Upcoming updates and events

Results

871. Fully-matching results

872. https://groundcover.grdc.com.au/weeds-pests-diseases/diseases/fungicide-resistance-in-queensland-be-alert

     https://groundcover.grdc.com.au/weeds-pests-diseases/diseases/fungicide-resistance-in-queensland-be-alert
     • Cached
     • Explore

     7 Feb 2024:

     ArticleSummary:

     The detection of fungicide resistance in Queensland highlights the need for growers and advisers to be vigilant and access appropriate advice if they suspect issues in crops. The Australian Fungicide Resistance Extension Network provides up-to-date

     LastUpdatedDate:

     19700101

     Date:

     20240207090000

     ArticlePubDate:

     07 Feb 2024

     TitlePosition:

     middle-left

     ArticleSubCategory:

     Diseases

     ArticleCaption:

     Powdery mildew of mungbean is the most recent disease to join the ranks exhibiting resistance to certain fungicides

     I:

     https://groundcover.grdc.com.au/__data/assets/image/0035/595934/varieties/thumb550x367.jpg

     ArticleKeywords:

     fungicide resistance, powdery mildew, Queensland, AFREN

     ArticleCategory:

     Weeds, Pests and Diseases

     title:

     Fungicide resistance in Queensland: be alert

     url:

     https://groundcover.grdc.com.au/weeds-pests-diseases/diseases/fungicide-resistance-in-queensland-be-alert

     CoreTextUser:

     400598

     sregion:

     North

     ImageFocusPoint:

     50%

     tab:

     News

     ctype:

     GroundCover Supplement

     ArticleProjectCode:

     CUR2302-002RTX, USQ2202-001RTX

     ArticleAuthor:

     Dr Sue Knights

     ArticleSupplement:

     Fungicide Resistance - Navigating the storm, January-February 2024

     ArticleAssetID:

     595930

     ArticlePhotographer:

     Levente Kiss

873. https://groundcover.grdc.com.au/grdc/awardsscholarships/communications-expert-and-agronomist-each-win-grains-industry-awards

     https://groundcover.grdc.com.au/grdc/awardsscholarships/communications-expert-and-agronomist-each-win-grains-industry-awards
     • Cached
     • Explore

     6 Feb 2024:

     ArticleSummary:

     Australian agricultural communicator Belinda Cay and agronomist Jana Dixon were celebrated with prestigious awards from the Grains Research and Development Corporation (GRDC). Belinda Cay received the GRDC Seed of Light award for her exceptional

     LastUpdatedDate:

     19700101

     Date:

     20240206150000

     ArticlePubDate:

     06 Feb 2024

     TitlePosition:

     bottom-right

     ArticleSubCategory:

     Awards and Scholarships

     ArticleCaption:

     (left to right) GRDC Southern Panel chair and Victorian grain grower Andrew Russell; AgCommunicators director and recipient of the 2024 GRDC Seed of Light award for the southern region Belinda Cay; GRDC managing director Nigel Hart.

     I:

     https://groundcover.grdc.com.au/__data/assets/image/0032/598208/varieties/thumb550x367.jpg

     ArticleKeywords:

     GRDC, Grains Research Update, Adelaide, Belinda Cay, Jana Dixon, Seed of Light award, Emerging Leader award, agriculture communication, grains industry, agricultural research

     ArticleCategory:

     GRDC News

     title:

     Communications expert and agronomist each win grains industry awards

     url:

     https://groundcover.grdc.com.au/grdc/awardsscholarships/communications-expert-and-agronomist-each-win-grains-industry-awards

     CoreTextUser:

     576875

     sregion:

     South

     ImageFocusPoint:

     36%

     tab:

     News

     ctype:

     Media Releases

     ArticleAuthor:

     GRDC

     ArticleAssetID:

     598204

     ArticlePhotographer:

     Sophie Clayton

874. https://groundcover.grdc.com.au/weeds-pests-diseases/diseases/fungicides-available-for-australian-grain-crops-and-their-modes-of-action

     https://groundcover.grdc.com.au/weeds-pests-diseases/diseases/fungicides-available-for-australian-grain-crops-and-their-modes-of-action
     • Cached
     • Explore

     6 Feb 2024:

     ArticleSummary:

     Fungicide resistance is a serious and increasing issue to be managed in Australian cropping systems. As these chemicals are an important part of an integrated disease management plan understanding their mode of action informs their appropriate use.

     LastUpdatedDate:

     19700101

     Date:

     20240206090000

     ArticlePubDate:

     06 Feb 2024

     TitlePosition:

     middle-left

     ArticleSubCategory:

     Diseases

     ArticleCaption:

     Understanding the mode of action of fungicides is key to managing fungicide resistant disease causing pathogens

     I:

     https://groundcover.grdc.com.au/__data/assets/image/0039/595929/varieties/thumb550x367.jpg

     ArticleKeywords:

     fungicides, modes of action, resistance, AFREN

     ArticleCategory:

     Weeds, Pests and Diseases

     title:

     Fungicides available for Australian grain crops and their modes of action

     url:

     https://groundcover.grdc.com.au/weeds-pests-diseases/diseases/fungicides-available-for-australian-grain-crops-and-their-modes-of-action

     CoreTextUser:

     400598

     sregion:

     National

     ImageFocusPoint:

     50%

     tab:

     News

     ctype:

     GroundCover Supplement

     ArticleProjectCode:

     CUR2302-002RTX

     ArticleAuthor:

     Dr Anna-Sheree Krige

     ArticleSupplement:

     Fungicide Resistance - Navigating the storm, January-February 2024

     ArticleAssetID:

     595925

     ArticlePhotographer:

     Dr Anna-Sheree Krige, CCDM and AFREN

875. Cereal disease update 2024 - GRDC

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/cereal-disease-update-2024
     • Cached
     • Explore

     6 Feb 2024: Proactive disease management, which combines variety selection, paddock selection and appropriate fungicide use, provides proven sustainable and economic disease control. Septoria tritici blotch reduced grain yield in highly susceptible wheat

     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:

     6/2/2024, 2024-02-06 00:00:00, 2024-01-17, 2024-01-17

     e:

     cereal disease update 2024, summary

     pcode:

     DJP2104-004RTX, DAQ2304-008RTX, DAW2112-002RTX, UOS2207-002RTX, CUR2302-002RTX

     aauthor:

     Grant Hollaway (Astute Ag, Horsham), Hari Dadu (Agriculture Victoria, Horsham), Robert Park, Mumta Chhetri (The University of Sydney), Tara Garrard (SARDI), Sheree Krige (CCDM, Curtin University)

     f:

     text/html

     H:

     48bc35d2067657bb0afcc9292a5eb248

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Cereal disease update 2024

     title:

     Cereal disease update 2024

     tags:

     fungicide resistance, net blotch, septoria tritici blotch, stripe rust

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     fungicide resistance, net blotch, septoria tritici blotch, stripe rust

     ctype:

     Update Paper

     asummary:

     Proactive disease management, which combines variety selection, paddock selection and appropriate fungicide use, provides proven sustainable and economic disease control. Septoria tritici blotch reduced grain yield in highly susceptible wheat

876. Taking the lab to the field - GRDC

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/taking-the-lab-to-the-field
     • Cached
     • Explore

     6 Feb 2024: Paper presented by Peter Johnston from Hone Corporation at the GRDC Grains Research Updates in Bendigo, Adelaide, Wagga Wagga, Dubbo & Goondiwindi on taking the lab to the field

     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:

     2024-02-06 00:00:00, 2024-02-06 00:00:00, 2024-01-31, 2024-02-06

     e:

     taking the lab to the field, summary

     aauthor:

     Peter Johnston (Hone Corporation)

     f:

     text/html

     H:

     e3d066ba1b5d96d463fb86c1c8fd30a4

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Taking the lab to the field

     title:

     Taking the lab to the field

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     North

     s:

     Peter Johnston, Lily Clifton, Hone Corporation, GRDC Grains Research Update, Adelaide, Bendigo, Wagga Wagga, Dubbo, Goondiwindi, cereal grain moisture, cereal grain protein, grain quality, spectral models

     ctype:

     Update Paper

     sstate:

     New South Wales, Queensland, South Australia, Victoria

     asummary:

     Paper presented by Peter Johnston from Hone Corporation at the GRDC Grains Research Updates in Bendigo, Adelaide, Wagga Wagga, Dubbo & Goondiwindi on taking the lab to the field

877. Optimising efficacy of pre-emergent chemistry - GRDC

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/optimising-efficacy-of-pre-emergent-chemistry
     • Cached
     • Explore

     6 Feb 2024: There are four main causes for pre-emergent herbicides to fail to control weeds: herbicide resistance, too little persistence, too little rainfall and too much rainfall. Understanding the properties of pre-emergent herbicides can ensure the best

     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:

     6/2/2024, 2024-02-02 00:00:00, 2024-01-17, 2024-01-17

     e:

     optimising efficacy of pre-emergent chemistry , summary

     aauthor:

     Christopher Preston (Optimising efficacy of pre-emergent chemistry )

     f:

     text/html

     H:

     be8560ca4c9f217e3eef40c47f83310a

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Optimising efficacy of pre-emergent chemistry

     title:

     Optimising efficacy of pre-emergent chemistry

     tags:

     annual ryegrass, herbicide resistance, pre-emergent herbicide, solubility

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     annual ryegrass, herbicide resistance, pre-emergent herbicide, solubility

     ctype:

     Update Paper

     asummary:

     There are four main causes for pre-emergent herbicides to fail to control weeds: herbicide resistance, too little persistence, too little rainfall and too much rainfall. Understanding the properties of pre-emergent herbicides can ensure the best

878. Pod-set in faba bean – benchmarks and physiology - GRDC

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/pod-set-in-faba-bean-benchmarks-and-physiology
     • Cached
     • Explore

     6 Feb 2024: Pod number can be used to estimate grain yield in southern Australia: every 100 pods/m2 (that contain grain at maturity) equate to approximately 1t/ha for cultivars released since 2013. Grain yield, grain number and pod number are associated with

     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:

     2024-02-06 00:00:00, 2024-02-06 00:00:00, 2024-01-29, 2024-01-29

     e:

     pod-set in faba bean – benchmarks and physiology, summary

     pcode:

     UOA2202-006RSX, UOA2204-004RTX

     aauthor:

     James Manson (University of Adelaide), Victor Sadras (University of Adelaide, South Australian Research and Development Institute)

     f:

     text/html

     H:

     6221d01314a01f734898d6ef986e739b

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Pod-set in faba bean – benchmarks and physiology

     title:

     Pod-set in faba bean – benchmarks and physiology

     tags:

     biomass, critical period, harvest index, pulses

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     biomass, critical period, harvest index, pulses

     ctype:

     Update Paper

     sstate:

     South Australia

     asummary:

     Pod number can be used to estimate grain yield in southern Australia: every 100 pods/m2 (that contain grain at maturity) equate to approximately 1t/ha for cultivars released since 2013. Grain yield, grain number and pod number are associated with

879. Strategic use of zinc phosphide is critical for successful mouse control - GRDC

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/strategic-use-of-zinc-phosphide-is-critical-for-successful-mouse-control
     • Cached
     • Explore

     6 Feb 2024: Reducing background food is critical to achieving effective bait uptake. 2mg of ZnP is required on each grain to deliver a lethal dose to a 15g mouse (Hinds et al. 2023). Grain bait mixed at 50g ZnP/kg wheat is significantly more effective.

     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:

     2024-02-06 00:00:00, 2024-02-06 00:00:00, 2024-01-31, 2024-01-31

     e:

     strategic use of zinc phosphide is critical for successful mouse control, summary

     pcode:

     CSP1804-012RTX

     aauthor:

     Steve Henry, Lyn Hinds, Wendy Ruscoe, Peter Brown, Nikki Van de Weyer, Freya Robinson (CSIRO Health and Biosecurity, Canberra), Richard Duncan (University of Canberra)

     f:

     text/html

     H:

     ef84dbb89bd98b53d614fb631f8f2e0f

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Strategic use of zinc phosphide is critical for successful mouse control

     title:

     Strategic use of zinc phosphide is critical for successful mouse control

     tags:

     background food, bait aversion, zinc phosphide

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     background food, bait aversion, zinc phosphide

     ctype:

     Update Paper

     sstate:

     South Australia

     asummary:

     Reducing background food is critical to achieving effective bait uptake. 2mg of ZnP is required on each grain to deliver a lethal dose to a 15g mouse (Hinds et al. 2023). Grain bait mixed at 50g ZnP/kg wheat is significantly more effective.

880. Yield potential of synthetic auxin herbicide tolerant field pea - GRDC

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/yield-potential-of-synthetic-auxin-herbicide-tolerant-field-pea
     • Cached
     • Explore

     6 Feb 2024: New pulse varieties with improved tolerance to synthetic auxin herbicides are being trialled. Herbicide tolerance traits don’t have to come with a big yield penalty. A 27% increase in grain yield is possible through a single gene regulating plant

     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:

     2024-02-06 00:00:00, 2024-02-06 00:00:00, 2024-01-31, 2024-01-31

     e:

     yield potential of synthetic auxin herbicide tolerant field pea, summary

     pcode:

     UOA2006-009RSX

     aauthor:

     Simon Michelmore, Timothy Sutton (Waite Research Institute, School of Agriculture, Food and Wine, The University of Adelaide), Philip Brewer, Matthew Tucker (Waite Research Institute, School of Agriculture, Food and Wine, The University of Adelaide)

     f:

     text/html

     H:

     9a1c2c8a11f11b0a4694dea1c93ac4ba

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Yield potential of synthetic auxin herbicide tolerant field pea

     title:

     Yield potential of synthetic auxin herbicide tolerant field pea

     tags:

     field pea, herbicide tolerance, pulse legumes, yield potential

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     field pea, herbicide tolerance, pulse legumes, yield potential

     ctype:

     Update Paper

     sstate:

     South Australia

     asummary:

     New pulse varieties with improved tolerance to synthetic auxin herbicides are being trialled. Herbicide tolerance traits don’t have to come with a big yield penalty. A 27% increase in grain yield is possible through a single gene regulating plant

881. Fungicide resistant wheat powdery mildew – mildewcide success at Malinong - GRDC

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/fungicide-resistant-wheat-powdery-mildew-mildewcide-success-at-malinong
     • Cached
     • Explore

     6 Feb 2024: Fungicide resistance surveys indicate increasing levels of QoI fungicide resistance and saturation of the mutation associated with DMI fungicide reduced sensitivity. DMI and QoI fungicides failed to reduce wheat powdery mildew at Malinong in 2023.

     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:

     2024-02-06 00:00:00, 2024-02-06 00:00:00, 2024-01-31, 2024-01-31

     e:

     fungicide resistant wheat powdery mildew – mildewcide success at malinong, summary

     pcode:

     TRE2204-001RTX

     aauthor:

     Stuart Sherriff, Sam Trengove, Sarah Noack, Jordan Bruce, Declan Anderson (Trengove Consulting), Fran Lopez Ruiz, Kejal Dodhia (Centre for Crop and Disease Management, Curtin University, Perth)

     f:

     text/html

     H:

     5dc69b2f49cad839460cdb1c4d8e0f59

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Fungicide resistant wheat powdery mildew – mildewcide success at Malinong

     title:

     Fungicide resistant wheat powdery mildew – mildewcide success at Malinong

     tags:

     disease management, fungicide resistance, wheat powdery mildew

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     disease management, fungicide resistance, wheat powdery mildew

     ctype:

     Update Paper

     sstate:

     South Australia

     asummary:

     Fungicide resistance surveys indicate increasing levels of QoI fungicide resistance and saturation of the mutation associated with DMI fungicide reduced sensitivity. DMI and QoI fungicides failed to reduce wheat powdery mildew at Malinong in 2023.