV (2007) ‘Nutrient requirements of domesticated ruminants.’ (CSIRO Publishing: Melbourne)

Fulkerson WJ, Donaghy DJ (2001) Plant-soluble carbohydrate reserves and senescence: key criteria for developing an effective grazing management system for ryegrass-based pastures: a review. Australian Journal of Experimental Agriculture 41, 261–275.
Plant-soluble carbohydrate reserves and senescence: key criteria for developing an effective grazing management system for ryegrass-based pastures: a review.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3MXjslKltbo%3D&md5=15cdd200c615e4fdca4b77a30463749eCAS |

Hinch GN, Hoad J, Lollback M, Hatcher S, Marchant R, Colvin A, Scott JM, Mackay D (2013) Livestock weights in response to three whole-farmlet management systems. Animal Production Science 53, 727–739.
Livestock weights in response to three whole-farmlet management systems.Crossref | GoogleScholarGoogle Scholar |

Holechek JL, Gomes H, Molinar F, Galt D, Valdez R (2000) Short-duration grazing: the facts in 1999. Rangelands 22, 18–22.

Isbell RF (2002) ‘The Australian soil classification.’ (CSIRO Publishing: Melbourne)

Johnson IR, Lodge GM, White RE (2003) The sustainable grazing systems pasture model: description, philosophy and application to the SGS national experiment. Australian Journal of Experimental Agriculture 43, 711–728.
The sustainable grazing systems pasture model: description, philosophy and application to the SGS national experiment.Crossref | GoogleScholarGoogle Scholar |

Kaine G, Doyle B, Sutherland H, Scott JM (2013) Surveying the management practices and research needs of graziers in the New England region of New South Wales. Animal Production Science 53, 602–609.
Surveying the management practices and research needs of graziers in the New England region of New South Wales.Crossref | GoogleScholarGoogle Scholar |

Kemp DR, Dowling PM (2000) Towards sustainable temperate perennial pastures. Australian Journal of Experimental Agriculture 40, 125–132.
Towards sustainable temperate perennial pastures.Crossref | GoogleScholarGoogle Scholar |

Kemp DR, Dowling PM, Michalk DL (1996) Managing the composition of native and naturalised pastures with grazing. New Zealand Journal of Agricultural Research 39, 569–578.
Managing the composition of native and naturalised pastures with grazing.Crossref | GoogleScholarGoogle Scholar |

Kemp DR, Michalk DL, Virgona JM (2000) Towards more sustainable pastures: lessons learnt. Australian Journal of Experimental Agriculture 40, 343–356.
Towards more sustainable pastures: lessons learnt.Crossref | GoogleScholarGoogle Scholar |

Laca EA, Demment MW (1996) Foraging strategies of grazing animals. In ‘The ecolcogy and management of grazing systems’. (Eds J Hodgson, AW Illius) pp. 137–158. (CAB International: Wallingford, UK)

Leigh JH, Holgate MD (1978) Effects of pasture availability on the composition and quality of the diet selected by sheep grazing native, degenerate and improved pastures in the Upper Shoalhaven Valley, New South Wales. Australian Journal of Experimental Agriculture and Animal Husbandry 18, 381–390.
Effects of pasture availability on the composition and quality of the diet selected by sheep grazing native, degenerate and improved pastures in the Upper Shoalhaven Valley, New South Wales.Crossref | GoogleScholarGoogle Scholar |

Lodge GM, Murphy SR, Harden S (2003a) Effects of grazing and management on herbage mass, persistence, animal production and soil water content of native pastures. 1. A redgrass–wallaby grass pasture, Barraba, North West Slopes, New South Wales. Australian Journal of Experimental Agriculture 43, 875–890.
Effects of grazing and management on herbage mass, persistence, animal production and soil water content of native pastures. 1. A redgrass–wallaby grass pasture, Barraba, North West Slopes, New South Wales.Crossref | GoogleScholarGoogle Scholar |

Lodge GM, Murphy SR, Harden S (2003b) Effects of grazing and management on herbage mass, persistence, animal production and soil water content of native pastures. 2. A mixed native pasture, Manilla, North West Slopes, New South Wales. Australian Journal of Experimental Agriculture 43, 891–905.
Effects of grazing and management on herbage mass, persistence, animal production and soil water content of native pastures. 2. A mixed native pasture, Manilla, North West Slopes, New South Wales.Crossref | GoogleScholarGoogle Scholar |

Love S (2005) ‘DrenchPlan 2005. Primefact 14.’ (NSW Department of Primary Industries) Available at http://www.dpi.nsw.gov.au/__data/assets/pdf_file/0004/38551/drenchplan-2005.pdf [Verified 29 April 2016]

McCosker T (2000) Cell grazing: the first 10 years in Australia. Tropical Grasslands 34, 207–218.

McIvor J (2013) ‘HRM and cell grazing: a review of the evidence base.’ (Meat & Livestock Australia: Sydney)

McMeekan CP, Walshe MJ (1963) The inter-relationships of grazing method and stocking rate in the efficiency of pasture utilisation by dairy cattle. Journal of Agricultural Science, Cambridge 61, 147–166.
The inter-relationships of grazing method and stocking rate in the efficiency of pasture utilisation by dairy cattle.Crossref | GoogleScholarGoogle Scholar |

Michalk DL, Dowling PM, Kemp DR, King WM, Packer IJ, Holst PJ, Jones RE, Priest SM, Millar GD, Brisbane S, Stanley DF (2003) Sustainable grazing systems for the Central Tablelands, New South Wales. Australian Journal of Experimental Agriculture 43, 861–874.
Sustainable grazing systems for the Central Tablelands, New South Wales.Crossref | GoogleScholarGoogle Scholar |

Morley FHW, Bennett D, McKinney GT (1969) The effect of intensity of rotational grazing with breeding ewes on phalaris-subterranean clover pastures. Australian Journal of Experimental Agriculture and Animal Husbandry 9, 74–84.
The effect of intensity of rotational grazing with breeding ewes on phalaris-subterranean clover pastures.Crossref | GoogleScholarGoogle Scholar |

Norton BE (1998) The application of grazing management to increase sustainable livestock production. Proceedings of the Australian Society of Animal Production 22, 15–26.

Payne R, Murray D, Harding S, Baird D, Soutar D (2013) ‘Introduction to GenStat® for WindowsTM.’ 16th edn. (VSN International: Hemel Hempstead, UK)

R Core Team (2015) ‘R: a language and environment for statistical computing.’ (R Foundation for Statistical Computing: Vienna) Available at http://www.R-project.org/ [Accessed 14 December 2015].

Savory A (1988) ‘Holistic resource management.’ (Island Press: Washington, DC)

Scott JM, Gaden CA, Edwards C, Paull DR, Marchant R, Hoad J, Sutherland H, Coventry T, Dutton P (2013a) Selection of experimental treatments, methods used and evolution of management guidelines for comparing and measuring three grazed farmlet systems. Animal Production Science 53, 628–642.
Selection of experimental treatments, methods used and evolution of management guidelines for comparing and measuring three grazed farmlet systems.Crossref | GoogleScholarGoogle Scholar |

Scott JM, Munro M, Rollings N, Browne W, Vickery PJ, Macgregor C, Donald GE, Sutherland H (2013b) Planning for whole-farm systems research at a credible scale: subdividing land into farmlets with equivalent initial conditions. Animal Production Science 53, 618–627.
Planning for whole-farm systems research at a credible scale: subdividing land into farmlets with equivalent initial conditions.Crossref | GoogleScholarGoogle Scholar |

Sheath GW, Clark DA (1996) Management of grazing systems: temperate pastures. In ‘The ecology and management of grazing systems.’ (Eds J Hodgson, AW Illius) pp. 301–325. (CAB International: Wallingford, UK)

Svejcar T, Havstad K (2009) Improving field-based experimental research to compliment contemporary management. Rangelands 31, 26–30.
Improving field-based experimental research to compliment contemporary management.Crossref | GoogleScholarGoogle Scholar |

Teague WR, Provenza FD, Norton BE, Steffens T, Barnes MK, Kothmann MM, Roath RL (2009) Benefits of multi-paddock grazing management on rangelands: limitations of experimental grazing research and knowledge gaps. In ‘Grasslands: ecology, management and restoration.’ (Ed. HG Schroder) pp. 41–80. (Nova Science Publishers: New York)

Teague WR, Dowhower SL, Baker SA, Haile N, DeLaune PB, Conover DM (2011) Grazing management impacts on vegetation, soil biota and soil chemical, physical and hydrological properties in tall grass prairie. Agriculture Ecosystems & Environment 141, 310–322.

Teague R, Provenza F, Kreuter U, Steffens T, Barnes M (2013) Multi-paddock grazing on rangelands: why the perceptual dichotomy between research results and rancher experience? Journal of Environmental Management 128, 699–717.
Multi-paddock grazing on rangelands: why the perceptual dichotomy between research results and rancher experience?Crossref | GoogleScholarGoogle Scholar |

Tothill JC, Hargraves JNG, Jones RM (1992) ‘BOTANAL: a comprehensive sampling and computing procedure for estimating pasture yield and composition. I. Field sampling. Tropical agronomy technical memorandum No. 78.’ CSIRO Australian Division of Tropical Crops and Pastures: Brisbane)

Vallentine JF (2001) ‘Grazing management.’ (Academic Press: San Diego, CA)

Waller RA, Sale PWG, Saul GR, Kearney GA (2001) Tactical versus continuous stocking in perennial ryegrass-subterranean clover pastures grazed by sheep in south-western Victoria. 3. Herbage nutritive characteristics and animal production. Australian Journal of Experimental Agriculture 41, 1121–1131.
Tactical versus continuous stocking in perennial ryegrass-subterranean clover pastures grazed by sheep in south-western Victoria. 3. Herbage nutritive characteristics and animal production.Crossref | GoogleScholarGoogle Scholar |

Wang CJ, Tas BM, Glindemann T, Rave G, Schmidt L, Weißbach F, Susenbeth A (2009) Fecal crude protein content as an estimate for the digestibility of forage in grazing sheep. Animal Feed Science and Technology 149, 199–208.
Fecal crude protein content as an estimate for the digestibility of forage in grazing sheep.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1MXisVOksr0%3D&md5=4915a54e7cfaf56f1e0d87972ca0932eCAS |

Warn LK, Frame HR, McLarty GR (2002) Effects of grazing method and soil fertility on stocking rate and wool production. Wool Technology and Sheep Breeding 50, 510–517.

Watt BR, Bird TL (1998) Economic comparison of centre plus merino and first-cross ewes as prime lamb dams. Animal Production in Australia 22, 241–244.

White A, Holst P (2006) ‘Fat scoring sheep and lambs. Primefact 302.’ (NSW Department of Primary Industries: Orange, NSW)