In the Australian red-claw crayfish Cherax quadricarinatus (von
Martens) (Decapoda, Parastacidae), a gonochoristic species, seven different
combinations of intersex individuals (with both male and female genital openings)
have been described. However, to date, the genetic basis for this phenomenon has
not been investigated. This study was designed to test a simple chromosome-based
sex-determination model for C. quadricarinatus that assumes the male to
be the homogametic (ZZ) sex. According to our model, intersex individuals that
are functionally males are genetically females (WZ). Individual crosses were
performed between intersex and female crayfish, with control crosses being
performed between normal males and females. The control crosses yielded, in most
cases, the expected 1[ratio ]1 sex ratio in the F1 progeny. Crosses
between intersex individuals and females yielded a 1[ratio ]3 (male[ratio ]female)
sex ratio in most crosses. According to our hypothesis, one-third of the females
produced in a cross of a female with an intersex animal should be WW females. The
hypothesis was tested by crossing normal males with F1 females, which
were progeny of intersex fathers. These crosses yielded almost 100% females, a
finding that conforms to the above-suggested sex determination model for C.
quadricarinatus and the female WZ genotype of intersex individuals.