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Title: Improving fungal disease forecasts in winter wheat: a critical role of intra-day variations of meteorological conditions

Author
item EL JAROUDI, MOUSSA - University Of Liege
item KOUADIO, LOUIE - University Of Southern Queensland
item EL JARROUDI, MUSTAPHA - Université Abdelmalek Essaâdi
item JUNK, JURGEN - Luxembourg Institute Of Science & Technology
item Bock, Clive
item TYCHON, BERNARD - University Of Liege
item DELFOSSE, PHILIPPE - Luxembourg Institute Of Science & Technology

Submitted to: Field Crops Research
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: 7/19/2017
Publication Date: 11/1/2017
Citation: El Jaroudi, M., Kouadio, L., El Jarroudi, M., Junk, J., Bock, C.H., Tychon, B., Delfosse, P. 2017. Improving fungal disease forecasts in winter wheat: a critical role of intra-day variations of meteorological conditions. Field Crops Research. 213:12-20.

Interpretive Summary: Weather is important in the development of fungal diseases in winter wheat. Indeed weather variables are the main inputs of forecast systems for disease risk and thus determine timing for applying fungicide. Fourier transform (FT) was used to characterize temporal patterns of meteorological conditions. Three meteorological variables (air temperature, relative humidity, and precipitation) were included, all conducive to infection of wheat by Zymoseptoria tritici cause of Septoria leaf blotch (STB) in winter wheat, from 2006-2009. The intraday, diurnal, dekadal and intra-seasonal variations of the meteorological variables were assessed using FT, and impact on the development of STB analyzed. Although STB severities varied between sites and years, the results indicated that the two sites presented the same patterns of meteorological conditions when compared at larger temporal scales (diurnal to intra-seasonal scales, with time periods > 11 h) but at small temporal scale (intraday) variables were well discriminated between sites, yet highly correlated to STB severities. These results confirm the importance of intraday meteorological variation in the development of STB in winter wheat fields. Furthermore, the FT approach has potential for identifying microclimatic conditions prevailing at given sites and could help in improving the prediction of disease forecast models used in regional warning systems.

Technical Abstract: Meteorological conditions are important factors in the development of fungal diseases in winter wheat and are the main inputs of the decision support systems used to forecast disease and thus determine timing for efficacious fungicide application. This study uses the Fourier transform method (FTM) to characterize temporal patterns of meteorological conditions between two neighbouring experimental sites used in a regional fungal diseases monitoring and forecasting experiment in Luxembourg. Three meteorological variables (air temperature, relative humidity, and precipitation) were included, all conducive to infection of wheat by Zymoseptoria tritici cause of Septoria leaf blotch (STB) in winter wheat, from 2006-2009. The intraday, diurnal, dekadal and intra-seasonal variations of the meteorological variables were assessed using FTM, and the impact of existing contrasts between sites on the development of STB was analyzed. Although STB severities varied between sites and years (P = 0.0003), the results indicated that the two sites presented the same patterns of meteorological conditions when compared at larger temporal scales (diurnal to intra-seasonal scales, with time periods > 11 h). However, the intraday variations of all the variables were well discriminated between the sites and were highly correlated to STB severities. Our findings highlight and confirm the importance of intraday meteorological variation in the development of STB in winter wheat fields. Furthermore, the FTM approach has potential for identifying microclimatic conditions prevailing at given sites and could help in improving the prediction of disease forecast models used in regional warning systems.