OSR needs cold winter weather to maximise yield
RESEARCH from the John Innes Centre has found that oilseed rape needs cold weather in late November/ early December to promotes growth during early floral development.
Its team of scientists demonstrated that OSR plants can undergo a developmental phase known as flower bud dormancy if the winter temperature is too warm. This physiological process occurs as the microscopic, newly-formed buds lie inactive waiting for low temperatures to signal growth and is well understood in perennial plants which grow year after year.
This development stage was not known to exist in annual crops. OSR plants that were chilled at this key developmental stage developed faster and were higher yielding, producing more seeds per pod. Conversely plants grown in warmer conditions, grew slowly and were lower yielding.
Professor Steve Penfield, a group leader at JIC, said: “It was surprising to find that winter annuals have this flower bud dormancy – no one has ever suggested that this mechanism is important to flowering time control in annual plants.
“Our experiments further show that if flower buds experience warmer than average temperatures then growth slows down and plants produce aberrant flowers and low yield. Conversely, we know that if plants get chilled at this stage this promotes faster growth and higher yield.”
Previous studies had shown a strong correlation between late November-early December temperatures and yield in crops such as oilseed rape, which are winter annuals, planted in the autumn and harvested the following summer.
Colder temperatures during this weather window are linked to higher yields, while warmer temperatures result in lower yields. The differences in conditions during this important weather window account for a variation of up to 25% of total yield.
Understanding the reasons behind the statistical correlations between climate and yield is important for predicting the impact of climate change on crop production and could be used to develop strategies to adapt the crop to produce higher yields with warmer winters.
Following the indoor, laboratory-controlled trial, the team moved the experiment to a field trial, using a heated field plot system outdoors to John Innes Centre’s field trials and experimentation site at Church Farm. The results from both the laboratory and the field trials were the same, warmer conditions led to slower growth and reduced yield.
Using molecular techniques, the team analysed the genes expressed in the bud tissues of the oilseed rape plants which were affected by temperature changes. This showed that a previously well-known chilling response gene, called FLC, was mediating the plants’ bud dormancy response to winter temperatures.
Professor Penfield added: “We had seen this correlation between chilling and yield in the data, but until now we could not say that chilling was linked to the physiology of the crop – it is not for example that chilling just kills some disease or pest – although it might do that as well. But we now know why chilling influences yields and it is down to physical effect on the growth rate of the plants.”
Previous research identified the importance of temperature on a plant biological developmental process called vernalisation, which in oilseed rape occurs in October.
By identifying that there is a second temperature sensitive process, bud dormancy, that occurs later in the growing season researchers and breeders can help us better respond to the challenge of climate change. One strategy under consideration is to identify varieties which are less temperature sensitive.