Trial | Contributor Funding sources |
Year | Trial site |
---|---|---|---|
Barley maximum yield experimentTo assess the level of input required to maximise yields of barley grown after wheat. |
Riverine Plains
GRDC |
2005 | Balldale NSW |
Research organisaton
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Barley maximum yield experimentTo assess the level of input required to maximise yields of barley grown after wheat. |
Riverine Plains
GRDC |
2006 | Balldale NSW |
Research organisaton
|
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Barley maximum yield experimentTo assess the level of input required to maximise yields of barley grown after wheat. |
Riverine Plains
GRDC |
2007 | Balldale NSW |
Research organisaton
|
|||
Barley maximum yield experimentTo assess the level of input required to maximise yields of barley grown after wheat. |
Riverine Plains
GRDC |
2008 | Balldale NSW |
Research organisaton
|
|||
Crop comparison after wheat and canolaTo test if wheat can be successfully grown after wheat and canola and to assess if wheat was the best crop to grow. |
Riverine Plains
GRDC |
2005 | Balldale NSW |
Research organisaton
|
|||
Crop comparison after wheat and canolaTo test if wheat can be successfully grown after wheat and canola and to assess if wheat was the best crop to grow. |
Riverine Plains
GRDC |
2006 | Balldale NSW |
Research organisaton
|
|||
Crop comparison after wheat and canolaTo test if wheat can be successfully grown after wheat and canola and to assess if wheat was the best crop to grow. |
Riverine Plains
GRDC |
2007 | Balldale NSW |
Research organisaton
|
|||
Crop comparison after wheat and canolaTo test if wheat can be successfully grown after wheat and canola and to assess if wheat was the best crop to grow. |
Riverine Plains
GRDC |
2008 | Balldale NSW |
Research organisaton
|
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Triticale maximum yield experimentTo assess the level of input required to maximise yields of triticale grown after wheat. |
Riverine Plains
GRDC |
2005 | Balldale NSW |
Research organisaton
|
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Triticale maximum yield experimentTo assess the level of input required to maximise yields of triticale grown after wheat. |
Riverine Plains
GRDC |
2006 | Balldale NSW |
Research organisaton
|
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Triticale maximum yield experimentTo assess the level of input required to maximise yields of triticale grown after wheat. |
Riverine Plains
GRDC |
2007 | Balldale NSW |
Research organisaton
|
|||
Triticale maximum yield experimentTo assess the level of input required to maximise yields of triticale grown after wheat. |
Riverine Plains
GRDC |
2008 | Balldale NSW |
Research organisaton
|
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Wheat fungicide experimentTo assess different fungicide timing and dressings for Stripe Rust control on the yield of a number of wheat varieties |
Riverine Plains
GRDC |
2006 | Balldale NSW |
Research organisaton
|
|||
Wheat fungicide experimentTo assess different fungicide timing and dressings for Stripe Rust control on the yield of a number of wheat varieties |
Riverine Plains
GRDC |
2007 | Balldale NSW |
Research organisaton
|
|||
Wheat fungicide experimentTo assess different fungicide timing and dressings for Stripe Rust control on the yield of a number of wheat varieties |
Riverine Plains
GRDC |
2008 | Balldale NSW |
Research organisaton
|
|||
Wheat inputs experimentTo assess the effect of varying the seed and fertiliser rates on the yield of wheat grown after wheat. |
Riverine Plains
GRDC |
2008 | Balldale NSW |
Research organisaton
|
|||
Wheat inputs experimentTo assess the effect of varying the seed rates and fertiliser inputs on wheat yeilds. |
Riverine Plains
GRDC |
2009 | Balldale NSW |
Research organisaton
|
|||
Wheat inputs experimentTo 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). |
Riverine Plains
GRDC |
2010 | Balldale NSW |
Research organisaton
|
|||
Wheat maximum yield experiementTo assess the level of input required to maximise yields of wheat grown after wheat. |
Riverine Plains
GRDC |
2005 | Balldale NSW |
Research organisaton
|
|||
Wheat maxiumum yield experimentTo assess the level of input required to maximise yields of wheat grown after wheat. |
Riverine Plains
GRDC |
2006 | Balldale NSW |
Research organisaton
|
|||
Wheat maxiumum yield experimentTo assess the level of input required to maximise yields of wheat grown after wheat. |
Riverine Plains
GRDC |
2007 | Balldale NSW |
Research organisaton
|
|||
Wheat maxiumum yield experimentTo assess the level of input required to maximise yields of wheat grown after wheat. |
Riverine Plains
GRDC |
2008 | Balldale NSW |
Research organisaton
|
|||
Wheat phosphorus experimentTo assess the effect of phosphorus required to optimise the yield of wheat grown after wheat in a high phosphorus soil. |
Riverine Plains
GRDC |
2008 | Balldale NSW |
Research organisaton
|
|||
Wheat sulphur and zinc experimentTo determine if wheat would respond to post-emergent applications of zinc and different products containing sulphur and nitrogen. |
Riverine Plains
GRDC |
2008 | Balldale NSW |
Research organisaton
|
|||
Early sowing and the interaction with row spacing and variety in first wheat crops under full stubble retentionTo investigate the interaction between early sowing and row spacing in first wheat under full stubble retention. |
Riverine Plains
GRDC |
2014 | Barooga NSW |
Research organisaton
|
|||
Early sowing and the interaction with row spacing and variety in first wheat crops under full stubble retentionTo investigate the interaction between early sowing and row spacing and variety in first wheat crops under full stubble retention. |
Riverine Plains
GRDC |
2015 | Barooga NSW |
Research organisaton
|
|||
Third crop work gives results
|
Riverine Plains
|
2004 | Burraja NSW |
Research organisaton
|
|||
Active stubble management to enhance residue breakdown and subsequent crop managementTo present results from the large plot focus farm trials of the Maintaining profitable farming systems with retained stubble in the Riverine Plains region project, which where to
|
Riverine Plains
GRDC |
2014 | Coreen NSW |
Research organisaton
|
|||
Active stubble management to enhance residue breakdown and subsequent crop management - focus farm trialsThe project seeks to:
|
Riverine Plains
GRDC |
2017 | Coreen NSW |
Research organisaton
|
|||
Interaction between fungicide program and in-crop nitrogen timing for the control of yellow leaf spot (YLS) in early-sown wheatTo examine the influence of two nitrogen timings: 40kg N/ha applied at tillering (GS22) or first node (GS31) and four fungicide strategies on levels of yellow leaf spot (YLS). |
Riverine Plains
GRDC |
2014 | Coreen NSW |
Research organisaton
|
|||
Interaction between fungicide program and in-crop nitrogen timing for the control of yellow leaf spot (YLS) in early-sown wheatTo examine the influence of two nitrogen timings: 40kg N/ha applied at tillering (GS22) or first node (GS31) and four fungicide strategies on levels of yellow leaf spot (YLS). |
Riverine Plains
GRDC |
2015 | Coreen NSW |
Research organisaton
|
|||
Interaction between fungicide program and in-crop nitrogen timing for the control of yellow leaf spot (YLS) in mid May sown wheat |
Riverine Plains
GRDC |
2016 | Coreen NSW |
Research organisaton
|
|||
Performance of canola under no-till full stubble retention (NTSR) using different drill opener and row spacings at CoreenTo evaluate the performance of different drill openers at a range or row spacings in canola following a commercial triticale crop to improve water use efficiency (WUE) in no-till cropping and stubble retention systems in spatially and temporally variable conditions in the Riverine Plains. |
Riverine Plains
GRDC |
2009 | Coreen NSW |
Research organisaton
|
|||
Performance of canola under no-till full stubble retention (NTSR) using different drill opener and row spacings at CoreenTo evaluate the performance of different drill openers at a range or row spacings in canola following wheat to improve water use efficiency (WUE) in no-till cropping and stubble retention systems in spatially and temporally variable conditions in the Riverine Plains. |
Riverine Plains
GRDC |
2011 | Coreen NSW |
Research organisaton
|
|||
Performance of canola under no-till full stubble retention (NTSR) using different drill opener and row spacings at CoreenTo evaluate the performance of different drill openers at a range or row spacings in canola following wheat to improve water use efficiency (WUE) in no-till cropping and stubble retention systems in spatially and temporally variable conditions in the Riverine Plains. |
Riverine Plains
GRDC |
2012 | Coreen NSW |
Research organisaton
|
|||
Performance of first wheat under no-till full stubble retention (NTSR) using different drill opener and row spacings at CoreenTo evaluate the performance of different drill openers at a range or row spacings in wheat following a commercial canola crop to improve water use efficiency (WUE) in no-till cropping and stubble retention systems in spatially and temporally variable conditions in the Riverine Plains. |
Riverine Plains
GRDC |
2009 | Coreen NSW |
Research organisaton
|
|||
Performance of first wheat under no-till full stubble retention (NTSR) using different drill opener and row spacings at CoreenTo evaluate the performance of different drill openers at a range or row spacings for first wheat following canola to improve water use efficiency (WUE) in no-till cropping and stubble retention systems in spatially and temporally variable conditions in the Riverine Plains. |
Riverine Plains
GRDC |
2010 | Coreen NSW |
Research organisaton
|
|||
Performance of first wheat under no-till full stubble retention (NTSR) using different drill opener and row spacings at CoreenTo evaluate the performance of different drill openers at a range or row spacings for first wheat following canola to improve water use efficiency (WUE) in no-till cropping and stubble retention systems in spatially and temporally variable conditions in the Riverine Plains. |
Riverine Plains
GRDC |
2012 | Coreen NSW |
Research organisaton
|
|||
Performance of second wheat under no-till full stubble retention (NTSR) using different drill opener and row spacings at CoreenTo evaluate the performance of different drill openers at a range or row spacings for second wheat (wheat on wheat) following canola to improve water use efficiency (WUE) in no-till cropping and stubble retention systems in spatially and temporally variable conditions in the Riverine Plains. |
Riverine Plains
GRDC |
2010 | Coreen NSW |
Research organisaton
|
|||
Performance of second wheat under no-till full stubble retention (NTSR) using different drill opener and row spacings at CoreenTo evaluate the performance of different drill openers at a range or row spacings for second wheat (wheat on wheat) following canola to improve water use efficiency (WUE) in no-till cropping and stubble retention systems in spatially and temporally variable conditions in the Riverine Plains. |
Riverine Plains
GRDC |
2011 | Coreen NSW |
Research organisaton
|
|||
Active stubble management to enhance residue breakdown and subsequent crop management |
Riverine Plains
GRDC |
2015 | Corowa NSW |
Research organisaton
|
|||
Active stubble management to enhance residue breakdown and subsequent crop managementThe project seeks to:
|
Riverine Plains
GRDC |
2016 | Corowa NSW |
Research organisaton
|
|||
Monitoring the performance of nitrogen application to wheat under full stubble retention |
Riverine Plains
GRDC |
2016 | Corowa NSW |
Research organisaton
|
|||
Rhizobial inoculation can boost crop performance
|
Riverine Plains
GRDC |
2010 | Culcairn NSW |
Research organisaton
|
|||
Rhizobial inoculation can boost crop performance |
Riverine Plains
|
2011 | Culcairn NSW |
Research organisaton
|
|||
Optimising sulphur and nitrogen nutrition in canolaThis project aims to determine if nitrogen supply is limiting uptake of sulphur in canola crops grown in the Riverine Plains region and whether sulphur uptake and yield is increased in canola when nitrogen is available in non-limiting quantities. |
Riverine Plains
GRDC |
2017 | Howlong NSW |
Research organisaton
|
|||
Did stubble retention influence in-canopy temperature and frost risk?The aim of this work is to understand the impact of stubble retention on in-canopy temperatures and associated risk of frost in cropping environments with high yields and high stubble loads. |
Riverine Plains
GRDC |
2017 | Mulwala NSW |
Research organisaton
|
|||
Does stubble retention influence in-canopy temperature and frost risk?The aim of this work was to better understand the impact of stubble management on in-canopy temperatures and the associated risk of frost in cropping environments with high yields and high stubble loads. |
Riverine Plains
GRDC |
2016 | Mulwala NSW |
Research organisaton
|
|||
Precision agriculture demonstrations on sowing and fertiliser rates at Allendale, RandTo compare the effects of using variable rates of nitrogen and phophorus on wheat yield. |
Riverine Plains
GRDC |
2011 | Rand NSW |
Research organisaton
|
|||
Precision agriculture demonstrations on sowing and fertiliser rates at Bogandillan, RandTo compare the effects of variable phophorus and sowing rates on the wheat yields. To assess if remote sensing, using Crop Circle normalised difference vegetation index (NDVI) could be used to better assess in-crop nitorgen requirements. |
Riverine Plains
GRDC |
2011 | Rand NSW |
Research organisaton
|