Aims:
To identify the most effective alternate techniques and discover the impacts they have on weed control, yield and grain quality
Aims:
To identify the most effective alternate techniques and discover the impacts they have on weed control, yield and grain quality
Aims:
To determine wether varietal differences in chickpea plant architecture effect their competitiveness with ryegrass.
Aims:
To determine whether varietal differences in chickpea plant architecture affect their competitiveness with ryegrass.
Aims:
To investigate options for broadleaf weed and grass control in oats.
Aims:
To look at the different weed control options for field peas.
Aims:
To investigate the impact that two different harvest weed seed control (HWSC) methods – narrow windrowing of header trash and the Esperance Mobile Ag Repairs (EMAR) chaff deck – have on reducing the weed burden in the following crop.
Aims:
To comment on weed management strategies.
Aims:
To discuss weed management for 2006.
Aims:
To demonstrate the effectiveness of weed sensing technology (WeedSeeker) for controlling problematic low population weeds (e.g. Prickly Lettuce).
Aims:
To inform readers about weed sensing: the use of a machine or instrument to detect a weed; a plant that shouldn’t be there
Aims:
Aims:
To satisfy the questions of local farmers.
Aims:
To evaluate the impact of tillage treatments on wheat yield in a number of farmer demonstrations.
Aims:
To determine the effects of sowing rates and row spacing on yield of wheat in our low rainfall environment.
Aims:
Aims:
To compare and contrast the suitability of some emerging and current commercial barley varieties for the Wimmera region.
Aims:
To evaluate the performance of current commercial varieties and assess their suitability for the Wimmera.
Aims:
To help understand the yield penalties we can expect if good pH levels are not maintained and how
frequently lime needs to be applied.
Aims:
To comment on the Farm Management 500 and Sustainable Technology (FAST) Project: what did the crops grow on in 1994?
Aims:
Interviews were conducted on each farm to determine for each paddock the species that were sown
Aims:
To investigate the use of different sowing timings and N management to improve yield and maintain protein of wheat.
Aims:
To address the question, what would happen if a commercial cereal crop was sown at such an early date?
Aims:
To determine what happens to pre-drilled N on southern Malle clay-loam soils.
Aims:
To determine what happens to pre-drilled N on southern Malle clay-loam soils.
Aims:
To answer the question 'What is required to be a good financial manager on a farm?'
Aims:
To determine the best form of nitrogen fertiliser for topdressing on alkaline soils.
Aims:
To discuss the question 'What is the best product for topdressing nitrogen?'.
Aims:
To report on the Paxton's efforts to “to keep the soil pH above 5, we know if we don’t, we start losing production”.
Aims:
Aims:
To disucss what'll happen when it does rain again.
Aims:
To identify key ingredients of agronomic packages that deliver high yielding canola crops with high oil contents in the Parndana environment.
Aims:
Aims:
To assess different interrow spacing widths using five different sowing treatments.
Aims:
To establish and manipulate 3 varieties of pasture and determine their effect on the following wheat crop.
Aims:
To compare pulse production, as well as, assess the follow-on benefits of different pulses to wheat.
Aims:
To assess the impact of applying Nitrogen at different rates and timings and insecticide for the control of BYDV on grain yields of selected wheat varieties.
Aims:
To assess the impact of applying Nitrogen at different rates and timings and insecticide for the control of BYDV on grain yields of selected wheat varieties.
Aims:
Aims:
To systematically assess the impact of sowing time, seeding rate and wetting agents on wheat establishment and productivity across a range of environments on water repellent soil and determine whether there are interactions between the agronomic options tested.
Aims:
To systematically assess the impact of sowing time, seeding rate and wetting agents on wheat establishment and productivity across a range of environments on water repellent soil and determine whether there are interactions between the agronomic options tested.
Aims:
To assess the yields of a range of agronomic treatments on wheat varieties at different sites.
Aims:
To assess the yields of a range of agronomic treatments on wheat varieties at different sites.
Aims:
To assess the yield of a range of agronomic treatments on wheat varieties at several sites
Aims:
To assess the yield of a range of agronomic treatments on wheat varieties at several sites.
Aims:
To assess the yield of a range of agronomic treatments on wheat varieties at several sites
Aims:
To compare the performance of potential wheat and barley varieties with existing varieties commonly
grown in SNSW under local conditions.
Aims:
To identify cultivation and fertiliser practices which reduce the incidence and damage caused by Pratylenchus.
Aims:
To determine the impact of root lesions nematode on wheat and barley production in the southern Mallee.
Aims:
Compare 6 barley (feed and malt) and 6 wheat (APW and AH) varieties response to increasing nitrogen applications across 5 locations across the wheatbelt. We have only included information for Binnu location.
Assess responsiveness of new varieties to management and the consequences for grain yield, grain quality and overall agronomic … read more
Aims:
To provide growers with the tools needed to adopt site-specific weed management (SSWM) strategies as a result of a commercially viable weed ID and mapping system being demonstrated.
Aims:
To assess the impact of BYDV on wheat yield.
Aims:
To test whether we can increase radiation use efficiency and yield in wheat by changing architecture (floppy vs. erect leaves).
Aims:
To look at the application of disease and canopy management principles and their application to the different climatic regions of southern Australia.
Aims:
To look at the application of disease and canopy management principles and their application to the different climatic regions of southern Australia.
Aims:
To investigate wheat canopy management.
Aims:
Aims:
Aims:
To examine the value of canopy management in the Mallee environment.
Aims:
To examine the value of canopy management in the Wimmera.
Aims:
Aims:
To examine the integration of the principles of disease management and canopy management in cereal crops.
Aims:
To determine the effect of sowing rate and nitrogen fertiliser timing on crop canopy development, grain yield and grain quality.
Aims:
To evaluate and compare the genetic potential of a range of new and soon to be released local and interstate wheat varieties in the Wubin region.
Aims:
To compare the performance of wheat varieties in the M2 rainfall zone.
Aims:
To test 6 commercial wheat varieties.
Aims:
To evaluate a range of milling and feed wheats of differing maturities and disease resistance under broad acre farmer sown plots.
Aims:
Aims:
To evaluate the effectiveness of various strategies for managing foliar diseases in separate barley (Experiment 1) and wheat (Experiment 2) experiments using foliar and fertiliser applied fungicides.
Aims:
To assess the effect of a range of fungicide treatments on wheat yield.
Aims:
To test the effect of foliar fingicides on wheat yield.
Aims:
To provide information about wheat varieties suitable for the Mallee and northern Wimmera.
Aims:
To assess different fungicide timing and dressings for Stripe Rust control on the yield of a number of wheat varieties
Aims:
To assess different fungicide timing and dressings for Stripe Rust control on the yield of a number of wheat varieties
Aims:
To assess different fungicide timing and dressings for Stripe Rust control on the yield of a number of wheat varieties
Aims:
To verify the performance of the currently susceptible cultivar Chara, in higher rainfall conditions and to assess various application timings of fungicide to minimise the impact of the WA pathotype of stripe rust, that seems to have maintained virulence throughout eastern Australia.
Aims:
To investigate the effect of fungicides on controlling stripe rust infection in wheat.
Aims:
To determine the effectiveness of fungicides on wheat yields.
Aims:
To provide advice to breeders, researchers, agronomists and growers on the plant characteristics suited to the HRZ.
Aims:
To unravell the combined effects of variety, sowing time and N, on yield and its components.
Aims:
To study the effect of elevated temperature, sowing time, variety, and N rate on wheat yield.
Aims:
To conduct an evaluation of the ability of wheat varieties to tolerate acid/aluminum.
Aims:
To evaluate the impact of DesiKote in reducing weather damage in wheat.
Aims:
To evaluate the impact of DesiKote in reducing weather damage in wheat.
Aims:
To evaluate the impact of DesiKote in reducing weather damage in wheat.
Aims:
Investigating the tolerance of wheat varieties to herbicides
Aims:
Investigating the tolerance of wheat varieties to herbicides
Aims:
To investigate where wheat performs best in a crop rotaion.
Aims:
To assess the effect of varying the seed and fertiliser rates on the yield of wheat grown after wheat.
Aims:
To assess the effect of varying the seed rates and fertiliser inputs on wheat yeilds.
Aims:
To assess if the previous year's results from this experiment could be replicated in a year with average to above average growing season rainfall (GSR).
Aims:
To assess the level of input required to maximise yields of wheat grown after wheat.
Aims:
To assess the level of input required to maximise yields of wheat grown after wheat.
Aims:
To assess the level of input required to maximise yields of wheat grown after wheat.
Aims:
To assess the level of input required to maximise yields of wheat grown after wheat.
Aims:
To compare nitrogen formulation and rate for protein accumulation in wheat.
Aims:
To compare nitrogen formulation and rate for protein accumulation in wheat.
Aims:
To compare nitrogen formulation and rate for protein accumulation in wheat.
Aims:
To compare nitrogen formulation and rate for protein accumulation in wheat.
Aims:
To evaluate the impact of late nitrogen application timings on wheat protein levels.