Animal production under a series of Pinus radiata-pasture agroforestry systems in South-West Victoria, Australia

1995 ◽  
Vol 46 (6) ◽  
pp. 1299 ◽  
Author(s):  
PR Bird ◽  
PR Bird ◽  
JD Kellas ◽  
JD Kellas ◽  
GA Kearney ◽  
...  
Keyword(s):  
Pinus Radiata ◽  
Subterranean Clover ◽  
Agroforestry Systems ◽  
Early Summer ◽  
Animal Production ◽  
Production Data ◽  
Stocking Rate ◽  
Wool Production ◽  
Animal Damage ◽  
South West

Liveweight and greasy wool production data from young wethers were collected for the period autumn to early summer for the years 1986 to 1994 from an on-going Pinus radiata-pasture project at Carngham, Victoria. A plantation established in 1981 on a grazing property was thinned in 1983 to give trees spaced at: (i) no trees (a grazing control), (ii) 8 mx 12 m, (iii) 4 mx9 m, (iv) 4 mx3 m in a 5-row belt then a 10-row pasture gap, and (v) 2 mx3 m (original spacing). By 1989 the density of trees in these systems was slightly reduced by windthrow, animal damage and thinning to (ii) 60 trees/ha, (iii) 200 trees/ha wide-spaced, (iv) 200 trees/ha 5-row belt and (v) 1360 trees/ha. All trees in systems (ii), (iii) and (iv) had been pruned to 6 m by late 1992. The sheep stocking policy was initially based on a set 10 sheep ha-1. Since 1991 the stocking rate has been varied yearly in an attempt to maintain similar production per sheep. The pastures were re-sown in 1989 with perennial rye-grass and subterranean clover cultivars. Since 1991, wool production per ha from the 200 trees/ha wide-spaced system has been consistently less than in systems (i), (ii) and (iv). Wool production among systems differed significantly since 1992. Expressed as a percentage of wool production achieved on open pasture, the relative values for the agroforestry systems from 1990 to 1994 as follows.

Pasture production under a series of Pinus radiata-pasture agroforestry systems in South-West Victoria, Australia

1995 ◽  
Vol 46 (6) ◽  
pp. 1285 ◽  
Author(s):  
JD Kellas ◽  
PR Bird ◽  
KN Cumming ◽  
GA Kearney ◽  
AK Ashton
Keyword(s):  
Pinus Radiata ◽  
Agroforestry Systems ◽  
Tree Line ◽  
Pasture Production ◽  
South West ◽  
Tree Edge ◽  
Belt System ◽  
Over Time

Net pasture production has been monitored over time on an on-going Pinus radiata-pasture agroforestry experiment located at Carngham, Victoria. Established in 1983 by thinning a 2-year-old plantation, the study contains five treatments (systems): open pasture (no trees), 60 trees/ha, 200 trees/ha wide-spaced, 200 trees/ha 5-row belt and 1360 trees/ha. Net pasture production was only weakly affected by the proximity of trees in the 60 trees/ha and 200 trees/ha wide-spaced systems. However, in the 200 trees/ha 5-row belt system, pasture production was often significantly less within the tree zone and at 1.5 m from the tree edge compared with production at 10.5 m from the tree edge. While there was a trend for greater pasture production at 10.5 m and 18 m from the tree line than occurred in the open pasture system, the width of pasture adjacent to the 5-row belts was too narrow (36 m) to demonstrate any shelter benefit on pasture production. From 1990 to 1992, pasture production (kg ha-1) for each system was similar, although production tended to decrease with increasing tree stocking. Following the cessation of pruning (1992), pasture production was significantly reduced by increased tree stocking, such that pasture production in the 200 trees/ha wide-spaced and 200 trees/ha 5-row belt systems was 60% and 69% and 23% and 67% of open pasture in 1993 and 1994 respectively.

The performance of young sheep grazing pastures sown to combinations of lucerne or subterranean clover with ryegrass or phalaris

1972 ◽  
Vol 12 (56) ◽  
pp. 240 ◽  
Author(s):  
KFM Reed ◽  
RW Snaydon ◽  
A Axelsen
Keyword(s):  
Subterranean Clover ◽  
Animal Production ◽  
Grass Species ◽  
Legume Species ◽  
Sheep Grazing ◽  
Wool Production ◽  
High Production ◽  
Supplementary Feed ◽  
Stocking Rates ◽  
Clover Pasture

Young sheep were rotationally grazed, at two stocking rates, on pasture sown to combinations of two legume species (lucerne or subterranean clover) and two grass species (a mixture of annual and biennial ryegrass or phalaris) at Canberra. Liveweight gains were 45 per cent greater, and wool production was 10 per cent greater, on the lucerne dominant pasture (87 per cent lucerne) than on the grass dominant subterranean clover pasture (8 per cent subterranean clover). The differences were maximum during summer, but also occurred during spring. Mortality and supplementary feed requirement on grass dominant pasture was double that on lucerne pasture. Liveweight gains were 13 per cent greater on pasture sown to ryegrass than on pasture sown to phalaris. Sheep mortality was eight times greater on the phalaris than on the ryegrass pasture, and survival feed requirements at least double. The superior animal production from lucerne pasture was due mainly to the ability of lucerne to grow during periods of low rainfall and to maintain a high production of legume in the pasture.

An evaluation of cereal stubbles for sheep production

1976 ◽  
Vol 27 (6) ◽  
pp. 881 ◽  
Author(s):  
JG Mulholland ◽  
JB Coombe ◽  
M Freer ◽  
WR McManus
Keyword(s):  
Plant Material ◽  
Green Plant ◽  
Animal Production ◽  
Stocking Rate ◽  
Mineral Supplement ◽  
Wool Production ◽  
Sheep Production ◽  
One Year ◽  
Cereal Residues ◽  
Stocking Rates

The production of young crossbred wethers grazing oat, barley and wheat stubbles was measured in each of three years at stocking rates ranging from 15 to 30/ha. In one year, production on 'weedy' stubbles was compared with that of 'clean' (weed-free) stubbles, and also the effect of a wheat–urea–mineral supplement on the production of sheep was measured on oat stubble. Liveweight change and wool production were significantly influenced by the availability of green plant material and by stocking rate, but not by supplementation. The maximum liveweight loss in any year was 7.5 kg and the maximum gain 6.0 kg, both recorded over 11 weeks' grazing. Mean daily clean wool production was 9.9 g/sheep at the lower stocking rate and 6.6 g/sheep at the higher rate, but production per hectare was 10–60% higher at the heavier stocking rate. The ranking of the crop stubbles with respect to animal production was not consistent from year to year. Intense selection for green plant material by sheep resulted in the proportion of green in the diet being nearly always greater than 80%, when the weight of this material on the plots was more than 40 kg dry matter/ha. It appeared that a low intake of nitrogen was not the main limitation to animal production. A maximum of only 36% of the crop residue which disappeared during the experiment could be accounted for as animal intake. Thus it is unlikely that the potential of cereal residues as a source of food for animal production will be realized with grazing sheep.

Effect of management system and stocking rate on the performance of ewes and lambs

1976 ◽  
Vol 16 (83) ◽  
pp. 810 ◽  
Author(s):  
BD Hill ◽  
DG Saville
Keyword(s):  
Growth Rate ◽  
Body Weight ◽  
Management System ◽  
Subterranean Clover ◽  
Trifolium Subterraneum ◽  
The Body ◽  
Stocking Rate ◽  
Wool Production ◽  
South Wales ◽  
Lamb Growth

A grazing experiment was conducted at Cowra, on the western slopes of New South Wales, on a pasture consisting of lucerne (Medicago sativa) and annual species including capeweed (Arctotheca calendula), barley grass (Hordeum leporinum). wimmera ryegrass (Lolium rigidum) and subterranean clover (Trifolium subterraneum) . The performance of Border Leicesterx Merino ewes mated to Dorset Horn rams and the growth of their progeny was compared under rotational and set stocked grazing management systems, with and without a 20 per cent area of lucerne saved for grazing when additional feed was required. There was one stocking rate (8.7 ewes ha-1) in 1966 and two (8.7 ewes ha-1 and 13.0 ewes ha-1) in 1967 to 1969. Rotational grazing decreased the lamb growth rate but increased the number of lambs born. The management system did not affect the body weight or wool production of the ewes. Lucerne was quickly eliminated from the set stocked areas and was greatly reduced in the rotational systems. Capeweed became dominant in the set stocked areas. Saving increased the number of lambs born at the high stocking rate in 1967 to 1969. In 1966 saving reduced lamb growth, ewe body weight and wool growth in the rotational system. The high stocking rate increased wool production per hectare, but decreased the number of lambs born and, in 1967, the lamb growth rate.

scholarly journals Whole-farm profit and the optimum maternal liveweight profile of Merino ewe flocks lambing in winter and spring are influenced by the effects of ewe nutrition on the progeny's survival and lifetime wool production

2011 ◽  
Vol 51 (9) ◽  
pp. 821 ◽  
Author(s):  
J. M. Young ◽  
A. N. Thompson ◽  
M. Curnow ◽  
C. M. Oldham
Keyword(s):  
Western Australia ◽  
New South ◽  
New South Wales ◽  
Economic Modelling ◽  
Stocking Rate ◽  
Wool Production ◽  
South West ◽  
South Wales ◽  
Farm Profit ◽  
The Cost

Profitability of sheep production systems in southern Australia is optimised at a stocking rate that provides adequate nutrition for breeding ewes and enables efficient utilisation of grown pasture and supplements. In this paper we used bio-economic modelling to develop optimum liveweight1 profiles for spring-lambing Merino ewes in different environments. The modelling included the impacts of the ewe liveweight profile on the production of the ewe and the survival and lifetime wool production of her progeny. Fifteen ewe liveweight profiles were analysed for each region to determine the profitability of varying ewe liveweight at joining, varying rate of loss of liveweight after joining and the rate of gain in liveweight from the minimum to lambing. The analyses support the hypotheses that whole-farm profitability is sensitive to the liveweight profile of Merino ewe flocks and that there is a liveweight profile that maximises whole-farm profit. The variation between the most and least profitable ewe liveweight profile was $69 0002 per farm ($14.30/ewe) for south-west Victoria, $51 000 per farm ($8.70/ewe) for Great Southern Western Australia and $33 300 per farm ($9.70/ewe) for southern New South Wales. The changes in profit were due to differences in costs of feeding to achieve the ewe liveweight profile and its influence on the production of both the ewes and their progeny. Failure to include the impacts of liveweight profile on progeny survival and lifetime wool production incorrectly identifies the optimum ewe liveweight profile and provided inaccurate estimates of profitability. The optimum liveweight profiles for ewes lambing in spring were similar for all three regions and insensitive to changing commodity prices, pasture productivity and management. The optimum profile was to join ewes at ~90% of the standard reference weight of the genotype, lose a small amount of weight after joining and regain weight in late pregnancy to return to the joining weight by lambing. Regaining the liveweight lost in early pregnancy by lambing is the most important target to achieve. The cost per farm of missing this liveweight target by 1 kg was $13 000 ($2.60/ewe) for south-west Victoria, $8900 ($1.45/ewe) for Great Southern Western Australia and $5500 ($1.65/ewe) for southern New South Wales. By contrast, the cost per farm of missing the joining target by 1 kg was $5500 for south-west Victoria and less than $2000 across the other two regions. Whole-farm profit increased with increasing stocking rate up to an optimum and regardless of stocking rate there is an additional opportunity to increase whole-farm profit by up to 15% by managing ewes to achieve the optimum liveweight profile. This indicates that the optimum liveweight profile should be achieved by increasing the level of grain feeding and altering the timing of utilising the farm feed resources rather than manipulating stocking rate.

Studies in the wool production of grazing sheep. 5. Observations on teeth wear and carry over effects

1966 ◽  
Vol 6 (20) ◽  
pp. 101 ◽  
Author(s):  
GW Arnold ◽  
WR McManus ◽  
IG Bush
Keyword(s):  
Live Weight ◽  
Subterranean Clover ◽  
Stocking Rate ◽  
Wool Production ◽  
Grazing Sheep ◽  
Carry Over ◽  
Stocking Rates

Merino wethers were grazed for four years on Phalaris-subterranean clover pastures at four stocking rates. Measurements over two years showed that wear of incisor teeth increased substantially with stocking rate. This wear was closely associated with intake of silica by the sheep. After the experiment marked carry-over effects in wool production and live weight were observed in adult wethers. Significantly more wool was produced by sheep previously grazing at high stocking rates. Possible reasons for this effect are discussed.

Superphosphate utilization in clover ley farming. I. Effects on pasture and sheep production

1974 ◽  
Vol 25 (4) ◽  
pp. 525 ◽  
Author(s):  
GD Kohn
Keyword(s):  
Agricultural Research ◽  
Subterranean Clover ◽  
Trifolium Subterraneum ◽  
Wagga Wagga ◽  
First Year ◽  
Stocking Rate ◽  
Wool Production ◽  
Ley Farming ◽  
Hordeum Leporinum ◽  
Sheep Production

From 1962 to 1966 an experiment was carried out at the Agricultural Research Institute, Wagga Wagga, N.S.W., with dry Merino sheep on an annual clover-grass pasture, in which the stocking rate and the rates of topdressing with superphosphate were varied. In the first year Trifolium subterraneum (subterranean clover) responded to superphosphate, particularly at the lowest stocking rates. In the following 2–3 years there was a change to Hordeum leporinum Link (barley grass) dominance. A greater amount of subterranean clover persisted over the years on the unfertilized plots than on the fertilized plots. Clover burr on these treatments was associated with better liveweight performance by sheep over the dry summer-autumn period. However, after the autumn rains germinating barley grass on the topdressed plots allowed rapid liveweight gains to be made by the sheep on those treatments. Greasy wool production per head, averaged over four shearings, was 4.81, 4.36 and 3.86 kg at 5, 10 and 15 sheep per ha respectively. Superphosphate had no significant effect on wool production. Liveweights decreased as the stocking rate increased. However, at a given stocking rate, the liveweight changes were influenced by changes in pasture composition induced by topdressing with superphosphate, as much as by total available pasture. It appears that in this clover ley farming area topdressing can be omitted in the pasture phase of a wool production system after 700 kg superphosphate ha-I have been applied to the soil.

The value to Merino ewes and lambs of continued superphosphate topdressing on a subterranean clover pasture ley

1976 ◽  
Vol 16 (79) ◽  
pp. 197 ◽  
Author(s):  
OR Southwood ◽  
DG Saville ◽  
AR Gilmour
Keyword(s):  
Body Weight ◽  
Agricultural Research ◽  
New South ◽  
New South Wales ◽  
Subterranean Clover ◽  
Research Station ◽  
Stocking Rate ◽  
Wool Production ◽  
South Wales ◽  
Clover Pasture

In an experiment at the Agricultural Research Station, Temora, New South Wales, Merino breeding ewes with their lambs grazed continuously from 1966 to 1970 at three stocking rates, 5, 7.5 and 10 ewes ha-1, on annual Trifolium subterraneum clover pasture topdressed every autumn with superphosphate fertilizer at nil, 94 or 188 kg ha-1. Stocking rate had an effect on ewe body weight in autumn each year and in winter and spring of the last year but it had no effect no wool production per ewe. Apart from the dry year, stocking rate had no effect on lamb performance. Superphosphate had little effect on ewe body weight and none on wool production but there were more lambs on the fertilized treatments than on the unfertilized pastures in 1967 when rainfall was low. Fertilizer encouraged barley grass dominance whereas the pasture not topdressed grew more clover and produced more burr. With no topdressing, available soil phosphate declined steadily over the five years to less than half the initial level. The results indicate that in a spring lambing, Merino ewe enterprise in the southern New South Wales wheat belt, where clover-ley farming is the general practice, annual pasture topdressing is no longer necessary after approximately 1000 kg ha-1 superphosphate has been applied to the soil and the fertilizer is continued through the cropping phase.

Offering subterranean clover can reduce methane emissions compared with perennial ryegrass pastures during late spring and summer in sheep

2020 ◽  
Vol 60 (11) ◽  
pp. 1449
Author(s):  
S. K. Muir ◽  
A. J. Kennedy ◽  
G. Kearney ◽  
P. Hutton ◽  
A. N. Thompson ◽  
...  
Keyword(s):  
Perennial Ryegrass ◽  
Growth Rates ◽  
Nutritive Value ◽  
Subterranean Clover ◽  
Methane Emissions ◽  
Early Summer ◽  
Late Spring ◽  
Sheep Grazing ◽  
Ch4 Emissions ◽  
South West

Sheep production systems in south-west Victoria are based predominantly on perennial ryegrass pastures, resulting in highly seasonal growth and declining feed quantity and nutritive value in late spring and summer. These changes result in reduced animal performance and increased CH4 emissions per kg DM intake. A potential alternative to the feedbase used in south-west Victoria that provides high quality and quantity of feed in late spring and early summer are legume-based pastures, such as clovers and lucerne. This experiment examined the impact of legume-based pastures on the growth rates and CH4 emissions of Maternal Composite ewes during late spring and early summer. In 2014, 240 Maternal Composite ewes grazed either perennial ryegrass (Lolium perenne L.), lucerne (Medicago sativa L.), subterranean clover (Trifolium subterraneum L.) or arrowleaf clover (Trifolium vesiculosum Savi.) pastures for 6 weeks during late spring and early summer (November and December). Sheep grazing subterranean clover were heavier at the end of the experiment than sheep grazing perennial ryegrass. Methane measurements using portable accumulation chambers indicated lower daily CH4 emissions (g/day) from sheep grazing subterranean clover (23.5 g/day) than from sheep grazing lucerne (27.3 g/day) and perennial ryegrass (32.3 g/day) pastures. Methane emissions and liveweight changes appeared to be associated with the nutritive characteristics of the forage offered. Legume-based pastures provide sheep producers in south-west Victoria an option to increase growth rates and decrease CH4 emissions during a period when perennial ryegrass pastures are declining in nutritive value.

Effect of stocking rate, fodder conservation and grazing management on the performance of wether sheep in south-west Victoria. 1. Wool production

1975 ◽  
Vol 15 (73) ◽  
pp. 173 ◽  
Author(s):  
AH Bishop ◽  
HA Birrell
Keyword(s):  
Major Effect ◽  
Factorial Experiment ◽  
Grazing Management ◽  
Maximum Response ◽  
Management Systems ◽  
Stocking Rate ◽  
Wool Production ◽  
The Third ◽  
South West ◽  
Stocking Rates

In a 4 x 4 x 3 factorial experiment lasting three years, the effects of stocking rate, fodder conservation and three grazing management systems (continuous, deferred and rotational) on the wool production of wethers grazing perennial pasture were assessed. The hay conserved on the plots was fed to the sheep in such a way that the quantities made and fed would balance over a period of years. At the highest rate of stocking some oats were fed in adverse seasons. Stocking rate had the major effect on wool production in all years. Improving wool production by fodder conservation was shown to depend on stocking rate, grazing management and the seasonal conditions. In some instances fodder conservation was shown to interact with stocking rate in a manner such that the maximum response tended to occur when smaller proportions of area were conserved as stocking rate increased. The implications of this interaction are discussed. Fodder conservation increased wool production in the continuous and rotationally grazed systems in all years, but did not in two of the three years with deferred grazing. The biggest increases in wool production due to fodder conservation occurred in the third year, the driest on record when a drought reserve was used. Wool production was also influenced by the grazing management. In alt-years there was a consistent interaction with stocking rate in which the highest wool production was produced in the rotational system at high stocking rates and in the deferred system at low stocking rates.

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