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731. Fully-matching results

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

     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
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     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:

     5fb9478fd6078bf5c79b6fbacf39ed12

     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

733. Strategies to improve crop establishment and yield on repellent sandy soils after amelioration

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/strategies-to-improve-crop-establishment-and-yield-on-repellent-sandy-soils-after-amelioration
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     6 Feb 2024: Crop establishment can be improved following amelioration by adequately consolidating the seed-bed pre-sowing, which reduces seeder sinkage and excessive soil throw. Combining seed broadcasting with in-row seeding in vulnerable paddock zones can

     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:

     strategies to improve crop establishment and yield on repellent sandy soils after amelioration , summary

     pcode:

     MFM2106-001RTX

     aauthor:

     Melissa Fraser (Soil Function Consulting), Jack Desbiolles (University of South Australia), Amanda Pearce, Nigel Wilhelm (South Australian Research and Development Institute, PIRSA)

     f:

     text/html

     H:

     6fb4e2f7cb7a1df48cec981fe9bbcf0f

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Strategies to improve crop establishment and yield on repellent sandy soils after amelioration

     title:

     Strategies to improve crop establishment and yield on repellent sandy soils after amelioration

     tags:

     amelioration, crop establishment, sandy soil, water repellence

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     amelioration, crop establishment, sandy soil, water repellence

     ctype:

     Update Paper

     asummary:

     Crop establishment can be improved following amelioration by adequately consolidating the seed-bed pre-sowing, which reduces seeder sinkage and excessive soil throw. Combining seed broadcasting with in-row seeding in vulnerable paddock zones can

734. Frost Learning Centre (FLC) for growers, advisers and researchers

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/frost-learning-centre-flc-for-growers,-advisers-and-researchers
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     6 Feb 2024: Zoning farms and paddocks based on frost risk (red, amber and green zones) is the starting point for frost management. Planning prior to seeding improves the ability to mitigate frost risk. Tools to mitigate risk include varietal selection 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:

     frost learning centre (flc) for growers, advisers and researchers, summary

     pcode:

     SAG2305-002OPX

     aauthor:

     Mick Faulkner and Ben Smith (Agrilink Agricultural Consultants Pty Ltd)

     f:

     text/html

     H:

     e980c70e363d6c58814ef6f04c2fa8ff

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Frost Learning Centre (FLC) for growers, advisers and researchers

     title:

     Frost Learning Centre (FLC) for growers, advisers and researchers

     tags:

     frost, learning, mitigation, zoning

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     frost, learning, mitigation, zoning

     ctype:

     Update Paper

     sstate:

     South Australia

     asummary:

     Zoning farms and paddocks based on frost risk (red, amber and green zones) is the starting point for frost management. Planning prior to seeding improves the ability to mitigate frost risk. Tools to mitigate risk include varietal selection and

735. Oaten hay yield and quality response to agronomic levers

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/oaten-hay-yield-and-quality-response-to-agronomic-levers
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     6 Feb 2024: Oaten hay varieties respond similarly to different agronomic levers – choose high yielding varieties with best genetic quality traits to optimise production of export quality hay. Sowing early maximises hay yield but not always quality – let 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:

     2024-02-06 00:00:00, 2024-02-06 00:00:00, 2024-01-29, 2024-01-29

     e:

     oaten hay yield and quality response to agronomic levers, summary

     aauthor:

     Alison Frischke (Birchip Cropping Group), Georgie Troup, Kylie Chambers, Blakely Paynter, Geoff Thomas, Sarah Jackson, Andrew van Burgel (Department of Primary Industries and Regional Development), Courtney Peirce, Rhiannon Schilling (South

     f:

     text/html

     H:

     b6785ac1c7ea4ee46c84668c64a09e2f

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Oaten hay yield and quality response to agronomic levers

     title:

     Oaten hay yield and quality response to agronomic levers

     tags:

     agronomy, hay, oats, pathology, yield

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     agronomy, hay, oats, pathology, yield

     ctype:

     Update Paper

     asummary:

     Oaten hay varieties respond similarly to different agronomic levers – choose high yielding varieties with best genetic quality traits to optimise production of export quality hay. Sowing early maximises hay yield but not always quality – let the

736. Messages emerging from long term lime trials to combat soil acidity

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/messages-emerging-from-long-term-lime-trials-to-combat-soil-acidity
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     6 Feb 2024: Long-term trials sites tracking the effectiveness of liming across a range of cropping and soil types are providing detailed information on the effects on crop yields, lime movement, lime rates and pH changes. The effectiveness of incorporation 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:

     2024-02-06 00:00:00, 2024-02-06 00:00:00, 2024-01-29, 2024-01-29

     e:

     messages emerging from long term lime trials to combat soil acidity, summary

     pcode:

     UOA2206-009RTX

     aauthor:

     Brian Hughes, Andrew Harding, Nigel Fleming and David Woodard (SARDI and University of Adelaide)

     f:

     text/html

     H:

     d781193c23eebbf81e59b1f23d45832e

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Messages emerging from long term lime trials to combat soil acidity

     title:

     Messages emerging from long term lime trials to combat soil acidity

     tags:

     acidity, incorporation, lime, soil pH.

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     acidity, incorporation, lime, soil pH

     ctype:

     Update Paper

     sstate:

     South Australia

     asummary:

     Long-term trials sites tracking the effectiveness of liming across a range of cropping and soil types are providing detailed information on the effects on crop yields, lime movement, lime rates and pH changes. The effectiveness of incorporation of

737. Emerging strategies for managing pulse foliar disease

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/emerging-strategies-for-managing-pulse-foliar-disease
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     6 Feb 2024: Foliar disease in pulses was infrequently reported in 2023, likely due to the dry spring. Foliar fungicides were likely unnecessary unless disease was observed, as most pulse foliar diseases require high humidity or recurring rain events. The first

     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:

     6/2/2024, 2024-02-06 00:00:00, 2024-01-17, 2024-01-18

     e:

     emerging strategies for managing pulse foliar disease, summary

     pcode:

     CUR1403-002BLX, DJP2304-004RTX, DPI2206-023RTX, UOA2105-013RTX

     aauthor:

     Sara Blake, Mohsen Khani (South Australian Research and Development Institute, Urrbrae, SA, University of Adelaide) Sarah Day, Dili Mao, Penny Roberts (University of Adelaide, South Australian Research and Development Institute) Josh Fanning

     f:

     text/html

     H:

     994570669e8ad63283b7f32cba0c84bb

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Emerging strategies for managing pulse foliar disease

     title:

     Emerging strategies for managing pulse foliar disease

     tags:

     ascochyta pathotype, botrytis, disease management, sclerotinia

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     ascochyta pathotype, botrytis, disease management, sclerotinia

     ctype:

     Update Paper

     asummary:

     Foliar disease in pulses was infrequently reported in 2023, likely due to the dry spring. Foliar fungicides were likely unnecessary unless disease was observed, as most pulse foliar diseases require high humidity or recurring rain events. The first

738. Bureau of Meteorology developments in long-term forecasting accuracy – the implications for autumn sowing

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/bureau-of-meteorology-developments-in-long-term-forecasting-accuracy-the-implications-for-autumn-sowing
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     6 Feb 2024: Research by the Bureau of Meteorology’s new Agriculture Decision Support (AgDS) team and engagement with the grains industry has shown a need for insights that connect short-term weather forecasts to long-term climate forecasts. The team

     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:

     6/2/2024, 2024-02-06 00:00:00, 2024-01-17, 2024-02-02

     e:

     bureau of meteorology developments in long-term forecasting accuracy – the implications for autumn sowing, summary

     aauthor:

     Jonathan How (Bureau of Meteorology – Agriculture Decision Support)

     f:

     text/html

     H:

     447920133110945d2c76bcfb02af3a23

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Bureau of Meteorology developments in long-term forecasting accuracy – the implications for autumn sowing

     title:

     Bureau of Meteorology developments in long-term forecasting accuracy – the implications for autumn sowing

     tags:

     accuracy, climate, forecast, outlook

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     accuracy, climate, forecast, outlook

     ctype:

     Update Paper

     asummary:

     Research by the Bureau of Meteorology’s new Agriculture Decision Support (AgDS) team and engagement with the grains industry has shown a need for insights that connect short-term weather forecasts to long-term climate forecasts. The team continues

739. Adopting innovative agronomic practices and research – a Canadian experience

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/adopting-innovative-agronomic-practices-and-research-a-canadian-experience
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     6 Feb 2024: Western Canadian grain growers are trying to balance enhanced nitrogen use efficiency (NUE), reduced greenhouse gas (GHG) emissions and on-farm profitability. However, agronomic solutions do not achieve all three simultaneously and the 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:

     6/2/2024, 2024-02-02 00:00:00, 2024-01-17, 2024-01-17

     e:

     adopting innovative agronomic practices and research – a canadian experience, summary

     aauthor:

     Sheri Strydhorst (Sheri’s Ag Consulting Inc)

     f:

     text/html

     H:

     dbe3114f76692c0f55cb7f16a538c9a0

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Adopting innovative agronomic practices and research – a Canadian experience

     title:

     Adopting innovative agronomic practices and research – a Canadian experience

     tags:

     crop rotation, nitrogen use efficiency, on-farm research, western Canada

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     crop rotation, nitrogen use efficiency, on-farm research, western Canada

     ctype:

     Update Paper

     asummary:

     Western Canadian grain growers are trying to balance enhanced nitrogen use efficiency (NUE), reduced greenhouse gas (GHG) emissions and on-farm profitability. However, agronomic solutions do not achieve all three simultaneously and the most

740. Strategies for optimising glufosinate and tackling efficacy challenges

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2024/02/strategies-for-optimising-glufosinate-and-tackling-efficacy-challenges
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     • Explore

     6 Feb 2024: Glufosinate is a charged herbicide, which influences its absorption. Translocation of glufosinate is the limiting factor for control. Translocation is decreased with lower temperatures after application. High humidity at application is essential for

     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:

     6/2/2024, 2024-02-06 00:00:00, 2024-01-17, 2024-01-17

     e:

     strategies for optimising glufosinate and tackling efficacy challenges, summary

     aauthor:

     Christopher Preston (School of Agriculture, Food & Wine, University of Adelaide)

     f:

     text/html

     H:

     b5ae50d87bafd361a9974a2471e7fef3

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Strategies for optimising glufosinate and tackling efficacy challenges

     title:

     Strategies for optimising glufosinate and tackling efficacy challenges

     tags:

     glufosinate, herbicide translocation, humidity, temperature

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     glufosinate, herbicide translocation, humidity, temperature

     ctype:

     Update Paper

     asummary:

     Glufosinate is a charged herbicide, which influences its absorption. Translocation of glufosinate is the limiting factor for control. Translocation is decreased with lower temperatures after application. High humidity at application is essential for

741. https://groundcover.grdc.com.au/weeds-pests-diseases/diseases/fungicides-available-for-australian-grain-crops-and-their-modes-of-action

     https://groundcover.grdc.com.au/weeds-pests-diseases/diseases/fungicides-available-for-australian-grain-crops-and-their-modes-of-action
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     • Explore

     6 Feb 2024:

     ArticleSummary:

     Fungicide resistance is a serious and increasing issue to be managed in Australian cropping systems. As these chemicals are an important part of an integrated disease management plan understanding their mode of action informs their appropriate use.

     LastUpdatedDate:

     19700101

     Date:

     20240206090000

     ArticlePubDate:

     06 Feb 2024

     TitlePosition:

     middle-left

     ArticleSubCategory:

     Diseases

     ArticleCaption:

     Understanding the mode of action of fungicides is key to managing fungicide resistant disease causing pathogens

     I:

     https://groundcover.grdc.com.au/__data/assets/image/0039/595929/varieties/thumb550x367.jpg

     ArticleKeywords:

     fungicides, modes of action, resistance, AFREN

     ArticleCategory:

     Weeds, Pests and Diseases

     title:

     Fungicides available for Australian grain crops and their modes of action

     url:

     https://groundcover.grdc.com.au/weeds-pests-diseases/diseases/fungicides-available-for-australian-grain-crops-and-their-modes-of-action

     CoreTextUser:

     400598

     sregion:

     National

     ImageFocusPoint:

     50%

     tab:

     News

     ctype:

     GroundCover Supplement

     ArticleProjectCode:

     CUR2302-002RTX

     ArticleAuthor:

     Dr Anna-Sheree Krige

     ArticleSupplement:

     Fungicide Resistance - Navigating the storm, January-February 2024

     ArticleAssetID:

     595925

     ArticlePhotographer:

     Dr Anna-Sheree Krige, CCDM and AFREN