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  2. 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

    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:
    67ca01d937bebefcaee5f464a98afb33
    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

  3. Back to nitrogen basics – soil testing and nitrogen budgeting fundamentals - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/back-to-nitrogen-basics-soil-testing-and-nitrogen-budgeting-fundamentals

    6 Feb 2024: Nitrogen (N) fertiliser rate decisions based on soil test data and a formalised decision process are more profitable than fixed rates or decisions based on ‘gut feel’. This article goes back to basics on N budgeting and is designed to help young

    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:
    back to nitrogen basics – soil testing and nitrogen budgeting fundamentals , summary
    pcode:
    CSP2303-015BGX
    aauthor:
    James Hunt (The University of Melbourne)
    f:
    text/html
    H:
    df73de0abd6f1af2886949b9722cf542
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Back to nitrogen basics – soil testing and nitrogen budgeting fundamentals
    title:
    Back to nitrogen basics – soil testing and nitrogen budgeting fundamentals
    tags:
    N budgeting, nitrogen fertiliser rate, soil test
    p:
    Grains Research and Development Corporation
    aissueno:
    02
    thumbfocus:
    thumb-focus-center
    sregion:
    South
    s:
    N budgeting, nitrogen fertiliser rate, soil test
    ctype:
    Update Paper
    asummary:
    Nitrogen (N) fertiliser rate decisions based on soil test data and a formalised decision process are more profitable than fixed rates or decisions based on ‘gut feel’. This article goes back to basics on N budgeting and is designed to help young

  4. 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

    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:
    77c326f28f2dd0f3f5b6003014c7b837
    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.

  5. 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

    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:
    0592d758fe2587567f427ea44af4c8a6
    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

  6. 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

    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:
    71411cb655be5ae479f3488f0c4fb7bd
    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.

  7. Management of disease complexes in the Southern Victorian Mallee cereals - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/management-of-disease-complexes-in-the-southern-victorian-mallee-cereals

    6 Feb 2024: Variety choice is important for disease management. Economical and premium fungicide options performed similarly in many cases. Spot form and net blotch were common diseases in the southern Mallee barley site. Septoria tritici blotch, leaf 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:
    2024-02-06 00:00:00, 2024-02-06 00:00:00, 2024-01-29, 2024-02-12
    e:
    management of disease complexes in the southern victorian mallee cereals, summary
    pcode:
    BWD2303-002RTX
    aauthor:
    Thomas Jones and Yolanda Plowman (Birchip Cropping Group)
    f:
    text/html
    H:
    3b47fbde41ff750174fcba9a5e56978d
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Management of disease complexes in the Southern Victorian Mallee cereals
    title:
    Management of disease complexes in the Southern Victorian Mallee cereals
    tags:
    cereals, disease management, fungicide options, rainfall
    p:
    Grains Research and Development Corporation
    aissueno:
    02
    thumbfocus:
    thumb-focus-center
    sregion:
    South
    s:
    cereals, disease management, fungicide options, rainfall
    ctype:
    Update Paper
    asummary:
    Variety choice is important for disease management. Economical and premium fungicide options performed similarly in many cases. Spot form and net blotch were common diseases in the southern Mallee barley site. Septoria tritici blotch, leaf and

  8. New acid tolerant rhizobium strains for inoculant groups E and F - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/new-acid-tolerant-rhizobium-strains-for-inoculant-groups-e-and-f

    6 Feb 2024: Inoculation of pulses including lentil, field pea, vetch and faba bean is widely recommended, particularly where the pulse is sown into paddocks with acidic soils or, where the pulse or another in the same inoculation group has not been sown for a

    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, 2024-01-30
    e:
    new acid tolerant rhizobium strains for inoculant groups e and f , summary
    pcode:
    UOA2312-008RTX, DPI1901-002RTX, UOA1805-017RTX, UMU1901-002RTX
    aauthor:
    Elizabeth Farquharson, Stephen Barnett, Ross Ballard (South Australian Research and Development Institute, Ross Ballard ), Chris Poole, Emma Steel, Graham O’Hara (Murdoch University), Ron Yates (Murdoch University, WA Department of Primary
    f:
    text/html
    H:
    8bea24946f3d1e9db72ed363dd66702d
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    New acid tolerant rhizobium strains for inoculant groups E and F
    title:
    New acid tolerant rhizobium strains for inoculant groups E and F
    tags:
    Soil acidity, rhizobia, inoculation, nodulation, faba bean, lentil, field pea, N2-fixation
    p:
    Grains Research and Development Corporation
    aissueno:
    02
    thumbfocus:
    thumb-focus-center
    sregion:
    South
    s:
    Soil acidity, rhizobia, inoculation, nodulation, faba bean, lentil, field pea, N2-fixation
    ctype:
    Update Paper
    sstate:
    South Australia
    asummary:
    Inoculation of pulses including lentil, field pea, vetch and faba bean is widely recommended, particularly where the pulse is sown into paddocks with acidic soils or, where the pulse or another in the same inoculation group has not been sown for a

  9. Reducing risks to canola establishment under marginal conditions – defining the fundamentals - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/reducing-risks-to-canola-establishment-under-marginal-conditions-defining-the-fundamentals

    6 Feb 2024: A new project is undertaking research to determine the critical environmental conditions for successful canola establishment. Canola has the same fundamental requirements in all growing regions; moisture, temperature, seed soil contact and 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:
    2024-02-06 00:00:00, 2024-02-06 00:00:00, 2024-01-29, 2024-01-29
    e:
    reducing risks to canola establishment under marginal conditions – defining the fundamentals, summary
    pcode:
    CSP2212-005RTX, CSP1907-001RTX
    aauthor:
    Kenton Porker, Therese McBeath (CSIRO Agriculture and Food, Waite Campus, Adelaide, Australia ), Andrew Fletcher, Matthew Nelson (CSIRO Agriculture and Food, Floreat, Perth, Australia), Laura Goward, John Kirkegaard (CSIRO Agriculture and Food,
    f:
    text/html
    H:
    6026aa98a6e8445ccbde578abbd16bd8
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Reducing risks to canola establishment under marginal conditions – defining the fundamentals
    title:
    Reducing risks to canola establishment under marginal conditions – defining the fundamentals
    tags:
    Canola, germination, emergence, establishment
    p:
    Grains Research and Development Corporation
    aissueno:
    02
    thumbfocus:
    thumb-focus-center
    sregion:
    South
    s:
    Canola, germination, emergence, establishment
    ctype:
    Update Paper
    sstate:
    South Australia
    asummary:
    A new project is undertaking research to determine the critical environmental conditions for successful canola establishment. Canola has the same fundamental requirements in all growing regions, moisture, temperature, seed soil contact and soil

  10. Fast Graphs for slow thinking– an example using nitrogen - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/fast-graphs-for-slow-thinking-an-example-using-nitrogen

    6 Feb 2024: N budgeting using 40kg N/t of wheat is simple, widely used, and robust. However, the rule is usually applied to a single target yield and only considers the year of application. The single target yield makes it hard to think clearly about risk 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:
    2024-02-06 00:00:00, 2024-02-06 00:00:00, 2024-01-29, 2024-01-29
    e:
    fast graphs for slow thinking– an example using nitrogen, summary
    pcode:
    CSP2303-015BGX
    aauthor:
    Peter Hayman (SARDI Climate Applications), Barry Mudge (Mudge Consulting)
    f:
    text/html
    H:
    bf0e7b490f4f541c3e3f9c42b70d26ff
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Fast Graphs for slow thinking– an example using nitrogen
    title:
    Fast Graphs for slow thinking– an example using nitrogen
    tags:
    climate, nitrogen, risk
    p:
    Grains Research and Development Corporation
    aissueno:
    02
    thumbfocus:
    thumb-focus-center
    sregion:
    South
    s:
    climate, nitrogen, risk
    ctype:
    Update Paper
    asummary:
    N budgeting using 40kg N/t of wheat is simple, widely used, and robust. However, the rule is usually applied to a single target yield and only considers the year of application. The single target yield makes it hard to think clearly about risk and

  11. Regenerative opportunities for building soil biological resilience – a case study in the low-rainfall zone in Southern Australia - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/regenerative-opportunities-for-building-soil-biological-resilience-a-case-study-in-the-low-rainfall-zone-in-southern-australia

    6 Feb 2024: Soil improvement is at the core of regenerative agriculture, with a strong focus on ecosystem and environmental sustainability. Management is the key to maintaining and enhancing soil biological functional capacity in lower organic matter soils in

    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:
    regenerative opportunities for building soil biological resilience – a case study in the low-rainfall zone in southern australia, summary
    pcode:
    CSP2401-015RTX
    aauthor:
    Vadakattu Gupta, Bhanu Nidumolu, Stasia Kroker, Marcus Hicks and Rick Llewellyn (CSIRO Agriculture and Food, Urrbrae, SA)
    f:
    text/html
    H:
    553da5da9e82e6a203d05cb7e10c1c73
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Regenerative opportunities for building soil biological resilience – a case study in the low-rainfall zone in Southern Australia
    title:
    Regenerative opportunities for building soil biological resilience – a case study in the low-rainfall zone in Southern Australia
    tags:
    biota, microorganisms, regenerative agriculture, resilience
    p:
    Grains Research and Development Corporation
    aissueno:
    02
    thumbfocus:
    thumb-focus-center
    sregion:
    South
    s:
    biota, microorganisms, regenerative agriculture, resilience
    ctype:
    Update Paper
    asummary:
    Soil improvement is at the core of regenerative agriculture, with a strong focus on ecosystem and environmental sustainability. Management is the key to maintaining and enhancing soil biological functional capacity in lower organic matter soils in

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