Colouration in fish plays important

Colouration in fish plays important roles in many different aspects
of behaviour, for example in species recognition (Couldridge and
Alexander, 2002; Salzburger et al., 2006), sexual selection for incipient
speciation (Seehausen et al., 1999; Knight and Turner, 2004) or as an
indicator for ‘good genes’ (Barber et al., 2001). It is generally agreed
that development and elaboration of male morphological traits such
as colour patterns and ornaments in many species including fish are
the results of sexual selection (Turner, 1993; Andersson, 1994).
Female mate choice for such traits has been reported in several
species, for example where females prefer males with brighter orange
colouration in the guppy, Poecilia reticulata (Houde and Hankes, 1997;
Karino and Shinjo, 2004), or males with longer fins in the green
swordtail, Xiphophorus helleri (Basolo, 1990). However, female
preferences vary, e.g. among populations (Houde and Endler, 1990;
Endler and Houde, 1995, Bisazza and Pilastro, 2000), which could be
due to genetic variation, developmental trajectories or environmental
factors (Jennions and Petrie, 1997) which are difficult to measure.
African cichlids are famous for their diversity and richness of
morphology and colour patterns (Kocher, 2004; Turner, 2007). Sexual
selection has been suggested to play a major role in speciation
(Seehausen, 2000; Knight and Turner, 2004) and colour patterns havebeen reported to be important traits for female mate choice
(Seehausen and van Alphen, 1998; Couldridge and Alexander,
2002). Mate choice trials have shown that females mate assortatively
(preferring to mate with males from their own population or species)
in cichlids from Lake Malawi and a satellite lake (Knight and Turner,
2004; Genner et al., 2007).
Mutations affecting body colour have arisen in at least two species
of tilapias, Oreochromis mossambicus and Oreochromis niloticus
(McAndrew et al., 1988). Red tilapias are used widely in aquaculture
and this has increased the value of the fish in certain markets (Popma
and Masser, 1999). The red body colour mutation in the Stirling stock
of O. niloticus (originating from Lake Manzala, Egypt) is controlled by a
dominant allele in a single gene. It is thus possible to generate
homozygous red and homozygous wild type fish from the same
population, where the only consistent difference between the two
types is at the red locus. The objective of the present study was to test
whether female O. niloticus showed assortative mating when
presented with a choice between wild type and red males under
semi-natural spawning conditions.
Several possible outcomes of these trials were hypothesized.
Firstly, as the result of sexual selection, wild type males might be
expected to be preferred by females (both wild type and red).
Secondly, based on imprinting, females might tend to mate with
males which are more familiar to them. Since the female fish used for
the trials were reared with other fish of the same phenotype only
(wild type and red fish were reared and maintained separately before
the experiment), it might be expected that the females would choose