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RESEARCH ARTICLE (Open Access)

Pasture herbage mass, quality and growth in response to three whole-farmlet management systems

L. M. Shakhane A C , C. Mulcahy B , J. M. Scott C F , G. N. Hinch C , G. E. Donald D and D. F. Mackay E
+ Author Affiliations
- Author Affiliations

A Department of Animal Science, National University of Lesotho, PO Roma 180, Lesotho.

B 79 Beardy Street, Armidale, NSW 2350, Australia.

C School of Environmental and Rural Science, University of New England, Armidale, NSW 2351, Australia.

D Precision Agriculture Research Group, University of New England, Armidale, NSW 2351, Australia.

E 3 Jayne Close, Armidale, NSW 2350, Australia.

F Corresponding author. Email: dr.jimscott@gmail.com

Animal Production Science 53(8) 685-698 https://doi.org/10.1071/AN12262
Submitted: 30 January 2012  Accepted: 2 November 2012   Published: 10 July 2013

Journal Compilation © CSIRO Publishing 2013 Open Access CC BY-NC-ND

Abstract

The effects of different whole-farm management systems were explored in a farmlet trial on the Northern Tablelands of New South Wales, Australia, between July 2000 and December 2006. The three systems examined were first, a moderate input farmlet with flexible grazing on eight paddocks considered ‘typical’ of the region (farmlet B), a second, also with flexible grazing on eight paddocks but with a high level of pasture renovation and increased soil fertility (farmlet A) and a third with the same moderate level of inputs as farmlet B but which practised intensive rotational grazing on 37 paddocks (farmlet C).

The changes in herbage mass, herbage quality and pasture growth followed a seasonal pattern typical of the Northern Tablelands with generally higher levels recorded over spring–summer and lower levels in autumn–winter but with substantial differences between years due to the variable climate experienced. Over the first 18 months of the trial there were no significant differences between farmlets in total herbage mass. Although the climate was generally drier than average, the differences between farmlets in pasture herbage mass and quality became more evident over the duration of the experiment. After the farmlet treatments started to take effect, the levels of total and dead herbage mass became significantly lower on farmlet A compared with farmlets B and C. In contrast, the levels of green herbage were similar for all farmlets.

Throughout most of the study period, pastures on farmlet A with its higher levels of pasture renovation and soil fertility, had significantly higher DM digestibility for both green and dead herbage components compared with pastures on either of the moderate input systems (B and C). Thus, when green herbage mass and quality were combined, farmlet A tended to have higher levels of green digestible herbage than either of the other farmlets, which had similar levels, suggesting that pasture renovation and soil fertility had more effect on the supply of quality pasture than did grazing management. This difference was observed in spite of the higher stocking rate supported by farmlet A after treatments took effect.

Levels of legume herbage mass, while generally low due to the dry conditions, were significantly higher on farmlet A compared with the other two farmlets. While ground cover on farmlet A was found to be less than the other farmlets, this was largely associated with the higher level of pasture renovation. Generally, all three farmlets had ground cover levels well above 70% for the duration of the experiment, thus being above levels considered critical for prevention of erosion.

A multivariate analysis showed that the main explanatory factors significantly linked (P < 0.01) with the supply of high quality herbage were, in decreasing order of importance, those related to season and weather, pasture renovation, grazing management and soil fertility. Measurements of net pasture growth conducted using a limited number of grazing exclosure cages on three paddocks per farmlet revealed clear seasonal trends but no significant (P > 0.05) differences between farmlets. However, post hoc estimates of potential pasture growth rate using remotely sensed MODIS satellite images of normalised difference vegetation index captured weekly from each farmlet revealed a significant (P < 0.001) relationship with the seasonal pattern observed in the measurements of pasture growth rate.


References

Adesogan AT, Givens DI, Owen E (2000) Measuring chemical composition and nutritive value in forages. In ‘Field and laboratory methods for grassland and animal production research’. (Eds L t’Mannetje, RM Jones) pp. 263–278. (CABI Publishing: Warwickshire)

Anonymous (1993) ‘Experimental protocols: grazing management sites.’ (Meat Research Corporation: Sydney)

Archer KA, Read J, Murray G (1993) Pasture decline – real or imagined? In ‘Proceedings of the eighth annual conference Grassland Society of New South Wales’, Orange, NSW. pp. 8–13. (Grassland Society of New South Wales: Orange, NSW)

Ayres JF, McPhee MJ, Turner AD, Curll ML (2000) The grazing value of tall fescues (Festuca arundinacea) and phalaris (Phalaris aquatica) for sheep production in the Northern Tablelands of NSW. Australian Journal of Agricultural Research 51, 57–68.
The grazing value of tall fescues (Festuca arundinacea) and phalaris (Phalaris aquatica) for sheep production in the Northern Tablelands of NSW.Crossref | GoogleScholarGoogle Scholar |

Ayres JF, Dicker RW, McPhee MJ, Turner AD, Murison RD, Kamphorst PG (2001) Post-weaning growth of cattle in northern New South Wales. 1. Grazing value of temperate perennial pasture grazed by cattle. Australian Journal of Experimental Agriculture 41, 959–969.
Post-weaning growth of cattle in northern New South Wales. 1. Grazing value of temperate perennial pasture grazed by cattle.Crossref | GoogleScholarGoogle Scholar |

Behrendt K, Scott JM, Mackay DF, Murison R (2013) Comparing the climate experienced during the Cicerone farmlet experiment against the climatic record. Animal Production Science 53, 658–669.
Comparing the climate experienced during the Cicerone farmlet experiment against the climatic record.Crossref | GoogleScholarGoogle Scholar |

Bell A (2007) ‘Measuring herbage mass – the median quadrat technique.’ (NSW Department of Primary Industries, Orange, NSW) Available at http://www.dpi.nsw.gov.au/agriculture/livestock/nutrition/feeds/herbage-mass-median-quadrat-technique/measuring-herbage-mass-the-median-quadrat-technique.pdf [Verified 1 July 2012]

Bell AK (Ed.) (2003) ‘PROGRAZE manual.’ (NSW DPI, and Meat and Livestock Australia , Orange, NSW)

Bell AK, Allan CJ (2000) PROGRAZE – an extension package in grazing and pasture management. Australian Journal of Experimental Agriculture 40, 325–330.
PROGRAZE – an extension package in grazing and pasture management.Crossref | GoogleScholarGoogle Scholar |

Cayley JWD, Bird PR (1991) ‘Techniques for measuring pastures.’ (Pastoral Research Institute: Hamilton)

Chapman DF, Parsons AJ, Cosgrove GP, Barker DJ, Marotti DM, Venning KJ, Rutter SM, Hill J, Thompson AN (2007) Impacts of spatial patterns in pasture on animal grazing behavior, intake, and performance. Crop Science 47, 399–415.
Impacts of spatial patterns in pasture on animal grazing behavior, intake, and performance.Crossref | GoogleScholarGoogle Scholar |

Clark DA (2010) Contribution of farmlet scale research in New Zealand and Australia to improved dairy farming systems. In ‘Proceedings of the 4th Australasian dairy science symposium’. Lincoln University, Christchurch, New Zealand. (Eds GR Edwards, RH Bryant) pp. 112–124. (Caxton Press, Christchurch, New Zealand). Available at http://www.sciquest.org.nz/node/69343 [Verified 9 December 2012]

Cook SJ, Blair GJ, Lazenby A (1978a) Pasture degeneration. II. The importance of superphosphate, nitrogen and grazing management. Australian Journal of Agricultural Research 29, 19–29.
Pasture degeneration. II. The importance of superphosphate, nitrogen and grazing management.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaE1cXhtF2qtb4%3D&md5=eb1e445201f5793668a4980db6b8a9a1CAS |

Cook SJ, Lazenby A, Blair GJ (1978b) Pasture degeneration. 1. Effect on total and seasonal pasture production. Australian Journal of Agricultural Research 29, 9–18.
Pasture degeneration. 1. Effect on total and seasonal pasture production.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaE1cXhtF2qtLc%3D&md5=6314e1ad3642a8d9496ede26d857c61fCAS |

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 |

Cullen BR, Chapman DF, Quigley PE (2005) Persistence of Phalaris aquatica in grazed pastures – 2. Regenerative bud and tiller development. Australian Journal of Experimental Agriculture 45, 49–58.
Persistence of Phalaris aquatica in grazed pastures – 2. Regenerative bud and tiller development.Crossref | GoogleScholarGoogle Scholar |

Donald GE, Scott JM, Vickery PJ (2013) Satellite derived evidence of whole farmlet and paddock responses to management and climate. Animal Production Science 53, 699–710.
Satellite derived evidence of whole farmlet and paddock responses to management and climate.Crossref | GoogleScholarGoogle Scholar |

Edwards PJ (1981) Grazing management. In ‘Veld and pasture management in South Africa’. (Ed. NM Tainton) pp. 325–334. (Shuter and Shooter, University of Natal Press: Pietermaritzburg)

Fitzpatrick EA, Nix HA (1975) The climate factor in Australian grassland ecology. In ‘Australian grasslands’. (Ed. RM Moore) pp. 3–26. (ANU Press: Canberra)

Guppy CN, Edwards C, Blair GJ, Scott JM (2013) Whole-farm management of soil nutrients drives productive grazing systems: the Cicerone farmlet experiment confirms earlier research. Animal Production Science 53, 649–657.
Whole-farm management of soil nutrients drives productive grazing systems: the Cicerone farmlet experiment confirms earlier research.Crossref | GoogleScholarGoogle Scholar |

Hamilton BA (1975) ‘Factors determining the productivity of sheep grazing four temperate perennial grasses.’ (University of New England: Armidale)

Hamilton BA, Hutchinson KJ, Annis PC, Donnelly JB (1973) Relationships between the diet selected by grazing sheep and the herbage on offer. Australian Journal of Agricultural Research 24, 271–277.
Relationships between the diet selected by grazing sheep and the herbage on offer.Crossref | GoogleScholarGoogle Scholar |

Harris W (1978) Defoliation as a determinant of the growth, persistence and composition of pasture. In ‘Plant relation in pastures’. (Ed. JR Wilson) pp. 67–85. (CSIRO: Melbourne)

Hinch GN, Hoad J, Lollback M, Hatcher S, Marchant R, Colvin A, Scott JM, Mackay D (2013a) 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 |

Hinch GN, Lollback M, Hatcher S, Hoad J, Marchant R, Mackay DF, Scott JM (2013b) Effects of three whole-farmlet management systems on Merino ewe fat scores and reproduction. Animal Production Science 53, 740–749.
Effects of three whole-farmlet management systems on Merino ewe fat scores and reproduction.Crossref | GoogleScholarGoogle Scholar |

Hodgson J (1990) ‘Grazing management – science into practice.’ (Longman Scientific & Technical: London). 203 pp.

Holst PJ, Stanley DF, Millar GD, Radburn A, Michalk DL, Dowling PM, Van de Ven R, Priest SM, Kemp DR, King WM, Tarleton JA (2006) Sustainable grazing systems for the Central Tablelands of New South Wales. 3. Animal production response to pasture type and management. Australian Journal of Experimental Agriculture 46, 471–482.
Sustainable grazing systems for the Central Tablelands of New South Wales. 3. Animal production response to pasture type and management.Crossref | GoogleScholarGoogle Scholar |

Jones CE (1996) Pastoral value and production from native pastures. New Zealand Journal of Agricultural Research 39, 449–456.
Pastoral value and production from native pastures.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, 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 |

Lambert MG, Clark DA, Grant DA, Costall DA, Fletcher RH (1983) Influence of fertiliser and grazing management on North Island moist hill country. 1. Herbage accumulation. New Zealand Journal of Agricultural Research 26, 95–108.
Influence of fertiliser and grazing management on North Island moist hill country. 1. Herbage accumulation.Crossref | GoogleScholarGoogle Scholar |

Lang RD (1979) The effect of ground cover on surface runoff from experimental plots. Journal of the Soil Conservation Service of New South Wales 35, 108–114.

Langlands JP, Holmes CR (1978) The nutrition of ruminants grazing native and improved pastures. I. Seasonal variation in the diet selected by grazing sheep and cattle. Australian Journal of Agricultural Research 29, 863–874.
The nutrition of ruminants grazing native and improved pastures. I. Seasonal variation in the diet selected by grazing sheep and cattle.Crossref | GoogleScholarGoogle Scholar |

Loader C (2010) locfit: local regression, likelihood and density estimation. Available at http://CRAN.R-project.org/package=locfit [Verified 9 December 2012]

Lodge GM (1996) The Temperate Pasture Sustainability Key Program: gathering the knowledge and skills to implement grazing management strategies. In ‘Proceedings of the eleventh annual conference Grasslands Society’, Wagga Wagga. NSW. (Eds J Virgona, D Michalk) pp. 135–137. (Grasslands Society of NSW: Orange, NSW)

Maxwell TJ (1990) Plant-animal interactions in northern temperate sown grasslands and semi-natural vegetation. In ‘Systems theory applied to agriculture and the food chain’. (Eds J Jones, P Street) pp. 23–60. (Elsevier Applied Science: London)

McCaskill MR, Blair GJ (1988) Medium-term climatic variation of the Northern Tablelands of NSW. Mathematics and Computers in Simulation 30, 159–164.
Medium-term climatic variation of the Northern Tablelands of NSW.Crossref | GoogleScholarGoogle Scholar |

McCollum FT, Gillen RL, Brummer JE (1994) Cattle diet quality under short-duration grazing on tallgrass prairie. Journal of Range Management 47, 489–493.
Cattle diet quality under short-duration grazing on tallgrass prairie.Crossref | GoogleScholarGoogle Scholar |

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

McPhee MJ, Ayres JF, Curll ML (1997) Growth periodicity of introduced pastures on the northern tablelands of NSW. Australian Journal of Agricultural Research 48, 831–841.
Growth periodicity of introduced pastures on the northern tablelands of NSW.Crossref | GoogleScholarGoogle Scholar |

Moore RM, Barrie N, Kipps EH (1946) ‘Continuous and rotational grazing by Merino sheep. 1. A study of the production of a sown pasture in the Australian Capital Territory under three systems of grazing management.’ (CSIR: Melbourne)

Morley FHW (Ed.) (1981) ‘Management of grazing systems. In ‘Grazing Animals. Vol. B1. Disciplinary approach’. (Ed. FHW Morley) pp. 379–400. (Elsevier Scientific Publishing Company: Amsterdam-Oxford-New York)

Murison R, Scott JM (2013) Statistical methodologies for drawing causal inference from an unreplicated farmlet experiment conducted by the Cicerone Project. Animal Production Science 53, 643–648.
Statistical methodologies for drawing causal inference from an unreplicated farmlet experiment conducted by the Cicerone Project.Crossref | GoogleScholarGoogle Scholar |

Norton BE (1998) The application of grazing management to increase sustainable livestock production. In ‘Animal production in Australia’. Armidale, NSW 22. pp. 15–26. (Australian Society of Animal Production: Armidale, NSW). Available at http://www.asap.asn.au/livestocklibrary/1998/MCCMONT.PDF [Verified 11 January 2013]

O’Keeffe M (1992) ‘A qualitative project into the adoption of pasture research and the potential for GrazFeed.’ (Monash University: Melbourne)

Penning PD, Parsons AJ, Orr RJ, Hooper GE (1994) Intake and behavior responses by sheep to changes in sward characteristics under rotational grazing. Grass and Forage Science 49, 476–486.
Intake and behavior responses by sheep to changes in sward characteristics under rotational grazing.Crossref | GoogleScholarGoogle Scholar |

R Development Core Team (2011) ‘R: a language and environment for statistical computing.’ (R Foundation for Statistical Computing: Vienna) ISBN 3–900051–07–0. Available at http://www.R-project.org[Verified 9 December 2012]

Reeve IJ, Kaine G, Lees JW, Barclay E (2000) Producer perceptions of pasture decline and grazing management. Australian Journal of Experimental Agriculture 40, 331–341.
Producer perceptions of pasture decline and grazing management.Crossref | GoogleScholarGoogle Scholar |

Roe R, Southcott WH, Turner HN (1959) Grazing management of native pastures in the New England region of New South Wales. I. Pasture and sheep production with special reference to systems of grazing and internal parasites. Australian Journal of Agricultural Research 10, 530–554.
Grazing management of native pastures in the New England region of New South Wales. I. Pasture and sheep production with special reference to systems of grazing and internal parasites.Crossref | GoogleScholarGoogle Scholar |

Sanford P, Cullen BR, Dowling PM, Chapman DF, Garden DL, Lodge GM, Andrew MH, Quigley PE, Murphy SR, King WM, Johnston WH, Kemp DR (2003) SGS Pasture Theme: effect of climate, soil factors and management on pasture production and stability across the high rainfall zone of southern Australia. Australian Journal of Experimental Agriculture 43, 945–959.
SGS Pasture Theme: effect of climate, soil factors and management on pasture production and stability across the high rainfall zone of southern Australia.Crossref | GoogleScholarGoogle Scholar |

Saul GR, Chapman DF (2002) Grazing methods, productivity and sustainability for sheep and beef pastures in temperate Australia. Wool Technology and Sheep Breeding 50, 449–464.

Saul GR, Kearney GA, Flinn PC, Lescun CL (1999) Effects of superphosphate fertiliser and stocking rate on the nutritive value of perennial ryegrass and subterranean clover herbage. Australian Journal of Agricultural Research 50, 537–545.
Effects of superphosphate fertiliser and stocking rate on the nutritive value of perennial ryegrass and subterranean clover herbage.Crossref | GoogleScholarGoogle Scholar |

Scott JM, Hutchinson KJ, King K, Chen W, McLeod GJ, Blair G, White A, Wilkinson D, Lefroy RDB, Cresswell H, Daniel H, Harris C, MacLeod DA, Blair N, Chamberlain G (2000) Quantifying the sustainability of grazed pastures on the Northern Tablelands of New South Wales. Australian Journal of Experimental Agriculture 40, 257–265.
Quantifying the sustainability of grazed pastures on the Northern Tablelands of New South Wales.Crossref | GoogleScholarGoogle Scholar |

Scott JM, Gaden CA, Edwards C, Paull DR, Marchant R, Hoad J, Sutherland H, Coventry T, Dutton P (2013) 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 |

Shakhane LM, Scott JM, Murison R, Mulcahy C, Hinch GN, Morrow A, Mackay DF (2013a) Changes in botanical composition on three farmlets subjected to different pasture and grazing management strategies. Animal Production Science 53, 670–684.
Changes in botanical composition on three farmlets subjected to different pasture and grazing management strategies.Crossref | GoogleScholarGoogle Scholar |

Shakhane LM, Scott JM, Hinch GN, Mackay DF, Lord C (2013b) Estimating the balance between pasture feed supply and demand of grazing livestock in a farmlet experiment. Animal Production Science 53, 711–726.
Estimating the balance between pasture feed supply and demand of grazing livestock in a farmlet experiment.Crossref | GoogleScholarGoogle Scholar |

Smith KF, Flinn PC (1991) Monitoring the performance of a broad-based calibration for measuring the nutritive value of two independent populations of pasture using near infrared reflectance (NIR) spectroscopy. Australian Journal of Experimental Agriculture 31, 205–210.
Monitoring the performance of a broad-based calibration for measuring the nutritive value of two independent populations of pasture using near infrared reflectance (NIR) spectroscopy.Crossref | GoogleScholarGoogle Scholar |

Sutherland H, Scott JM, Gray GD, Woolaston RR (2013) Creating the Cicerone Project: seeking closer engagement between livestock producers, research and extension. Animal Production Science 53, 593–601.
Creating the Cicerone Project: seeking closer engagement between livestock producers, research and extension.Crossref | GoogleScholarGoogle Scholar |

Tothill JC, Hargreaves JNG, Jones RM (1978) ‘BOTANAL: a comprehensive sampling and computing procedure for estimating pasture yield and composition. I. Field sampling.’ (CSIRO Division of Tropical Crops and Pastures: Brisbane)

Waite RB (1994) The application of visual estimation procedures for monitoring pasture yield and composition in exclosures and small plots. Tropical Grasslands 28, 38–42.

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 |

Waugh W (1997) Grazing systems in practice. In ‘Proceedings of the twelfth annual conference of the Grasslands Society of NSW’. Dubbo, NSW. (Eds AM Bowman, DL Michalk) pp. 91–94. (The Grassland Society of NSW Inc.: Orange, NSW)

Willoughby W (1959) Limitations to animal production imposed by seasonal fluctuations in pasture and by management procedures. Australian Journal of Agricultural Research 10, 248–268.
Limitations to animal production imposed by seasonal fluctuations in pasture and by management procedures.Crossref | GoogleScholarGoogle Scholar |

Zuur AF, Ieno EN, Smith GM (2007) ‘Analysing ecological data.’ (Springer: New York) 672 pp.