Aims:
To evaluate the effectiveness of pre-emergent herbicides and crop safety in dry sowing conditions.
Aims:
This project is primarily about understanding more about the size of the water bucket (Plant Available Water as a crop input),
and how that may impact our management decisions and the final result of our crops for the season.
Aims:
To evaluate the relative weed competitiveness of barley, bread wheat, and durum against annual ryegrass grown under different management practices including seeding rate, nutrition, variety, and row spacing.
Aims:
To conduct a Durum wheat agronomy demonstration,
Aims:
To determine the performance of various wheat varieties across the low rainfall regions of Central West NSW
Aims:
To test early maturing barley varieties.
Aims:
To investigate the effect of early or delayed sowing on reduction of ryegrass numbers in combination with different preemergent herbicides.
Aims:
To investigate the effect of early or delayed sowing on reduction of ryegrass numbers in combination with different pre-emergent herbicides
Aims:
Compare the yield responses of canola varieties sown at three sowing dates (9 April, 23 April and 12 May).
Aims:
To investigate the interaction between early sowing and row spacing and variety in first wheat crops 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:
The eConnected Grainbelt projects aim is to connect grain growers to the information that they need to make profitable decisions that are tailored for their paddocks, for their businesses, and for the variable conditions that they face each season.
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 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 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 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 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 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 sand over gravel at 45 cm. .
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 greysand /over clay.
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 monitor varietal performance during the 1982/83 season and conduct controlled environment studies to determine more precisey the extent of genetic variation within wheat for Mn efficiency.
Aims:
A four-year study has investigated if lime applied in a low pH soil could enhance the efficacy of herbicides on weeds (ryegrass and barley grass) and improve crop performance in a wheat-wheat-lupin-barley rotation at the Wongan Hills Research Station, Western Australia.
Aims:
A four-year study has investigated if lime applied in a low pH soil could enhance the efficacy of herbicides on wild radish and improve crop performance in a wheat-wheat-lupin-barley rotation at the Wongan Hills Research Station, Western Australia (WA).
Aims:
To determine whether a profit can be achieved from incorporating lime in the year it is applied.
Aims:
To determine whether a profit can be achieved from incorporating lime in the year it is applied.
Aims:
To investigate the effect of a rotary spader and lime on the residual value of phosphorus and potassium fertilizer on a water repellent soil.
Aims:
Liming is proven to be beneficial to our cropping and pasture systems in WA; is improved radish control an added gain?
Aims:
To measure the effects rates of nitrogen on copper availability for maximum grain yield of wheat grown on yellow sandy soils across seasons.
Aims:
To investigate the influence of rate, application timing and soil type of the activity of Lure H20 as a pre-sow soil wetting agent in the cropping phase.
Aims:
To determine the rates of copper and zinc required for maximum grain yield of wheat grown on yellow brown and yellow brown gravel soils sands across 2 seasons.
Aims:
The effectiveness of foliar applications of zinc sulphate to decrease cadmium concentration in wheat grain was assessed at 3 field sites in South Australia.
Aims:
This experiment reports the effect of three sowing dates on the timing of anthesis, grain yield and grain quality parameters for a range of commercially available and advanced bread wheat and durum varieties.
The combination of phenology and sowing date (SD) determines the probable timing of environmental stresses (frost and heat stres… read more
Aims:
To examine the effects of sowing time on the phenology, grain yield and quality of 36 wheat varieties.
Aims:
To answer the quesiton 'Can higher herbicide rates be used with wide row establishment in lupins?'
Aims:
To assess the relative effectiveness of a range of products at correcting zinc (Zn) deficiency in wheat.
Aims:
To evaluate the effectiveness of molybdenum application in soil with a pH that is perceived to be non-limiting for molybdenum.
Aims:
To determine the effectiveness and economics of gypsum in remediation of high Mg/Ca ratio soils.
Aims:
To determined the apploication rates of copper and zinc fertiliser for the maximum grain yield of wheat
Aims:
To compare and evaluate the yield effect from cultivation, before seeding versus a full cut system in a wheat crop.
Aims:
To quantify the effects of nematode feeding groups in Western Australian soils on crop performance.
Aims:
To examine the effect of gypsum on soil pH and soil C and whether changes in soil pH could alter productivity of the following cereal crops.
Aims:
To examine the effect of gypsum on soil pH and soil C and whether changes in soil pH could alter productivity of the following cereal crops.
Aims:
To explore the relationship between phosphate fertiliser and micronutrients on acid soils.
Aims:
To identify the optimum sowing time for establishment of sub-tropical grasses to the east of Eneabba.
Aims:
To evaluate the crop safety and efficacy on annual ryegrass of soil-incorporated pre-emergent herbicides in dry and wet sowing conditions.
Aims:
To report on strategies for improving zinc nutrition with zinc oxide fertilisers.
Aims:
The main aims of this demonstration are to:
Aims:
Previous work in the Mallee has shown the EM38 technology has benefited farm profit. On that basis we have commenced a demonstration on the Minnipa Agricultural Centre to validate previous Mallee outcomes.
Aims:
To test the practicality of increasing soil humic carbon on farm.
Aims:
To demonstrate the effect of seeder type and operation on the efficacy and safety of pre-emergent herbicides in barley.
Aims:
To improve soil carbon through the incorporation of cereal stubbles with no impact on the subsequent canola crop.
Aims:
The GRDC project ‘Maintaining profitable farming systems with retained stubble - upper Eyre Peninsula’ aims to produce sustainable management guidelines to control pests, weeds and diseases while retaining stubble to maintain or improve soil health, and reduce exposure to wind erosion. The major outcome to be achieved is increased knowledge … read more
Aims:
The GRDC project ‘Maintaining profitable farming systems with retained stubble - upper Eyre Peninsula’ aims to produce sustainable management guidelines to control pests, weeds and diseases while retaining stubble to maintain or improve soil health, and reduce exposure to wind erosion. The major outcome to be achieved is increased knowledge … read more
Aims:
To measure comparative wheat yields in response to varying P applications on 2 soil types.
Aims:
To evaluate the interaction between seeding systems and pre-emergence herbicides on the establishment of wheat, on two contrasting soil types.
Aims:
There has been increasing interest from growers and agronomists in low rainfall farming regions to evaluate alternative break crop options to field peas. Field peas are generally well suited to low rainfall farming systems and have historically been the main pulse option for the upper Eyre Peninsula region. However, record high prices and new va… read more
Aims:
To evaluate a range of seeding modifications or additions with the aim of improving crop establishment and yield on water repellent sandplain soil.
Aims:
To test the effectiveness of the two different forms of nitrogen, two nitrogen timings and two nitrogen dressings on yield and grain quality.
Aims:
To understand the benefits of soil pH mapping and its interaction with other soil and crop mapsTo compare various layers of information (pH, elevation, EM-38, yield andsatellite imagery) for understanding paddock variability.
Aims:
Aims:
To investigate the effectiveness of elemental sulphur in canola, what percentage of the applied sulphur can be applied as fine (less than 250 micron) elemental sulphur without loss of grain yield or oil content.
Aims:
To use PA maps to indentify and sample soil zones within a paddock. To investigate soil phosphorus levels in different soil types with a paddock. To see if altering fertiliser rates at sowing has an impact on grain yield.
Aims:
To evaluate the performance of crops (barley in 2009) when pasture cropped over different perennial species established on deep pale sands.
Aims:
To predict the risk of PRR disease and potential yield losses in chickpea, and detect P. med inoculum in soil from commercial paddocks.
Aims:
To compare soil P tests for predicting crop responses on a paddock scale.
Aims:
To compare soil P tests for predicting crop responses on a paddock scale.