Puccinia striiformis, a fungal pathogen, has been shown to cause direct, ne
gative frequency-dependent selection on its host, wheat (Triticum aestivum)
. This disease-induced frequency-dependent selection was not sufficient to
maintain polymorphism for resistance genes in the host populations. The pre
sent study examines whether interactions between disease and competition co
uld impact upon the maintenance of genetic polymorphism in a highly self-po
llinated species such as wheat, where strong associations between traits ar
e likely.
Four different two-way mixtures of wheat genotypes, susceptible to differen
t races of P. striiformis, were planted at different frequencies in both th
e presence and absence of disease. In order to examine the influence of com
petition and disease on the maintenance of genetic polymorphism, relationsh
ips between host absolute fitness and host frequency were studied for each
genotype in the mixtures of plants both in the presence and in the absence
of disease. In the absence of disease, the absolute fitness of the stronger
competitor was often negatively frequency-dependent, or else it did not va
ry with host frequency; the absolute fitness of the weaker competitor was o
ften positively frequency-dependent. Disease typically rendered the slopes
between absolute fitness and genotype frequency more negative for the stron
ger competitor. However, the influence of disease was not strong enough to
reverse the sign of the slope between absolute fitness and genotype frequen
cy for the genotype that was the weaker competitor in the absence of diseas
e. Thus, disease was unable to reverse the relative ranking of the two geno
types caused by competition and create the negative frequency dependence on
both genotypes in a mixture that is required for the maintenance of geneti
c polymorphism.