Aims:
Compare the yield responses of wheat varieties sown at three sowing dates (9 April, 23 April and 12 May) and two plant densities.
Aims:
Compare the yield responses of canola varieties sown at three sowing dates (9 April, 23 April and 12 May).
Aims:
To investigate early sown wheats in the Junee Reefs and Rankins Springs areas.
Aims:
To investigate the interaction between early sowing and row spacing in first wheat under full stubble retention.
Aims:
To investigate the interaction between early sowing and row spacing and variety in first wheat crops under full stubble retention.
Aims:
To assess the impact of time of sowing (TOS) on a range of wheat variety maturity classes (winter wheat, slow and mid spring maturing varieties) and to measure the impact of plant density and the presence of weeds (simulated with tame oats) on these varieties.
Aims:
To compare the yield performance of several slow-developing winter wheat cultivars (requiring vernalisation) with spring wheat cultivars (photoperiod sensitive) at different plant densities, in the presence or absence of weeds.
Aims:
To investigate the influence that sowing date had on the phenology, grain yield and quality of 12 wheat genotypes.
Aims:
To see if slow developing cultivars sown early can yield more than faster maturing cultivars sown later in a high rainfall environment.
Aims:
To investigate the potential yield increases available with early sown winter wheats.
Aims:
Aims:
Investigate the dry matter accumulation and timing of a range of pastrure species and mixes and comparing them to the dry matter production by crops that are grown to be grazed before being shut up for grain production or cut for hay or silage.
Aims:
Investigate the dry matter accumulation and timing of a range of pastrure species and mixes and comparing them to the dry matter production by crops that are grown to be grazed before being shut up for grain production or cut for hay or silage.
Aims:
Investigating the dry matter accumulation and timing of a range of pasture species and mixes and comparing them to the dry matter produced by crops that are grown to be grazed before being shut up for grain production or cut for hay from silage.
Aims:
Investigating the dry matter accumulation and timing of a range of pasture species and mixes and comparing them to the dry matter produced by crops that are grown to be grazed before being shut up for grain production or cut for hay from silage.
Aims:
To conduct an easy N late top-dressing demonstration.
Aims:
To quantify the within-paddock variability of yields using records from paddocks in the Yarrawonga and Dookie areas and to quantify the impact of VRT-nitrogen on longterm, whole-farm financial risk.
Aims:
Can systems performance be improved by modifying farming systems in the northern grains region?
What is the impact on system WUE ($ gross margin return per mm of system water use)?
Aims:
To discuss the economics of lucerne establishment.
Aims:
To discuss the economics of pasture establishment.
Aims:
To determine the rates and form of boron required for maximum grain yield of canola & lupin grown on acidic low organic matter and low clay soils sands across 3 seasons.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on acidic low organic matter sands across 3 seasons.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on soils of the Bindoon area (gravelly soils)..
Canola was thought to have a high B requirement so a range of sites were selected to determine any response incanola to B applications.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on soils of the Corrgin area.
Canola was thought to have a high B requirement so a range of sites were selected to determine any response incanola to B applications.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on soils of the Lakes area.
Canola was thought to have a high B requirement so a range of sites were selected to determine any response incanola to B applications.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on soils of the SE wheat belt [Lakes area] area.
Canola was thought to have a high B requirement so a range of sites were selected to determine any response incanola to B applications.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on soils of the north east wheat belt area.
Canola was thought to have a high B requirement so a range of sites were selected to determine any response incanola to B applications.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on soils of the south coast area.
Canola was thought to have a high B requirement so a range of sites were selected to determine any response incanola to B applications.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on soils of the south coast area.
Canola was thought to have a high B requirement so a range of sites were selected to determine any response incanola to B applications.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on soils of the Wickepin area.
Canola was thought to have a high B requirement so a range of sites were selected to determine any response incanola to B applications.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on sandy soils across seasons.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on sandy soils of the Esperance sandplain
across seasons.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on acidic low organic matter and low clay soils across seasons.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on acidic low organic matter and low clay soils across seasons.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on acidic low organic matter and low clay soils across 2 seasons.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on acidic low organic matter and low clay soils across 2 seasons.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on acidic low organic matter and low clay soils across seasons.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on acidic low organic matter and low clay soils across seasons.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on sandy soils across seasons.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on sandy soils across seasons.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on sandy soils across seasons.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on acidic low organic matter and low clay soils across 2 seasons.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on sandy soils across seasons.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on yellow sandy soils across seasons.
Aims:
To determine the rates of boron required for maximum grain yield of canola grown on yellow sandy soils across seasons.
Aims:
To determine the rates and form of boron required for maximum grain yield of canola and lupin grown on acidic low organic matter and low clay soils sands across three seasons.
Aims:
To determine yield losses from Ascochyta blight in current chickpea varieties and advanced breeding lines.
Aims:
To determine the rates of copper and zinc required for maximum clover dry matter yield clover grown on yellow gravelly sands of the central -lake district.
Experiment designed to measure residual value of previous Cu applications compared to fresh for wheat, barley and clover.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on coastal brown siliceous sands.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on brown earthy gravel.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on brown gravelly earths..
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on brown gravelly earths..
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on brown gravelly earths..
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on darkr grey calcareous sands.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly sand.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow brown gravelly sand.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on grey brown sandy gravel.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on grey brown sandy gravel.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on grey sandy surface over red brown mottled clay .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on sandy surfaces gravelly over yellow own clay soils .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow to brown with much ironstone grave in top 15 cm of laterite soils .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly sand.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly sand.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on sandy and gravelly laterite soils .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on sandy and gravelly laterite soils .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on sandy and gravelly laterite soils .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on sandy and gravelly laterite soils .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on sandy and gravelly laterite soils .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on sandy surfaced over grey or grey domed clays.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on sandy surfaced over grey or grey sandy clays.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on sandy surfaced over grey or grey sandy clays.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on sandy and gravelly laterite soils .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly sand.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow brown sandy earth.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow earthy sand.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow earthy sand.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly earth.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly earth.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly loam.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly loam.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly loam.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gritty sand.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gritty sand.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow sandy earth.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly sand.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on greyand brown gravelly sand
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on grey brown lateritic sands .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on grey brown lateritic sands .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on grey clay (Moort). .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on grey clay (Moort). .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on grey sand over gravel at 45 cm. .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow earthy sands.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow brown earthy sands.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow earthy sands.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on greysand /over gravel.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on grey gravel free ironstone gravel in top 15 cm of soils: summary of 3 experiments .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on greysand /over clay.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on grey brown lateritic sands .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow to brown with little ironstone gravel in top 15 cm of soils .