The fungus responsible for light leaf spot, the UK’s most important oilseed rape disease, is becoming increasingly resistant to azole fungicides but not QoI or SDHI fungicides.
However, despite the differences identified in laboratory testing, both azole and non-azole products are still performing similarly when applied to control light leaf spot in the field.
The lead author of a new study into its resistance status says the results support the use of a mixture of an azole plus a Qoi/SDHI for robust disease control.
Rothamsted’s Dr Kevin King said: “Azoles are still effective, but they are becoming less so and continued sensitivity monitoring is needed to ensure optimal strategies are being deployed.”
Traditionally a bigger problem in the north of the UK, light leaf spot has now become the UK’s most important disease of brassicas and can potentially reduce yields considerably if left untreated.
Light leaf spot is also major headache for brassica growers across Europe, Australia and New Zealand, and most recently the US Pacific northwest, where the disease is instead termed chlorotic leaf spot.
Published in the journal Plant Pathology, the study looked at populations throughout Europe of the fungus responsible for light leaf spot, Pyrenopeziza brassicae.
It showed increasingly complex variants of the gene targeted by azole fungicides are now widespread, and in lab testing these are far less sensitive to azole fungicides.
Regional differences were also identified within the UK, with northern populations less sensitive than southern ones.
There were also differences between different European populations – for example Danish populations were much more sensitive to azoles than either UK or German populations.
The news is better for growers in the US, with the P. brassicae population there still highly sensitive to azole, QoI and SDHI fungicides.
According to Dr King, the P. brassicae fungus shows especially high genetic diversity, which means it has a considerable ability to evolve fungicide resistance.
“However, fungicides represent only part of a disease management strategy. Integrated approaches such as the use of crop varieties with good resistance to disease, will offer flexibility with fungicide timings as well as improved disease control. Similarly, there is a need to use a range of fungicides that work in different ways, to slow the selection for resistance.”
This work was a collaborative study between Rothamsted, ADAS, and NIAB in the UK; TEAGASC in Ireland; IHAR-PIB in Poland; and Nanjing Agricultural University in China.
FUNGICIDE RESISTANCE STATUS AND CHEMICAL CONTROL OPTIONS FOR THE BRASSICA PATHOGEN PYRENOPEZIZA BRASSICAE
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