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 evaluate if direct heading canola lowers the snail population captured in the harvester.
Aims:
To determine yield losses from Ascochyta blight in current chickpea varieties and advanced breeding lines.
Aims:
This field trial at Minnipa was undertaken to investigate factorial combinations of seed rate and herbicides on the management of annual ryegrass in wheat.
Aims:
This field trial was undertaken at Roseworthy in SA, a medium rainfall environment, to investigate factorial combinations of sowing time, cultivar (hybrid Vs open-pollinated), seed rate and herbicides on the management of annual ryegrass in triazine tolerant canola.
Aims:
To investigate factorial combinations of sowing time, cultivar, seed rate and herbicides on the management of annual ryegrass in triazine tolerant canola.
Aims:
The aim of this experiment was to determine the effect of sowing time, barley density and herbicides on brome grass control.
Aims:
To investigate factorial combinations of sowing time, seed rate and herbicides on the management of brome grass in faba beans.
Aims:
This trial aims to investigate combinations of the wheat sowing time, seed rate and herbicides for brome grass control in wheat.
Aims:
This field trial aims to investigate combinations of the wheat sowing time, seed rate and herbicides for achieving effective brome grass control.
Aims:
This field trial was undertaken at Westmere in Victoria, a high rainfall environment, to investigate factorial combinations of sowing time, seed rate and herbicides on the management of annual ryegrass in barley.
Aims:
This field trial was undertaken Frances in SA, a high rainfall environment, to investigate factorial combinations of sowing time, cultivar, seed rate and herbicides on the management of annual ryegrass in triazine tolerant canola.
Aims:
This field trial at Roseworthy was undertaken to investigate factorial combinations of sowing time, seed rate and herbicides on the management of annual ryegrass in faba beans.
Aims:
The aim of the trial was to investigate factorial combinations of sowing time, seed rate and herbicides on the management of annual ryegrass in faba beans.
Aims:
To investigate factorial combinations of sowing time, seed rate and herbicides on the management of annual ryegrass in faba beans.
Aims:
This field trial at Washpool was undertaken to investigate factorial combinations of sowing time, seed rate and herbicides on the management of annual ryegrass in wheat.
Aims:
This field trial was undertaken at Frances in South Australia, a high rainfall environment, to investigate factorial combinations of sowing time, seed rate and herbicides on the management of annual ryegrass in wheat.
Aims:
This field trial was undertaken at Roseworthy in South Australia, a medium rainfall environment, to investigate factorial combinations of sowing time, seed rate and herbicides on the management of annual ryegrass in wheat.
Aims:
This field trial at Roseworthy was undertaken to investigate factorial combinations of sowing time, seed rate and herbicides on the management of annual ryegrass in wheat.
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.
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 .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow brown earthygravelly 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 brown earthy sands.
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 sand
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow sands of the western zone.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on orange brown gravel sandy loam. .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on orange brown gravel sandy loam. .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on orange brown gravel sandy loam. .
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow sands.