336 Chapter 17
allantois Extraembryonic
membrane that gives rise to
blood vessels of the umbili-
cal cord.
amnion Extraembryonic
membrane that encloses the
embryo in a sac that con-
tains amniotic fluid.
chorion The outer extra-
embryonic membrane
that protects the embryo
and releases HCG.
extraembryonic
membranes The amnion,
chorion, allantois, and yolk
sac.
umbilical cord A long tis-
sue containing blood ves-
sels that link an embryo to
the placenta.
yolk sac A short-lived extra-
embryonic membrane that
produces early blood cells,
germ cells, and parts of the
embryo’s digestive tube.
the Four extraembryonic membranes
As a blastocyst is implanting, a new cavity opens up
around the amnion and yolk sac (Figure 17.10B). The lin-
ing of this cavity becomes the chorion, a membrane
that is folded into fingerlike projections called chorionic
villi. While these changes take place, the erosion of the
endometrium that began with implantation continues. As
capillaries in the endometrium break down, spaces in the
disintegrating tissue fill with the mother’s blood. The cho-
rionic villi extend into these spaces. Inside each villus are
small blood vessels, as shown in Figure 17.11.
Eventually the chorion wraps around the embryo and
the other three membranes (Figure 17.10C). It contin-
ues the secretion of HCG that began when the embryo
implanted. HCG will prevent the lining of the uterus (the
endometrium) from breaking down until the placenta can
produce enough estrogen and progesterone to maintain
the lining.
n during implantation and over the next few weeks,
specialized membranes form outside the embryo.
n Links to Hormones of the hypothalamus and pituitary 15.3,
The female reproductive system 16.1
As described in Section 17.4, during implantation the
embryonic disk develops from the inner cell mass of
the blastocyst (Figure 17.10A). Some
cells of the disk will give rise to the
embryo. Others give rise to extra-
embryonic membranes that are
not part of the embryo.
One of the membranes, the yolk
sac, produces early blood cells and
germ cells that will become gam-
etes; then it disintegrates. Parts of it
also give rise to the embryo’s diges-
tive tube.
The amnion forms a fluid-filled
sac that encloses the embryo. The
amniotic fluid insulates the embryo,
absorbs shocks, and prevents the
embryo from drying out. Just out-
side it is the allantois, which gives
rise to blood vessels that will invade
the umbilical cord. These vessels
are the embryo’s contribution to
circulatory “plumbing” that will
link the embryo with its lifeline,
the placenta.
A Days 10–11. The yolk sac,
embryonic disk, and amniotic
cavity have started to form
from parts of the blastocyst.
B Day 12. Blood-filled
spaces form in maternal
tissue. The chorionic
cavity starts to form.
C Day 14. A connecting stalk
has formed between the embryonic
disk and chorion. Chorionic villi,
which will be features of a
placenta, start to form.
actual
size
actual
size
actual
size
yolk sac
connecting
stalk
amniotic
cavity
chorionic
villi
chorion chorionic
cavity
blood-filled spaces
start of chorionic cavity
start of
amniotic
cavity
start of
embryonic disk
start of
yolk sac
Figure 17.10 Extraembryonic membranes begin to form during the first 2 weeks of life. (© Cengage Learning)
1 7. 5
What are the extraembryonic membranes?
- The extraembryonic membranes are the yolk sac, the
amnion, the allantois, and the chorion. - The yolk sac mainly produces early blood cells and parts of
the GI tract. The amnion forms a sac around the embryo and
produces amniotic fluid. - The allantois gives rise to blood vessels of the umbilical
cord, while the chorion forms fingerlike villi that contain blood
capillaries. The villi grow into the endometrium and become
part of the placenta.
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