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  2. Progress towards the discovery of genes for heat stress tolerance in a diverse canola population

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/02/f3-chen-sheng

    28 Feb 2023: Three hundred and twenty-three genotypes from a genetically diverse Brassica napus population were screened for heat stress tolerance using a prototype heat screening facility at The University of Western Australia (UWA) over two years with early

    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, 2023-02-22, 2023-02-22
    e:
    progress towards the discovery of genes for heat stress tolerance in a diverse canola population, summary
    pcode:
    UWA1905-007RTX
    aauthor:
    Sheng Chen, Aldrin Cantila, Suman Rakshit, John Quealy, Jacqueline Batley, Kadambot H. M. Siddique and Wallace A. Cowling
    f:
    text/html
    H:
    1953f105464928ffcc89571e0a078294
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Progress towards the discovery of genes for heat stress tolerance in a diverse canola population
    title:
    Progress towards the discovery of genes for heat stress tolerance in a diverse canola population
    tags:
    Oilseed rape, canola, heat tolerance, phenotyping, genotyping, genome-wide association studies, candidate genes
    p:
    Grains Research and Development Corporation
    aissueno:
    02
    thumbfocus:
    thumb-focus-center
    sregion:
    National
    s:
    Oilseed rape, canola, heat tolerance, phenotyping, genotyping, genome-wide association studies, candidate genes
    ctype:
    Update Paper
    asummary:
    Three hundred and twenty-three genotypes from a genetically diverse Brassica napus population were screened for heat stress tolerance using a prototype heat screening facility at The University of Western Australia (UWA) over two years with early

  3. Farm optimisation modelling to improve rotation choice on a mixed enterprise farm in a variable environment

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/02/f4-young-michael

    28 Feb 2023: Selecting the ‘best’ suite of rotations to apply on a farm is complex. This analysis considers ~3500 different rotation phases. Tactically adjusting rotation choice in response to unfolding weather conditions increases farm profit by 6% for 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:
    2023-02-28 00:00:00, 2023-02-28 00:00:00, 2023-02-22, 2023-02-23
    e:
    farm optimisation modelling to improve rotation choice on a mixed enterprise farm in a variable environment, summary
    aauthor:
    Michael Young, John Young, Ross Kingwell and Phil Vercoe
    f:
    text/html
    H:
    23e21ccc2b1cb074a237e780e022f8f0
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Farm optimisation modelling to improve rotation choice on a mixed enterprise farm in a variable environment
    title:
    Farm optimisation modelling to improve rotation choice on a mixed enterprise farm in a variable environment
    tags:
    Rotations, tactical management, optimisation, farm modelling, Australian Farm Optimisation model, AFO
    p:
    Grains Research and Development Corporation
    aissueno:
    02
    thumbfocus:
    thumb-focus-center
    sregion:
    South
    s:
    Rotations, tactical management, optimisation, farm modelling, Australian Farm Optimisation model, AFO
    ctype:
    Update Paper
    sstate:
    Western Australia
    asummary:
    Selecting the ‘best’ suite of rotations to apply on a farm is complex. This analysis considers ~3500 different rotation phases. Tactically adjusting rotation choice in response to unfolding weather conditions increases farm profit by 6% for the

  4. Investigating the application of electric weed control in Australian fallow scenarios

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/02/f4-slaven-miranda

    28 Feb 2023: Electric weed control uses high-voltage current to burst the shoot and root cells of the weed, either killing the weed or suppressing growth. Results from field trials showed that electric weed control is highly effective in fallow scenarios, 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:
    2023-02-28 00:00:00, 2023-02-28 00:00:00, 2023-03-09, 2023-06-28
    e:
    investigating the application of electric weed control in australian fallow scenarios, summary
    aauthor:
    Miranda Slaven and Dr Catherine Borger
    f:
    text/html
    H:
    0422c60f75072d004444f4ef5d104d9b
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Investigating the application of electric weed control in Australian fallow scenarios
    title:
    Investigating the application of electric weed control in Australian fallow scenarios
    tags:
    electric weed control, electro weeding, non-chemical
    p:
    Grains Research and Development Corporation
    aissueno:
    02
    thumbfocus:
    thumb-focus-center
    sregion:
    West
    s:
    electric weed control, electro weeding, non-chemical
    ctype:
    Update Paper
    sstate:
    Western Australia
    asummary:
    Electric weed control uses high-voltage current to burst the shoot and root cells of the weed, either killing the weed or suppressing growth. Results from field trials showed that electric weed control is highly effective in fallow scenarios, with

  5. How long do Sclerotinia sclerotia survive in WA? Decision support tools to help with on-farm management of blackleg and sclerotinia in…

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/02/s19-galloway-jean

    28 Feb 2023: Sclerotinia sclerotiorum sclerotia were still producing apothecia after six seasons on the soil surface at Northam. DPIRD and GRDC have developed three tools to support on-farm management decisions for key diseases in canola. BlacklegCM for blackleg

    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, 2023-02-24, 2023-02-28
    e:
    how long do sclerotinia sclerotia survive in wa? decision support tools to help with on-farm management of blackleg and sclerotinia in canola, summary
    pcode:
    DAW2112-002RTX
    aauthor:
    Jean Galloway, Adam Sparks, Steve Marcroft, Ciara Beard, Kylie Chambers and Andrea Hills
    f:
    text/html
    H:
    b8f807c1013eb72b94dfa3c2cb9d8109
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    How long do Sclerotinia sclerotia survive in WA? Decision support tools to help with on-farm management of blackleg and sclerotinia in canola
    title:
    How long do Sclerotinia sclerotia survive in WA? Decision support tools to help with on-farm management of blackleg and sclerotinia in canola
    tags:
    Sclerotinia, blackleg, canola, decision support tools, UCI
    p:
    Grains Research and Development Corporation
    aissueno:
    02
    thumbfocus:
    thumb-focus-center
    sregion:
    West
    s:
    Sclerotinia, blackleg, canola, decision support tools, UCI
    ctype:
    Update Paper
    sstate:
    Western Australia
    asummary:
    Sclerotinia sclerotiorum sclerotia were still producing apothecia after six seasons on the soil surface at Northam. DPIRD and GRDC have developed three tools to support on-farm management decisions for key diseases in canola. BlacklegCM for blackleg

  6. Can we get gains in the paddock with different bio-amendment products and management strategies?

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/02/s17-williams-grace

    28 Feb 2023: Nutrition strategy rather than bio-amendment product drove crop production and grain quality differences between bio-amendment and fertiliser treatments during the 2021 growing season. Bio-amendment research is complex and research questions need 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:
    2023-02-28 00:00:00, 2023-02-28 00:00:00, 2023-02-25, 2023-02-27
    e:
    can we get gains in the paddock with different bio-amendment products and management strategies?, summary
    aauthor:
    Grace Williams
    f:
    text/html
    H:
    efd301b9393de044696db2f61dbdbdae
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Can we get gains in the paddock with different bio-amendment products and management strategies?
    title:
    Can we get gains in the paddock with different bio-amendment products and management strategies?
    tags:
    bio amendment, biostimulant, compost, fertiliser, nutrition
    p:
    Grains Research and Development Corporation
    aissueno:
    02
    thumbfocus:
    thumb-focus-center
    sregion:
    West
    s:
    bio amendment, biostimulant, compost, fertiliser, nutrition
    ctype:
    Update Paper
    sstate:
    Western Australia
    asummary:
    Nutrition strategy rather than bio-amendment product drove crop production and grain quality differences between bio-amendment and fertiliser treatments during the 2021 growing season. Bio-amendment research is complex and research questions need to

  7. Improving farming system profitability, management of greenhouse gas emissions and climate resilience in the low and medium rainfall zones…

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/02/f4-hutchinson-dayna

    28 Feb 2023: Growers and industry in low and medium rainfall areas of the WA grainbelt were consulted to provide insight into key decisions around early sowing, system break options and understanding of greenhouse gas emissions on-farm. In all regions, 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:
    2023-02-28 00:00:00, 2023-02-28 00:00:00, 2023-02-24, 2023-02-27
    e:
    improving farming system profitability, management of greenhouse gas emissions and climate resilience in the low and medium rainfall zones of wa: grower perspectives, summary
    pcode:
    DAW2204-003RTX
    aauthor:
    Dayna Hutchison, Vanessa Stewart-McGinniss, Megan Abrahams and Naomi Simpson,
    f:
    text/html
    H:
    ed159718b069a0574ab151fa7647d111
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Improving farming system profitability, management of greenhouse gas emissions and climate resilience in the low and medium rainfall zones of WA: Grower Perspectives
    title:
    Improving farming system profitability, management of greenhouse gas emissions and climate resilience in the low and medium rainfall zones of WA: Grower Perspectives
    tags:
    farming system, consultation, grower, Western Australia
    p:
    Grains Research and Development Corporation
    aissueno:
    02
    thumbfocus:
    thumb-focus-center
    sregion:
    West
    s:
    farming system, consultation, grower, Western Australia
    ctype:
    Update Paper
    sstate:
    Western Australia
    asummary:
    Growers and industry in low and medium rainfall areas of the WA grainbelt were consulted to provide insight into key decisions around early sowing, system break options and understanding of greenhouse gas emissions on-farm. In all regions, soil

  8. Use of on-farm acidic sand to ameliorate calcareous-saline-alkaline heavy soils and improve plant available water

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/02/use-of-on-farm-acidic-sand-to-ameliorate-calcareous-saline-alkaline-heavy-soils-and-improve-plant-available-water

    28 Feb 2023: In calcareous soil, soil boron (B) concentration if often at toxic level hence affecting crop development and grain yield.

    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, 2023-06-01, 2023-06-01
    e:
    use of on-farm acidic sand to ameliorate calcareous-saline-alkaline heavy soils and improve plant available water, summary
    aauthor:
    Hasin Rahman, Kanch Wickramarachchi and Gaus Azam, DPIRD Northam
    f:
    text/html
    H:
    82e06e9a4b969515ffe1b99b2e2f2154
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Use of on-farm acidic sand to ameliorate calcareous-saline-alkaline heavy soils and improve plant available water
    title:
    Use of on-farm acidic sand to ameliorate calcareous-saline-alkaline heavy soils and improve plant available water
    p:
    Grains Research and Development Corporation
    aissueno:
    02
    thumbfocus:
    thumb-focus-center
    sregion:
    National
    s:
    Calcareous clay, Acidic sand, Plant available water
    ctype:
    Update Paper
    asummary:
    In calcareous soil, soil boron (B) concentration if often at toxic level hence affecting crop development and grain yield.

  9. Molecular level interpretation of soil water repellency for the development of rapid assessment and novel amendments

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/02/molecular-level-interpretation-of-soil-water-repellency-for-the-development-of-rapid-assessment-and-novel-amendments

    28 Feb 2023: Non-wettable soils cause both environmental and economic problems. Environmental implications include increased surface runoff, enhanced erosion rates and chemical leaching.

    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, 2023-06-01, 2023-06-01
    e:
    molecular level interpretation of soil water repellency for the development of rapid assessment and novel amendments, summary
    pcode:
    DAW1407-001RTX
    aauthor:
    David J. Henry, Nicholas R. R. Daniel, Owen Horoch, S. M. Mijan Uddin, Mai Dao, Maria Then and Richard Harper
    f:
    text/html
    H:
    d09e9348e5fa9f99b1ed5c84044eda77
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Molecular level interpretation of soil water repellency for the development of rapid assessment and novel amendments
    title:
    Molecular level interpretation of soil water repellency for the development of rapid assessment and novel amendments
    p:
    Grains Research and Development Corporation
    aissueno:
    02
    thumbfocus:
    thumb-focus-center
    sregion:
    National
    s:
    accelerated solvent extraction, soil organic matter, molecular dynamics
    ctype:
    Update Paper
    asummary:
    Non-wettable soils cause both environmental and economic problems. Environmental implications include increased surface runoff, enhanced erosion rates and chemical leaching.

  10. Manipulating canola canopies through agronomy & genetics in the high rainfall zone

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2023/02/manipulating-canola-canopies-through-agronomy-and-genetics-in-the-high-rainfall-zone

    28 Feb 2023: As the role of cropping intensifies in high rainfall zone (HRZ) farming systems, so canola is becoming increasingly important, growing from ca. 10% to 25% of the cropped area from 2000-2018.

    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, 2023-06-01, 2023-06-01
    e:
    manipulating canola canopies through agronomy &amp, genetics in the high rainfall zone, summary
    pcode:
    DAW1903-008RMX
    aauthor:
    Jens Berger, Andrew Fletcher, Sam Flottmann, Adam Brown, Heping Zhang, Mark Seymour, Jeremy Curry
    f:
    text/html
    H:
    27f65660aa51a88aa6238e21af511f4c
    j:
    https://grdc.com.au
    l:
    en-AU
    issueno:
    Manipulating canola canopies through agronomy &amp, genetics in the high rainfall zone
    title:
    Manipulating canola canopies through agronomy & genetics in the high rainfall zone
    p:
    Grains Research and Development Corporation
    aissueno:
    02
    thumbfocus:
    thumb-focus-center
    sregion:
    National
    s:
    Canola, harvest index, high rainfall zone, GxM
    ctype:
    Update Paper
    asummary:
    As the role of cropping intensifies in high rainfall zone (HRZ) farming systems, so canola is becoming increasingly important, growing from ca. 10% to 25% of the cropped area from 2000-2018.

  11. 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-raphanistrum

    28 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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Collection last updated: Oct 3, 2024, 11:00:05 PM.
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