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compounds emitted by Opuntia stricta ,ahostplantof C. cactorum ,were
identified using gas chromatography-mass spectrometry,
β
-caryophyllene
being the major compound. Five compounds identified by gas chromatog-
raphy in the headspace of O. stricta elicited responses in olfactory receptor
cells of C. cactorum , nonanal being the most active compound and therefore
a candidate attractant of C. cactorum.
23.7
Colour Signals
Colour change and colour pattern are powerful tools in plant-animal com-
munication. The functional and evolutionary importance of colour sig-
nalling in animals has received great consideration in zoology, resulting in
numerous theories and wide experimentation (Majerus 1998). In contrast,
with the exclusion of studies on the colour importance for the attraction
of pollinators to flowers (Chittka et al. 1999) and frugivors to fruit (Ridley
1930), the biological relevance of colour has been extensively underesti-
mated in plant sciences. Yet, visual signals sent to animals are usually more
efficient than olfactory signals on long-distance signalling, owing to the
great influence of the environment on the diffusion of volatiles (Dobson
1994; Anderson and Dobson 2003).
One the most exciting colour signals produced by plants is the bright au-
tumncolorationdisplayedbymanydeciduoustrees.Whysometreespecies
make this spectacular exhibition of colour is one of the most puzzling
questions in tree biology. The usual explanation is that autumn colours are
simply a secondary and mere side effect of leaf senescence. In autumn the
degeneration of chloroplasts and the degradation of chlorophyll pigments
in colourless low molecular products allows the red and yellow pigments
(carotenoids and flavonoids) to appear from the background (Sanger 1971;
Goodwin and Mercer 1983). This point of view, however, overlooks two
important facts: many trees do not show any bright colouration in autumn
and, more important, there are numerous pieces of evidence that colour
change is also due to the synthesis of new pigments (Chang et al. 1989;
Matile et al. 1992).
Two recent papers have challenged this interpretation by suggesting that
these red and yellow leaf colours are an honest signal of tree's ability to
defend itself against potential insect pests (Archetti 2000; Hamilton and
Brown 2001). Hamilton and Brown's theory explains that the bright colour
of autumn foliage is not just a side effect of chlorophyll reabsorption but
acts as a signal, for aphids that are looking for places to lay their eggs, to
indicate that the tree has invested heavily in chemical defence, and it is,
therefore, not suitable for aphids. Hamilton and Brown (2001) predicted
 
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