Results

131. Fully-matching results

132. Is Artificial Intelligence helping grow more grain? A perspective on AI applied to agriculture - GRDC

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2025/02/is-artificial-intelligence-helping-grow-more-grain-a-perspective-on-ai-applied-to-agriculture
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     4 Feb 2025: Artificial Intelligence (AI) interest and speculation seem to be ever-growing across all industries. We can say that it all started with a famous publication called ‘Computing machinery and intelligence’ in the 1950s.

     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:

     2025-02-04 00:05:00, 2025-02-04 00:05:00, 2025-01-24, 2025-01-24

     e:

     is artificial intelligence helping grow more grain? a perspective on ai applied to agriculture, summary

     aauthor:

     Jonathan Richetti and Roger Lawes (CSIRO)

     f:

     text/html

     H:

     068bdbac95ee0dda73e04c841139f7b7

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Is Artificial Intelligence helping grow more grain? A perspective on AI applied to agriculture

     title:

     Is Artificial Intelligence helping grow more grain? A perspective on AI applied to agriculture

     tags:

     deep learning, machine learning, neural networks

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     ctype:

     Update Paper

     sstate:

     South Australia

     asummary:

     Artificial Intelligence (AI) interest and speculation seem to be ever-growing across all industries. We can say that it all started with a famous publication called ‘Computing machinery and intelligence’ in the 1950s.

133. Achieving water-limited yield frontiers more profitably - GRDC

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2025/02/achieving-water-limited-yield-frontiers-more-profitably
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     4 Feb 2025: A new GRDC project (CSP2404-020RTX - Profitable Yield Frontiers (PYF)) is focused on supporting tactical agronomy decisions in low to medium rainfall zones of the Southern region to achieve water-limited yield potentials.

     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:

     2025-02-04 00:05:00, 2025-02-04 00:05:00, 2025-01-24, 2025-01-24

     e:

     achieving water-limited yield frontiers more profitably , summary

     pcode:

     CSP2404-020RTX, CSP2403-017RTX

     aauthor:

     Kenton Porker, Therese McBeath, James Manson (CSIRO Agriculture and Food), Brett Masters, Andrew Ware, Jacob Giles (EPAG Research), Victor Sadras, Mariano Cossani (SARDI), Michael Moodie (Frontier Farming Systems), Kent Wooding (AgInsights)

     f:

     text/html

     H:

     3d67ba8297680e736b23d0456e40a54d

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Achieving water-limited yield frontiers more profitably

     title:

     Achieving water-limited yield frontiers more profitably

     tags:

     soil amelioration, sowing date, tactical agronomy, water-limited yield

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     ctype:

     Update Paper

     sstate:

     South Australia

     asummary:

     A new GRDC project (CSP2404-020RTX - Profitable Yield Frontiers (PYF)) is focused on supporting tactical agronomy decisions in low to medium rainfall zones of the Southern region to achieve water-limited yield potentials.

134. Soil texture drives deep sowing success in the driest autumn on record - GRDC

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2025/02/soil-texture-drives-deep-sowing-success-in-the-driest-autumn-on-record
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     4 Feb 2025: Growers need adaptations to overcome the challenges of large-scale sowing programs, a highly variable seasonal break and increased emphasis on the importance of timely establishment for maximum 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:

     2025-02-04 00:05:00, 2025-02-04 00:05:00, 2025-01-24, 2025-01-28

     e:

     soil texture drives deep sowing success in the driest autumn on record, summary

     pcode:

     CSP2212-007RTX

     aauthor:

     Bonnie Flohr, Kenton Porker, Therese McBeath (CSIRO Agriculture and Food), Brett Masters, Andrew Ware, Alex Busch, Rhaquelle Meiklejohn, Regan O'Brien (EPAG Research), Greg Rebetzke (CSIRO Agriculture and Food), Jack Desbiolles (University of South

     f:

     text/html

     H:

     516997dc1864a992fd4e5639f209e506

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Soil texture drives deep sowing success in the driest autumn on record

     title:

     Soil texture drives deep sowing success in the driest autumn on record

     tags:

     deep sowing, establishment, long coleoptile, soil strength

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     deep sowing, establishment, long coleoptile, soil strength

     ctype:

     Update Paper

     sstate:

     South Australia

     asummary:

     Growers need adaptations to overcome the challenges of large-scale sowing programs, a highly variable seasonal break and increased emphasis on the importance of timely establishment for maximum yield.

135. Optimising deep ripping operation to convert the worst soils into the best in sandy landscapes - GRDC

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2025/02/optimising-deep-ripping-operation-to-convert-the-worst-soils-into-the-best-in-sandy-landscapes
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     4 Feb 2025: After eight years of deep tillage research in the sandy soils of the southern region, we have repeatedly demonstrated that high soil strength is often constraining crop productivity and that management actions, such as deep ripping that loosen 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:

     2025-02-04 00:05:00, 2025-02-04 00:05:00, 2025-01-23, 2025-01-24

     e:

     optimising deep ripping operation to convert the worst soils into the best in sandy landscapes, summary

     pcode:

     MSF22001-001SAX, CSP2403-017RTX, USA2306-002RTX

     aauthor:

     Chris Saunders (AMRDC, University of South Australia), Therese McBeath (CSIRO Agriculture and Food), Michael Moodie (Frontier Farming Systems), Jack Desbiolles (AMRDC, University of South Australia) and Kenton Porker (CSIRO Agriculture and Food)

     f:

     text/html

     H:

     6ca7dae7aa85fc8097a5aedc32576c38

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Optimising deep ripping operation to convert the worst soils into the best in sandy landscapes

     title:

     Optimising deep ripping operation to convert the worst soils into the best in sandy landscapes

     tags:

     deep ripping, high-capacity inclusion ripping, sandy soil amelioration

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     deep ripping, high-capacity inclusion ripping, sandy soil amelioration

     ctype:

     Update Paper

     sstate:

     South Australia

     asummary:

     After eight years of deep tillage research in the sandy soils of the southern region, we have repeatedly demonstrated that high soil strength is often constraining crop productivity and that management actions, such as deep ripping that loosen the

136. Constraint mapping and nowcasting of plant available water (PAW) - GRDC

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2025/02/constraint-mapping-and-nowcasting-of-plant-available-water-paw
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     4 Feb 2025: Knowledge of soil variability across a paddock opens up the possibility to manage this variability with the adoption of precision agriculture. Common examples are varying inputs, such as fertiliser, if there are differences in soil type, 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:

     2025-02-04 00:05:00, 2025-02-04 00:05:00, 2025-01-23, 2025-01-24

     e:

     constraint mapping and nowcasting of plant available water (paw), summary

     pcode:

     UOS2001-002RTX, UOS2206-009RTX

     aauthor:

     Thomas Bishop, Jie Wang, Nikolas Hoskin and Patrick Filippi (The University of Sydney)

     f:

     text/html

     H:

     36102b7d9ffa3110c1ec3f2772325266

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Constraint mapping and nowcasting of plant available water (PAW)

     title:

     Constraint mapping and nowcasting of plant available water (PAW)

     tags:

     precision agriculture, soil constraints, soil water, spatial

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     precision agriculture, soil constraints, soil water, spatial

     ctype:

     Update Paper

     sstate:

     South Australia

     asummary:

     Knowledge of soil variability across a paddock opens up the possibility to manage this variability with the adoption of precision agriculture. Common examples are varying inputs, such as fertiliser, if there are differences in soil type, and

137. Subsurface phosphorus placement does not improve crop performance compared with shallow placement in south-eastern Australia - GRDC

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2025/02/subsurface-phosphorus-placement-does-not-improve-crop-performance-compared-with-shallow-placement-in-south-eastern-australia
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     4 Feb 2025: Placement of phosphorus (P) fertiliser in bands near the seed (approximately 5cm below the soil surface) is a common practice in southern cropping systems. This practice can lead to a build-up of P in the topsoil in zero-tilled systems where it

     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:

     2025-02-04 00:05:00, 2025-02-04 00:05:00, 2025-01-20, 2025-01-24

     e:

     subsurface phosphorus placement does not improve crop performance compared with shallow placement in south-eastern australia, summary

     pcode:

     DPI2001-033RTX

     aauthor:

     Katherine Dunsford, Roger Armstrong (Agriculture Victoria), Kirsten Verburg (CSIRO Agriculture and Food), Nigel Wilhelm (South Australian Research and Development Institute), Therese McBeath (CSIRO Agriculture and Food) and Shihab Uddin (NSW

     f:

     text/html

     H:

     e1cb301a6a21fab2fccce14b43359858

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Subsurface phosphorus placement does not improve crop performance compared with shallow placement in south-eastern Australia

     title:

     Subsurface phosphorus placement does not improve crop performance compared with shallow placement in south-eastern Australia

     tags:

     phosphorus, soil water, species contrasts, subsurface nutrients

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     phosphorus, soil water, species contrasts, subsurface nutrients

     ctype:

     Update Paper

     sstate:

     South Australia

     asummary:

     Placement of phosphorus (P) fertiliser in bands near the seed (approximately 5cm below the soil surface) is a common practice in southern cropping systems. This practice can lead to a build-up of P in the topsoil in zero-tilled systems where it

138. Assessing the impact and effective testing of root disease - GRDC

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2025/02/assessing-the-impact-and-effective-testing-of-root-disease
     • Cached
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     4 Feb 2025: Key soilborne diseases, including crown rot, Rhizoctonia root rot and root lesion nematode, are estimated to cause Australian grain growers more than $500 million per annum in direct yield losses – an average loss of ~$38/ha over every paddock,

     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:

     2025-02-04 00:05:00, 2025-02-04 00:05:00, 2025-01-17, 2025-01-21

     e:

     assessing the impact and effective testing of root disease, summary

     pcode:

     UOA2206-007RTX, DAW2206-006RTX

     aauthor:

     Blake Gontar (South Australian Research and Development Institute, University of Adelaide), Alyce Dowling (University of Adelaide), Steve Barnett (South Australian Research and Development Institute, University of Adelaide), Amanda Cook (South

     f:

     text/html

     H:

     962c9d7c49eb151cf91bbf935d24b418

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Assessing the impact and effective testing of root disease

     title:

     Assessing the impact and effective testing of root disease

     tags:

     integrated disease management, Predicta B, root disease, soilborne disease

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     integrated disease management, Predicta B, root disease, soilborne disease

     ctype:

     Update Paper

     sstate:

     South Australia

     asummary:

     Key soilborne diseases, including crown rot, Rhizoctonia root rot and root lesion nematode, are estimated to cause Australian grain growers more than $500 million per annum in direct yield losses – an average loss of ~$38/ha over every paddock,

139. Nitrogen management in the world of AI - lessons from the Future Farm project - GRDC

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2025/02/nitrogen-management-in-the-world-of-ai-lessons-from-the-future-farm-project
     • Cached
     • Explore

     4 Feb 2025: Over the past decades, many digital nitrogen (N) management methods have been developed, utilising different input data and recommendation frameworks. During the Future Farm project, thirteen methods for mid-season N recommendations in cereal

     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:

     2025-02-04 00:05:00, 2025-02-04 00:05:00, 2025-01-17, 2025-01-20

     e:

     nitrogen management in the world of ai - lessons from the future farm project, summary

     pcode:

     CSP1803-020RMX

     aauthor:

     Jonathan Richetti (CSIRO), Andre Colaço (University of Sao Paulo), Roger Lawes (CSIRO), Brett Whelan (University of Sydney) and Rob Bramley (CSIRO)

     f:

     text/html

     H:

     d19a3b2c4cabafa19be028d4e97a57f2

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Nitrogen management in the world of AI - lessons from the Future Farm project

     title:

     Nitrogen management in the world of AI - lessons from the Future Farm project

     tags:

     artificial intelligence, cereals, data-driven modelling, mid-season nitrogen

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     artificial intelligence, cereals, data-driven modelling, mid-season nitrogen

     ctype:

     Update Paper

     sstate:

     South Australia

     asummary:

     Over the past decades, many digital nitrogen (N) management methods have been developed, utilising different input data and recommendation frameworks. During the Future Farm project, thirteen methods for mid-season N recommendations in cereal

140. Pulse physiology, phenology, and productivity - GRDC

     https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2025/02/pulse-physiology,-phenology,-and-productivity
     • Cached
     • Explore

     4 Feb 2025: GRDC has made specific investments to quantify the rate of genetic gains in pulses. Experiments compare historic collections of commercial varieties, and genetic gain is calculated as the slope of the relationship between yield and year of release.

     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:

     2025-02-04 00:05:00, 2025-02-04 00:05:00, 2025-01-10, 2025-01-14

     e:

     pulse physiology, phenology, and productivity, summary

     pcode:

     UOT1909-002RTX, UOA2204-004RTX, DPI2205-022RTX, UOA2202-006RSX

     aauthor:

     Victor Sadras, Lachlan Lake, Mariano Cossani, James Manson, Raul Gimenez (South Australian Research and Development Institute), Nicole Dron (NSW DPI)

     f:

     text/html

     H:

     e2cd4f9f2fa2db66ec97ff648b181ecd

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     Pulse physiology, phenology, and productivity

     title:

     Pulse physiology, phenology, and productivity

     tags:

     gain number, grain weight, podding, trade-off

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     grain number, grain weight, podding, trade-off

     ctype:

     Update Paper

     sstate:

     South Australia

     asummary:

     GRDC has made specific investments to quantify the rate of genetic gains in pulses. Experiments compare historic collections of commercial varieties, and genetic gain is calculated as the slope of the relationship between yield and year of release.

141. An integrated approach to effectively manage pulse diseases a South Australian 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-south-australian-perspective
     • Cached
     • Explore

     4 Feb 2025: Extended dry conditions across most cropping areas of South Australia in 2024 resulted in no substantial disease infection in pulse crops. Dry conditions also restricted crop growth and biomass production, and canopy closure was not achieved in many

     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:

     2025-02-04 00:05:00, 2025-02-04 00:05:00, 2025-01-09, 2025-01-13

     e:

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

     pcode:

     DEE2404-002RTX, UOA2105-013RTX, DEE2403-003SAX, DAW2112-002RTX, DJP2304-004RTX, CUR2403-003RTX, CUR2302-002RTX, DPI2206-023RTX, DEE2407-001RTX

     aauthor:

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

     f:

     text/html

     H:

     7a6f8ea35cf8a2a9ced1fa14d1db0c60

     j:

     https://grdc.com.au

     l:

     en-AU

     issueno:

     An integrated approach to effectively manage pulse diseases a South Australian perspective

     title:

     An integrated approach to effectively manage pulse diseases a South Australian perspective

     tags:

     fungicides, integrated disease management, pulses, varietal resistance

     p:

     Grains Research and Development Corporation

     aissueno:

     02

     thumbfocus:

     thumb-focus-center

     sregion:

     South

     s:

     • fungicides, integrated disease management, pulses, varietal resistance

     ctype:

     Update Paper

     sstate:

     South Australia

     asummary:

     Extended dry conditions across most cropping areas of South Australia in 2024 resulted in no substantial disease infection in pulse crops. Dry conditions also restricted crop growth and biomass production, and canopy closure was not achieved in many