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- wireworms (1) (remove)
In this study the influence of soil moisture and soil type on the selected pests and diseases Phytophthora infestans (Mont.) de Bary, Fusarium graminearum Schwabe and F. culmorum (W.G. Smith) Saccardo, respectively, as well as the larvae of the most important Elateridae Agriotes lineatus Linnaeus, A. obscurus Linnaeus, A. sputator Linnaeus, A. sordidus Illiger and A. ustulatus Schaller (called wireworms) was characterized. The aim was to integrate soil modules in prediction models for agricultural and horticultural pests and diseases, to optimise the scheduling of disease controls, to detect periods of high-intensity attacks and to reduce the number of preventive treatments. The measurement of soil moisture is time intensive and additionally soil moisture is highly varying within small areas. Therefore this parameter did not have a high impact in the prediction models for agricultural and horticultural pests and diseases in the past. In this study the possibilities for a site-specific simulation of soil moisture was investigated. The soil moisture simulation model SIMPEL (HÖRMANN 1998) was adapted to agricultural conditions and the site-specific simulation of soil moisture was realised on the basis of radar measured precipitation data from the German Meteorological Service (DWD) and on interpolated weather data (ZEUNER 2007). The comparison of the simulated soil moisture data with the field measurements showed a highly significant correlation (Alpha = 0.01) and an average of 3.8 % differences. Therefore the site-specific simulation of soil moisture will be possible and can be included in the prediction models for agricultural and horticultural pests and diseases. The results of laboratory and field experiments as well as analyses on monitoring data showed, that the influence of soil parameters on the three selected pests and diseases varied. Whereas the investigations on the influence of soil moisture on P. infestans identified no clear correlation, considerable correlations between soil moisture and soil type on wireworms as well as F. graminearum and F. culmorum could be detected. For the prediction of the appearance of wireworms in the upper soil level in relation to soil moisture and soil type the simulation model SIMAGRIO-W was developed. The validation of the new model showed highly significant correlations between soil moisture and soil type on the appearance of wireworms. The influence of soil type on F. graminearum and F. culmorum was integrated in the existing prediction model FUS-OPT. A correlation between air cached spores of F. graminearum and simulation results from the modified model FUS-OPT showed a high significance in PEARSON test. The results of this study showed that the implementation of soil moisture and soil type in the prediction models for agricultural and horticultural pests and diseases can be realised. The developed and modified prediction models can be used by the Governmental Crop Protection Services in Germany through www.isip.de.