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62. Cereal disease update 2025 - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2025/02/cereal-disease-update-2025
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    25 Feb 2025: Implementation of proactive strategies for the control of cereal diseases can prevent avoidable losses when seasonal conditions are suitable for disease. This paper provides an update on the latest research regarding cereal diseases for Victorian

    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:

    2025-02-25 00:05:00, 2025-02-25 00:05:00, 2025-01-29, 2025-01-31

    e:

    cereal disease update 2025, summary

    pcode:

    DJP2104-004RTX, DEE2403-003SAX, DEE2404-004RTX, DAQ2304-008RTX, DAW2112-002RTX, UOS2207-002RTX, CUR2302-002RTX

    aauthor:

    Hari Dadu, Dharushana Thanabalasingam (Agriculture Victoria), Grant Hollaway (Astute Ag) and Mumta Chhetri (The University of Sydney)

    f:

    text/html

    H:

    8906235769a0e6a5226fa3b66041438d

    j:

    https://grdc.com.au

    l:

    en-AU

    issueno:

    Cereal disease update 2025

    title:

    Cereal disease update 2025

    tags:

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

    ctype:

    Update Paper

    sstate:

    Victoria

    asummary:

    Implementation of proactive strategies for the control of cereal diseases can prevent avoidable losses when seasonal conditions are suitable for disease. This paper provides an update on the latest research regarding cereal diseases for Victorian

63. Barley head loss - grower's quest and breeder's challenge - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2025/02/barley-head-loss-growers-quest-and-breeders-challenge
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    25 Feb 2025: Head loss is a complex trait influenced by both environmental and genetic factors. Environmental stresses, such as wind and temperature extremes, weaken the peduncle (the stem segment supporting the head), leading to breakage.

    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:

    2025-02-25 00:05:00, 2025-02-25 00:05:00, 2025-01-31, 2025-02-03

    e:

    barley head loss - grower's quest and breeder's challenge, summary

    pcode:

    UOM2305-001RSX

    aauthor:

    Nirmal Raj Rajendran, James Hunt (The University of Melbourne), David Moody (Intergrain Pty Ltd) and Mohammad Pourkheirandish (The University of Melbourne)

    f:

    text/html

    H:

    e4513894f01479c266b6be64b21406a9

    j:

    https://grdc.com.au

    l:

    en-AU

    issueno:

    Barley head loss - grower's quest and breeder's challenge

    title:

    Barley head loss - grower's quest and breeder's challenge

    tags:

    head loss, peduncle, phenotyping, selection

    p:

    Grains Research and Development Corporation

    aissueno:

    02

    thumbfocus:

    thumb-focus-center

    sregion:

    South

    s:

    head loss, peduncle, phenotyping, selection

    ctype:

    Update Paper

    sstate:

    Victoria

    asummary:

    Head loss is a complex trait influenced by both environmental and genetic factors. Environmental stresses, such as wind and temperature extremes, weaken the peduncle (the stem segment supporting the head), leading to breakage.

64. Fungicide resistance in blackleg disease in canola - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2025/02/fungicide-resistance-in-blackleg-disease-in-canola
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    25 Feb 2025: Blackleg disease is the most economically important disease affecting canola in Australia and typically causes 5–30% yield loss, with previous epidemics causing up to 95% losses.

    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:

    2025-02-25 00:05:00, 2025-02-25 00:05:00, 2025-01-31, 2025-02-03

    e:

    fungicide resistance in blackleg disease in canola, summary

    pcode:

    UOM2304-004RSX

    aauthor:

    Alec McCallum (University of Melbourne, Marcroft Grains Pathology), Steve Marcroft (Marcroft Grains Pathology), Sean Roberts (Syngenta Australia) and Angela van de Wouw (University of Melbourne)

    f:

    text/html

    H:

    b5b97f2396882621f23a9b7f4484090b

    j:

    https://grdc.com.au

    l:

    en-AU

    issueno:

    Fungicide resistance in blackleg disease in canola

    title:

    Fungicide resistance in blackleg disease in canola

    tags:

    blackleg disease, canola, fungicide resistance

    p:

    Grains Research and Development Corporation

    aissueno:

    02

    thumbfocus:

    thumb-focus-center

    sregion:

    South

    ctype:

    Update Paper

    sstate:

    Victoria

    asummary:

    Blackleg disease is the most economically important disease affecting canola in Australia and typically causes 5–30% yield loss, with previous epidemics causing up to 95% losses.

65. Nitrogen cycling inputs and losses - towards a deeper understanding - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2025/02/nitrogen-cycling-inputs-and-losses-towards-a-deeper-understanding
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    25 Feb 2025: Nitrogen (N) is one of six essential plant mineral macronutrients, along with phosphorus, potassium, sulphur, calcium and magnesium. It is taken up by plants in the mineral form as nitrate, or, less commonly, as ammonium.

    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:

    2025-02-25 00:00:00, 2025-02-25 00:00:00, 2025-01-31, 2025-02-03

    e:

    nitrogen cycling inputs and losses - towards a deeper understanding, summary

    aauthor:

    Rob Norton (Norton Agronomic, University of Melbourne)

    f:

    text/html

    H:

    c686449b57b0a6c709e67bb7b05d5b32

    j:

    https://grdc.com.au

    l:

    en-AU

    issueno:

    Nitrogen cycling inputs and losses - towards a deeper understanding

    title:

    Nitrogen cycling inputs and losses - towards a deeper understanding

    tags:

    Nitrogen, nitrification, denitrification, fixation, mineralisation, volatilisation, leaching

    p:

    Grains Research and Development Corporation

    aissueno:

    02

    thumbfocus:

    thumb-focus-center

    sregion:

    South

    s:

    Nitrogen, nitrification, denitrification, fixation, mineralisation, volatilisation, leaching

    ctype:

    Update Paper

    sstate:

    Victoria

    asummary:

    Nitrogen (N) is one of six essential plant mineral macronutrients, along with phosphorus, potassium, sulphur, calcium and magnesium. It is taken up by plants in the mineral form as nitrate, or, less commonly, as ammonium.

66. Slug communities' response to environment and management across southern Australia - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2025/02/slug-communities-response-to-environment-and-management-across-southern-australia
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    25 Feb 2025: The widespread adoption of conservation agriculture improves soil health and conserves soil moisture yet creates favourable conditions for slug populations. These management practices, in combination with the recent wet seasons, have created ideal

    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:

    2025-02-25 00:05:00, 2025-02-25 00:05:00, 2025-01-31, 2025-01-31

    e:

    slug communities' response to environment and management across southern australia, summary

    pcode:

    MAN2204-001SAX, UOA2308-004RTX

    aauthor:

    Thomas Heddle, Kym Perry, David Logan, Kate Muirhead (The University of Adelaide), Kelly Angel, Casey Sim (Birchip Cropping Group), Kate Coffey, Sabita Duwal (Riverine Plains), Chris Toohey (Elders), Graham Laslett (Combined Agronomic Service) and

    f:

    text/html

    H:

    583d8bcbf4c8ed1c19d0aed6f88899ee

    j:

    https://grdc.com.au

    l:

    en-AU

    issueno:

    Slug communities' response to environment and management across southern Australia

    title:

    Slug communities' response to environment and management across southern Australia

    tags:

    canola establishment, carabid beetles, integrated pest management (IPM), molluscs

    p:

    Grains Research and Development Corporation

    aissueno:

    02

    thumbfocus:

    thumb-focus-center

    sregion:

    South

    s:

    canola establishment, carabid beetles, integrated pest management (IPM), molluscs

    ctype:

    Update Paper

    sstate:

    Victoria

    asummary:

    The widespread adoption of conservation agriculture improves soil health and conserves soil moisture yet creates favourable conditions for slug populations. These management practices, in combination with the recent wet seasons, have created ideal

67. Nutrition management for high rainfall crops at risk of waterlogging - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2025/02/nutrition-management-for-high-rainfall-crops-at-risk-of-waterlogging
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    25 Feb 2025: Waterlogging occurs in most years in the high rainfall zone (HRZ) and is a cause of reduced yield and a constraint to crop choice. In this paper we refer to waterlogging as both a flooded soil where water is visible above the surface, and soils

    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:

    2025-02-25 00:05:00, 2025-02-25 00:05:00, 2025-01-30, 2025-01-31

    e:

    nutrition management for high rainfall crops at risk of waterlogging, summary

    pcode:

    UOT2306-001RTX

    aauthor:

    Malcolm McCaskill, Penny Riffkin (Agriculture Victoria), Olena Kravchuk (University of Adelaide) and Meixue Zhou (University of Tasmania)

    f:

    text/html

    H:

    0a9024139a538a9ff2fd5afe7faac442

    j:

    https://grdc.com.au

    l:

    en-AU

    issueno:

    Nutrition management for high rainfall crops at risk of waterlogging

    title:

    Nutrition management for high rainfall crops at risk of waterlogging

    tags:

    nitrogen, raised beds, root depth, waterlogging

    p:

    Grains Research and Development Corporation

    aissueno:

    02

    thumbfocus:

    thumb-focus-center

    sregion:

    South

    s:

    nitrogen, raised beds, root depth, waterlogging

    ctype:

    Update Paper

    sstate:

    Victoria

    asummary:

    Waterlogging occurs in most years in the high rainfall zone (HRZ) and is a cause of reduced yield and a constraint to crop choice. In this paper we refer to waterlogging as both a flooded soil where water is visible above the surface, and soils

68. An integrated approach to effectively manage pulse diseases a Victorian perspective - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2025/02/an-integrated-approach-to-effectively-manage-pulse-diseases-a-victorian-perspective
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    25 Feb 2025: The 2024 season relied on stored moisture and, with less rainfall through many parts of the state, resulted in low disease levels. There were still early reports of severe Ascochyta blight in lentils in high-risk situations, such as lentils in tight

    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:

    2025-02-25 00:05:00, 2025-02-25 00:05:00, 2025-01-29, 2025-01-29

    e:

    an integrated approach to effectively manage pulse diseases a victorian perspective, summary

    pcode:

    DEE2404-002RTX, DEE2407-001RTX, DEE2403-003SAX, DAW2112-002RTX, DJP2304-004RTX, CUR2403-003RTX, CUR2302-002RTX, DPI2206-023RTX

    aauthor:

    Chloe Findlay, Dharushana Thanabalasingam (Agriculture Victoria), Kurt Lindbeck (NSW Department of Primary Industries), Blake Gontar (South Australian Research and Development Institute) and Joshua Fanning (Agriculture Victoria)

    f:

    text/html

    H:

    290a7d1859b7fe70be574dab23488010

    j:

    https://grdc.com.au

    l:

    en-AU

    issueno:

    An integrated approach to effectively manage pulse diseases a Victorian perspective

    title:

    An integrated approach to effectively manage pulse diseases a Victorian perspective

    tags:

    fungicides, integrated disease management, pulses, varietal resistance

    p:

    Grains Research and Development Corporation

    aissueno:

    02

    thumbfocus:

    thumb-focus-center

    sregion:

    South

    ctype:

    Update Paper

    sstate:

    Victoria

    asummary:

    The 2024 season relied on stored moisture and, with less rainfall through many parts of the state, resulted in low disease levels. There were still early reports of severe Ascochyta blight in lentils in high-risk situations, such as lentils in tight

69. 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/2025/02/strategic-use-of-zinc-phosphide-is-critical-for-successful-mouse-control
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    25 Feb 2025: This paper relates to the GRDC investment: ‘Determining the effectiveness of zinc phosphide rodenticide bait in the presence of alternative food supply’. Growers had reported concerns regarding the effectiveness of commercially prepared zinc

    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:

    2025-02-25 00:05:00, 2025-02-25 00:05:00, 2025-01-29, 2025-01-29

    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 (CSIRO), Richard Duncan (University of Canberra), Nikki Van de Weyer and Freya Robinson (CSIRO)

    f:

    text/html

    H:

    8fe686f63acf73c83b2c078f16d45f29

    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:

    Victoria

    asummary:

    This paper relates to the GRDC investment: ‘Determining the effectiveness of zinc phosphide rodenticide bait in the presence of alternative food supply’. Growers had reported concerns regarding the effectiveness of commercially prepared zinc

70. https://grdc.com.au/events/list/2025/02/grdc-grains-research-update-perth

    https://grdc.com.au/events/list/2025/02/grdc-grains-research-update-perth
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    24 Feb 2025:

    eventEndDate:

    25 Feb 2025

    eventID:

    611722

    eventBrandImageURL:

    https://grdc.com.au/__data/assets/image/0028/392239/grdc-watermark-opacity05.png

    Date:

    24 Feb 2025 8:00 am

    eventSummary:

    Save the date for this two day event showcasing the latest research technology, market development and innovations to improve the productivity and profitability of the WA grains industry.

    eventLocation:

    Burswood

    eventUrl:

    https://grdc.com.au/events/list/2025/02/grdc-grains-research-update-perth

    eventEndDateFull:

    25 Feb 2025 5:00 pm

    eventContentType:

    Event

    eventType:

    Grains Research Update

    title:

    GRDC Grains Research Update - Perth

    spnsoredEvent:

    true

    sregion:

    West

    eventState:

    Western Australia

    eventYear:

    2025

    eventEndTime:

    5:00 pm

    eventTimeZone:

    awst

    eventStartTime:

    8:00 am

    onlineEvent:

    false

    eventStartDate:

    24 Feb 2025

71. Enhanced efficiency fertiliser - GRDC

    https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2025/02/enhanced-efficiency-fertiliser
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    24 Feb 2025: Nitrogen (N) is a major crop nutrient that suffers from inefficiencies in terms of plant utilisation due to loss as gases (the pollutant ammonia (NH3), the greenhouse gas nitrous oxide (N2O) or dinitrogen (N2)), and through leaching of nitrate (NO3),

    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:

    2025-02-24 00:05:00, 2025-02-24 00:05:00, 2025-01-28, 2025-01-29

    e:

    enhanced efficiency fertiliser, summary

    pcode:

    UOM2404-007RTX

    aauthor:

    Helen Suter and Arjun Pandey (University of Melbourne)

    f:

    text/html

    H:

    a4b887fa059f1830cbee460fcee91dce

    j:

    https://grdc.com.au

    l:

    en-AU

    issueno:

    Enhanced efficiency fertiliser

    title:

    Enhanced efficiency fertiliser

    tags:

    controlled/slow-release fertilisers, enhanced efficiency fertilisers, nitrification inhibitors, urease inhibitors

    p:

    Grains Research and Development Corporation

    aissueno:

    02

    thumbfocus:

    thumb-focus-center

    sregion:

    National

    s:

    controlled/slow-release fertilisers, enhanced efficiency fertilisers, nitrification inhibitors, urease inhibitors

    ctype:

    Update Paper

    sstate:

    Victoria

    asummary:

    Nitrogen (N) is a major crop nutrient that suffers from inefficiencies in terms of plant utilisation due to loss as gases (the pollutant ammonia (NH3), the greenhouse gas nitrous oxide (N2O) or dinitrogen (N2)), and through leaching of nitrate (NO3),