HUMAN BIOLOGY

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334 Chapter 17

embryonic disk Pancake-
shaped stage of an early
embryo.


neural tube The forerunner
of an embryo’s brain and
spinal cord.


How the early embryo Develops


On the surface of the embryonic disk near the neural
tube, the other primary tissue layer—mesoderm—also
has been forming. Toward the end of the third week,
some mesoderm gives rise to somites (soe-mites). These are
paired blocks of mesoderm, and they will be the source of
most bones and skeletal muscles of the neck and trunk.
The dermis overlying these regions comes from somites
as well. Structures called pharyngeal arches start to form
(Figure 17.7C). They will contribute to development of the
face, neck, mouth, and associated parts. In other meso-
dermal tissues, spaces open up. Eventually, these spaces
will merge to form the cavity (called the coelom, see-lahm)
between the body wall and the digestive tract.

n    The embryonic period lasts for 8 weeks. during that time,
the basic body plan of the embryo takes shape.

A developing baby is considered an embryo for most of the
first trimester, or 3 months, of the 9 months of gestation.
When the three germ layers—the ectoderm, mesoderm,
and endoderm—are in place, morphogenesis begins and
the embryo’s organ systems start to develop.

First, a basic body plan is established


By the time a woman has missed her first menstrual period,
the embryo has implanted and the inner cell mass has been
transformed into a pancake-shaped
embryonic disk. Around day 15, gas-
trulation has rearranged cells so that
a faint “primitive streak” appears at
the midline of the disk (Figure 17.7A).
Now, ectoderm along the midline
thickens to establish the beginnings
of a neural tube (Figure 17.7B). This
tube is the forerunner of the embryo’s brain and spinal cord.
Some of its cells also give rise to a flexible rod of cells called
a notochord. The vertebral column will form around this rod.
These events establish the body’s long axis and its
bilateral symmetry—the more-or-less matching halves on
either side of the long axis. In other words, the embryonic
disk is reshaped in ways that provide the body with the
basic form we see in all vertebrates.

F i g u r e 17.7 Several important steps mark the embryonic period of development. These steps include the appearance of a primitive
streak foreshadowing the brain and spinal cord and the formation of somites and pharyngeal arches. These are dorsal views (of the embryo’s
back) except for days 24–25, which is a side view. (© Cengage Learning)

C Days 24–25. By now, some
cells have given rise to pharyngeal
arches, which contribute to the
face, neck, mouth, nasal
cavities, larynx, and pharynx.

yolk sac
embryonic disk
amniotic cavity
chorionic cavity

primitive streak

neural
tube

pharyngeal
arches

future brain

somites

B Days 19–23. Cell migrations, tissue folding,
and other morphogenetic events lead to the
formation of a hollow neural tube and to
somites (bumps of mesoderm). The neural
tube gives rise to the brain and spinal cord.
Somites give rise to most of the axial skeleton,
skeletal muscles, and much of the dermis.

A Day 15. A primitive streak
appears along the axis of the
embryonic disk. This thickened
band of cells marks the onset of
gastrulation.

lined body cavity (coelom); lining
also holds internal organs in place

peritoneum

epidermis gut cavity

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