The information contained in this publication is based on knowledge and understanding at the time of writing (June 2017) and may not be accurate, current or complete. The State of New South Wales (including the NSW Department of Industry), the author and the publisher take no responsibility, and will accept no liability, for the accuracy, currency, reliability or correctness of any information included in the document (including material provided by third parties). Readers should make their own inquiries and rely on their own advice when making decisions related to material contained in this publication. The product trade names in this publication are supplied on the understanding that no preference between equivalent products is intended and that the inclusion of a product name does not imply endorsement by the department over any equivalent product from another manufacturer.
Researcher(s) |
Brad Baxter (NSW DPI) Tony Goldthorpe (NSW DPI) Andrew Milgate (NSW DPI) |
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Year(s) | 2011 - 2015 |
Contributor | Department of Primary Industries NSW |
Trial location(s) |
Wagga Wagga, ACT
Cowra, NSW |
Further information | View external link |
In this series of experiments, we have quantified the extent of yield loss displayed in a number of commonly grown winter cereal varieties in southern New South Wales across four years.
• Winter cereal varieties differ in their levels of yield loss and responsiveness to crown rot and growers can use these rankings to improve production in the presence of this disease.
• Grain yield and responsiveness to crown rot appear strongly correlated in these experiments.
• Grain yield losses vary between seasons with up to a 25% reduction measured in southern NSW.
The experimental designs were fully randomised with four replicates per genotype and treatment.
Lead research organisation | N/A |
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Host research organisation | N/A |
Trial funding source | GRDC DAN00175 |
Trial funding source | DPI NSW |
Related program | N/A |
Acknowledgments |
This experiment has been conducted under the ‘National crown rot management program – Southern NSW component’, DAN00175, 2014–18, with joint investment by GRDC and NSWDPI. |
Other trial partners | Not specified |
Crop types | Cereal (Grain): Barley Cereal (Grain): Wheat |
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Treatment type(s) |
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Trial type | |
Trial design |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Sowing dates were delayed until the first week of June in all the years to maximise the opportunity |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | 2 |
Inoculant | Inoculum was applied using two different methods. In the experiments conducted between 2011 and 2013, spores of F. pseudograminearum were sprayed directly onto the varieties’ seed. In the experiments from 2014 to 2015, the inoculum was applied as st |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
Sow date | Not specified |
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Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Inoculant | Not specified |
Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2017, available at |
SILO weather estimates sourced from https://www.longpaddock.qld.gov.au/silo/
Jeffrey, S.J., Carter, J.O., Moodie, K.B. and Beswick, A.R. (2001). Using spatial interpolation to construct a comprehensive archive of Australian climate data , Environmental Modelling and Software, Vol 16/4, pp 309-330. DOI: 10.1016/S1364-8152(01)00008-1.