Translator: Bedirhan Cinar My wife is pregnant right
now with our first child, and when people see her
with her big baby bump, the first question people ask,
almost without fail, is, "Is it a boy or is it a girl?" Now, there are some assumptions
behind that question that we take for granted because of our familiarity
with our own human biology. For human babies, we take it for granted
that there's a 50/50 chance of either answer, boy or girl. But why is it that way? Well, the answer depends
on the sex determination system that has evolved for our species. You see, for most mammals, the sex of a baby
is determined genetically with the XY chromosome system. Mammals have a pair of sex chromosomes, one passed down from mom,
and one from dad. A pair of X's gives us a girl, and an X and a Y together gives us a boy. Since females only have X's to pass
on in their egg cells, and males can give either an X
or a Y in their sperm cells, the sex is determined by the father and the chance of producing
a male or a female is 50/50. This system has worked well for mammals, but throughout the tree of life,
we can see other systems that have worked just
as well for other animals. There are other groups of animals
that also have genetic sex determination, but their systems can be
pretty different from ours. Birds and some reptiles have
their sex genetically determined, but instead of the sex
being determined by dad, their sex is determined by mom. In those groups,
a pair of Z sex chromosomes produces a male, so these males
only have Z's to give. However, in these animals,
one Z and one W chromosome together, as a pair, produces a female. In this system, the chance of a male
or a female is still 50/50, it just depends on whether
mom puts a Z or a W into her egg. Certain groups have taken
genetic sex determination in completely other directions. Ants, for example, have
one of the most interesting systems for determining sex, and because of it,
if you are a male ant, you do not have a father. In an ant colony, there
are dramatic divisions of labor. There are soldiers that defend the colony, there are workers that collect food,
clean the nest and care for the young, and there's a queen and a small group
of male reproductives. Now, the queen will mate and then
store sperm from the males. And this is where the system
gets really interesting. If the queen uses the stored
sperm to fertilize an egg, then that egg will grow up
to become female. However, if she lays an egg
without fertilizing it, then that egg will still
grow up to be an ant, but it will always be a male. So you see, it's impossible
for male ants to have fathers. And male ants live their life like this,
with only one copy of every gene, much like a walking sex cell. This system is called
a haplodiploid system, and we see it not only in ants, but also in other highly social
insects like bees and wasps. Since our own sex is determined by genes, and we do know of these other animals
that have their sex determined by genes, it's easy to assume that for all animals the sex of their babies still
must be determined by genetics. However, for some animals, the question
of whether it will be a boy or a girl has nothing to do with genes at all, and it can depend on something
like the weather. These are animals like alligators
and most turtles. In these animals, the sex
of an embryo in a developing egg is determined by the temperature. In these species, the sex of the baby is not yet determined
when the egg is laid, and it remains undetermined
until sometime in the middle of the overall development period,
when a critical time is reached. And during this time, the sex
is completely determined by temperature in the nest. In painted turtles, for example, warm temperatures
above the critical temperature will produce females within the eggs, and cool temperatures will produce a male. I'm not sure who came up
with this mnemonic, but you can remember that when
it comes to painted turtles, they are all hot chicks and cool dudes. For some tropical fish, the question
of will it be a boy or will it be a girl isn't settled until even later in life. You see, clownfish all start
out their lives as males, However, as they mature,
they become female. They also spend their lives in small
groups with a strict dominance hierarchy where only the most dominant
male and female reproduce. And amazingly, if the dominant
female in the group dies, the largest and most dominant male
will then quickly become female and take her place,
and all of the other males will move up one rank in the hierarchy. In another very different ocean animal, the green spoonworm, the sex of the babies is determined by a completely different aspect
of the environment. For this species, it is simply
a matter of where a larva happens to randomly fall on the sea floor. If a larva lands on the open sea floor,
then it will become a female. But if it lands on top of a female,
then it will become a male. So for some species,
the question of boy or girl is answered by genetics. For others, it's answered
by the environment. And for others still, they don't even
bother with the question at all. Take whiptail lizards, for example. For those desert lizards,
the answer is easy. It's a girl. It's always a girl. They are a nearly all-female species,
and although they still lay eggs, these eggs hatch out
female clones of themselves. So will it be a girl or will it be a boy? Throughout the entire animal kingdom, it does really all depend
on the system of sex determination. For humans, that system
is a genetic XY system. And for me and my wife, we found out it's going to be a baby boy. (Kiss)
The title got my hopes up, and I was disappointed. It really should have said something like "more diverse than you thought".
See, I've done some research on sex determination/differentiation in mammals, and it really is complicated; genetic sex is just about the least interesting part of it. There are so many other steps and so many possible outcomes where our simple male/female dichotomy becomes confusing. I find that far more interesting than a survey of sex ploidy across "higher" animals.
I love videos that animate as a talk is given. Great to finally see a bio talk like this.
i've always been a fan of the fact that one of the main genes responsible for sex determination is the SRY gene (sex determining region on chromosome y) lol
It's still more complicated than just XX/XY; hormones play a BIG role in the organizational development of gender.
Could someone explain why birds have Z and W sex chromosomes? Why these letters? Is it the shape of the chromosomes them selves or something else entirely?