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  2. https://groundcover.grdc.com.au/weeds-pests-diseases/diseases/first-reports-of-wheat-stripe-rust-for-2023-suggest-widespread-over-seasoning

    https://groundcover.grdc.com.au/weeds-pests-diseases/diseases/first-reports-of-wheat-stripe-rust-for-2023-suggest-widespread-over-seasoning

    30 Aug 2023:

    ArticleSummary:
    The first detection of stripe rust on 7 July this year was about nine weeks later than in 2022; then, it was first detected on 20 May and one of the worst stripe rust epidemics experienced in eastern Australia ensued. Reports of stripe rust after
    LastUpdatedDate:
    19700101
    Date:
    20230830090000
    ArticlePubDate:
    30 Aug 2023
    TitlePosition:
    top-left
    ArticleSubCategory:
    Diseases
    ArticleCaption:
    A widespread stripe rust epidemic in eastern Australian wheat crops in 2022 resulted in significant costs to the industry through yield loss and the need to use fungicide.
    I:
    https://groundcover.grdc.com.au/__data/assets/image/0032/590684/varieties/thumb550x367.jpg
    ArticleEdition:
    Issue 166, September-October 2023
    ArticleKeywords:
    wheat rust, stripe rust, Robert Park, cereal rust pathogen, green bridge, rust virulence, varietal response
    ArticleCategory:
    Weeds, Pests and Diseases
    title:
    First reports of wheat stripe rust for 2023 suggest widespread over-seasoning
    url:
    https://groundcover.grdc.com.au/weeds-pests-diseases/diseases/first-reports-of-wheat-stripe-rust-for-2023-suggest-widespread-over-seasoning
    CoreTextUser:
    400580
    sregion:
    National
    ImageFocusPoint:
    50%
    tab:
    News
    ctype:
    GroundCover
    ArticleProjectCode:
    UOS1707-003RTX, UOS1801-001RTX, UOS1801-004RTX
    ArticleAuthor:
    By Professor Robert Park and Dr Mumta Chhetri, Plant Breeding Institute
    ArticleAssetID:
    590680
    ArticlePhotographer:
    Robert Park

  3. Disease management update in cereals - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/08/disease-management-update-in-cereals

    30 Aug 2023: Don’t automatically farm the 2023 crop with 2022 disease management strategies. Following the very wet 2022 season, STB is widespread in the base of many wheat crops. However, unless it is wet during stem elongation, it is unlikely to spread up

    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:
    30/08/2023, 2023-08-30 00:00:00, 2023-08-21, 2023-08-21
    e:
    disease management update in cereals, summary
    pcode:
    CUR2302-002RTX, TRE2204-001RTX, DJPR2104-004RTX
    aauthor:
    Nick Poole, Darcy Warren, Tom Price (Field Applied Research (FAR) Australia)
    f:
    text/html
    H:
    232eca143f351f5d29ea2e25a7b27085
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Disease management update in cereals
    title:
    Disease management update in cereals
    tags:
    fungicide resistance and reduced sensitivity, Septoria tritici blotch (STB), stripe rust, wheat powdery mildew (WPM).
    p:
    Grains Research and Development Corporation
    aissueno:
    08
    thumbfocus:
    thumb-focus-center
    sregion:
    South
    s:
    fungicide resistance and reduced sensitivity, Septoria tritici blotch (STB), stripe rust, wheat powdery mildew (WPM).
    ctype:
    Update Paper
    sstate:
    South Australia
    asummary:
    Don’t automatically farm the 2023 crop with 2022 disease management strategies. Following the very wet 2022 season, STB is widespread in the base of many wheat crops. However, unless it is wet during stem elongation, it is unlikely to spread up

  4. Emerging blackleg challenges this season - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/08/emerging-blackleg-challenges-this-season

    30 Aug 2023: Seedling infection levels of blackleg in 2022 were not severe, as the season prior to spring was very conducive for excellent plant growth. Crown canker was low due to good blackleg resistant cultivars, highly effective SDHI fungicides and most

    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:
    30/08/2023, 2023-08-30 00:00:00, 2023-08-21, 2023-08-21
    e:
    emerging blackleg challenges this season, summary
    pcode:
    UOM1904-004RTX, UOM1306-001RMX, CSP1706-015RMX, MGP1905-001SAX
    aauthor:
    Alec McCallum (School of BioSciences, University of Melbourne,Marcroft Grains Pathology) , Steve Marcroft, Nick Perndt (Marcroft Grains Pathology), Angela Van de Wouw (School of BioSciences, University of Melbourne), Susie Sprague (CSIRO Agriculture
    f:
    text/html
    H:
    cbcf59e8be6343449dc0dcb985986ec3
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Emerging blackleg challenges this season
    title:
    Emerging blackleg challenges this season
    tags:
    blackleg, canola, seed treatment, stubble management
    p:
    Grains Research and Development Corporation
    aissueno:
    08
    thumbfocus:
    thumb-focus-center
    sregion:
    South
    s:
    blackleg, canola, seed treatment, stubble management
    ctype:
    Update Paper
    sstate:
    South Australia
    asummary:
    Seedling infection levels of blackleg in 2022 were not severe, as the season prior to spring was very conducive for excellent plant growth. Crown canker was low due to good blackleg resistant cultivars, highly effective SDHI fungicides and most

  5. Combatting weed resistance – best practice management for tackling stubborn resistance with ryegrass, radish, fleabane plus others in the…

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/08/combatting-weed-resistance-best-practice-management-for-tackling-stubborn-resistance-with-ryegrass-radish-fleabane-plus-others-in-the-vic-wimmera

    30 Aug 2023: Herbicide resistance is most prevalent in ryegrass, sowthistle (milk thistle) and prickly lettuce (whip thistle). It is less common in brome, barley grass, wild oats, wild radish, Indian hedge mustard and fleabane. The most common resistance is to

    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:
    30/08/2023, 2023-08-30 00:00:00, 2023-08-21, 2023-08-21
    e:
    combatting weed resistance – best practice management for tackling stubborn resistance with ryegrass, radish, fleabane plus others in the vic wimmera, summary
    pcode:
    UCS1306-001RMX, UCS2008-001RTX
    aauthor:
    Peter Boutsalis, Alicia Merriam, Gurjeet Gill, Christopher Preston (School of Agriculture, Food and Wine, University of Adelaide), John Broster (Graham Centre for Agricultural Innovation, Charles Sturt University, Wagga Wagga)
    f:
    text/html
    H:
    e4e5c1380bca84acdb2ec7ab7db766d7
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Combatting weed resistance – best practice management for tackling stubborn resistance with ryegrass, radish, fleabane plus others in the Vic Wimmera
    title:
    Combatting weed resistance – best practice management for tackling stubborn resistance with ryegrass, radish, fleabane plus others in the Vic Wimmera
    tags:
    broadleaf and grass weeds, herbicide resistance, random weed survey, resistance testing
    p:
    Grains Research and Development Corporation
    aissueno:
    08
    thumbfocus:
    thumb-focus-center
    sregion:
    South
    s:
    broadleaf and grass weeds, herbicide resistance, random weed survey, resistance testing
    ctype:
    Update Paper
    sstate:
    South Australia
    asummary:
    Herbicide resistance is most prevalent in ryegrass, sowthistle (milk thistle) and prickly lettuce (whip thistle). It is less common in brome, barley grass, wild oats, wild radish, Indian hedge mustard and fleabane. The most common resistance is to

  6. https://groundcover.grdc.com.au/innovation/industry-insights/why-grain-quality-laboratory-accreditation-matters

    https://groundcover.grdc.com.au/innovation/industry-insights/why-grain-quality-laboratory-accreditation-matters

    29 Aug 2023:

    ArticleSummary:
    The Australian Export Grains Innovation Centre Sydney has long supported the Australian grains industry with highly regarded analytical services that help underpin consumer confidence in grain food products. Playing a hidden but vital role is the
    LastUpdatedDate:
    19700101
    Date:
    20230829090000
    ArticlePubDate:
    29 Aug 2023
    TitlePosition:
    bottom-left
    ArticleSubCategory:
    Industry Insights
    ArticleCaption:
    Australian Export Grains Innovation Centre laboratories have been officially accredited for more than 70 years.
    I:
    https://groundcover.grdc.com.au/__data/assets/image/0035/590678/varieties/thumb550x367.jpg
    ArticleEdition:
    Issue 166, September-October 2023
    ArticleKeywords:
    AEGIC, NATA, accreditation, grain testing, grain food products, laboratory certification, AEGIC Sydney
    ArticleCategory:
    Innovation
    title:
    Why grain quality laboratory accreditation matters
    url:
    https://groundcover.grdc.com.au/innovation/industry-insights/why-grain-quality-laboratory-accreditation-matters
    CoreTextUser:
    400580
    sregion:
    National
    ImageFocusPoint:
    10%
    tab:
    News
    ctype:
    GroundCover
    ArticleAuthor:
    AEGIC
    ArticleAssetID:
    590674
    ArticlePhotographer:
    AEGIC

  7. Fungicide resistant wheat powdery mildew – update on management and resistance testing - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/08/fungicide-resistant-wheat-powdery-mildew-update-on-management-and-resistance-testing

    29 Aug 2023: Varietal resistance can play an important role in managing wheat powdery mildew. The variety Grenade CL PlusA (MS) had less powdery mildew infection in the untreated than Chief CL PlusA and ScepterA (SVS) treated with a two-spray fungicide strategy.

    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:
    29/08/2023, 2023-08-29 00:00:00, 2023-08-22, 2023-08-22
    e:
    fungicide resistant wheat powdery mildew – update on management and resistance testing, summary
    pcode:
    TRE2204-001RTX
    aauthor:
    Sam Trengove, Stuart Sherriff, Jordan Bruce (Trengove Consulting), Fran Lopez Ruiz, Kejal Dodhia (Centre for Crop and Disease Management, Curtin University, Perth), Nick Poole, Ben Morris ( FAR Australia)
    f:
    text/html
    H:
    cf808211e0ecae5f3da57e48a68fd80a
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Fungicide resistant wheat powdery mildew – update on management and resistance testing
    title:
    Fungicide resistant wheat powdery mildew – update on management and resistance testing
    tags:
    disease management, fungicide resistance, wheat powdery mildew
    p:
    Grains Research and Development Corporation
    aissueno:
    08
    thumbfocus:
    thumb-focus-center
    sregion:
    South
    s:
    disease management, fungicide resistance, wheat powdery mildew
    ctype:
    Update Paper
    sstate:
    South Australia
    asummary:
    Varietal resistance can play an important role in managing wheat powdery mildew. The variety Grenade CL PlusA (MS) had less powdery mildew infection in the untreated than Chief CL PlusA and ScepterA (SVS) treated with a two-spray fungicide strategy.

  8. Snail (and slug) control – key strategies and where to next - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/08/snail-and-slug-control-key-strategies-and-where-to-next

    29 Aug 2023: Timing and persistence are the keys to managing snails effectively. Seasonal weather contributed to high snail and slug populations in 2022/2023. Control summer weeds and bait early in autumn. The ‘Nail the Snails’ management guide is now

    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:
    29/08/2023, 2023-08-29 00:00:00, 2023-08-22, 2023-08-22
    e:
    snail (and slug) control – key strategies and where to next, summary
    pcode:
    UOA2205-005RTX, SAG2205-002OPX
    aauthor:
    Kym Perry (SARDI Entomology)
    f:
    text/html
    H:
    11e4d8286e5957e7a2132fbc6b63a943
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Snail (and slug) control – key strategies and where to next
    title:
    Snail (and slug) control – key strategies and where to next
    tags:
    baiting, slugs, small pointed snails, weed control
    p:
    Grains Research and Development Corporation
    aissueno:
    08
    thumbfocus:
    thumb-focus-center
    sregion:
    South
    s:
    baiting, slugs, small pointed snails, weed control
    ctype:
    Update Paper
    sstate:
    South Australia
    asummary:
    Timing and persistence are the keys to managing snails effectively. Seasonal weather contributed to high snail and slug populations in 2022/2023. Control summer weeds and bait early in autumn. The ‘Nail the Snails’ management guide is now

  9. Nutrition strategies to mitigate yield losses following waterlogging – lessons from southern environments - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/08/nutrition-strategies-to-mitigate-yield-losses-following-waterlogging-lessons-from-southern-environments

    29 Aug 2023: Waterlogging reduces crop canopy cover, and affected areas should be reassessed as the lower yield potential is likely to reduce the nitrogen requirements. Yield potential of canola affected by waterlogging can be restored up to the flowering stage

    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:
    29/08/2023, 2023-08-29 00:00:00, 2023-08-21, 2023-08-22
    e:
    nutrition strategies to mitigate yield losses following waterlogging – lessons from southern environments, summary
    pcode:
    UOT2306-001RTX, UOQ2204-010RTX
    aauthor:
    Malcolm McCaskill, Roger Armstrong (Agriculture Victoria Research), Meixue Zhou (University of Tasmania)
    f:
    text/html
    H:
    520411d2174ae0c4baaf2d4a3d9c6d03
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Nutrition strategies to mitigate yield losses following waterlogging – lessons from southern environments
    title:
    Nutrition strategies to mitigate yield losses following waterlogging – lessons from southern environments
    tags:
    denitrification, plant density, salinity, waterlogging
    p:
    Grains Research and Development Corporation
    aissueno:
    08
    thumbfocus:
    thumb-focus-center
    sregion:
    South
    s:
    denitrification, plant density, salinity, waterlogging
    ctype:
    Update Paper
    sstate:
    Victoria
    asummary:
    Waterlogging reduces crop canopy cover, and affected areas should be reassessed as the lower yield potential is likely to reduce the nitrogen requirements. Yield potential of canola affected by waterlogging can be restored up to the flowering stage

  10. Using resistance surveillance and social benchmarking to improve insecticide resistance management for the redlegged earth mite - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/08/using-resistance-surveillance-and-social-benchmarking-to-improve-insecticide-resistance-management-for-the-redlegged-earth-mite

    29 Aug 2023: Due to evolving resistance in the redlegged earth mite, there is a need to reduce reliance on current insecticides and rethink management options for this pest. Detections of populations of RLEM resistant to SPs and OPs continue to increase, 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:
    2023-08-29 00:00:00, 2023-08-29 00:00:00, 2023-08-21, 2023-08-22
    e:
    using resistance surveillance and social benchmarking to improve insecticide resistance management for the redlegged earth mite, summary
    pcode:
    CES2010-001RTX
    aauthor:
    Adriana Arturi, Luis Mata, Aston Arthur, Paul Umina, James Maino, Lizzy Lowe (Cesar Australia), Svetlana Micic, Alan Lord (Department of Primary Industries and Regional Development, Western Australia)
    f:
    text/html
    H:
    8d3c147df2549a970c3b808e1ad139ab
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Using resistance surveillance and social benchmarking to improve insecticide resistance management for the redlegged earth mite
    title:
    Using resistance surveillance and social benchmarking to improve insecticide resistance management for the redlegged earth mite
    tags:
    insecticide resistance, integrated pest management, redlegged earth mite, social research
    p:
    Grains Research and Development Corporation
    aissueno:
    08
    thumbfocus:
    thumb-focus-center
    sregion:
    South
    s:
    insecticide resistance, integrated pest management, redlegged earth mite, social research
    ctype:
    Update Paper
    sstate:
    Victoria
    asummary:
    Due to evolving resistance in the redlegged earth mite, there is a need to reduce reliance on current insecticides and rethink management options for this pest. Detections of populations of RLEM resistant to SPs and OPs continue to increase, with

  11. Combatting weed resistance – best practice management for tackling stubborn resistance with ryegrass, barley grass plus others in the SA…

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/08/combatting-weed-resistance-best-practice-management-for-tackling-stubborn-resistance-with-ryegrass,-barley-grass-plus-others-in-the-sa-south-east

    29 Aug 2023: Herbicide resistance is most prevalent in ryegrass, sowthistle (milk thistle) and fleabane. It is less common in barley grass, wild oats and wild radish. The most common resistance is to Group 1 (A) and 2 (B) herbicides. Including herbicides 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:
    29/8/2023, 2023-08-29 00:00:00, 2023-08-21, 2023-08-22
    e:
    combatting weed resistance – best practice management for tackling stubborn resistance with ryegrass, barley grass plus others in the sa south east, summary
    aauthor:
    Peter Boutsalis, Alicia Merriam, Gurjeet Gill, Christopher Preston (School of Agriculture, Food and Wine, University of Adelaide), John Broster (Graham Centre for Agricultural Innovation, Charles Sturt University, Wagga Wagga)
    f:
    text/html
    H:
    33cfd4ec4c2693c51ac099c8af721151
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Combatting weed resistance – best practice management for tackling stubborn resistance with ryegrass, barley grass plus others in the SA south east
    title:
    Combatting weed resistance – best practice management for tackling stubborn resistance with ryegrass, barley grass plus others in the SA south east
    tags:
    broadleaf and grass weeds, herbicide resistance, random weed survey, resistance testing
    p:
    Grains Research and Development Corporation
    aissueno:
    08
    thumbfocus:
    thumb-focus-center
    sregion:
    South
    s:
    broadleaf and grass weeds, herbicide resistance, random weed survey, resistance testing
    ctype:
    Update Paper
    sstate:
    Victoria
    asummary:
    Herbicide resistance is most prevalent in ryegrass, sowthistle (milk thistle) and fleabane. It is less common in barley grass, wild oats and wild radish. The most common resistance is to Group 1 (A) and 2 (B) herbicides. Including herbicides with

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