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Investigating herbicide tank mixes to control HPPD-resistant wild radish (Raphanus raphanistrum)
https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/03/investigating-herbicide-tank-mixes-to-control-hppd-resistant-wild-radish-raphanus-raphanistrum28 Feb 2023: Wild radish (Raphanus raphanistrum) is an economically damaging weed in Australian farming systems causing growers $53M in financial loss annually (Llewellyn et al 2016). Pyrasulfotole, a type of HPPD inhibitor, is a popular post-emergence broadleaf
- image:
- https://grdc.com.au/__data/assets/image/0038/375887/brandmark_landscape.png
- a:
- Grains Research and Development Corporation
- b:
- Grains Research and Development Corporation
- Date:
- 2023-02-28 00:00:00, 2023-02-28 00:00:00, 2023-03-17, 2023-03-21
- e:
- investigating herbicide tank mixes to control hppd-resistant wild radish (raphanus raphanistrum), summary
- aauthor:
- Rex Cao, Mark Slatter, Danica Goggin and Roberto Busi, Australian Herbicide Resistance Initiative, University of Western Australia, Nufarm Australia
- f:
- text/html
- H:
- da23a3d4ed91d86b92ddfb991a159c73
- j:
- https://grdc.com.au
- l:
- en-AU
- issueno:
- Investigating herbicide tank mixes to control HPPD-resistant wild radish (Raphanus raphanistrum)
- title:
- Investigating herbicide tank mixes to control HPPD-resistant wild radish (Raphanus raphanistrum)
- tags:
- wild radish
- p:
- Grains Research and Development Corporation
- aissueno:
- 03
- thumbfocus:
- thumb-focus-center
- sregion:
- National
- ctype:
- Update Paper
- sstate:
- Western Australia
- asummary:
- Wild radish (Raphanus raphanistrum) is an economically damaging weed in Australian farming systems causing growers $53M in financial loss annually (Llewellyn et al 2016). Pyrasulfotole, a type of HPPD inhibitor, is a popular post-emergence broadleaf
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https://groundcover.grdc.com.au/grdc/awardsscholarships/seed-of-gold-recognises-grains-research-champion
https://groundcover.grdc.com.au/grdc/awardsscholarships/seed-of-gold-recognises-grains-research-champion27 Feb 2023:
- ArticleSummary:
- Former Great Southern grain grower and livestock producer Terry Enright has been recognised for his outstanding contribution to the Australian grains industry, receiving the GRDC Seed of Gold award.
- LastUpdatedDate:
- 19700101
- Date:
- 20230227170000
- ArticlePubDate:
- 27 Feb 2023
- TitlePosition:
- bottom-left
- ArticleSubCategory:
- Awards and Scholarships
- ArticleCaption:
- GRDC Chair John Woods presents Terry Enright with the GRDC Seed of Gold award.
- I:
- https://groundcover.grdc.com.au/__data/assets/image/0040/584977/varieties/thumb550x367.jpg
- ArticleKeywords:
- seed of gold, awards, science, breeding, genetics, AEGIC, LiveCorp,
- ArticleCategory:
- GRDC News
- title:
- Seed of Gold recognises grains research champion
- url:
- https://groundcover.grdc.com.au/grdc/awardsscholarships/seed-of-gold-recognises-grains-research-champion
- CoreTextUser:
- 576875
- sregion:
- National
- ImageFocusPoint:
- 5%
- tab:
- News
- ctype:
- Media Releases
- ArticleAuthor:
- GRDC
- ArticleAssetID:
- 584791
- ArticlePhotographer:
- GRDC
-
Satellite-based remote sensing for PA - GRDC
https://grdc.com.au/resources-and-publications/all-publications/factsheets/2023/satellite-based-remote-sensing-for-pa27 Feb 2023: An overview of the different satellite imagery options available to Australian growers, and for use in precision agriculture (PA).
- a:
- Grains Research and Development Corporation
- b:
- Grains Research and Development Corporation
- Date:
- 2023-02-27 00:00:00
- e:
- satellite-based remote sensing for pa, summary
- pcode:
- SPA2201-001SAX
- f:
- text/html
- H:
- 24a8c82abd6e487732ec49ac50a7cb9a
- I:
- https://grdc.com.au/__data/assets/image/0035/585674/satellite-cover.JPG
- j:
- https://grdc.com.au
- l:
- en-AU
- issueno:
- Satellite-based remote sensing for PA
- title:
- Satellite-based remote sensing for PA
- p:
- Grains Research and Development Corporation
- aissueno:
- 2023
- thumbfocus:
- thumb-focus-center
- sregion:
- National
- ctype:
- Factsheet
- asummary:
- An overview of the different satellite imagery options available to Australian growers, and for use in precision agriculture (PA).
-
https://groundcover.grdc.com.au/grdc/awardsscholarships/wheat-geneticist-wins-prestigious-seed-of-light-award
https://groundcover.grdc.com.au/grdc/awardsscholarships/wheat-geneticist-wins-prestigious-seed-of-light-award27 Feb 2023:
- ArticleSummary:
- Dr Greg Rebetzke, is this year’s recipient of the GRDC 2023 western region Seed of Light Award.
- LastUpdatedDate:
- 19700101
- Date:
- 20230227140000
- ArticlePubDate:
- 27 Feb 2023
- TitlePosition:
- bottom-left
- ArticleSubCategory:
- Awards and Scholarships
- ArticleCaption:
- Plant geneticist Dr Greg Rebetzke, CSIRO, is the winner of the 2023 Seed of Light for the Western region.
- I:
- https://groundcover.grdc.com.au/__data/assets/image/0037/584965/varieties/thumb550x367.jpg
- ArticleKeywords:
- seed of light, awards, western, science, CSIRO, breeding, genetics,
- ArticleCategory:
- GRDC News
- title:
- Wheat geneticist wins prestigious Seed of Light award
- url:
- https://groundcover.grdc.com.au/grdc/awardsscholarships/wheat-geneticist-wins-prestigious-seed-of-light-award
- CoreTextUser:
- 576875
- sregion:
- West
- ImageFocusPoint:
- 5%
- tab:
- News
- ctype:
- Media Releases
- ArticleAuthor:
- GRDC
- ArticleAssetID:
- 584735
- ArticlePhotographer:
- GRDC
-
https://groundcover.grdc.com.au/grdc/announcements/grdc-announces-$12.7m-project-for-long-coleoptile-wheat
https://groundcover.grdc.com.au/grdc/announcements/grdc-announces-$12.7m-project-for-long-coleoptile-wheat27 Feb 2023:
- ArticleSummary:
- GRDC has announced a $12.7 million national research project to support the integration of long coleoptile wheat into Australian farming systems.
- LastUpdatedDate:
- 19700101
- Date:
- 20230227123000
- ArticlePubDate:
- 27 Feb 2023
- TitlePosition:
- middle-left
- ArticleSubCategory:
- Announcements
- ArticleCaption:
- GRDC char John Woods said that long coleoptile wheat could be a ‘game changer’ for growers in low-to-mid rainfall zones, extending options for early sowing to meet the challenges of increasing enterprise sizes and changing climates.
- I:
- https://groundcover.grdc.com.au/__data/assets/image/0030/584850/varieties/thumb550x367.jpg
- ArticleKeywords:
- grdc, research, investment, long coleoptile wheat, cropping, yield, growers, wheat,
- ArticleCategory:
- GRDC News
- title:
- GRDC announces $12.7M project for long coleoptile wheat
- url:
- https://groundcover.grdc.com.au/grdc/announcements/grdc-announces-$12.7m-project-for-long-coleoptile-wheat
- CoreTextUser:
- 424819
- sregion:
- National
- ImageFocusPoint:
- 50%
- tab:
- News
- ctype:
- Media Releases
- ArticleProjectCode:
- CSP2212-007RTX
- ArticleAuthor:
- GRDC
- ArticleAssetID:
- 584846
- ArticlePhotographer:
- GRDC
-
Targeted crop trait improvement through gene editing
https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/02/s12-han-yong27 Feb 2023: Text advanced materials with increased yield potential, nitrogen use efficiency and coleoptile length have been developed and can be transformed into new profitable varieties. New investments are being sought for product commercialisation and
- image:
- https://grdc.com.au/__data/assets/image/0038/375887/brandmark_landscape.png
- a:
- Grains Research and Development Corporation
- b:
- Grains Research and Development Corporation
- Date:
- 2023-02-27 00:00:00, 2023-02-27 00:00:00, 2023-02-22, 2023-02-23
- e:
- targeted crop trait improvement through gene editing, summary
- aauthor:
- Yong Han, Esther Walker, Sakura Karunarathne, Naghmeh Nejat, Jingye Cheng, Chengdao Li
- f:
- text/html
- H:
- a9be40779aa3aedef90d1580b12d3bc7
- j:
- https://grdc.com.au
- l:
- en-AU
- issueno:
- Targeted crop trait improvement through gene editing
- title:
- Targeted crop trait improvement through gene editing
- tags:
- gene editing, semi-dwarf, coleoptile, nitrogen, genetic improvement
- p:
- Grains Research and Development Corporation
- aissueno:
- 02
- thumbfocus:
- thumb-focus-center
- sregion:
- West
- s:
- gene editing, semi-dwarf, coleoptile, nitrogen, genetic improvement
- ctype:
- Update Paper
- sstate:
- Western Australia
- asummary:
- Text advanced materials with increased yield potential, nitrogen use efficiency and coleoptile length have been developed and can be transformed into new profitable varieties. New investments are being sought for product commercialisation and
-
Profitable low-emission crop rotations?
https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/02/s6-karel-sud27 Feb 2023: In some southern WA grainbelt regions it is feasible to alter crop rotation selection while maintaining farm profitability and reducing agricultural GHG emissions. In the northern WA grainbelt, shifting into crop-based rotations increases
- image:
- https://grdc.com.au/__data/assets/image/0038/375887/brandmark_landscape.png
- a:
- Grains Research and Development Corporation
- b:
- Grains Research and Development Corporation
- Date:
- 2023-02-27 00:00:00, 2023-02-27 00:00:00, 2023-02-22, 2023-02-23
- e:
- profitable low-emission crop rotations?, summary
- aauthor:
- Sud Kharel, Christophe d’Abbadie, Amir Abadi, Ross Kingwell
- f:
- text/html
- H:
- 127a59433fcb581707af5da68477f4e4
- j:
- https://grdc.com.au
- l:
- en-AU
- issueno:
- Profitable low-emission crop rotations?
- title:
- Profitable low-emission crop rotations?
- tags:
- land use sequence, farming systems, profitability, crop rotation
- p:
- Grains Research and Development Corporation
- aissueno:
- 02
- thumbfocus:
- thumb-focus-center
- sregion:
- North, South
- s:
- land use sequence, farming systems, profitability, crop rotation
- ctype:
- Update Paper
- sstate:
- Western Australia
- asummary:
- In some southern WA grainbelt regions it is feasible to alter crop rotation selection while maintaining farm profitability and reducing agricultural GHG emissions. In the northern WA grainbelt, shifting into crop-based rotations increases
-
Insecticidal control of green peach aphid and turnip yellows virus – resistance threats, limitations and future alternatives
https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/02/s15-congdon-ben27 Feb 2023: ‘Low-level’ metabolic resistance in green peach aphid (GPA) reduced the effectiveness of neonicotinoid-based seed treatments on canola under semi-field conditions. In two field trials, a pre-emptive foliar application of insecticide in large
- image:
- https://grdc.com.au/__data/assets/image/0038/375887/brandmark_landscape.png
- a:
- Grains Research and Development Corporation
- b:
- Grains Research and Development Corporation
- Date:
- 2023-02-27 00:00:00, 2023-02-27 00:00:00, 2023-02-25, 2023-02-27
- e:
- insecticidal control of green peach aphid and turnip yellows virus – resistance threats, limitations and future alternatives, summary
- aauthor:
- Ben Congdon, Lisa Kirkland and Paul Umina
- f:
- text/html
- H:
- 96f8771911d232482d978e2406851bdf
- j:
- https://grdc.com.au
- l:
- en-AU
- issueno:
- Insecticidal control of green peach aphid and turnip yellows virus – resistance threats, limitations and future alternatives
- title:
- Insecticidal control of green peach aphid and turnip yellows virus – resistance threats, limitations and future alternatives
- tags:
- green peach aphid, turnip yellows virus, insecticide resistance
- p:
- Grains Research and Development Corporation
- aissueno:
- 02
- thumbfocus:
- thumb-focus-center
- sregion:
- West
- s:
- green peach aphid, turnip yellows virus, insecticide resistance
- ctype:
- Update Paper
- sstate:
- Western Australia
- asummary:
- ‘Low-level’ metabolic resistance in green peach aphid (GPA) reduced the effectiveness of neonicotinoid-based seed treatments on canola under semi-field conditions. In two field trials, a pre-emptive foliar application of insecticide in large
-
Predicting profitability of summer weed control timing and impact on crop yield potential
https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/02/s8-oliver-yvette27 Feb 2023: Early spraying trials for summer weeds delivered an additional 15-20mm of stored soil water and 10-30kg/ha retained nitrogen compared to leaving weeds uncontrolled. Summer weed control in 2022 showed there was a trend towards higher yields in the
- image:
- https://grdc.com.au/__data/assets/image/0038/375887/brandmark_landscape.png
- a:
- Grains Research and Development Corporation
- b:
- Grains Research and Development Corporation
- Date:
- 2023-02-27 00:00:00, 2023-02-27 00:00:00, 2023-03-09, 2023-03-10
- e:
- predicting profitability of summer weed control timing and impact on crop yield potential, summary
- pcode:
- CSP2201-005RTX
- aauthor:
- Yvette M. Oliver, Rick Llewellyn, Therese McBeath, Andrew War and Michael Moodie
- f:
- text/html
- H:
- 9b06e2e5392b4848b18f415c65534228
- j:
- https://grdc.com.au
- l:
- en-AU
- issueno:
- Predicting profitability of summer weed control timing and impact on crop yield potential
- title:
- Predicting profitability of summer weed control timing and impact on crop yield potential
- tags:
- summer weeds, soil water, soil nitrogen, crop yield
- p:
- Grains Research and Development Corporation
- aissueno:
- 02
- thumbfocus:
- thumb-focus-center
- sregion:
- West
- s:
- summer weeds, soil water, soil nitrogen, crop yield
- ctype:
- Update Paper
- sstate:
- Western Australia
- asummary:
- Early spraying trials for summer weeds delivered an additional 15-20mm of stored soil water and 10-30kg/ha retained nitrogen compared to leaving weeds uncontrolled. Summer weed control in 2022 showed there was a trend towards higher yields in the
-
K responses on loamy soils: an emerging issue for grain crops
https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/02/s11-bell-richard27 Feb 2023: Yield responses to K fertiliser now demonstrated on loamy soils due to run down in soil K levels. On loamy soils, topdressed K rates of 20 kg K/ha gave maximum wheat grain yield. Soil test K levels required to avoid K deficiency on loamy soils
- image:
- https://grdc.com.au/__data/assets/image/0038/375887/brandmark_landscape.png
- a:
- Grains Research and Development Corporation
- b:
- Grains Research and Development Corporation
- Date:
- 2023-02-27 00:00:00, 2023-02-27 00:00:00, 2023-02-25, 2023-02-27
- e:
- k responses on loamy soils: an emerging issue for grain crops, summary
- pcode:
- UWA1801-002RTX
- aauthor:
- Richard Bell, Craig Scanlan, James Easton, Tim Boyes and Qifu Ma
- f:
- text/html
- H:
- 0545ee926fa824f6965e057b4be9169e
- j:
- https://grdc.com.au
- l:
- en-AU
- issueno:
- K responses on loamy soils: an emerging issue for grain crops
- title:
- K responses on loamy soils: an emerging issue for grain crops
- p:
- Grains Research and Development Corporation
- aissueno:
- 02
- thumbfocus:
- thumb-focus-center
- sregion:
- West
- ctype:
- Update Paper
- sstate:
- Western Australia
- asummary:
- Yield responses to K fertiliser now demonstrated on loamy soils due to run down in soil K levels. On loamy soils, topdressed K rates of 20 kg K/ha gave maximum wheat grain yield. Soil test K levels required to avoid K deficiency on loamy soils
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