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RESEARCH ARTICLE

Effect of environmental factors on the growth of grazed pasture in south-western Victoria

H. A. Birrell A B and R. L. Thompson A
+ Author Affiliations
- Author Affiliations

A Department of Natural Resources and Environment Pastoral and Veterinary Institute, Private Bag 105, Hamilton, Vic. 3300, Australia.

B Corresponding author. Current address: 343 Rosevears Drive, Rosevears, Tas. 7275, Australia.

Australian Journal of Experimental Agriculture 46(4) 545-554 https://doi.org/10.1071/EA03048
Submitted: 18 February 2003  Accepted: 9 December 2004   Published: 20 April 2006

Abstract

This paper presents work from several studies on pasture production that were conducted in south-west Victoria at the Pastoral Research Institute, Hamilton. The frequency with which pasture growth commenced for each week of autumn in the years from 1965 to 1991 was assessed. The median period for the commencement of growth was in the third week of March (although the average date was March 27). Autumn data from several trials conducted over 3 decades were collated and analysed. A relationship between the grazed pasture yield (average of stocking rates plots) at the end of autumn and the rainfall showed that 200 mm of rainfall in the 3 months to the end of May was optimal while higher rainfall depressed the growth. The average daily growth rates of introduced pasture (perennial rye grass, Lolium perenne L. cv. Victorian, phalaris, Phalaris aquatica L. cv. Australian, subterranean clover Trifolium subterranneum L. and volunteer species) were measured in 2- and 4-week growth periods (G 2 and G 4, kg DM/ha.day) for the seasonal growth cycles over 4 years (1980–84 except 1983) when grazed by Merino wether sheep at stocking rates of 10, 13 or 18 sheep/ha. The rainfall throughout the study was lower than normal. Although differences in the animal performance between the stocking rates were only small, at the low stocking rate capeweed (Arctotheca calendula L.) in patches became the major component of the sward. Greater variation in G 2 than in G 4 indicated that growth responded quickly to current environmental conditions. A nonlinear regression accounted for 74% of the variance in G 2 when related to the 3 climatic factors of daylength, soil temperature at 10 cm depth and the soil moisture to a depth of 10 cm, and a plant factor of green herbage yield. The 26 % of unaccounted variance appears to be associated with an effect of stocking rate, possibly botanical composition. The botanical composition was not continuously monitored hence the only sward character included in the investigation was herbage yield. Comparison of the patterns of pasture growth from different latitudes indicated that while the growth pattern in south-western Victoria is erratic, it is intermediary between Mediterranean and temperate pasture types. Understanding this aspect has implications for improving the efficiency of animal production in this environment.

Additional keywords: grazed pasture, pasture growth, pasture production.


Acknowledgments

The authors thank colleagues who helped to collect this data and Dr L. Sparrow for assistance in preparing the figures for this manuscript.


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