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Copper, Zinc and nitrogen required for maximum grain yield of barley following clover ley grown on new light land at Indarra
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Copper, Zinc and nitrogen required for maximum grain yield of wheat following clover ley grown on brown sand loam at Kalannie
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Copper, Zinc and nitrogen required for maximum grain yield of wheat following clover ley grown on sand 15 -30 cm) over orange brown sandy clay at Newdegate demonstration farm.
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Copper, Zinc and nitrogen required for maximum grain yield of wheat following clover ley grown on orange brown gravellysand over consolidated ironstone
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Copper, Zinc and nitrogen required for maximum grain yield of wheat following clover ley grown on yellow acidic sand "wodgil" at Hyden
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Copper, Zinc and nitrogen required for maximum grain yield of wheat following clover ley grown on brown gravelly loamy sand over consolidated ironstone
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Copper, Zinc and nitrogen required for maximum grain yield of wheat following clover ley at Dandaragan.
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Copper, Zinc and nitrogen required for maximum grain yield of wheat following clover ley at Esperance Plain Research Station.
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Copper, Zinc and nitrogen required for maximum grain yield of wheat following clover ley at Kellerberrin
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Copper, Zinc and nitrogen required for maximum grain yield of wheat following clover ley grown on orange brown gravellysand over consolidated ironstone
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Copper, Zinc and nitrogen required for maximum grain yield of wheat following clover ley at Dandaragan.
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Copper, Zinc and nitrogen required for maximum grain yield of wheat following clover ley grown on sand 15 -30 cm) over orange brown sandy clay at Newdegate demonstration farm.
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Copper, Zinc and nitrogen required for maximum grain yield of wheat grown on yellow sand following clover ley at Ardath
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Copper, Zinc and nitrogen required for maximum grain yield of wheat following clover ley at Wongan hills Station.
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Diagnosing copper deficiency by plant analyses for wheat under field conditions.
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Diagnosing zinc deficiency by plant analyses for wheat under field conditions.
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Diagnosing zinc deficiency by plant analyses for wheat under field conditions.
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Diagnosing zinc deficiency by plant analyses for wheat under field conditions.
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Calibration of plant test for diagnosing zinc deficiency in wheat grown on Zn responsive soils in the Newdegate -Lake Grace district
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Calibration of plant test for diagnosing zinc deficiency in wheat grown on responsive soils of the Esperance sandplain
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Calibration of plant test for diagnosing zinc deficiency in wheat grown on responsive soils under field condition
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To measure the effect of deep ripping on depth to free water (waterlogging) and the associated yield response of canola (2018) and wheat (2019) after deep ripping on this soil type.
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To determine how long the ripping effect lasts for in a controlled traffic farming (CTF) system and when to repeat the deep ripping on deep sands
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To demonstrate various long and short-term management options to mitigate water repellent soils in the Corrigin area in 2017
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Native budworm actively feeding on cereals has not been an issue for growers or industry in the past, and considering the recent detections, growers and western region industry networks have voiced that they would like support on this issue, especially regarding sampling techniques and spray thresholds. To achieve this, we investigated this new … read more
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To provide an overview and improve understanding of the range of tillage implements available to growers to incorporate lime, their respective costs and benefits and to assess novel options.
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Demonstrate the effectiveness of different fungicide timing options on chocolate spot management and evaluate a new spray decision support tool.
This trial was a collaboration of the Crop Protection and Grain Science groups within DPIRD.
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Compare the yield responses of wheat varieties sown at three sowing dates (9 April, 23 April and 12 May) and two plant densities.
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Compare the yield responses of canola varieties sown at three sowing dates (9 April, 23 April and 12 May).
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To investigate the economic return of spraying fungicide for spot type net blotch in barley in the eastern wheatbelt.
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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.
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To determine the rates of boron required for maximum grain yield of canola grown on acidic low organic matter sands across 3 seasons.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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To determine the rates of boron required for maximum grain yield of canola grown on sandy soils across seasons.
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To determine the rates of boron required for maximum grain yield of canola grown on sandy soils of the Esperance sandplain
across seasons.
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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.
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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.
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To determine the rates of boron required for maximum grain yield of canola grown on sandy soils across seasons.
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To determine the rates of boron required for maximum grain yield of canola grown on sandy soils across seasons.
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To determine the rates of boron required for maximum grain yield of canola grown on sandy soils across seasons.
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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.
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To determine the rates of boron required for maximum grain yield of canola grown on sandy soils across seasons.
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To determine the rates of boron required for maximum grain yield of canola grown on yellow sandy soils across seasons.
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To determine the rates of boron required for maximum grain yield of canola grown on yellow sandy soils across seasons.
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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.
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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.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on coastal brown siliceous sands.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on brown earthy gravel.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on brown gravelly earths..
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on brown gravelly earths..
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on brown gravelly earths..
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on darkr grey calcareous sands.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly sand.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow brown gravelly sand.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on grey brown sandy gravel.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on grey brown sandy gravel.
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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 .
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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 .
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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 .
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly sand.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly sand.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on sandy and gravelly laterite soils .
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on sandy and gravelly laterite soils .
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on sandy and gravelly laterite soils .
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on sandy and gravelly laterite soils .
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on sandy and gravelly laterite soils .
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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.
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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.
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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.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on sandy and gravelly laterite soils .
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly sand.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow brown sandy earth.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow earthy sand.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow earthy sand.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly earth.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly earth.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly loam.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly loam.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly loam.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gritty sand.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gritty sand.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow sandy earth.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow gravelly sand.
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on greyand brown gravelly sand
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on grey brown lateritic sands .
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on grey brown lateritic sands .
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To determine the rates of copper and zinc required for maximum grain yield of wheat grown on grey clay (Moort). .