![The skeleton provides to various animals support and protection and facilitates movement.[Credits : Encyclopædia Britannica, Inc.]](http://media-2.web.britannica.com/eb-media/39/72839-003-10C0D3DA.gif)
the supportive framework of an animal body. The skeleton of invertebrates, which may be either external or internal, is composed of a variety of hard nonbony substances. The more complex skeletal system of vertebrates is internal and is composed of several different types of tissues that are known collectively as connective tissues. This designation includes bone and the various fibrous substances that form the joints, connect bone to bone and bone to muscle, enclose muscle bundles, and attach the internal organs to the supporting structure. For a more detailed discussion of the human skeleton, see skeletal system, human.
In addition to its supportive function, the animal skeleton may provide protection, facilitate movement, and aid in certain sensory functions. Support of the body is achieved in many protozoans by a simple stiff, translucent, nonliving envelope called a pellicle. In nonmoving (sessile) coelenterates, such as coral, whose colonies attain great size, it is achieved by dead structures, both internal and external, which form supporting axes. In the many groups of animals that can move, it is achieved either by external structures known as exoskeletons or by internal structures known as endoskeletons. Many animals remain erect or in their normal resting positions by means of a hydrostatic skeleton—i.e., fluid pressure in a confined space.
The skeleton’s protective function alone may be provided by structures situated on the body surface—e.g., the lateral sclerites of centipedes and the shell (carapace) of crabs. These structures carry no muscle and form part of a protective surface armour. The scales of fish, the projecting spines of echinoderms (e.g., sea urchins), the minute needlelike structures (spicules) of sponges, and the tubes of hydroids, all raised from the body surface, are similary protective. The bones of the vertebrate skull protect the brain. In the more advanced vertebrates and invertebrates, many skeletal structures provide a rigid base for the insertion of muscles as well as providing protection.
The skeleton facilitates movement in a variety of ways, depending on the nature of the animal. The bones of vertebrates and the exoskeletal and endoskeletal units of the cuticle of arthropods (e.g., insects, spiders, crabs) support opposing sets of muscles (i.e., extensors and flexors). In other animal groups the hydrostatic skeleton provides such support.
In a limited number of animals, the hard skeleton transmits vibrations that are sensed by the hearing mechanism. In some forms—e.g., bony fishes and fast-swimming squids—it aids in the formation of buoyancy mechanisms that enable the animal to adjust its specific gravity for traveling at different depths in the sea.
Bones-of-the-forelimb-of-select-vertebrates-showing-homologies-asBones of the forelimb of select vertebrates, showing homologies as well as variations caused by …[Credits : Encyclopædia Britannica, Inc.]
Evolution-of-the-horse-over-the-past-55-million-yearsEvolution of the horse over the past 55 million years. The present-day Przewalski’s horse is …[Credits : Encyclopædia Britannica, Inc.]
[Credits : Encyclopædia Britannica, Inc.]
Skeletal-and-muscular-structures-of-a-humans-leg-and-aSkeletal and muscular structures of a human’s leg (left) and a gorilla’s leg (right).[Credits : Encyclopædia Britannica, Inc.]
The-skeletal-structure-of-a-human-being-and-of-aThe skeletal structure of a human being (left) and of a gorilla (right)[Credits : Encyclopædia Britannica, Inc.]
The-human-skeleton-acts-as-a-supportive-framework-for-theThe human skeleton acts as a supportive framework for the human body, provides protection for vital …[Credits : Encyclopædia Britannica, Inc.]
Skeleton-of-the-extinct-South-American-ground-sloth-Megatherium-engravingSkeleton of the extinct South American ground sloth Megatherium, …[Credits : E.T. Archive, London]
Skeleton-of-a-Neanderthal-compared-with-a-skeleton-of-aSkeleton of a Neanderthal (Homo neanderthalensis) compared with a …[Credits : Encyclopædia Britannica, Inc.]
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