Time of sowing still key driver of dryland yield

Author: Toni Somes | Date: 18 Apr 2017

NSW DPI research agronomist Rick Graham

NSW DPI research agronomist Rick Graham has been investigating the impact of time of sowing on crop yields in dryland environments.

Understanding the key factors driving crop yield has reaffirmed time of sowing (TOS) as the main driver, endorsing the long-held practice of planting cereal crops within their optimum sowing window to maximise potential.

Two years of research trials across central west and northern New South Wales by the NSW Department Primary Industries (DPI) and supported by the Grains Research and Development Corporation (GRDC) clearly demonstrated TOS is vital for maximising crop yields.

NSW DPI research agronomist Rick Graham led the team, which compared a range of agronomic inputs, including TOS, wheat variety and maturity type, plant populations, nitrogen and phosphorus nutrition and crown rot infection. 

“TOS for winter cereal crops is a key to optimising yield potential, with the effect becoming more significant in lower rainfall environments, especially Trangie and Nyngan,” Mr Graham said.

The impact of time of sowing on yield potential was consistent across trial sites at Nyngan, Trangie and on the Liverpool Plains. These sites included a mix of lower and high rainfall environments to demonstrate the combination of wheat variety and maturity type on crop yield, together with other agronomic inputs.  

Time of sowing

All trial sites demonstrated a significant decline in crop yield with delayed sowing. In 2015 at Nyngan a three to four-week delay in sowing caused a significant reduction in crop yield potential.

“A decline in crop yield was demonstrated across all sites with delays in sowing. At Nyngan in 2015 for example, a 2.65t/ha yield achieved for an earlier sowing window option (May 8) declined to 0.8t/ha, with a 20-day delay in sowing time,” Mr Graham said.

“Higher rainfall environments such as the Liverpool Plains generally had higher crop yields across all varieties than the lower rainfall environments due to the longer growing season and were impacted less by delays in sowing date.”

Wheat variety/maturity and plant populations

Long and early maturity wheat cultivars were used in the trials, and regardless of variety, all cultivars demonstrated a ‘plastic’ response in crop yield to time of sowing across the different sites, indicating genotypes can adapt across geographic regions with a main season sowing date. Gregory and Sunvale were trialled as main season varieties, with Crusader and Spitfire as earlier maturing options.

The research reinforced the TOS message on crop yield, but in different environments there are genotype by management options, where growers can use a faster maturing variety, such as Spitfire together with increased plant populations, to maximise crop yields in lower rainfall environments. 

Unlike the western trial sites, the softer Liverpool Plains environment did not demonstrate a plant population response, indicating wheat plants can compensate with increased tillering, where plant populations are at the lower end of the recommended plant establishment rate in higher rainfall environments.

Mr Graham said the message to growers was to spread risk by selecting different wheat varieties and maturity types, and sowing within the early to mid-sowing window for each variety.

“Sow your best variety for the district as early in its optimum sowing window, as practicable. But note, quicker maturing varieties, such as Crusader at the Nyngan trial site, did increase crop yield in lower rainfall environments,” he said.

Increasing plant populations also increased crop yield, so growers can increase sowing rates of wheat varieties to compensate for delayed sowing. However, the research showed that this approach was unlikely to fully compensate for the decline in yield from delayed planting.

Crown rot and crop nutrition

Crown rot was introduced to the trial plots, via sterilised Durum infected with the crown rot fungus. Spitfire although more tolerant of crown rot than other varieties, such as Gregory, still had a reduction in yield with delayed sowing, compounded by crown rot infection.

There was little measurable crop response to nitrogen and phosphorus application across the trial sites, however the higher the plant available water capacity (PAWC) of the soil, the higher the potential N response on crop yield. 

“Existing soil nitrogen and phosphorus levels limited the crop yield response to applied nitrogen and phosphorus across most trial sites, however nitrogen application does enable the crop yield potential to be realised,” Mr Graham said.

Other agronomic factors

Frost impacted the Tamarang trial site in 2014, indicating that even when planting in the correct sowing window for crop variety there is still a risk of frost impacting crop yield.

“The risk of frost impacting crop yield is real, but heat stress during grain fill in the spring has potentially more of an impact, especially in drier environments. TOS has a known impact on crop yield and grain quality, and growers can plan their cropping programs accordingly.”

Read Rick Graham’s research paper 'Agronomic drivers of yield in rain fed wheat production systems of the Northern Grains Region'

For Interviews

Rick Graham, NSW DPI
0428 264 971
rick.graham@dpi.nsw.gov.au

Contact

Toni Somes, Cox Inall Communications
0427 878387
toni.somes@coxinall.com.au

GRDC Project Code DAN00181

Region North