UNSW. Australia: Imagine how easy life would be if you could produce offspring without
a mate. Sexual reproduction is the most common mating system in the
animal kingdom. But in many species, females do not require males to
produce offspring – they can reproduce asexually.
One form of
asexual reproduction is parthenogenesis, where females lay unfertilised
eggs that develop into clones. In some species, females can even switch
between reproductive strategies, known as facultative parthenogenesis.
Some
biologists think this kind of reproductive strategy represents the best
of both worlds: engage in sex when it’s likely to be beneficial; and
clone yourself when it’s not. But if facultative parthenogenesis is such
a superior strategy, why isn’t it more common? (Hint: it’s all about
sex.)
The paradox of sex
Sexual reproduction is
a risky and costly method of producing offspring. Even at the most
basic level, sexually reproducing females spend half of their
reproductive investment producing sons who cannot give birth to
offspring of their own.
In contrast, all clonal daughters of an
asexually reproducing female can potentially give birth to their own
offspring. Therefore, all else being equal, an asexually reproducing
population will grow twice as fast as a sexually reproducing population.
What’s
more, females must attract or find a willing mate before any sex takes
place, which can be a painfully time-consuming business. Even when a
potential mate does arrive on the scene, sex can continue to pile on the
costs by shortening female lifespan, increasing the risk of predation,
and spreading nasty venereal diseases.
Why would a female put herself through such an ordeal? Of course, we Homo sapiens engage
in sex for plenty of reasons other than just reproduction. But when it
comes to the rest of the animal kingdom, sex tends to be rather more
functional.
So if sex is so costly, why is it so common?
The benefits of sex?
Because
sex is such a widespread reproductive strategy, it is assumed that it
must come with benefits that outweigh the costs. The greatest advantage
that sex is thought to provide –- at least at the species level – is
genetic diversity.
Diversity allows populations to adapt to
changing environments. Although clones may do exceptionally well in an
environment they are well-adapted to, they are more likely to do
exceptionally badly if the environment changes.
This is a problem
that sexually produced organisms do not face because sex ensures that
females don’t put all their eggs into one basket, so to speak. By
producing genetically diverse offspring, sex ensures that at least some
offspring will be able to cope with environmental change.
Another
suggested problem with cloning is that clones tend to accumulate harmful
mutations over time. But since sex creates new gene combinations, it
expedites the purging of harmful mutations from the population.
All in all, theory predicts that asexual reproduction should enhance offspring quantity, while sexual reproduction should enhance offspring quality. But this raises a question: given the opportunity to choose, do females opt to have sex or to clone themselves?
To have sex or not to have sex
Spiny leaf stick insects –-
familiar to many Australians as pets – are peculiar in many ways,
including their koala-like ability to subsist entirely on eucalyptus
leaves.
But their most interesting feature is their reproductive
biology: female stick insects can mate and produce sexual offspring or,
in the absence of males, they can lay unfertilised eggs that develop
into clonal daughters.
And, of course, it has long been assumed
that parthenogenesis is a mere back-up strategy for females that are
unable to find a male. Surely (declare the obligately sexual humans),
female stick insects would choose to have sex!
Or would they?
In a paper recently published in Animal Behaviour,
we argue that parthenogenesis in the spiny leaf stick insect could
actually be a strategy to avoid the costs of sex. We found that, when
presented with a male, female spiny leaf insects often vigorously
resisted matings by curling their abdomen and kicking their legs.
Moreover,
rather than actively seeking males, we found that virgin females
excrete an anti-aphrodisiac that repels males, while females that have
already started to reproduce parthenogenically alter their pheromonal
signals so as to make themselves invisible to males.
Most
strikingly, we found that mating is extremely costly for females that
have already started to reproduce asexually. More than half of such
females died shortly after being paired with a male, and those that
survived showed a sharp decline in egg production.
The story is
complex, though. For example, increased survival of sexually-produced
offspring could partially compensate for the costs of sex. Overall,
however, it appears that females can benefit from avoiding sex
altogether, at least under some circumstances.
Is sex a trap?
Our
findings in stick insects point to an intriguing possibility. What if
sexual reproduction isn’t so common in nature because it is a better
genetic strategy, but rather because once sex evolves it is difficult to
escape from?
Females can potentially switch between sexual and
asexual reproductive modes, or reproduce entirely asexually, but males
cannot clone themselves. While parthenogenesis makes it possible for
females to reproduce without males, males have no way to reproduce
without females.
Therefore, once sex has evolved and males are
present in the population, those males will try to mate, even with
reluctant females that might have done better to clone themselves.
So,
could it be that part of the solution to the puzzle of sex is that,
once the sexual strategy arises in a population, it perpetuates itself
through the eagerness of males to mate? After all, if females cannot
avoid mating, then they will not be able to realise the benefits of
parthenogenesis, and the sexual strategy will triumph.
The future of males
If
sex is an evolutionary trap, our findings suggest that spiny leaf stick
insects can at least partially escape from this trap by reproducing
parthenogenetically.
Indeed, in this species, successful avoidance
of mating by females could lead to the extinction of males -– a fate
that seems to have befallen some stick insect populations.
But what about Homo sapiens?
Could female humans start cloning themselves to escape the costs of the
insidious sex-trap, perhaps ultimately rendering men completely
redundant?
Despite its sensationalist appeal, human
parthenogenesis will probably remain the stuff of myth. Mammals are the
only major animal group in which parthenogenesis has never been
observed, and may therefore be impossible. Thus, on this Valentine’s
Day, we can rest assured that, whatever its costs, love (or at least,
sex) is here to stay.
Angela Crean is a senior research
associate, Nathan W Burke is a PhD candidate in evolutionary ecology
and Russell Bonduriansky is an evolutionary biologist at UNSW.