An Algorithm for Optimizing Rotational Control of Globodera rostochiensis on Potato Crops in Bolivia

H. J. Atkinson

Abstract


The outline area of new cysts of Globodera rostochiensis was measured by image analysis. A linear regression of this value against egg content provided a basis for adjusting the egg number for cyst size. This adjusted egg content provides an estimate of the relative fullness of a cyst with eggs. This value showed an exponential decline in eggs over 3.5 years since the last potato crop. It corresponds to an average loss in the dormant egg population of 32.8 ± 5.6%/year for 26 fields at Toralapa, Bolivia. This value compared well with a mean decline of 40 ± 4%/year for 42 fields after measuring viable eggs/100 g soil on two occasions one year apart. The new approach allows declines to be estimated at one time point. The decline in lipid content of the dormant, unhatched second-stage juveniles (J2) was 17 ± 6% per annum as measured by image analysis after Oil red O staining. This may be sufficient to compromise infectivity after 3 to 4 years of dormancy. A standard model was modified to consider the effect of both lipid depletion during dormancy and choice of susceptible potato on the population dynamics of G. rostochiensis under rotational control. It is concluded that a few cultivars may impose lower populations on G. rostochiensis in 3 to 4-year rotations than the majority used in Bolivia.

Keywords


bolivia; decline rate; dormancy; fecundity; globodera rostochiensis; lipid use; nematode; pest management; population models; potato; potato cyst nematode; rotation

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