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

Effect of continuous and time-control grazing on grassland components in south-eastern Australia

P. M. Dowling A B G , D. R. Kemp B , P. D. Ball C , C. M. Langford D , D. L. Michalk A , G. D. Millar A , P. C. Simpson E and R. P. Thompson F
+ Author Affiliations
- Author Affiliations

A NSW Agriculture and CRC for Weed Management Systems, Orange Agricultural Institute, Orange, NSW 2800, Australia.

B Charles Sturt University/The University of Sydney, Rural Management, PO Box 883, Orange, NSW 2800, Australia.

C Department of Primary Industries, Water and Environment, New Town, Tas. 7008, Australia.

D NSW Agriculture, Goulburn, NSW 2580, Australia.

E Grangers Lane, Federal Highway, Goulburn, NSW 2580, Australia.

F Department of Primary Industries, Water and Environment, Scottsdale, Tas. 7260, Australia.

G Corresponding author. Email: pdowling@orange.usyd.edu.au

Australian Journal of Experimental Agriculture 45(4) 369-382 https://doi.org/10.1071/EA03104
Submitted: 25 May 2003  Accepted: 12 May 2004   Published: 23 May 2005

Abstract

Declining grassland productivity is a major concern in southern temperate Australia. Continuous grazing is thought to be a primary contributor to this decline, which is associated with the loss of perennial grasses. Landholders are evaluating grazing management strategies that might curb the loss of perennials and increase long-term productivity. This study reports on a comparison between continuous grazing and time-control grazing with sheep and cattle using a paired-paddock design at 5 locations in south-eastern Australia (lat. 30–42°S) over 6 years (1994–99). Pasture herbage mass, grassland species composition and basal cover of perennial grasses were assessed at 6-monthly intervals. Species abundance data were analysed by ANOVA, ordination (multi-dimensional scaling) and splining procedures to assess comparative trends between the 2 management treatments at each site. Species were categorised into major functional groups for analysis. Over all 5 sites there were few consistent differences between management treatments (continuous grazing v. time-control grazing). Basal cover was greater on the time-control grazing management compared with continuous grazing for most of the experimental period at 3 sites, but the initial values were also greater, resulting in a non-significant management × time interaction. Based on this study, we conclude that there was no apparent medium-term benefit of a multi-paddock rotational (time-control grazing) grazing system over continuous grazing for encouraging and maintaining a favourable botanical composition. The benefits for land managers from employing systems such as time-control grazing may accrue through other mechanisms. The study also highlights some of the difficulties with conducting on-farm paired-paddock research.

Additional keywords: basal cover, biomass, botanical composition, perennial grasses.


Acknowledgments

We thank Meat and Livestock Australia for financial support, and in particular Ian Rogan and Warren Mason for facilitating progress and development of the research program. We are indebted to the McKemey (Guyra), Mitchell (Armidale), Gundry (Tarago), Johnston (Newbridge) and Isles (Oatlands) families for allowing access to their databases and properties; Judy Earl and Chris Jones for permission to use their data; Helen Nicol for statistical advice and analyses; and Warren King, Sue Priest, Trevor Klein, Jenni Tarleton, Jonathon Knox and Andrew Beattie for expert assistance with data collection. We also thank Peter O’Reagain for helpful comments on the manuscript.


References


Archer K, Read J, Murray G (1993) Grassland decline — real or imagined? In ‘Proceedings of the 8th annual conference of the Grassland Society of NSW’. (Ed. D Michalk) pp. 8–13. (Grassland Society of NSW Inc.: Orange, NSW)

Beattie AS (1993) Grazing for grassland management in the high rainfall, perennial grassland zone of Australia. In ‘Grassland management: technology for the 21st century’. (Eds DR Kemp, DL Michalk) pp. 62–69. (CSIRO: Melbourne)

Belbin L (1991) Semi-strong hybrid scaling: a new ordination algorithm. Journal of Vegetation Science 2, 491–496. open url image1

Block WM, Franklin AB, Ward JP, Ganey JL, White GC (2001) Design and implementation of monitoring studies to evaluate the success of ecological restoration on wildlife. Restoration Ecology 9, 293–303.
Crossref | GoogleScholarGoogle Scholar | open url image1

Cameron IH, Cannon DJ (1970) Changes in the botanical composition of grassland in relation to rate of stocking with sheep, and consequent effects on wool production. In ‘Proceedings of the 11th international grassland congress’. (Ed. MJT Norman) pp. 640–643. (University of Queensland Press: Surfers Paradise, Qld)

Danckwerts JE, O’Reagain PJ, O’Connor TG (1993) Range management in a changing environment: a southern African perspective. Rangeland Journal 15, 133–144. open url image1

Dowling PM, Kemp DR, Michalk DL, Klein TA, Millar GD (1996) Evaluation of seasonal rests to favour perennial grasses in naturalised grasslands in central New South Wales. Rangeland Journal 18, 309–326. open url image1

Earl JM, Jones CE (1996) The need for a new approach to grazing management — is cell grazing the answer? Rangeland Journal 18, 327–350. open url image1

Earle DF, McGowan AA (1979) Evaluation and calibration of an automated rising plate meter for estimating dry matter yield of pasture. Australian Journal of Experimental Agriculture and Animal Husbandry 19, 337–343.
Crossref |
open url image1

Fensham RJ, Holman JE, Cox MJ (1999) Plant species responses along a grazing disturbance gradient in Australian grassland. Journal of Vegetation Science 10, 77–86. open url image1

Genstat (2000) ‘Genstat 5. Release 4.2.’ (Lawes Agricultural Trust, Rothamstead Experimental Station: UK)

Goodloe S (1969) Short duration grazing in Rhodesia. Journal of Range Management 22, 369–373. open url image1

Hacker R (1993) A brief evaluation of time control grazing. In ‘Proceedings of the 8th annual conference of the Grassland Society of NSW’. pp. 82–89. (Grassland Society of NSW Inc.: Orange, NSW)

Hart RH, Clapp S, Test PS (1993) Grazing strategies, stocking rates, and frequency and intensity of grazing on western wheatgrass and blue grama. Journal of Range Management 46, 122–126. open url image1

Havstad KM (1994) Sheep grazing as a range management tool. Sheep Research Journal 10, 72–78. open url image1

Heitschmidt RK, Frasure JR, Price DL, Rittenhouse LR (1982) Short duration grazing at the Texas Experimental Ranch: weight gains of growing heifers. Journal of Range Management 35, 375–379. open url image1

Holechek JL, Pieper RD, Herbel CH (1998) ‘Range management: principles and practices’. 3rd edn. (Prentice Hall: Upper Saddle River, NJ)

Hutchinson K, King K (1999) Sown temperate grassland decline — fact or fiction. In ‘Proceedings of the 14th annual conference of the Grassland Society of NSW’. (Eds D Garden, H Lloyd Davies, D Michalk, H Dove) pp. 78–86. (Grassland Society of NSW Inc.: Orange, NSW)

Isbell RF (1996) ‘The Australian soil classification.’ (CSIRO: Melbourne)

Jeffrey SJ, Carter JO, Moodie KB, Beswick AR (2001) Using spatial interpolation to construct a comprehensive archive of Australian climatic data. Environmental Modelling and Software 16(4), 309–330.
Crossref | GoogleScholarGoogle Scholar | open url image1

Kemp DR, Dowling PM (1991) Species distribution within improved pastures over Central NSW in relation to rainfall and altitude. Australian Journal of Agricultural Research 42, 647–659.
Crossref | GoogleScholarGoogle Scholar | open url image1

Kemp DR, Dowling PM (2000) Towards sustainable temperate perennial pastures. Australian Journal of Experimental Agriculture 40, 125–132.
Crossref | GoogleScholarGoogle Scholar | open url image1

Kemp DR, Dowling PM, Michalk DL, Millar GD (2001) The analysis of results from paired paddock comparisons. In ‘Proceedings of the19th international grassland congress’. (Eds JA Gomide, WRS Mattos, SC da Silva) pp. 1054–1055. (Brazilian Society of Animal Husbandry: Brazil)

Kemp DR, Michalk DL (2004) Australian temperate grasslands: changing philosophies and future prospects. In ‘Grasslands — future perspectives’. (Eds S Reynolds, J Frame) pp. 499–524. (FAO: Rome)

Kemp DR, Michalk DL, Virgona JM (2000) Towards more sustainable pastures: lessons learnt. Australian Journal of Experimental Agriculture 40, 343–356.
Crossref | GoogleScholarGoogle Scholar | open url image1

Lambert MG, Clark DA, Grant DA, Costall DA (1986) Influence of fertiliser and grazing management on North Island moist hill country. 2. Grassland botanical composition. New Zealand Journal of Agricultural Research 29, 1–10. open url image1

Lodge GM, Garden DL (2000) Grazing management studies in the Temperate Grassland Sustainability Key Program: site descriptions, treatments and data collection. Australian Journal of Experimental Agriculture 40, 133–141.
Crossref | GoogleScholarGoogle Scholar | open url image1

t’Mannetje L, Haydock KP (1963) The dry-weight-rank method for the botanical analysis of grassland. Journal of the British Grassland Society 18, 268–275. open url image1

Michener WK (1997) Quantitatively evaluating restoration experiments: research design, statistical analysis, and data management considerations. Restoration Ecology 5, 324–337.
Crossref | GoogleScholarGoogle Scholar | open url image1

Moreau L, Monod A, Charcosset A, Gallais A (1999) Marker-assisted selection with spatial analysis of unreplicated field trials. Theoretical and Applied Genetics 98, 234–242.
Crossref | GoogleScholarGoogle Scholar | open url image1

Morley FHW, Bennett D, McKinney GT (1969) The effect of intensity of rotational grazing with breeding ewes on phalaris–subterranean clover grasslands. Australian Journal of Experimental Agriculture and Animal Husbandry 9, 78–84. open url image1

Norton BE (1998) The application of grazing management to increase sustainable livestock production. Animal Production Australia 22, 15–26. open url image1

Orchard BA, Cullis BR, Coombes NE, Virgona JM, Klein T (2000) Grazing management studies within the Temperate Grassland Sustainability Key Program: experimental design and statistical analysis. Australian Journal of Experimental Agriculture 40, 143–154.
Crossref | GoogleScholarGoogle Scholar | open url image1

O’Reagain PJ, Turner JR (1992) An evaluation of the empirical basis for grazing management recommendations for rangeland in southern Africa. Tydskrif Weidingsveren South Africa 9, 38–49. open url image1

Pitts JS, Bryant FC (1987) Steer and vegetation response to short duration and continuous grazing. Journal of Range Management 40, 386–389. open url image1

Ralphs MH, Kothmann M, Taylor CA (1990) Vegetation response to increased stocking rates in short duration grazing. Journal of Range Management 43, 104–108. open url image1

Ridley AM, White RE, Simpson RJ, Callinan L (1997) Water use and drainage under phalaris, cocksfoot, and annual ryegrass pastures. Australian Journal of Agricultural Research 48, 1011–1023.
Crossref | GoogleScholarGoogle Scholar | open url image1

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

Sharrow SH (1983) Rotational vs. continuous grazing affects animal performance on annual grass–subclover grassland. Journal of Range Management 36, 593–595. open url image1

Skovlin J (1987) Southern Africa’s experience with intensive short duration grazing. Rangelands 9, 162–167. open url image1

Stewart-Oaten A, Murdock WW, Parker KR (1986) Environmental impact assessment: ‘pseudoreplication’ in time? Ecology 67, 929–940. open url image1

Tothill JC, Hargreaves JNG, Jones RM, McDonald CK (1992) ‘BOTANAL — a comprehensive sampling and computing procedure for estimating grassland yield and composition. 1. Field sampling. Division of tropical crops and pastures.’ Tropical Agronomy Technical Memorandum No. 78. (CSIRO: Australia)

Trlica MJ (1977) Effects of frequency and intensity of defoliation on primary producers of arid and semi-arid rangelands. In ‘The impact of herbivores on arid and semi-arid rangelands — proceedings of the 2nd US/Australia rangeland panel. pp. 27–55. (Australian Rangeland Society: Adelaide, Australia)

Verbyla AP, Cullis BR, Kenward MG, Welham SJ (1999) The analysis of designed experiments and longitudinal data by using smoothing splines. Applied Statistics 48, 269–311. open url image1

Vere DT, Campbell MH, Kemp DR, Priest SM (1997) ‘Grassland improvement budgets for conventional cultivation, direct drilling and aerial seeding in the central and southern tablelands of New South Wales.’ (Economic Services Unit, NSW Agriculture, NSW Agriculture: Orange, NSW)

Ward HK, Richardson FD, Denny RP, Dye PJ (1979) Matopos Research Station: a perspective. Rhodesia Agricultural Journal 76, 5–18. open url image1

Westoby M, Walker B, Noy-Meir I (1989) Opportunistic management for rangelands not at equilibrium. Journal of Range Management 42, 266–274. open url image1

White MR, Pieper RD, Donart GB, White-Trefaro L (1991) Vegetation response to short-duration and continuous grazing in southcentral New Mexico. Journal of Range Management 44, 399–404. open url image1

Wiens JA, Parker KR (1995) Analyzing the effects of accidental environmental impacts: approaches and assumptions. Ecological Applications 5, 1069–1083. open url image1

Wilkinson L (1998) ‘SYSTAT: the system for Statistics.Version 9.01.’ (SPSS: Evanston, Illinois)