The information contained in this publication is based on knowledge and understanding at the time of writing (July 2022) and may not be accurate, current or complete. The State of New South Wales (including the Department of Regional New South Wales), 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) |
Brian Dunn Tina Dunn |
|---|---|
| Contact email | brian.dunn@dpi.nsw.gov.au |
| Year(s) | 2019 - 2022 |
| Contributor | Department of Primary Industries NSW |
| Trial location(s) |
Benerembah, NSW
Bunnaloo, NSW Coleambally, NSW Jerilderie, NSW Leeton, NSW Logie Brae, NSW Mayrung, NSW Moulamein, NSW Yenda, NSW |
| Further information | View external link |
Rice variety V071 compared with Reiziq
• Three seasons of research have provided confidence that V071 is a superior rice variety to Reiziq in all agronomic attributes.
• The V071 grain yield was higher than Reiziq in all experiments by an average of 1.43 t/ha.
• V071 development does not slow during periods of low temperatures like Reiziq, which is very beneficial in cool seasons.
• V071 has strong emergence and establishment vigour like Reiziq, and a higher tolerance to grain shattering than Reiziq.
• Provided V071 meets market quality requirements, it is showing potential to be a welcome replacement for Reiziq, the current industry standard bold medium-grain rice variety for the past 18 years.
| Lead research organisation |
Department of Primary Industries NSW |
|---|---|
| Host research organisation | N/A |
| Trial funding source | New South Wales DPI PRJ-009790 |
| Trial funding source | AgriFutures PRJ-013235 |
| Related program | N/A |
| Acknowledgments |
The experiments reported in this article were part of the ‘Rice variety nitrogen and agronomic management’ project, PRJ-009790, 2015–20 and the ‘Agronomy and remote sensing to maximise rice water productivity’ project, PRJ-013235, 2021–24 with joint investment from AgriFutures and NSW DPI. Thank you to Rice Research Australia Pty Ltd personnel, particularly Ben Heaslip for their support with this project. |
| Other trial partners | Not specified |
| Crop type | Cereal (Grain): Rice |
|---|---|
| Treatment type(s) |
|
| Trial type | Experimental |
| Trial design | Replicated |
| Sowing machinery |
Please see trial report for treatment details |
|---|---|
| Sow date | Unknown |
| Harvest date | Unknown |
| Plot size | 2.4m x 12m |
| Plot replication | 3 |
| Psuedoreplication | Not specified |
| Plot randomisation | Y |
| Fertiliser |
All experiments included several nitrogen (N) treatments with a range of permanent water (PW) N rates to suit each specific field and splits with PI applied N to determine each variety’s optimal N rate and timing requirements. |
| Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2022, available at |
| Sowing machinery |
Please see trial report for treatment details |
|---|---|
| Sow date | Unknown |
| Harvest date | Unknown |
| Plot size | 2.4m x 12m |
| Plot replication | 3 |
| Psuedoreplication | Not specified |
| Plot randomisation | Y |
| Fertiliser |
All experiments included several nitrogen (N) treatments with a range of permanent water (PW) N rates to suit each specific field and splits with PI applied N to determine each variety’s optimal N rate and timing requirements. |
| Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2022, available at |
| Sowing machinery |
Please see trial report for treatment details |
|---|---|
| Sow date | Unknown |
| Harvest date | Unknown |
| Plot size | 2.4m x 12m |
| Plot replication | 3 |
| Psuedoreplication | Not specified |
| Plot randomisation | Y |
| Fertiliser |
All experiments included several nitrogen (N) treatments with a range of permanent water (PW) N rates to suit each specific field and splits with PI applied N to determine each variety’s optimal N rate and timing requirements. |
| Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2022, available at |
| Sowing machinery |
Please see trial report for treatment details |
|---|---|
| Sow date | Unknown |
| Harvest date | Unknown |
| Plot size | 2.4m x 12m |
| Plot replication | 3 |
| Psuedoreplication | Not specified |
| Plot randomisation | Y |
| Fertiliser |
All experiments included several nitrogen (N) treatments with a range of permanent water (PW) N rates to suit each specific field and splits with PI applied N to determine each variety’s optimal N rate and timing requirements. |
| Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2022, available at |
| Sowing machinery |
Please see trial report for treatment details |
|---|---|
| Sow date | Unknown |
| Harvest date | Unknown |
| Plot size | 2.4m x 12m |
| Plot replication | 3 |
| Psuedoreplication | Not specified |
| Plot randomisation | Y |
| Fertiliser |
All experiments included several nitrogen (N) treatments with a range of permanent water (PW) N rates to suit each specific field and splits with PI applied N to determine each variety’s optimal N rate and timing requirements. |
| Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2022, available at |
| Sowing machinery |
Please see trial report for treatment details |
|---|---|
| Sow date | Unknown |
| Harvest date | Unknown |
| Plot size | 2.4m x 12m |
| Plot replication | 3 |
| Psuedoreplication | Not specified |
| Plot randomisation | Y |
| Fertiliser |
All experiments included several nitrogen (N) treatments with a range of permanent water (PW) N rates to suit each specific field and splits with PI applied N to determine each variety’s optimal N rate and timing requirements. |
| Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2022, available at |
| Sowing machinery |
Please see trial report for treatment details |
|---|---|
| Sow date | Unknown |
| Harvest date | Unknown |
| Plot size | 2.4m x 12m |
| Plot replication | 3 |
| Psuedoreplication | Not specified |
| Plot randomisation | Y |
| Fertiliser |
All experiments included several nitrogen (N) treatments with a range of permanent water (PW) N rates to suit each specific field and splits with PI applied N to determine each variety’s optimal N rate and timing requirements. |
| Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2022, available at |
| Sowing machinery |
Please see trial report for treatment details |
|---|---|
| Sow date | Unknown |
| Harvest date | Unknown |
| Plot size | 2.4m x 12m |
| Plot replication | 3 |
| Psuedoreplication | Not specified |
| Plot randomisation | Y |
| Fertiliser |
All experiments included several nitrogen (N) treatments with a range of permanent water (PW) N rates to suit each specific field and splits with PI applied N to determine each variety’s optimal N rate and timing requirements. |
| Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2022, available at |
| Sowing machinery |
Please see trial report for treatment details |
|---|---|
| Sow date | Unknown |
| Harvest date | Unknown |
| Plot size | 2.4m x 12m |
| Plot replication | 3 |
| Psuedoreplication | Not specified |
| Plot randomisation | Y |
| Fertiliser |
All experiments included several nitrogen (N) treatments with a range of permanent water (PW) N rates to suit each specific field and splits with PI applied N to determine each variety’s optimal N rate and timing requirements. |
| Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2022, available at |
| Sowing machinery |
Please see trial report for treatment details |
|---|---|
| Sow date | Unknown |
| Harvest date | Unknown |
| Plot size | 2.4m x 12m |
| Plot replication | 3 |
| Psuedoreplication | Not specified |
| Plot randomisation | Y |
| Fertiliser |
All experiments included several nitrogen (N) treatments with a range of permanent water (PW) N rates to suit each specific field and splits with PI applied N to determine each variety’s optimal N rate and timing requirements. |
| Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2022, available at |
| Sowing machinery |
Please see trial report for treatment details |
|---|---|
| Sow date | Unknown |
| Harvest date | Unknown |
| Plot size | 2.4m x 12m |
| Plot replication | 3 |
| Psuedoreplication | Not specified |
| Plot randomisation | Y |
| Fertiliser |
All experiments included several nitrogen (N) treatments with a range of permanent water (PW) N rates to suit each specific field and splits with PI applied N to determine each variety’s optimal N rate and timing requirements. |
| Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2022, available at |
| Sowing machinery |
Please see trial report for treatment details |
|---|---|
| Sow date | Unknown |
| Harvest date | Unknown |
| Plot size | 2.4m x 12m |
| Plot replication | 3 |
| Psuedoreplication | Not specified |
| Plot randomisation | Y |
| Fertiliser |
All experiments included several nitrogen (N) treatments with a range of permanent water (PW) N rates to suit each specific field and splits with PI applied N to determine each variety’s optimal N rate and timing requirements. |
| Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2022, available at |
| Sowing machinery |
Please see trial report for treatment details |
|---|---|
| Sow date | Unknown |
| Harvest date | Unknown |
| Plot size | 2.4m x 12m |
| Plot replication | 3 |
| Psuedoreplication | Not specified |
| Plot randomisation | Y |
| Fertiliser |
All experiments included several nitrogen (N) treatments with a range of permanent water (PW) N rates to suit each specific field and splits with PI applied N to determine each variety’s optimal N rate and timing requirements. |
| Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2022, available at |
| Sowing machinery |
Please see trial report for treatment details |
|---|---|
| Sow date | Unknown |
| Harvest date | Unknown |
| Plot size | 2.4m x 12m |
| Plot replication | 3 |
| Psuedoreplication | Not specified |
| Plot randomisation | Y |
| Fertiliser |
All experiments included several nitrogen (N) treatments with a range of permanent water (PW) N rates to suit each specific field and splits with PI applied N to determine each variety’s optimal N rate and timing requirements. |
| Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2022, available at |
| Sowing machinery |
Please see trial report for treatment details |
|---|---|
| Sow date | Unknown |
| Harvest date | Unknown |
| Plot size | 2.4m x 12m |
| Plot replication | 3 |
| Psuedoreplication | Not specified |
| Plot randomisation | Y |
| Fertiliser |
All experiments included several nitrogen (N) treatments with a range of permanent water (PW) N rates to suit each specific field and splits with PI applied N to determine each variety’s optimal N rate and timing requirements. |
| Other trial notes |
This research paper is an extract from the publication Southern NSW Research Results 2022, 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.
Plant Breeders’ Rights (PBR)
Some crop varieties used in research trials may be covered by Plant Breeders' Rights (PBR). Users should confirm PBR status of relevant varieties by searching the IP Australia PBR database, http://pericles.ipaustralia.gov.au/pbr_db/ or Variety Central (http://varietycentral.com.au/) and contacting variety owners for further information if required. Where possible, varieties have been listed according to their registered PBR name, although OFT cannot and does not guarantee that the information is accurate or complete.
Note that PBR cover is administered through the Plant Breeders’ Right Act 1994 (