Trial | Contributor Funding sources |
Year | Trial site |
---|---|---|---|
An improved soil test for copper deficient soilsTo improve the soil test for available copper in soils. |
South Australian Research and Development Institute
|
1981 | Brisbane |
Research organisaton
|
|||
Bioassay of available trace metals from Australian soilsTo develop an assay for bioavailability of micronutrients in soils. |
South Australian Research and Development Institute
|
1952 | Sydney NSW |
Research organisaton
|
|||
Bioassay of long term phosphorus trial, 80Ba6To determine the long term effects of 1980 P treatments on soil fertility. |
West Midlands Group
NACC |
2016 | Badgingarra WA |
Research organisaton
|
|||
Biodiverse carbon credit pilot projectTo add income diversification to the other benefits that native vegetation can bring to a property such as improving biodiversity, providing shelter for stock and beneficial insects for crops, protecting eroded or degrading land, protection of watercourses and improving water quality. |
Primary Industries and Regions SA
|
2018 | Kingscote SA |
Research organisaton
|
|||
Boosting pulse crop performance on acidic soilsTo examine boosting pulse crop performance on acidic soils. |
Department of Primary Industries NSW
DPI NSW GRDC |
2016 | Grafton NSW |
Research organisaton
|
|||
Can mid-infrared diffuse reflectance analysis predict nutrient and micronutrient concentration in soils?To test mid infrared analysis to estimate micronutrient concentrations in soils. |
South Australian Research and Development Institute
|
1999 | Eyre Peninsula SA |
Research organisaton
|
|||
Evaluation of soil sampling procedures for soil nitrogen and diseasesThe aim of this work was to test the robustness of current soil testing procedure |
Birchip Cropping Group
|
2000 | Watchupga East VIC |
Research organisaton
|
|||
Impacts of crop management strategies on nutrient stratification and soil test interpretationTo investigate two management strategies applicable to the Mid-North region that could influence nutrient stratification. |
Hart Field Site Group
|
2016 | SA |
Research organisaton
|
|||
Monitoring manganese in acid soils and wheat in the fieldManganese concentrations in soil and wheat crops were monitored over time in the field. |
South Australian Research and Development Institute
|
1981 | Rutherglen VIC |
Research organisaton
|
|||
Routine procedures for determining copper, zinc, manganese and iron in plant materialsTo compare digestion methods for plant analysis. |
South Australian Research and Development Institute
|
1980 | Waite SA |
Research organisaton
|
|||
Sampling and analytical errors in the estimation of copper, cadmium, zinc and lead in soilsTo establish soil sampling and analysis protocols for micronutrients. |
South Australian Research and Development Institute
|
1975 | Waite SA |
Research organisaton
|
|||
Should we measure easily reducible manganese?To examine which soil analysis to use for manganese. |
South Australian Research and Development Institute
|
1988 | Caragabal NSW |
Research organisaton
|
|||
Soil biological activity testing: is it worth it?To use six different labs (Soil Food Web, CSBP, APAL, AgPath, Microbwise and Solvita) to analyse soil microbiology on six different properties across Kangaroo Island. |
Agriculture Kangaroo Island Incorporated
|
2014 | Kangaroo Island SA |
Research organisaton
|
|||
Soil testing - making the best use of technologyTo report on two demonstration sites to investigate the use of pH nutrient mapping (using PrecisionAg, in the top soil) with pasture growth monitoring (using Decipher) and sub soil contraint mapping (using the EM38). |
Primary Industries and Regions SA
NLP |
2018 | Bolto SA |
Research organisaton
|
|||
The occurrence and diagnosis of manganese toxicities and deficiencies in crops and pastures in NSW, International Symposium on Manganese in Soils and PlantsA short review of manganese in NSW Agriculture. |
South Australian Research and Development Institute
|
1988 | University of Adelaide SA |
Research organisaton
|