Elementary Zoology - LightNovelsOnl.com
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THE SEA-URCHIN (_Strongylocentrotus_ sp.)
=External structure.=--TECHNICAL NOTE.--If fresh or alcoholic specimens or even the dry "tests" of the sea-urchin (fig. 20) are to be had, the general characteristics of the external structure can be made out.
How does the external surface of the sea-urchin differ from that of the starfish? Can you find the very long _tube-feet_? Where is the mouth-opening? With what is it surrounded? Each tooth is enclosed in a calcareous framework. The whole structure is known as "_Aristotle's lantern_."
TECHNICAL NOTE.--Remove the spines from the underlying sh.e.l.l or test (fig. 21) and wash the test until perfectly clean, or place in a solution of lye for a short time and then wash.
[Ill.u.s.tration: FIG. 20.--A sea-urchin, _Strongylocentrotus francisca.n.u.s_. (From specimen from Bay of Monterey, Calif.)]
Note the characteristic radial symmetry of the _sh.e.l.l_ or _test_. Note on the aboral aspect, diverging from the medial a.n.a.l aperture, five double rows of pores. What are these for? Each of the five divisions set with pores is called an _ambulacral area_, while the intervening segments which support the long spines are called the _interambulacral areas_. Note on the aboral surface, surrounding the median-placed a.n.a.l aperture, a series of small plates. Those which are located in the interambulacral areas are the _genital plates_. Through these plates the ducts from the reproductive organs open by small pores. Note a very much enlarged plate with a striated appearance. This is the _madreporite_, which, as in the starfish, is the external opening of the stone ca.n.a.l and water-vascular system. Note the small _ocular plate_ at the tip of each ambulacral area. The ocular plates contain small pigment-cells and communicate with the nervous system.
[Ill.u.s.tration: FIG. 21.--"Test" of sea-urchin, _Strongylocentrotus francisca.n.u.s_, with spines removed. (From specimen.)]
From a general inspection of the sea-urchin's sh.e.l.l the Echinoderm characteristics, namely, radial symmetry and the presence of the water-vascular system, are readily seen. While at first glance there is apparent little similarity between the starfish and sea-urchin, nevertheless careful examination shows that the two animals are alike in their fundamental structure. Both are radially symmetrical. The position of the a.n.a.l opening makes both starfish and sea-urchin slightly asymmetrical. In both the madreporite and a.n.u.s are on the aboral side, while the mouth is centrally located on the oral side. In the starfish we noted five ambulacral areas, one on the under side of each arm; similarly we find five in the sea-urchin. In both cases also we find the ocular spots at the tips of the ambulacral areas. The genital apertures are situated interradially in the starfish. In the sea-urchin they are similarly placed. The dissimilarity between the two forms is largely due to the very much developed outer spines and the dorso-ventral thickening of the disk in the sea-urchin. The starfish is carnivorous, while the sea-urchin lives on vegetable matter consisting for the most part of green algae and the red sea-weeds. Correlated with this difference in food-habits there are certain differences in the structure of the internal organs. For example, the alimentary ca.n.a.l in the sea-urchin winds in about two and one-half turns within the body-cavity before it reaches the a.n.u.s.
OTHER STARFISHES, SEA-URCHINS, SEA-CUc.u.mBERS, ETC.
Without exception all the Echinoderms, under which term are included the starfishes, sea-urchins, brittle-stars, feather-stars, and sea-cuc.u.mbers, live in the ocean. Some of them, the starfishes and sea-urchins, are among the most common and familiar animals of the seash.o.r.e. Most of them are not fixed, but can move about freely, though slowly. Some of the feather-stars are fixed, as the sponges and polyps are.
=Shape and organization of body.=--The body-shape of the Echinoderm varies from the flat, rayed body of the starfish to the thick, flattened egg-shape of the sea-urchin, the melon-like sac of the sea-cuc.u.mber and the delicate many-branched head of the sea-lily sometimes borne on a slender stalk. But in all these shapes can be seen more or less plainly a symmetrical, radiate arrangement of the parts of the body. The Echinoderm body has a central portion from which radiate separate arm or branch-like parts, as in the starfishes and sea-lilies, or about which are arranged radiately the internal body-parts, although the external appearance may at first sight give no plain indication of the radiate arrangement. This is the case with the sea-urchins and sea-cuc.u.mbers, yet, as has been seen in the sea-urchin, the radiate arrangement can be readily perceived by closer examination of the surface of the egg- or sac-like body. The radiating parts of the body are usually five. In the body of an Echinoderm can be usually recognized an upper or dorsal surface and a lower or ventral surface. The mouth is usually situated on the ventral side and the a.n.a.l opening on the dorsal. Echinoderms agree also in having a calcareous outer skeleton or body-wall usually in the condition of definitely-shaped plates or spicules fitted either movably or rigidly together. This outer body-wall or exoskeleton may bear many tubercles or spines. These spines are sometimes movable. The body-wall of the sea-urchin shows very well the exoskeleton composed of plates on which are borne movable strong spines.
=Structure and organs.=--As has been learned from the dissection of the starfish, the Echinoderms have well-developed systems of organs.
The body-structure in its complex organization presents a marked advance beyond the structural condition of the polyps and jellyfishes.
There is a well-organized digestive system with mouth, alimentary ca.n.a.l, and a.n.a.l opening. The alimentary ca.n.a.l is either a simple spiral or coiled tube, or it is a tube in which can be recognized different parts, namely, sophagus, stomach, intestine, caeca, and special glands secreting digestive fluids. This alimentary ca.n.a.l is not, as in the polyps, simply the body-cavity, but it is an inclosed tubular cavity lying within the general body-cavity. At the mouth-opening there is in some Echinoderms, notably the sea-urchins, a strong masticating apparatus consisting of five pointed teeth which are arranged in a circle about the opening. The nervous system consists of a central ring around the sophagus or mouth, from which branches extend into the radiately arranged arms or regions of the body. There is no brain as in the higher animals, but the central nerve-ring is composed of both nerve-cells and nerve-fibres as in the nerve-centres of higher forms. Of organs of special sense there are special tactile or touch organs in all the Echinoderms, and the starfishes have very simply composed eyes or eye-like organs at the tips of the rays.
While some of the Echinoderms breathe simply through the outer body-wall, taking up by osmosis the air mixed with the water, some of them have special, though very simple, gill-like respiratory organs.
These organs consist of small membranous sacs which are either pushed out from the body into the water, or lie in cavities in the body to which the water has access. There is also a distinct circulatory system, but the "blood" which is carried by these organs and which fills the body-cavity consists mainly of sea-water, although containing a number of amboid corpuscles containing a brown pigment.
There is no organ really corresponding to the heart of the higher animals. There are distinct organs for the production of the germ or reproductive cells. The s.e.xes are distinct (except in a few species), each individual producing only sperm-cells or egg-cells, but the organs or glands which produce the germ-cells are very much alike in both s.e.xes. There is no apparent difference between male and female Echinoderms except in the character or rather in the product of the germ-cell producing organs. A few species are exceptions, certain starfishes showing a difference in color between males and females.
As all of the Echinoderms except some of the feather-stars can move about, they have organs of locomotion, and well-defined muscles for the movement of the locomotory organs. The external organs of locomotion, the tube-feet (in the sea-urchins the dermal spines aid also in locomotion), are parts of a peculiar system of organs characteristic of the Echinoderms, called the ambulacral or the water-vascular system. This system is composed of a series of radial tubular vessels which rise from a central circular or ring vessel and which give off branches to each of the tube-feet. The water from the outside enters the ambulacral system through a special opening, the madreporic opening, and flowing to the tube-feet helps extend them.
The tube-feet usually have a tiny sucking disk at the tip, and by means of them the Echinoderm can cling very firmly to rocks.
=Development and life-history.=--Differing from the sponges and the polyps and jellyfishes, the reproduction of the Echinoderms is always s.e.xual; young or new individuals are never produced by budding, or in any other as.e.xual way. The new individual is always developed from an egg produced by a female and fertilized by the sperm of a male. The eggs are usually red or yellow, are very small (about 1/50 in. in diameter in certain starfishes), and are fertilized by the sperm-cells of the males after leaving the body of the female. That is, both sperm-cells and unfertilized egg-cells are poured out into the water by the adults, and the motile sperm-cells in some way find and fertilize the egg-cells.
From the egg there hatches a tiny larva which does not at all resemble the parent starfish or sea-urchin. It is an active free-swimming creature, more or less ellipsoidal in shape and provided with cilia for swimming. Soon its body changes form and a.s.sumes a very curious shape with prominent projections. The larvae of the various kinds of Echinoderms, as the starfishes, sea-urchins, sea-cuc.u.mbers, etc., are of different characteristic shapes. The naturalists who first discovered these odd little animals did not a.s.sociate them in their minds with the very differently shaped starfishes and sea-urchins, but believed them new kinds of fully developed marine animals, and gave them names. Thus the larvae of the starfishes were called Bipinnaria, the larvae of the sea-urchins Pluteus, and so on. These names are still used to designate the larvae, but with the knowledge that Bipinnaria are simply young starfishes, and that a Pluteus is simply a young sea-urchin. From these larval stages the adult or fully developed starfish or sea-urchin develops by very great changes or metamorphoses. The Echinoderms have in their life-history a metamorphosis as striking as the b.u.t.terflies and moths, which are crawling worm-like caterpillars in their young or larval condition.
Most of the Echinoderms have the power of regenerating lost parts.
That is, if a starfish loses an arm (ray) through accident, a new ray will grow out to replace the old. And this power of regeneration extends so far in the case of some starfishes that if very badly mutilated they can practically regenerate the whole body. This amounts to a kind of as.e.xual reproduction. Some species, too, have the peculiar habit of self-mutilation. "Many brittle stars and some starfishes when removed from the water, or when molested in any way, break off portions of their arms piece by piece, until, it may be, the whole of them are thrown off to the very bases, leaving the central disc entirely bereft of arms. A central disc thus partly or completely deprived of its arms is capable in many cases of developing a new set; and a separated arm is capable in many cases of developing a new disc and a completed series of arms." In some of the sea-cuc.u.mbers "it is the internal organs, or rather portions of them, that are capable of being thrown off and replaced, the sophagus ... or the entire alimentary ca.n.a.l, being ejected from the body by strong contractions of the muscular fibres of the body-wall, and in some cases, at least, afterwards becoming completely renewed."
=Cla.s.sification.=--The Echinodermata are divided into five cla.s.ses, viz., the Asteroidea or starfishes, "free Echinoderms with star-shaped or pentagonal body, in which a central disc and usually five arms are more or less readily distinguishable, the arms being hollow and each containing a prolongation of the body-cavity and contained organs"; the Ophiuroidea, or brittle-stars, "star-shaped free Echinoderms, with a central disc and five arms, which are more sharply marked off from the disc than in the Asteroidea and which contain no s.p.a.cious prolongations of the body-cavity"; the Echinoidea, or sea-urchins, "free Echinoderms with globular, heart-shaped, or disc-shaped body enclosed in a sh.e.l.l or corona of close-fitting, firmly united calcareous plates"; the Holothuroidea, or sea-cuc.u.mbers, "free Echinoderms with elongated cylindrical or five-sided body, ... with a circlet of large oral tentacles"; and the Crinoidea, or feather-stars, "temporarily or permanently stalked Echinoderms with star-shaped body, consisting of a central disc, and a series of five bifurcate or more completely branched arms, bordered with pinnules."
=Starfishes (Asteroidea).=--The starfishes feed on other marine animals, especially sh.e.l.l-fish and crabs. They are also reputed to destroy young fish. By means of their sucking-tubes, or tube-feet with sucker tips, they can seize and hold their prey firmly. They do much injury to oyster-beds by attacking and devouring the oysters. When attacking prey too large to be taken into the mouth the starfish everts its stomach over the prey and devours it. The stomach is afterward drawn back into the body-cavity by special muscles.
Starfishes vary much in size, color and general appearance, although all are readily recognizable as starfishes (fig. 22). The number of arms or rays varies from five to thirty or more in different species; some have the interradial s.p.a.ces filled out nearly to the tips of the rays, making the animal simply a pentagonal disc. In size starfishes vary from a fraction of an inch in diameter to three feet; in color they are yellow or red or brown or purple.
[Ill.u.s.tration: FIG. 22.--A group of Echinoderms; the upper one, a starfish, _Asterina mineata_, the one at the right a starfish, _Asterias ocracia_, at the left a brittle-star, species unknown, and at bottom two sea-urchins, _Strongylocentrotus francisca.n.u.s_. (From living specimens in a tide-pool on the Bay of Monterey, California.)]
=Brittle-stars (Ophiuroidea).=--The brittle-stars, or serpent-stars (fig. 22) as they are also called, resemble the starfishes in external appearance, that is, they are flat and composed of a central disc with radiating arms (always five in number, although each arm may be several times branched). The central disc is always sharply distinguished from the arms, and the arms are usually slender and more or less cylindrical. The distinguis.h.i.+ng difference between the brittle-stars and the starfishes is that the body-cavity and the stomach which extend out into the arms in the starfishes are in the brittle-stars limited to the central disc, or to the disc and bases of the arms. The tube-feet also have no suckers at the tips. More than 700 species of brittle-stars are known. They feed on marine sh.e.l.l-fish, crabs and worms.
=Sea-urchins (Echinoidea).=--The sea-urchins (figs. 20, 21 and 22) of which more than 300 species are known, have no arms or rays, and they are usually not flat like the starfishes but globular, with poles more or less flattened. As has been noted in the examination of the body-wall or "sh.e.l.l," the radiate character of the body is shown by the five radiating zones of tube-feet. The mouth, with its five strong "teeth,"
is on the ventral surface, and the a.n.a.l opening and madreporic opening are on the dorsal surface. The calcareous plates (seen distinctly in a specimen from which the spines have been removed) which const.i.tute the firm part of the body-wall, are more or less pentagonal in shape and are usually firmly united at the edges. The spines which are so characteristic of the sea-urchins vary much in size and number and firmness, but are present in some form on all of them.
While most of the sea-urchins live near the sh.o.r.e, being very common in tide-pools, some live only on the bottom of the ocean at great depths. Their food consists of small marine animals and of bits of organic matter which they collect from the sand and debris of the ocean floor. Many of the sea-urchins are gregarious, living together in great numbers. Some have the habit of boring into the rocks of the sh.o.r.e between tide-lines. I have seen thousands of small beautifully colored purple sea-urchins lying each in a spherical pit or hole in hard conglomerate rock on the California coast. How they are enabled to bore these holes is not yet known. There is great variety in size and color among the sea-urchins. The colors are brown, olive, purple red, greenish blue, etc.
A few kinds of sea-urchins have a flexible sh.e.l.l or test. The Challenger expedition dredged up from sea-bottom some sea-urchins, and when placed on the s.h.i.+p's deck "the test moved and shrank from touch when handled, and felt like a starfish." The cake-urchins or sand-dollars are sea-urchins having a very flat body with short spines. They lie buried in the sand, and are often very brightly colored. Their hollow bleached tests with the spines all rubbed off are common on the sands of both the Atlantic and Pacific coasts.
=Sea-cuc.u.mbers (Holothuroidea).=--The sea-cuc.u.mbers (fig. 23) show at first glance little resemblance to the other radiate animals. The body is an elongate, sub-cylindrical sac, resembling a thick worm or sausage or cuc.u.mber in shape. At one end it bears a group of branched tentacles which are set in a ring around the mouth-opening. The body-wall is muscular and leathery, but contains many small separated calcareous spicules. There are usually five longitudinal rows of tube-feet. In some species, however, tube feet are wholly wanting; in others they are scattered over the surface.
Although there are known about five hundred species of sea-cuc.u.mbers many of which live along the sh.o.r.es, they are much less familiar to us than the starfishes and sea-urchins. They usually rest buried in the sand by day, feeding at night. Some of them attain a large size. A great orange-red species of the genus _Cuc.u.maria_, which is found in the Bay of Monterey, California, is three feet long.
The people of some nations use sea-cuc.u.mbers as food. They are called "trepang" in the orient. The trade of preparing the trepang is almost entirely in the hands of the Malays, and every year large fleets set sail from Maca.s.sar and the Philippines to the south seas to catch sea-cuc.u.mbers.
[Ill.u.s.tration: FIG. 23.--A sea-cuc.u.mber, _Pentacta frondosa_. (After Emerton.)]
=Feather-stars (Crinoidea).=--The feather-stars or sea-lilies or crinoids (fig. 24), as they are variously called, differ from the other Echinoderms in having the mouth on the upper side of the central disc, and in the fact that all of the species are fixed, either permanently or for a part of their life, being attached to rocks on the sea-bottom by a longer or shorter stalk which is composed of a series of rings or segments. The central disc is small and the radiating arms are long, slender, sometimes repeatedly branched, and all the branches bear fine lateral projections called pinnulae. Most of the feather-stars live in deep water and are thus only seen after being dredged up. They feed on small crab-like animals, and on the marine unicellular animals and plants.
[Ill.u.s.tration: FIG. 24.--A crinoid or feather-star, _Pentacrinus_ sp.
(After Brehm.)]
CHAPTER XIX
BRANCH VERMES:[8] THE WORMS
THE EARTHWORM (_Lumbricus_ sp.).
TECHNICAL NOTE.--Obtain live earthworms of large size, killing some in 30% alcohol and hardening and preserving them in 80% alcohol, and bringing others alive to the laboratory. The worms may be found during the daytime by digging, or at night by searching with a lantern. They often come above ground in the daytime after a heavy rain. Live specimens may be kept in the laboratory in flower-pots filled with soil. "They may be fed on bits of raw meat, preferably fat, bits of onion, celery, cabbage, etc., thrown on the soil."
=External structure= (fig. 25).--Examine the external structure of live and dead specimens. Which is the ventral and which the dorsal surface? Which the anterior and which the posterior end? Note the segmented condition of the body; the number of _segments_ or _somites_, and their relative size and shape. Note absence of appendages such as limbs and the presence of _locomotor setae_ (short bristles). How many setae are there on each segment and what is their disposition? The _mouth_ is covered by a dorsal projection called the _prostomium_. The _a.n.a.l opening_ is situated in the posterior segment of the body. The broad thickened ring or girdle including several segments near the anterior end of the body is the _c.l.i.tellum_, a glandular structure which secretes the cases in which the eggs are laid. On the ventral surface of the fourteenth and fifteenth segments (in most species) are two pairs of small pores; two other pairs of small openings (usually difficult to find), one between segments 9 and 10, and one between segments 10 and 11, are present. All these are the external openings of the reproductive organs.
[Ill.u.s.tration: FIG. 25.--Dissection of the earthworm, _Lumbricus_ sp.]
Make drawings showing the external structure of the earthworm.
Examine a live specimen placed on moist paper or wood. Note the characteristics of its locomotion, and the movements of its body-parts. How do the setae aid in locomotion?
=Internal structure= (figs. 25, 26 and 28).--TECHNICAL NOTE.--With a fine-pointed pair of scissors make a dorsal median incision, not too deep, behind the c.l.i.tellum and cut forward as far as the first segment. Put the specimen into dissecting-dish, carefully pin back the edges of the cut and cover with clear water or, better, 50% alcohol.
Note the long body-cavity divided by the thin _septa_ which have been torn away for the most part by the pinning process. Note the thin transparent covering of the body, the _cuticle_. Just beneath this note a less transparent layer, the _epidermis_, and underneath this a layer of muscles. The _muscular layer_ is made up of two clearly recognizable sets, an outer circular layer and an inner longitudinal layer the fibres of which are continuous with the septa.
Note, as the most conspicuous internal organ, the long _alimentary ca.n.a.l_, of which a number of distinct parts may be recognized. Most anteriorly is a muscular _pharynx_, which is followed by a narrow _sophagus_, leading directly into the thin-walled _crop_; next comes the muscular _gizzard_, and next the _intestine_ which opens externally in the terminal segment through the _a.n.u.s_. The anterior end of the alimentary ca.n.a.l is more or less protrusible, while the posterior portion is held more firmly in place by the septa which act as mesenteries. Surrounding the narrow sophagus are the reproductive organs, three pairs of large white bodies and two pairs of smaller sacs.
Note the _dorsal blood-vessel_ lying along the dorsal surface of the alimentary ca.n.a.l, from the anterior portion of which arise several _circ.u.msophageal rings_ or "hearts." These hearts are contractile and serve to keep the blood in motion through the blood-vessels (see later). In the most anterior of the body segments note the pear-shaped _brain_ or _cerebral ganglion_.