Field Applied Research (FAR) Australia trials

To evaluate nitrogen (N) use efficiency in winter barley under different rates and timings of applied N fertiliser applied as in crop urea (46% N) grown on surface irrigation

To evaluate nitrogen use efficiency in winter barley under different rates and timings of applied N fertiliser applied as urea (46% N) grown on surface irrigation.

To evaluate nitrogen use efficiency in winter barley under different rates of applied N fertiliser applied as pre drill urea (46% N) grown on surface irrigation.

To evaluate nitrogen use efficiency in winter barley under different rates of applied N fertiliser applied as in crop urea (46% N) grown on surface irrigation.

To compare and contrast plant growth regulation strategies in winter and spring barley germplasm.

Evaluate whether higher seeding rates are required for spring sown barley to increase head number and yield.

Evaluate whether higher seeding rates are required for spring sown barley to increase head number and yield

To determine the potential of spring-sown canola cultivars in a hyper-yielding environment.

To determine the effect of seed and seedling fungicide management on grain yield of HyTTec Trifecta (Blackleg resistance = MR, Blackleg Group = BC).

To determine the effect of seed and seedling fungicide management on grain yield of HyTTec Trifecta (Blackleg resistance = R, Blackleg Group = ABD).

To determine optimum nitrogen nutrient management for hyper-yielding canola.

To determine optimum plant density for hyper yielding spring canola.

To determine optimum plant density for hyper yielding winter canola

To determine the response to increased crop inputs (fungicide and nitrogen) of six spring canola cultivars.

To determine the response to increased crop inputs (fungicide and nitrogen) on two winter canola cultivars, Hyola Feast CL and Hyola 970CL.

To examine the suitability of elite commercial and unreleased spring cultivars for hyper yielding regions.

To examine the suitability of elite commercial and unreleased winter canola cultivars for hyper yielding regions.

To identify the optimum plant populations for the grain maize Pioneer Hybrid 1756 at 500 and 750mm row spacing for grain yield.

To examine the influence of fungicide timing and rate for the prevention of disease and green leaf retention in grain maize

To examine the influence of fungicide timing and rate for the prevention of disease and green leaf retention in grain maize.

To examine the influence of fungicide timing and rate for the prevention of disease and green leaf retention in grain maize

To determine optimum plant density for hyper-yielding canola

To determine optimum plant density for hyper-yielding canola

To determine optimum plant density for hyper-yielding canola

To determine optimum plant density for hyper yielding winter canola

To determine optimum plant density for hyper yielding spring canola

To determine optimum plant density for hyper-yielding spring canola.

To determine optimum plant density for hyper yielding spring canola

Assess the performance of durum grown at different plant populations under surface irrigation.

To compare identical plant population x cultivar trials under overhead and surface irrigation (surface irrigation trial)

To compare identical plant population x cultivar trials under overhead and surface irrigation (lateral overhead trial)

To assess the value of higher nutrition input (N, P, K & S) for wheat in the growing season.
Individual objectives specific to the trials were:
- To assess the value of additional nutrients in the growing crop (set up as small plots at the HYC Research sites).
- To assess the value of adding increased P and K when targeting higher yield potential rather than N alone.

To assess the value of higher nutrition input (N, P, K & S) for wheat in the growing season and as an “N bank” for the following season.

Individual objectives specific to the trials were:
- To assess the value of additional nutrients in the growing crop (set up as small plots at the HYC Research sites) and for the following crop (mirror image trial set up in the host farmer’s surrounding paddock).
- To assess the value of adding increased P, K, and S when targeting higher yield potential rather than N alone.

To assess the value of higher nutrition input (N, P, K & S) for wheat in the growing season and as an “N bank” for the following season (cv RGT Accroc).

Individual objectives specific to the trials were:
- To assess the value of additional nutrients in the growing crop (set up as small plots at the Research Centre) and for the following crop (mirror image trial set up in host farmer paddock to be monitored in 2021).
- To assess the value of adding increased P, K, and S when targeting higher yield potential rather than N alone.

To assess the value of higher nutrition input (N, P, K & S) for wheat in the growing season and as an “N bank” for the following season.
Individual objectives specific to the trials were:
- To assess the value of additional nutrients in the growing crop (set up as small plots at the HYC Research sites) and for the following crop (mirror image trial set up in the host farmer’s surrounding paddock).
- To assess the value of adding increased P, K, and S when targeting higher yield potential rather than N alone.

To assess the value of higher nutrition input (N, P, K & S) for wheat in the growing season and as an “N bank” for the following season.

Individual objectives specific to the trials were:
- To assess the value of additional nutrients in the growing crop (set up as small plots at the HYC Research sites) and for the following crop (mirror image trial set up in the host farmer’s surrounding paddock).
- To assess the value of adding increased P, K, and S when targeting higher yield potential rather than N alone.

To assess the value of higher nutrition input for barley and its relationship with yield and biomass accumulation. This will help to assess whether growers are currently under fertilising barley crops in the region and N requirements required to reach target yields of 10–12t/ha within each region.

To assess the value of higher nutrition input for barley

To assess the value of higher nutrition input for barley.

Individual objectives specific to the trial are:
- Assess whether growers are currently under fertilizing barley crops in the region and N requirements required to reach target yields of 10 – 12 within each region.

To assess the value of higher nutrition input for barley.

Individual objectives specific to the trial are:
- Assess whether growers are currently under fertilizing barley crops in the region and N requirements required to reach target yields of 10 – 12 within each region.

To assess the value of higher nutrition input for barley

Individual objectives specific to the trial are:
- Assess whether growers are currently under fertilizing barley crops in the region and N requirements required to reach target yields of 10 – 12 within each region.

To assess the value of higher nutrition input for barley

Individual objectives specific to the trial are:
- Assess whether growers are currently under fertilizing barley crops in the region and N requirements required to reach target yields of 10 – 12 within each region.

To assess the value of higher nutrition input for barley

Individual objectives specific to the trial are:
- Assess whether growers are currently under fertilizing barley crops in the region and N requirements required to reach target yields of 10 – 12 within each region.

Are we better to increase seeding rate and reset phenology in faster spring Barley sown early to capitalize on root growth, greater carbohydrate reserve, and initiate more tillers rather than utilise current winter germplasm options sown early in the HRZ? Is spring barley more sensitive to changes in plant density than winter barley?

Are we better to increase seeding rate and reset phenology in faster spring Barley sown early to capitalize on root growth, greater carbohydrate reserve, and initiate more tillers rather than utilise current winter germplasm options sown early in the HRZ? Is spring barley more sensitive to changes in plant density than winter barley?

Are we better to increase seeding rate and reset phenology in faster spring Barley sown early to capitalize on root growth, greater carbohydrate reserve, and initiate more tillers rather than utilise current winter germplasm options sown early in the HRZ? Is spring barley more sensitive to changes in plant density than winter barley?

To evaluate the influence of different rates and timings of 46 %N prilled urea applied N prior to later applications of liquid N applied as fertigation applied in grain maize.

To evaluate the influence of different rates and timings of 46 %N prilled urea applied N prior to later applications of liquid N applied as fertigation applied in grain maize.

To evaluate nitrogen use efficiency in grain maize under different rates and of applied N fertiliser applied as pre drill urea (46% N) prior to fertigation with an overhead lateral.

To evaluate nitrogen use efficiency in grain maize under different rates of applied N fertiliser applied as pre drill urea (46% N) prior to a standard fertigation (230N) with an overhead lateral.