Trial | Contributor Funding sources |
Year | Trial site |
---|---|---|---|
Zinc speciation in soil solutions of VertisolEvaluate the chemical forms of zinc in the soil solutions of Vertisols used for cereal cropping. |
South Australian Research and Development Institute
GRDC |
1996 | Toowomba QLD |
Research organisaton
|
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Zinc deficiency in vertisolsTo establish the zinc requirements of crops growing on vertisols. |
South Australian Research and Development Institute
|
1993 | Glengallan QLD |
Research organisaton
|
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Wheat variety response to plant population and sowing date – Terry Hie Hie 2015The aim of this experiment at Terry Hie Hie on the north-western plains of NSW was to determine if there were differences between varieties with varying maturity types in terms of grain yield and quality parameters with different plant densities and sowing dates. |
Department of Primary Industries NSW
DPI NSW GRDC |
2015 | Terry Hie Hie NSW |
Research organisaton
|
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Using soil ameliorants to improve irrigated canola establishemntTo assess the efectiveness and persistence of soil ameliorants for irrigated canola establishment. |
Irrigated Cropping Council
GRDC |
2016 | Kerang VIC |
Research organisaton
|
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Understanding zinc reactions in vertisolsTo improve predictability of growth responses to zinc from soil analysis. |
South Australian Research and Development Institute
GRDC |
1993 | University of Adelaide SA |
Research organisaton
|
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The impact of irrigation intensity on nitrous oxide emissions and lint yield of irrigated cotton at Emerald, Qld in 2015–16To assess the impact of two alternative cotton irrigation strategies on soil mineral N: crop production and N2O emissions. |
Department of Primary Industries NSW
DAWR DPI NSW |
2015 | Emerald QLD |
Research organisaton
|
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The effect of sowing date and irrigation management on faba bean – Leeton 2020An irrigated faba bean experiment was established at Leeton Field Station in 2020 to determine the effect of sowing time and irrigation on four varieties of faba bean in southern NSW. |
Department of Primary Industries NSW
DPI NSW GRDC |
2020 | Leeton NSW |
Research organisaton
|
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The effect of PGR application on irrigated wheatTo test the effect of plant growth regulators on irrigated wheat. |
Irrigated Cropping Council
GRDC |
2016 | Kerang VIC |
Research organisaton
|
|||
Sunflower configuration × population × hybrid – Gurley 2015–16Optimising sunflower performance relies on being able to match a hybrid with the growing environment and ensuring that the most suitable agronomic management is provided. Suitable crop agronomy involves using the most appropriate row configuration and plant population as well as ensuring adequate nutrition, disease and insect management. This experiment and others conducted in this series were designed to provide recommendations for growers and advisors to support decisions on optimal row configuration, plant population and hybrids for sunflower production in the north-western and Liverpool Plains regions of NSW. These two environments are the primary sunflower growing regions in northern NSW. |
Department of Primary Industries NSW
DPI NSW GRDC |
2015 | Gurley NSW |
Research organisaton
|
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Southern NSW soybean breeding experiments – Leeton 2020The program is looking for new varieties that possess desirable combinations of yield, protein, improved agronomic traits, broad adaptation, disease resistance and high weathering tolerance. |
Department of Primary Industries NSW
CSIRO DPI NSW GRDC |
2020 | Leeton NSW |
Research organisaton
|
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Regional crown rot management – TrangieCrown rot (CR) caused predominantly by the fungus Fusarium pseudograminearum (Fp), remains a major constraint to winter cereal production in the northern grains region. Cereal varieties differ in their resistance to crown rot, which can have a significant affect on their relative yield in the presence of this disease. This experiment was one of 11 conducted by NSW DPI in 2016 across central/northern NSW extending into southern Qld; to examine the effects from crown rot on the yield and quality of four barley, three durum and 13 bread wheat varieties. |
Department of Primary Industries NSW
DPI NSW GRDC |
2016 | Trangie Agricultural Research Centre NSW |
Research organisaton
|
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Regional crown rot management – TamarangCrown rot (CR) caused predominantly by the fungus Fusarium pseudograminearum (Fp), remains a major constraint to winter cereal production in the northern grains region. Cereal varieties differ in their resistance to crown rot, which can have a significant affect on their relative yield in the presence of this disease. This experiment was one of 11 conducted by NSW DPI in 2016 across central/northern NSW extending into southern Qld; to examine the effects from crown rot on the yield and quality of four barley, three durum and 13 bread wheat varieties. Varieties (20) • Four barley varieties: CommanderA, CompassA, La TrobeA and SpartacusA. • Three durum varieties: JandaroiA and LillaroiA plus the numbered line 190873. • Thirteen bread wheat varieties: EGA GregoryA, LRPB FlankerA, BeckomA, CoolahA, SunmateA, LRPB LancerA, LRPB ReliantA, LRPB GauntletA, LRPB SpitfireA, MitchA, SuntopA and SunguardA; (listed in order of increasing resistance to crown rot) plus one numbered line LPB12-0494 |
Department of Primary Industries NSW
DPI NSW GRDC |
2016 | NSW |
Research organisaton
|
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Regional crown rot management – GarahCrown rot (CR) caused predominantly by the fungus Fusarium pseudograminearum (Fp), remains a major constraint to winter cereal production in the northern grains region. Cereal varieties differ in their resistance to crown rot, which can have a significant affect on their relative yield in the presence of this disease. This experiment was one of 11 conducted by NSW DPI in 2016 across central/northern NSW extending into southern Qld; to examine the effects from crown rot on the yield and quality of four barley, three durum and 13 bread wheat varieties. |
Department of Primary Industries NSW
DPI NSW GRDC |
2016 | Garah NSW |
Research organisaton
|
|||
Regional crown rot management – BullarahCrown rot (CR) caused predominantly by the fungus Fusarium pseudograminearum (Fp), remains a major constraint to winter cereal production in the northern grains region. Cereal varieties differ in their resistance to crown rot, which can have a significant affect on their relative yield in the presence of this disease. This experiment was one of 11 conducted by NSW DPI in 2016 across central/northern NSW extending into southern Qld; to examine the effects from crown rot on the yield and quality of four barley, three durum and 13 bread wheat varieties. Varieties (20) • Four barley varieties: CommanderA, CompassA, La TrobeA and SpartacusA. |
Department of Primary Industries NSW
DPI NSW GRDC |
2016 | ‘Dunbar’, Bullarah NSW |
Research organisaton
|
|||
Re-evaluating seed colour change in canola to improve harvest management decisionsTo re-evaluate seed colour change in canola to improve harvest management decisions. |
Department of Primary Industries NSW
DPI NSW GRDC |
2016 | Tamworth Agricultural Institute NSW |
Research organisaton
|
|||
Optimum nitrogen fertiliser rates maintain yields and minimise nitrous oxide emissionsTo test some of the commercial practices used in irrigated cotton growing. In the 2014–15 summer cropping season, three experiments were conducted at commercial farms located near Emerald (Qld), Moree (NSW), and Gunnedah (NSW). |
Department of Primary Industries NSW
|
2014 | Emerald QLD |
Research organisaton
|
|||
Nutrient status of some solodized soils in south-eastern QueenslandTo establish native fertility of soils in south-east Queensland. |
South Australian Research and Development Institute
|
1966 | Minnipa SA |
Research organisaton
|
|||
Micronutrient field evaluations - LongerenongThe objective of this experiment, conducted at one site in 2012 was to assess the response of wheat to zinc and/or copper and/or boron micronutrient supplement mixtures in a standard cropping system. |
International Plant Nutrition Institute
|
2012 | Longerenong VIC |
Research organisaton
|
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Maximising Irrigated Winter Wheat YieldTo maximise the yield of irrigated winter wheat |
Irrigated Cropping Council
GRDC |
2016 | Kerang VIC |
Research organisaton
|
|||
Maximising Irrigated Wheat Yields - 1To maximise yield via maximising wheat biomass using early sown winter wheats. |
Irrigated Cropping Council
GRDC |
2016 | Kerang VIC |
Research organisaton
|
|||
Irrigated Wheat Variety EvaluationTo evaluate wheat varieties under irrigated conditions |
Irrigated Cropping Council
GRDC |
2016 | Kerang VIC |
Research organisaton
|
|||
Irrigated Wheat NutritionTo investigate fertiliser additives to assess their claim of improving P efficiency, as well as the addition of Potassium and Copper supplements, to improve the yield of irrigated wheat |
Irrigated Cropping Council
GRDC |
2016 | Kerang VIC |
Research organisaton
|
|||
Irrigated durum agronomyTo economically grow irrigated durum wheat |
Irrigated Cropping Council
GRDC |
2016 | Kerang VIC |
Research organisaton
|
|||
Irrigated canola variety evaluationTo evaluate the performance of canola varities under irrigated conditions. |
Irrigated Cropping Council
GRDC |
2016 | Kerang VIC |
Research organisaton
|
|||
Irrigated barley variety evaluationTo evaluate the performance of Barley varieties under irrigated conditions |
Irrigated Cropping Council
GRDC |
2016 | Kerang VIC |
Research organisaton
|
|||
Iron deficiency depresses growth of furrow irrigated soybean and pigeon pea on vertisols of northern NSWExamine effect of applying chelated iron to leaves, and chalted iron, zinc, N and P to soils growing irrigated soybean and pigeon pea. |
South Australian Research and Development Institute
GRDC |
1990 | Breeza NSW |
Research organisaton
|
|||
Foliar fungicides for irrigated barleyTo test if the use of fungicides makes economic sense on irrigated barley |
Irrigated Cropping Council
GRDC |
2016 | Kerang VIC |
Research organisaton
|
|||
Foilar fungicides on irrigated wheat trialTo test the effect of foliar fungicides on irrigated wheat yield |
Irrigated Cropping Council
GRDC |
2016 | Kerang VIC |
Research organisaton
|
|||
Faba bean fertiliser trial – Spring Ridge 2016To study the effect of nitrogen (N) and phosphorus (P) application separately and in combination on the growth and yield of faba bean. This experiment aimed to study the effect of nitrogen (N) and phosphorus (P) application separately and in combination on the growth and yield of faba bean. A small amount of N at sowing might improve yield through faster establishment and groundcover. There is also little local data available on faba bean response to additional P. |
Department of Primary Industries NSW
DPI NSW GRDC |
2016 | Spring Ridge NSW |
Research organisaton
|
|||
Faba bean disease tolerance – Breeza 2016KEY FINDINGS:
Conclusions
|
Department of Primary Industries NSW
GRDC PBA |
2016 | Breeza NSW |
Research organisaton
|
|||
Evaluation of new mungbean varieties for the Macquarie Valley – Trangie Agricultural Research Centre, 2013–2016To conduct mungbean variety evaluation experiments to assess how effective new mungbean varieties for the Maquarie Valley were under irrigated conditions. |
Department of Primary Industries NSW
GRDC |
2017 | Trangie Agricultural Research Centre NSW |
Research organisaton
|
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Establishing canola into incorporated stubbleTo improve soil carbon through the incorporation of cereal stubbles with no impact on the subsequent canola crop. |
Irrigated Cropping Council
GRDC |
2016 | Kerang VIC |
Research organisaton
|
|||
Effect of sowing date on phenology and grain yield of 19 bread wheat and five durum cultivars - Tamworth 2016This 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 stress) at key developmental stages, such as anthesis and during the critical post-flowering grain-fill period. The optimum flowering window is considered an agronomic compromise between avoiding excessive yield loss due to frost and ensuring that flowering occurs early enough to enable a long grain-fill period, before heat and moisture stress restrict yield potential. Variety response to SD experiments help to determine how new varieties compare in maturity and yield with existing varieties across the sowing window at a regional level. This provides data to better inform growers about varietal response to SD options and therefore to better match variety with SD. Overtime, these experiments provide greater confidence in varietal |
Department of Primary Industries NSW
DPI NSW GRDC |
2016 | Tamworth Agricultural Institute NSW |
Research organisaton
|
|||
Effect of sowing date and nitrogen rate on grain yield of six wheat varietiesAimed at establishing variety responses to sowing dates and different N rates and timings |
Department of Primary Industries NSW
DPI NSW GRDC |
2015 | Lockhart, NSW NSW |
Research organisaton
|
|||
Durum wheat variety response to nitrogen management and sowing time - Tulloona 2015To compare variety response with time of sowing (TOS) and nitrogen (N) management with the objective to develop variety recommendations and tactical agronomy guidelines. |
Department of Primary Industries NSW
GRDC |
2015 | Tulloona NSW |
Research organisaton
|
|||
Durum wheat variety response to nitrogen management and sowing time - Tamarang 2015To compare variety response to time of sowing (TOS) and nitrogen (N) management to develop variety recommendations and tactical agronomy guidelines. |
Department of Primary Industries NSW
GRDC |
2015 | Tamarang NSW |
Research organisaton
|
|||
Does split-nitrogen application reduce nitrous oxide emissions from irrigated cotton compared with all nitrogen applied pre-season? - GunnedahTo assess the effect that N fertiliser timing (all applied pre-planting vs pre-planting + in-crop) had on soil N2O emissions and cotton production. |
Department of Primary Industries NSW
DAWR DPI NSW |
2015 | Emerald QLD |
Research organisaton
|
|||
Deep banded phosphorus effect on chickpea root growthTo study root development under a chickpea crop and quantify root growth due to the addition of P at a depth of 20 cm. |
Department of Primary Industries NSW
GRDC |
2016 | Terry Hie Hie NSW |
Research organisaton
|
|||
Correction of zinc deficiency in wheat on the Darling Downs, QueenslandTo test methods for alleviating zinc deficiency in wheat. |
South Australian Research and Development Institute
|
1967 | Toowoomba QLD |
Research organisaton
|
|||
Correction of zinc deficiency in maize on the Darling Downs, QueenslandTo test methods for alleviating zinc deficiency in maize. |
South Australian Research and Development Institute
|
1967 | Toowoomba QLD |
Research organisaton
|
|||
Correction of zinc deficiency in linseed on the Darling Downs, QueenslandTo test methods for alleviating zinc deficiency in linseed. |
South Australian Research and Development Institute
|
1967 | Toowoomba QLD |
Research organisaton
|
|||
Contribution of leaves to the yield of sunflowers - GurleyTo quantify the contribution of different sunflower leaves to yield and oil quality through applying 12 leaf defoliation treatments. |
Department of Primary Industries NSW
DPI NSW GRDC |
2015 | Gurley NSW |
Research organisaton
|
|||
Agronomic response of sorghum varieties to nitrogen management – Terry Hie Hie 2014–15To determine the agronomic response of sorghum to N management, to help develop more robust soil test/crop response guidelines. |
Department of Primary Industries NSW
DPI NSW GRDC |
2014 | Terry Hie Hie NSW |
Research organisaton
|
|||
Agronomic drivers of yield in rain fed wheat production systems in Central West NSW - TrangieTo benchmark yield potential across a range of growing environments in the NGR of NSW, over two consecutive seasons, and to quantify the impact of genotype, management and environment on yield. |
Department of Primary Industries NSW
DPI NSW GRDC |
2014 | Trangie Agricultural Research Centre NSW |
Research organisaton
|