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  2. Best rotations for barley grass management

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2022/03/best-rotations-for-barley-grass-management

    22 Feb 2022: Herbicide resistance is evident in some populations but remains uncommon. There was no resistance to non-selective herbicides detected.

    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:
    2022-02-22 00:00:00, 2022-02-22 00:00:00, 2022-02-14, 2022-02-16
    e:
    best rotations for barley grass management, summary
    pcode:
    UOA1903-004SAX
    aauthor:
    Dr Catherine Borger, Sam Stubna, Ben Whisson, Tiarna Kanny, Brad Joyce, Amy Bowden and David Minkey, Department of Primary Industries and Regional Development, South East Premium Wheat Growers Association (SEPWA), Lakes Information and Farming
    f:
    text/html
    H:
    30d5d7f43dd58bb8fc3e2cbd4c4536e4
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Best rotations for barley grass management
    title:
    Best rotations for barley grass management
    tags:
    Barley grass, integrated weed management, break crop, competitive ability
    p:
    Grains Research and Development Corporation
    aissueno:
    03
    thumbfocus:
    thumb-focus-center
    sregion:
    West
    s:
    Barley grass, integrated weed management, break crop, competitive ability
    ctype:
    Update Paper
    sstate:
    Western Australia
    asummary:
    Herbicide resistance is evident in some populations but remains uncommon. There was no resistance to non-selective herbicides detected.

  3. Future climate projections for the grainbelt

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2022/03/future-climate-projections-for-the-grainbelt

    22 Feb 2022: Climate Services for Agriculture (CSA) is a website developed by CSIRO and the Bureau of Meteorology to ‘help farmers and communities plan for the impacts of climate variability’. The aim of this paper is to review the CSA for the grainbelt of

    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:
    2022-02-22 00:00:00, 2022-02-22 00:00:00, 2022-02-09, 2022-02-09
    e:
    future climate projections for the grainbelt, summary
    aauthor:
    Meredith Guthrie, (Department of Primary Industries and Regional Development )
    f:
    text/html
    H:
    dca112c355d5cbab52fa2e52c956c443
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Future climate projections for the grainbelt
    title:
    Future climate projections for the grainbelt
    tags:
    future climate models, WA grainbelt, rainfall, temperature
    p:
    Grains Research and Development Corporation
    aissueno:
    03
    thumbfocus:
    thumb-focus-center
    sregion:
    West
    s:
    future climate models, WA grainbelt, rainfall, temperature
    ctype:
    Update Paper
    sstate:
    Western Australia
    asummary:
    Climate Services for Agriculture (CSA) is a website developed by CSIRO and the Bureau of Meteorology to ‘help farmers and communities plan for the impacts of climate variability’. The aim of this paper is to review the CSA for the grainbelt of

  4. Optimising fertiliser application – what level of precision can we achieve?

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2022/03/optimising-fertiliser-application-what-level-of-precision-can-we-achieve

    22 Feb 2022: Author: Craig Scanlan, Raj Malik, James Easton, Mark Gherardi, Zed Rengel, Richard Bell, Gustavo Boitt and Qifu Ma. | Date: 22 Feb 2022. Key messages. Economically optimum fertiliser rate is more sensitive to the magnitude of grain yield response

    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:
    2022-02-22 00:00:00, 2022-02-22 00:00:00, 2022-03-17, 2022-03-17
    e:
    optimising fertiliser application – what level of precision can we achieve?, summary
    pcode:
    UMU1801-006RTX
    aauthor:
    Craig Scanlan, Raj Malik, James Easton, Mark Gherardi, Zed Rengel, Richard Bell, Gustavo Boitt and Qifu Ma.
    f:
    text/html
    H:
    8d6d8e698a29cab4c60fdb003d360d2d
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Optimising fertiliser application – what level of precision can we achieve?
    title:
    Optimising fertiliser application – what level of precision can we achieve?
    tags:
    nitrogen, phosphorus, potassium, fertiliser, economical optimal rate
    p:
    Grains Research and Development Corporation
    aissueno:
    03
    thumbfocus:
    thumb-focus-center
    sregion:
    West
    s:
    nitrogen, phosphorus, potassium, fertiliser, economical optimal rate
    ctype:
    Update Paper
    sstate:
    Western Australia

  5. Why bother with artificial intelligence in agriculture? —because it can improve fertilisation management

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2022/03/why-bother-with-artificial-intelligence-in-agriculture-because-it-can-improve-fertilisation-management

    22 Feb 2022: Author: Jonathan Richetti, Roger Lawes and the Future Farm project team. | Date: 22 Feb 2022. Key messages. Artificial intelligence algorithms can improve nitrogen decisions over current methods. The current limitation is the availability of data.

    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:
    2022-02-22 00:00:00, 2022-02-22 00:00:00, 2022-03-17, 2022-03-17
    e:
    why bother with artificial intelligence in agriculture? —because it can improve fertilisation management, summary
    pcode:
    CSP1803-020RMX
    aauthor:
    Jonathan Richetti, Roger Lawes and the Future Farm project team.
    f:
    text/html
    H:
    5147889f725fe96d2a371ec4592a5e9f
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Why bother with artificial intelligence in agriculture? —because it can improve fertilisation management
    title:
    Why bother with artificial intelligence in agriculture? —because it can improve fertilisation management
    tags:
    precision agriculture, digital agriculture, machine learning, nitrogen, wheat
    p:
    Grains Research and Development Corporation
    aissueno:
    03
    thumbfocus:
    thumb-focus-center
    sregion:
    West
    s:
    precision agriculture, digital agriculture, machine learning, nitrogen, wheat
    ctype:
    Update Paper
    sstate:
    Western Australia

  6. Interaction between wheat establishment timing and pre-emergent herbicide choice on growth and competition of annual ryegrass

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2022/03/interaction-between-wheat-establishment-timing-and-pre-emergent-herbicide-choice-on-growth-and-competition-of-annual-ryegrass

    22 Feb 2022: Author: Mike Ashworth, Roberto Lujan Rocha, Shane Baxter and Hugh Beckie | Date: 22 Feb 2022. Key messages. At Dandaragan early seeding outyielded delayed seeding. Seed production of annual ryegrass at the end of the season correlated with soil

    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:
    2022-02-22 00:00:00, 2022-02-22 00:00:00, 2022-03-17, 2022-03-17
    e:
    interaction between wheat establishment timing and pre-emergent herbicide choice on growth and competition of annual ryegrass , summary
    aauthor:
    Mike Ashworth, Roberto Lujan Rocha, Shane Baxter and Hugh Beckie
    f:
    text/html
    H:
    f665eaf390f0ec9c2fe931529a8cf3de
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Interaction between wheat establishment timing and pre-emergent herbicide choice on growth and competition of annual ryegrass
    title:
    Interaction between wheat establishment timing and pre-emergent herbicide choice on growth and competition of annual ryegrass
    tags:
    wheat, weeds, annual ryegrass, pre-emergent herbicides, time of seeding, crop competition, herbicide degradation
    p:
    Grains Research and Development Corporation
    aissueno:
    03
    thumbfocus:
    thumb-focus-center
    sregion:
    West
    s:
    wheat, weeds, annual ryegrass, pre-emergent herbicides, time of seeding, crop competition, herbicide degradation
    ctype:
    Update Paper
    sstate:
    Western Australia

  7. Field profiling for net blotch fungicide resistance in the low-medium rainfall zone

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2022/03/field-profiling-for-net-blotch-fungicide-resistance-in-the-low-medium-rainfall-zone

    22 Feb 2022: Determine the presence and frequency of reduced sensitivity and resistance to DMI and SDHI fungicides in barley fields affected by net blotch.

    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:
    2022-02-22 00:00:00, 2022-02-22 00:00:00, 2022-02-14, 2022-02-16
    e:
    field profiling for net blotch fungicide resistance in the low-medium rainfall zone, summary
    pcode:
    CUR1403-002BLX
    aauthor:
    Noel L. Knight, Kul C. Adhikari, Wesley Mair, Francisco Lopez-Ruiz, (CCDM, Curtin University), Dan Taylor, (DKT Rural Agencies)
    f:
    text/html
    H:
    dc8a073c89041b1ea9af403cd26b586b
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Field profiling for net blotch fungicide resistance in the low-medium rainfall zone
    title:
    Field profiling for net blotch fungicide resistance in the low-medium rainfall zone
    tags:
    net blotch, fungicide, barley, detection, resistance
    p:
    Grains Research and Development Corporation
    aissueno:
    03
    thumbfocus:
    thumb-focus-center
    sregion:
    West
    s:
    net blotch, fungicide, barley, detection, resistance
    ctype:
    Update Paper
    sstate:
    Western Australia
    asummary:
    Determine the presence and frequency of reduced sensitivity and resistance to DMI and SDHI fungicides in barley fields affected by net blotch.

  8. A single cytochrome P450 gene from annual ryegrass confers resistance to a broad spectrum of herbicides

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2022/03/a-single-cytochrome-p450-gene-from-annual-ryegrass-confers-resistance-to-a-broad-spectrum-of-herbicides

    22 Feb 2022: We have recently identified a major P450 gene (CYP81A10v7) from multiple herbicide resistant annual ryegrass and generated transgenic rice plants overexpressing this gene (Han et al 2021). This current study is to further screen CYP81A19v7

    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:
    2022-02-22 00:00:00, 2022-02-22 00:00:00, 2022-02-09, 2022-02-09
    e:
    a single cytochrome p450 gene from annual ryegrass confers resistance to a broad spectrum of herbicides , summary
    pcode:
    UWA2007-002RTX
    aauthor:
    Heping Han, Qin Yu, Hugh Beckie, Stephen Powles, Australian Herbicide Resistance Initiative, School of Agriculture and Environment, University of Western Australia, Crawley, WA 6009
    f:
    text/html
    H:
    60a320dad4b8497f2066f1a19586873b
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    A single cytochrome P450 gene from annual ryegrass confers resistance to a broad spectrum of herbicides
    title:
    A single cytochrome P450 gene from annual ryegrass confers resistance to a broad spectrum of herbicides
    tags:
    annual ryegrass, metabolic resistance, cytochrome P450, CYP81A10V7, bixlozone
    p:
    Grains Research and Development Corporation
    aissueno:
    03
    thumbfocus:
    thumb-focus-center
    sregion:
    West
    s:
    annual ryegrass, metabolic resistance, cytochrome P450, CYP81A10V7, bixlozone
    ctype:
    Update Paper
    sstate:
    Western Australia
    asummary:
    We have recently identified a major P450 gene (CYP81A10v7) from multiple herbicide resistant annual ryegrass and generated transgenic rice plants overexpressing this gene (Han et al 2021). This current study is to further screen CYP81A19v7

  9. Wheat stripe rust epidemic in 2021 – learnings for 2022

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2022/02/wheat-stripe-rust-epidemic-in-2021-learnings-for-2022

    22 Feb 2022: A significant stripe rust epidemic occurred in 2021 across much of northern grains region. Good cropping years are usually also good for rust infection. The green bridge, an early start to stripe rust infections and mild conditions allowed

    pcode:
    DAN00213, DPI1807-012BLX, UOS1801-004RTX
    aauthor:
    Robert Park & Mumta Chhetri (The University of Sydney) and Steven Simpfendorfer (NSW DPI Tamworth)
    rdarea:
    Agronomy/Farming Systems
    H:
    be070b4887ff37418da0577d19776e55
    title:
    Wheat stripe rust epidemic in 2021 – learnings for 2022
    aissueno:
    02
    thumbfocus:
    thumb-focus-center
    sregion:
    South
    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:
    22/02/2022, 2022-02-22 00:00:00, 2022-02-04, 2022-02-07
    e:
    wheat stripe rust epidemic in 2021 – learnings for 2022, summary
    f:
    text/html
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Wheat stripe rust epidemic in 2021 – learnings for 2022
    tags:
    fungicide management, varietal resistance, head infection, green bridge
    p:
    Grains Research and Development Corporation
    s:
    fungicide management, varietal resistance, head infection, green bridge
    ctype:
    Update Paper
    sstate:
    Victoria
    asummary:
    A significant stripe rust epidemic occurred in 2021 across much of northern grains region. Good cropping years are usually also good for rust infection. The green bridge, an early start to stripe rust infections and mild conditions allowed

  10. Managing what might bug you this season

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2022/02/managing-what-might-bug-you-this-season

    22 Feb 2022: Our research update provides information and management solutions for growers and advisors on key grains pests which may cause issues this year. In 2022, the mild wet weather is likely to increase green bridge risk which can allow some pests to

    pcode:
    CES1904-002RTX, UOM1906-002RTX, CES2001-001RTX, CES2010-001RXT, CES1506-001RTX, UOA1805-018RTX
    aauthor:
    Paul Umina (Cesar Australia & The University of Melbourne), Lizzy Lowe (Cesar Australia), Luis Mata (Cesar Australia & The University of Melbourne), Samantha Ward & Marielle Babineau (Cesar Australia), Maarten Van Helden & Thomas Heddle (SARDI) and
    rdarea:
    Crop Protection
    H:
    0cf720df491076d9384aaa546ca88dbe
    title:
    Managing what might bug you this season
    aissueno:
    02
    thumbfocus:
    thumb-focus-center
    sregion:
    South
    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:
    22/02/2022, 2022-02-22 00:00:00, 2022-02-04, 2022-02-08
    e:
    managing what might bug you this season, summary
    f:
    text/html
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Managing what might bug you this season
    tags:
    green bridge, green peach aphid, insecticide resistance, Russian wheat aphid
    p:
    Grains Research and Development Corporation
    s:
    green bridge, green peach aphid, insecticide resistance, Russian wheat aphid.
    ctype:
    Update Paper
    sstate:
    Victoria
    asummary:
    Our research update provides information and management solutions for growers and advisors on key grains pests which may cause issues this year. In 2022, the mild wet weather is likely to increase green bridge risk which can allow some pests to

  11. Keeping fungicide resistance in check and managing septoria tritici blotch in the low rainfall zone and medium rainfall zone

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2022/02/keeping-fungicide-resistance-in-check-and-managing-septoria-tritici-blotch-in-the-low-rainfall-zone-and-medium-rainfall-zone

    22 Feb 2022: Surveys for fungicide resistance are ongoing and agronomists are encouraged to notify SARDI of any suspect cases and submit samples for testing. Updated information is available from SARDI and the AFREN website. The efficacy of specific DMI actives

    pcode:
    CUR1905-001SAX, UOA2003-008RTX, DJP2104-004TRX
    aauthor:
    Tara Garrard (SARDI)
    rdarea:
    Crop Protection
    H:
    b00ab64abe2ea13c9e93fc077849ca88
    title:
    Keeping fungicide resistance in check and managing septoria tritici blotch in the low rainfall zone and medium rainfall zone
    aissueno:
    02
    thumbfocus:
    thumb-focus-center
    sregion:
    South
    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:
    2022-02-22 00:00:00, 2022-02-22 00:00:00, 2022-02-04, 2022-10-13
    e:
    keeping fungicide resistance in check and managing septoria tritici blotch in the low rainfall zone and medium rainfall zone, summary
    f:
    text/html
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Keeping fungicide resistance in check and managing septoria tritici blotch in the low rainfall zone and medium rainfall zone
    tags:
    Fungicide resistance, net form net blotch, septoria tritici blotch, spot form net blotch
    p:
    Grains Research and Development Corporation
    s:
    Fungicide resistance, net form net blotch, septoria tritici blotch, spot form net blotch
    ctype:
    Update Paper
    sstate:
    South Australia
    asummary:
    Surveys for fungicide resistance are ongoing and agronomists are encouraged to notify SARDI of any suspect cases and submit samples for testing. Updated information is available from SARDI and the AFREN website. The efficacy of specific DMI actives

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Collection last updated: Oct 7, 2024, 11:30:04 PM.
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