Researcher(s) | N/A |
---|---|
Year(s) | 2013 |
Contributor | Mallee Sustainable Farming Inc. |
Trial location(s) |
Ouyen, VIC
Wargan, VIC |
To provide farmers with more information on the productivity of legume break crops and varieties in the northern Mallee region.
Lead research organisation | N/A |
---|---|
Host research organisation | N/A |
Related program | N/A |
Acknowledgments |
These trials were conducted as part of the Mallee Low Rainfall Crop Sequencing Project which is a collaboration between MSF and SARDI with funding from the GRDC. |
Other trial partners | Not specified |
Crop types | Grain Legume: Chickpeas Grain Legume: Field peas Grain Legume: Lentils Grain Legume: Lupins Hay: Vetch Grain Legume: Faba beans |
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Trial type | |
Trial design |
Sow date | Not specified |
---|---|
Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Other trial notes |
These trials were conducted as part of the Mallee Low Rainfall Crop Sequencing Project which has shown big productivity benefits by including break crops in low rainfall cropping rotations. The aim of these trials was to provide farmers with local relevant data about selecting pulse crops for their farming systems. |
Sow date | Not specified |
---|---|
Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Other trial notes |
These trials were conducted as part of the Mallee Low Rainfall Crop Sequencing Project which has shown big productivity benefits by including break crops in low rainfall cropping rotations. The aim of these trials was to provide farmers with local relevant data about selecting pulse crops for their farming systems. |
Sow date | Not specified |
---|---|
Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Other trial notes |
These trials were conducted as part of the Mallee Low Rainfall Crop Sequencing Project which has shown big productivity benefits by including break crops in low rainfall cropping rotations. The aim of these trials was to provide farmers with local relevant data about selecting pulse crops for their farming systems. |
Sow date | Not specified |
---|---|
Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Other trial notes |
These trials were conducted as part of the Mallee Low Rainfall Crop Sequencing Project which has shown big productivity benefits by including break crops in low rainfall cropping rotations. The aim of these trials was to provide farmers with local relevant data about selecting pulse crops for their farming systems. |
Sow date | Not specified |
---|---|
Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Other trial notes |
These trials were conducted as part of the Mallee Low Rainfall Crop Sequencing Project which has shown big productivity benefits by including break crops in low rainfall cropping rotations. The aim of these trials was to provide farmers with local relevant data about selecting pulse crops for their farming systems. |
Sow date | Not specified |
---|---|
Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Other trial notes |
These trials were conducted as part of the Mallee Low Rainfall Crop Sequencing Project which has shown big productivity benefits by including break crops in low rainfall cropping rotations. The aim of these trials was to provide farmers with local relevant data about selecting pulse crops for their farming systems. |
Sow date | Not specified |
---|---|
Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Other trial notes |
These trials were conducted as part of the Mallee Low Rainfall Crop Sequencing Project which has shown big productivity benefits by including break crops in low rainfall cropping rotations. The aim of these trials was to provide farmers with local relevant data about selecting pulse crops for their farming systems. |
Sow date | Not specified |
---|---|
Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Other trial notes |
These trials were conducted as part of the Mallee Low Rainfall Crop Sequencing Project which has shown big productivity benefits by including break crops in low rainfall cropping rotations. The aim of these trials was to provide farmers with local relevant data about selecting pulse crops for their farming systems. |
Sow date | Not specified |
---|---|
Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Other trial notes |
These trials were conducted as part of the Mallee Low Rainfall Crop Sequencing Project which has shown big productivity benefits by including break crops in low rainfall cropping rotations. The aim of these trials was to provide farmers with local relevant data about selecting pulse crops for their farming systems. |
Sow date | Not specified |
---|---|
Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Other trial notes |
These trials were conducted as part of the Mallee Low Rainfall Crop Sequencing Project which has shown big productivity benefits by including break crops in low rainfall cropping rotations. The aim of these trials was to provide farmers with local relevant data about selecting pulse crops for their farming systems. |
Sow date | Not specified |
---|---|
Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Other trial notes |
These trials were conducted as part of the Mallee Low Rainfall Crop Sequencing Project which has shown big productivity benefits by including break crops in low rainfall cropping rotations. The aim of these trials was to provide farmers with local relevant data about selecting pulse crops for their farming systems. |
SILO weather estimates sourced from https://www.longpaddock.qld.gov.au/silo/
Jeffrey, S.J., Carter, J.O., Moodie, K.B. and Beswick, A.R. (2001). Using spatial interpolation to construct a comprehensive archive of Australian climate data , Environmental Modelling and Software, Vol 16/4, pp 309-330. DOI: 10.1016/S1364-8152(01)00008-1.