Pasture and sheep responses to lime application in a grazing experiment in a high-rainfall area, south-eastern Australia. II. Liveweight gain and wool production

‘Managing Acid Soils Through Efficient Rotations (MASTER)’ is a long-term pasture–crop rotation experiment commenced in 1992. One of the objectives was to demonstrate the extent of crop, pasture, and animal responses to lime application on a typical acidic soil in the 500–800 mm rainfall zone of south-eastern Australia. Two types of pastures (perennial v. annual pastures) with or without lime application were established in 1992. Fifteen- to eighteen-month-old Merino hoggets were used as test animals and were changed annually. This paper reports the results of sheep responses to liming from the 4 continuous pasture treatments over 6 years from 1992 to 1997. The stocking rate was the same on all plots within a treatment during each rotation period, but was varied between treatments based on the pasture availability and sheep body condition. The most important findings from this study are that the limed treatments carried 29% and 27% more stock (up to 4 DSE/ha) than the unlimed treatments for perennial and annual pastures, respectively. As a result, the limed perennial pastures produced 27% more liveweight gain (62 kg/ha.year) and 28% more greasy wool (13 kg/ha.year) than unlimed perennial pastures, whereas the limed annual pastures produced 34% more liveweight gain (77 kg/ha.year) and 24% more greasy wool (11 kg/ha.year) than unlimed annual pastures. The significant responses to lime in liveweight and wool production were detected from the second growing season after the pastures were established. The increased sheep productivity on the limed treatment was due to a combination of increased pasture production and improved pasture quality. Perennial pastures showed a slight advantage in wool production, but not in liveweight gain. However, the seasonal variation of liveweight was greater on annual pastures than on perennial pastures. The larger variation in liveweight change could lead to more adverse effects on wool quality especially at high grazing pressures. Grazing management can be used to manipulate pasture and animal productivity to increase profits from lime use.

[1]  B. Cullis,et al.  Pasture and sheep responses to lime application in a grazing experiment in a high-rainfall area, south-eastern Australia. I. Pasture production , 2006 .

[2]  B. Cullen,et al.  SGS Animal Production Theme: effect of grazing system on animal productivity and sustainability across southern Australia , 2003 .

[3]  B. Cullis,et al.  Effects of lime on the botanical composition of pasture over nine years in a field experiment on the south-western slopes of New South Wales , 2003 .

[4]  G. Saul,et al.  Tactical versus continuous stocking in perennial ryegrass-subterranean clover pastures grazed by sheep in south-western Victoria 1. Stocking rates and herbage production , 2001 .

[5]  R. White,et al.  Nitrate leaching loss under annual and perennial pastures with and without lime on a duplex (texture contrast) soil in humid southeastern Australia , 2001 .

[6]  B. Cullis,et al.  Crop responses to lime in long-term pasture-crop rotations in a high rainfall area in south-eastern Australia , 2001 .

[7]  P. S. Cocks,et al.  Ecology of herbaceous perennial legumes: a review of characteristics that may provide management options for the control of salinity and waterlogging in dryland cropping systems , 2001 .

[8]  Deli Chen,et al.  Soil factors affecting the sustainability and productivity of perennial and annual pastures in the high rainfall zone of south-eastern Australia , 2000 .

[9]  M. Conyers,et al.  Management of soil acidity in long-term pastures of south-eastern Australia: a review. , 2000 .

[10]  B. Cullis,et al.  Subsurface acidity and liming affect yield of cereals , 1997 .

[11]  D. Coventry,et al.  Longevity of wheat yield response to lime in south-eastern Australia , 1997 .

[12]  R. Isbell Australian Soil Classification , 1996 .

[13]  A. Thompson,et al.  Effects of stocking rate in spring on liveweight and wool production of sheep grazing annual pastures , 1994 .

[14]  A. Ridley Yield responses to lime of phalaris, cocksfoot, and annual pastures in north-eastern Victoria , 1992 .

[15]  A. Ridley,et al.  Acidification under grazed annual and perennial grass based pastures. , 1990 .

[16]  B. Scott,et al.  5 – Selection of Genotypes Tolerant of Aluminium and Manganese , 1989 .

[17]  D. Edmeades,et al.  Effects of lime on pasture production on soils in the North Island of New Zealand 5. Description of a lime recommendation scheme , 1985 .

[18]  D. Edmeades,et al.  Effects of lime on pasture production on soils in the North Island of New Zealand , 1984 .

[19]  J. Bircham,et al.  Effects of superphosphate, lime, and stocking rate on pasture and animal production on the Wairarapa Plains , 1981 .

[20]  A. Smith,et al.  The effect of a low rate of lime on North Island hill country pasture and animal production and the economics of use , 1981 .

[21]  P. Rumball,et al.  I. Pasture production , 1979 .

[22]  J. Bircham,et al.  II. Animal production , 1977 .

[23]  M. Curll Superphosphate on perennial pastures. II.* Effects of a pasture response on steer beef production , 1977 .

[24]  J. Bircham,et al.  I. Pasture production and botanical composition , 1976 .

[25]  R. Jones,et al.  The relation between animal gain and stocking rate: Derivation of the relation from the results of grazing trials , 1974, The Journal of Agricultural Science.