An area-wide model approach for the management of a disease vector planthopper in an extensive agricultural system

The “Mal de Río Cuarto” disease in maize is a viral disease caused by a reovirus (MRCV) and transmitted by the delphacid planthopper Delphacodes kuscheli Fennah in a persistent manner. Although the disease is endemic in only one provincial department, when regional outbreaks occur the losses in maize production are very significant. ly dispersing D. kuscheli individuals were collected from 15 sampling sites during the 1999 and 2000 spring seasons using sticky traps placed at 6 m above ground level, designed to detect flying individuals. host patches were surveyed using Landsat 5 TM images for the periods studied. Two critical landscape metrics, total class area and mean proximity index, were calculated using FRAGSTATS 3.3 on the winter pasture satellite images. iple regression model showed the relationship between host patch area, mean proximity index and D. kuscheli abundance to be highly significant (R2 = 0.96, r = 0.98, P < 0.0001). l simulations of different host areas and different interpatch separations were created in order to test the effect of these metrics on the abundance of the dispersing individuals. The estimate of the insectʹs abundance showed that, although patch size is very important in determining mean insect abundance in an area, the separation of these patches is crucial to establish the effect of host patch area on the abundance of dispersing individuals. now, disease management consisted in modifying sowing dates in order to avoid maximum D. kuscheli abundances and thus minimize risk of Mal de Río Cuarto Disease. Our results show that a rational area-wide management of host patches can keep populations of the vector at a very low level, diminishing the risk of a regional outbreak.