Researcher(s) |
Leigh Jenkins (NSW DPI) Andrew Verrell (NSW DPI) |
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Year(s) | 2015 |
Contributor | Department of Primary Industries NSW |
Trial location(s) |
‘Dunbar’, Bullarah, NSW
Coonamble, NSW Cryon, NSW Tamworth, NSW Trangie, NSW |
Further information | View external link |
Related trials |
To report on the outcomes of a series of faba bean variety × density experiments across northern NSW.
The 2015 season was characterised by severe frost events, episodic cold weather during flowering and terminal drought during grain filling. These seasonal conditions severely affected crop performance, reducing the potential yield of faba beans across most areas of the northern NSW cropping zone. The Northern Pulse Agronomy Initiative (NPAI; Winter Pulse) project conducted a range of experiments covering a number of different agronomic themes in 2015. This paper reports on the outcomes of a series of faba bean variety × density experiments across northern NSW.
Key findings:
Conclusions:
Limited data from the first year of trial results in 2015 suggests that for northern and western sites, 20 plants/m2 is a preferred target plant density, while in central areas 30 plants/m2 is a better option to achieve optimum yield with faba bean grown under dryland cropping conditions. Large seed does not necessarily confer higher yield, with PBA Nasma out yielding PBA Warda at only one location, Trangie, in 2015. Doza appears more prone to frost damage than either PBA Warda or PBA Nasma. Frost tolerance is a key attribute for the faba bean breeding program in northern NSW, with new releases (particularly PBA Nasma) targeted at having better tolerance than Doza, which was apparent in these trials in 2015.
Lead research organisation |
Department of Primary Industries NSW |
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Host research organisation | N/A |
Trial funding source | GRDC DAN00171 |
Related program |
Northern pulse agronomy initiative - NSW |
Acknowledgments |
The research undertaken as part of project DAN00171: Northern pulse agronomy initiative – NSW, is made possible by the significant contributions of growers through both trial co-operation and the support of the GRDC. The authors would like to thank them for their continued support. Thanks to Mat Grinter, Michael Nowland, Jayne Jenkins and Scott Richards (all NSW DPI) for their technical assistance in the trial program. |
Other trial partners | Not specified |
Crop type | Grain Legume: Faba beans |
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Treatment type(s) |
|
Trial type | |
Trial design |
Sow rate or Target density | 10, 20, 30 and 40 plants/m2 |
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Sow date | Not specified |
Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Other trial notes |
Treatments Three faba bean varieties were sown; DozaA, PBA WardaA and the new line PBA NasmaA. Four target plant densities were examined; 10, 20, 30 and 40 plants/m2 . All five trials were grown under dryland cropping conditions (i.e. not irrigated). The difference in seed size for these commercial lines is shown in Figure 1, where PBA NasmaA, on average, has seed that is 40% larger than DozaA. |
Sow rate or Target density | Not specified |
---|---|
Sow date | Not specified |
Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Other trial notes |
Treatments Three faba bean varieties were sown; DozaA, PBA WardaA and the new line PBA NasmaA. Four target plant densities were examined; 10, 20, 30 and 40 plants/m2 . All five trials were grown under dryland cropping conditions (i.e. not irrigated). The difference in seed size for these commercial lines is shown in Figure 1, where PBA NasmaA, on average, has seed that is 40% larger than DozaA. |
Sow rate or Target density | Not specified |
---|---|
Sow date | Not specified |
Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Other trial notes |
Treatments Three faba bean varieties were sown; DozaA, PBA WardaA and the new line PBA NasmaA. Four target plant densities were examined; 10, 20, 30 and 40 plants/m2 . All five trials were grown under dryland cropping conditions (i.e. not irrigated). The difference in seed size for these commercial lines is shown in Figure 1, where PBA NasmaA, on average, has seed that is 40% larger than DozaA. |
Sow rate or Target density | Not specified |
---|---|
Sow date | Not specified |
Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Other trial notes |
Treatments Three faba bean varieties were sown; DozaA, PBA WardaA and the new line PBA NasmaA. Four target plant densities were examined; 10, 20, 30 and 40 plants/m2 . All five trials were grown under dryland cropping conditions (i.e. not irrigated). The difference in seed size for these commercial lines is shown in Figure 1, where PBA NasmaA, on average, has seed that is 40% larger than DozaA. |
Sow rate or Target density | Not specified |
---|---|
Sow date | Not specified |
Harvest date | Not specified |
Plot size | Not specified |
Plot replication | Not specified |
Other trial notes |
Treatments Three faba bean varieties were sown; DozaA, PBA WardaA and the new line PBA NasmaA. Four target plant densities were examined; 10, 20, 30 and 40 plants/m2 . All five trials were grown under dryland cropping conditions (i.e. not irrigated). The difference in seed size for these commercial lines is shown in Figure 1, where PBA NasmaA, on average, has seed that is 40% larger than DozaA. |
# | Variety |
Grain yield - Coonamble (kg/ha) | Grain yield - Trangie (kg/ha) | Grain yield - Bullarah (kg/ha) | Grain yield - Cryon (kg/ha) | Grain yield - Tamworth (kg/ha) |
---|---|---|---|---|---|---|
1 | █ Doza | 2900 | 2036 | 1602 | 1547 | 2954 |
2 | █ PBA Warda | 3280 | 2246 | 1687 | 1700 | 3296 |
3 | █ PBA Nasma | 3452 | 2658 | 1685 | 1686 | 3359 |
4 | █ Density | 1498 | ||||
5 | █ 10 | 3376 | 1975 | 1670 | 1373 | 3177 |
6 | █ 20 | 3411 | 2275 | 1768 | 1772 | 3329 |
7 | █ 30 | 3246 | 2515 | 1666 | 1673 | 3210 |
8 | █ 40 | 3270 | 2489 | 1745 | 3096 |
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.