Trematoda digenea(endoparasitica).
Occurrence and Habits of Digenea.—Endoparasitic Trematodes have been found in almost all the organs of Vertebrate hosts excepting in the nervous, skeletal, and reproductive systems. The alimentary canal, however, is the most usual habitat. From the buccal cavity to the large intestine, or even to the cloaca, its different regions are the resorts of various Trematodes. No Digenea have been found in the mouth, pharynx, or oesophagus of Mammals; but in Birds, Reptiles, Amphibia, and especially in Fishes, these parts are largely affected. It is a striking fact that Trematodes should occur in the stomach of (chiefly) large predaceous fishes, such as the Pike, Sharks, the Angler-fish, and others, considering the powerful digestive action of the gastric juice of these carnivores. The peculiar nature of the defence which must be employed by the parasites against this digestive action, becomes still more marked when it is considered that if a Trematode normally living in the stomach of one host be transferred to that of another, it is usually speedily digested, as is shown (p.65) in the case ofDistomum macrostomum. From these considerations the suggestion has been made that the cutaneous secretions of these Trematodes must act, not only as a protection against digestive or other ferments, but that the action in each case must be a specific one (Frenzel, Braun).
fig30Fig. 30.—Distomum luteumv. Baer (immature), to show the arrangement of the excretory vessels. × 50.ex.o, Excretory aperture by which the terminal contractile duct opens—the finer vessels end in flame-cells;int, intestine;m, mouth-sucker;ph, pharynx;vs, ventral sucker. (After la Valette.)
Fig. 30.—Distomum luteumv. Baer (immature), to show the arrangement of the excretory vessels. × 50.ex.o, Excretory aperture by which the terminal contractile duct opens—the finer vessels end in flame-cells;int, intestine;m, mouth-sucker;ph, pharynx;vs, ventral sucker. (After la Valette.)
Fig. 30.—Distomum luteumv. Baer (immature), to show the arrangement of the excretory vessels. × 50.ex.o, Excretory aperture by which the terminal contractile duct opens—the finer vessels end in flame-cells;int, intestine;m, mouth-sucker;ph, pharynx;vs, ventral sucker. (After la Valette.)
It is, however, in the small intestine that most Trematodes occur, as the examination of the common Frog[75]will readily demonstrate. Both this and the edible Frog are attacked by a dozen Distomatidae, only a few of which, however, are commonto both hosts, and a number of Holostomatidae also pass a stage of their development within these Amphibia. Some idea of the extent to which animals, whose habits lead to infection, may be attacked by Trematodes (to say nothing of Cestodes and Nematodes, which often occur also) may be gathered from the fact that in dissecting a black stork, Nathusius found several hundredHolostomum excavatumand about a hundredDistomum feroxin the small intestine, twenty-twoD. hiansin the oesophagus, five others in the stomach, and oneD. echinatumin the intestine. Snipe, Woodcock, Sandpipers, Dunlin, Gulls, Bittern, Geese, and Wild Ducks are, to mention a few cases, greatly infested by members of this group.
The following Trematodes have occurred in man[76]:—
Distomum hepaticumAbild.Dist"mumlanceolatumMehlis.Dist"mumconjunctumCobbold.Dist"mumspathulatumLeuckart (=D. sinenseCobb.,D. japonicumR. Blanch.).Dist"mumrathouisiPoir. (probably =D. crassumBusk,D. buskiiLank.).Dist"mumheterophyesv. Sieb.Dist"mumpulmonaleBälz (=D. ringeriCobb.,D. westermanniKerb.).Dist"mumoculi humaniAmmon (=D. ophthalmobiumDies.).Monostomum lentisv. Nord.Amphistomum hominisLewis and M‘Connell.Bilharzia haematobiaCobb.
Distomum hepaticumAbild.
Dist"mumlanceolatumMehlis.
Dist"mumconjunctumCobbold.
Dist"mumspathulatumLeuckart (=D. sinenseCobb.,D. japonicumR. Blanch.).
Dist"mumrathouisiPoir. (probably =D. crassumBusk,D. buskiiLank.).
Dist"mumheterophyesv. Sieb.
Dist"mumpulmonaleBälz (=D. ringeriCobb.,D. westermanniKerb.).
Dist"mumoculi humaniAmmon (=D. ophthalmobiumDies.).
Monostomum lentisv. Nord.
Amphistomum hominisLewis and M‘Connell.
Bilharzia haematobiaCobb.
Life-histories of the Digenea.—The classification of Trematodes according to their life-histories, expressed in the divisions Monogenea and Digenea, though a very useful one, breaks down entirely in the case of certain forms. Thus the life-history ofGyrodactylusis probably digenetic rather than monogenetic.Aspidogaster conchicola,[77]which lives in the pericardial cavity of the fresh-water mussel (possibly the only case of a Trematode becoming normally mature in an Invertebrate host, since other species ofAspidogasterlive in Chelonia), produces larvae which enter anotherAnodontaand develop directly into the sexual form. In other words,Aspidogaster, though structurally a digenetic form, possesses a life-history which is direct and simple,i.e.monogenetic.
The Holostomatidae, which live in birds of prey and aquatic birds, give rise to eggs from which a minute larva escapes. The fate of this aquatic larva is not directly known,but in all probability after entering a host (Fish, Amphibian, Mollusc), it undergoes a gradual change into what has long been known as aTetracotyle, from the frequent presence of four (sometimes only three) adhering organs. Fig. 31 exhibits a species which is abundant in the lens and vitreous humour of the eye of the Perch. Its further history is not known, but presumably the Perch is presently devoured by the final host in which theDiplostomumattains maturity. Thus the Holostomatidae are "metastatic" (Leuckart), their (probably) direct development requiring the presence of two hosts.[78]
The other Digenea, the life-histories of which are known, belong to the Distomatidae and Amphistomatidae, and we may distinguish the steps by which the complex life-history of the liver-fluke (Distomum hepaticum) has been brought about, by a consideration of that ofDistomum macrostomum.
fig31Fig. 31.—Diplostomum (Tetracotyle) volvens.(After v. Nordmann.) × 130.cv, Contractile excretory vesicle;d, intestine;e, calcareous bodies in excretory tubules;ex.o, excretory aperture;gl, glandular adhesive body;ms, oral sucker;ph, pharynx;vs, ventral sucker.
Fig. 31.—Diplostomum (Tetracotyle) volvens.(After v. Nordmann.) × 130.cv, Contractile excretory vesicle;d, intestine;e, calcareous bodies in excretory tubules;ex.o, excretory aperture;gl, glandular adhesive body;ms, oral sucker;ph, pharynx;vs, ventral sucker.
Fig. 31.—Diplostomum (Tetracotyle) volvens.(After v. Nordmann.) × 130.cv, Contractile excretory vesicle;d, intestine;e, calcareous bodies in excretory tubules;ex.o, excretory aperture;gl, glandular adhesive body;ms, oral sucker;ph, pharynx;vs, ventral sucker.
Distomum macrostomum.—This form occurs in the intestine of several common Passerine birds. It is remarkable not only for the large oral sucker, but also on account of the position of the common genital pore at the hinder, and not as usual, at the anterior, end of the body (Fig. 32, A). The eggs pass out through this pore, and are discharged with the bird's excrement. Should a certain snail (Succinea putris) happen to rasp off the epidermis of a leaf upon which the faeces have fallen, the eggs are swallowed and a minute active larva is set free (Fig. 32, B). This penetrates through the thin wall of the digestive tract of the snail, and passing into the connective tissue, throws off its cilia and assumes the shape of Fig. 32, C. Thissporocyst, as the larva is now termed, grows rapidly in all directions (Fig. 32, D) at the expense of the snail's tissues, until it becomes impossible to separate parasite and host completely.
fig32Fig. 32.—Life-history ofDistomum macrostomumRud.A, ImmatureDistomum(really a taillessCercaria) found in the swollen terminal parts ofLeucochloridium(Fig. 33, B) and enclosed in two protective membranes, × 40;B, larva which hatches out of the egg ofD. macrostomum, × 125;C, the metamorphosed larva (sporocyst) fourteen days after having enteredSuccinea putris, and pierced through its intestinal wall;D, actively growing sporocyst. (After Heckert.)go, Genital aperture;int, intestine;ms, mouth sucker;n, nervous system;ov, ovary;ps, ventral sucker;te, testis.
Fig. 32.—Life-history ofDistomum macrostomumRud.A, ImmatureDistomum(really a taillessCercaria) found in the swollen terminal parts ofLeucochloridium(Fig. 33, B) and enclosed in two protective membranes, × 40;B, larva which hatches out of the egg ofD. macrostomum, × 125;C, the metamorphosed larva (sporocyst) fourteen days after having enteredSuccinea putris, and pierced through its intestinal wall;D, actively growing sporocyst. (After Heckert.)go, Genital aperture;int, intestine;ms, mouth sucker;n, nervous system;ov, ovary;ps, ventral sucker;te, testis.
Fig. 32.—Life-history ofDistomum macrostomumRud.A, ImmatureDistomum(really a taillessCercaria) found in the swollen terminal parts ofLeucochloridium(Fig. 33, B) and enclosed in two protective membranes, × 40;B, larva which hatches out of the egg ofD. macrostomum, × 125;C, the metamorphosed larva (sporocyst) fourteen days after having enteredSuccinea putris, and pierced through its intestinal wall;D, actively growing sporocyst. (After Heckert.)go, Genital aperture;int, intestine;ms, mouth sucker;n, nervous system;ov, ovary;ps, ventral sucker;te, testis.
Those branches which lie superficially in the cephalic region of the snail become greatly swollen, cylindrical, and contractile. They are banded with green and white, ornamented with red terminal spots, and pulsate rapidly. Hence these fertile branches of the sporocyst (which in this condition was known asLeucochloridium paradoxum, Fig. 33, B) naturally attract the attention of insectivorous birds, which peck off the tentacles of the snail, and with it the swollen sporocyst-branch. A sphincter muscle closes the cut end of the fertile sac when the bird's bill nips it off. The sac contains large numbers of youngD. macrostomum(Fig. 32, A), produced by the division of embryonic cells of the larva (Fig. 32, B), which are apparently blastomeres of the egg reserved for this future use. It is a remarkable circumstance that the old bird itself is immune from infection, and if it swallows these young Distomes, they are digested. Should, however, the snail's tentacle and its contents be offered as food to the nestlings, their weaker digestive powers merely set the Distomes free from the protective membranes (Fig. 32, A), and thus the Blackcaps, Sparrows, and other birds infested byD. macrostomumhave acquired the parasite when they werenestlings by the unintentional agency of their parents.[79]The snail regenerates its lost tentacles only for the sporocyst to again bud off fertile branches into them.
fig33Fig. 33.—A,Succinea putris, infested byB,Leucochloridium paradoxum, or the fully-formed sporocyst ofDistomum macrostomum. (After Heckert.)A, Natural size;B, × 7.
Fig. 33.—A,Succinea putris, infested byB,Leucochloridium paradoxum, or the fully-formed sporocyst ofDistomum macrostomum. (After Heckert.)A, Natural size;B, × 7.
Fig. 33.—A,Succinea putris, infested byB,Leucochloridium paradoxum, or the fully-formed sporocyst ofDistomum macrostomum. (After Heckert.)A, Natural size;B, × 7.
The egg of this Distome thus gives rise to a larva which enters the tissues of one particular Mollusc. Here it becomes a branched sporocyst within which the sexual worms are formed, apparently each from a single embryonic blastomere ("Keimzelle"), by a process comparable with the development of a parthenogenetic ovum, and the whole cycle has been termedAlloiogenesis,i.e.alternation of sexual and parthenogenetic generations (Grobben).[80]Leuckart[81]and Looss,[82]however, consider that what was once a metamorphosis of an individual (as in theHolostomatidae) has now become, by maturation of the Cercaria in the comparatively modern warm-blooded bird, a metamorphosis extending over two or more generations.
Distomum (Fasciola) hepaticum.—The liver-fluke of the Sheep, which produces the disastrous disease, liver-rot, has a distribution as wide as that of a small water-snail,Limnaea truncatula, the connexion between the two being, as Thomas[83]and Leuckart discovered, that this snail is the intermediate host in which the earlier larval, sporocyst, and redia stages are passed through, and a vast number of immature flukes (Cercariae) are developed. These leave the snail and encyst upon grass, where they are eaten by the sheep. Over the whole of Europe, Northern Asia, Abyssinia, and North Africa, the Canaries, and the Faroes, the fluke and the snail are known to occur, and recently the former has been found in Australia and the Sandwich Islands, where a snail, apparently a variety ofLimnaea truncatula, is also found.[84]Over these vast areas, however, the disease usually only occurs in certain marshy districts and at certain times of the year. Meadows of a clayey soil, liable to be flooded (as in certain parts of Oxfordshire), are the places where thisLimnaeaoccurs most abundantly, and these are consequently the most dangerous feeding-grounds for sheep. The wet years 1816, 1817, 1830, 1853, and 1854—memorable for the occurrence of acute liver-rot in England, Germany, and France—showed that the weather also plays a considerable part in extending the suitable ground forLimnaeaover wide areas, which in dry years may be safe pastures. In 1830 England lost from this cause,[85]one and a half million sheep, representing some four millions of money, while in 1879-80 three millions died. In 1862 Ireland lost 60 per cent of the flocks, and in 1882 vast numbers of sheep perished in Buenos Ayres from this cause. In the United Kingdom the annual loss was formerly estimated at a million animals, but is now probably considerably less. After infection during a wet autumn, it is usually in the succeeding winter that the disease reaches its height.
The symptoms of "rot" appear about a month after infection, more acutely in lambs than in sheep, and again, less in oxen than in sheep. At first, death may result from cerebral apoplexy, but if the first few weeks are passed through, a pernicious anaemia sets in, the sheep are less lively and fall at a slight touch, the appetite diminishes, and rumination becomes irregular. The conjunctiva is of a whitish-yellow colour, the dry, brittle wool falls off, and there is sometimes fever and quickened respiration. In January, about three months after infection, the wasting, or fatal, period sets in. Oedemas or swellings, usually visible before, become larger at the dependent parts of the body, a large one in the submaxillary region being especially well marked, and this is considered one of the most characteristic symptoms ("watery poke"). Through this period few of the infected sheep survive, but should they do so, the flukes begin to migrate, though some remain much longer within the liver. Migration is effected through the bile-duct into the duodenum and outwith the faeces, in which the altered remains of theDistomumare sometimes scarcely recognisable. Under these circumstances (or owing to death of the flukein situ) the sheep recover more or less fully.
The preventive measures seem to be: (1) Destruction of the eggs and of the manure of rotten sheep; (2) slaughter of badly fluked sheep; (3) adequate drainage of pastures; (4) an allowance of salt and a little dry food to the sheep; and (5) dressings of lime or salt on the ground to destroy the embryos.[86]
Distomum hepaticum, contrary to most Trematodes, enjoys a wide range of hosts. Man himself occasionally falls a victim; thus in Dalmatia, in the Narenta Valley, the disease is endemic but slight in its effects. The horse, deer, camel, antelopes, goat, pig, rabbit, kangaroo, beaver, and squirrel have all been known to harbour this fluke occasionally. In the Italian deer-parks at Mandria a large species,D. magnum, decimated the herds some years ago; and this species, probably imported from Italy, is now almost as dangerous a parasite on the western plains of the United States asD. hepaticum.
Bilharzia haematobia.[87]—This formidable parasite was discovered by Bilharz in 1853 in the veins of the bladder of patientsat the Cairo Hospital, and is remarkable from its abundance on the east coast and inland countries of Africa from Egypt to the Cape, as well as in the districts bordering Lake Nyassa and the Zambesi river, while westwards it occurs on the Gold Coast. Mecca is a source of infection whence Mohammedans carry the disease to distant places. In Egypt about 30 per cent of the native population is affected by the serious disease known as Haematuria, resulting from the attacks ofBilharzia, so that, of the many scourges from which in Africa man suffers, this one is perhaps the most severe.
fig34Fig. 34.—Bilharzia haematobiaCobb. × 10. The female (♀) lying in the gynaecophoric canal of the male (♂).d, Alimentary canal;ms, oral sucker of male;vs, ventral suckers. (After Leuckart.)
Fig. 34.—Bilharzia haematobiaCobb. × 10. The female (♀) lying in the gynaecophoric canal of the male (♂).d, Alimentary canal;ms, oral sucker of male;vs, ventral suckers. (After Leuckart.)
Fig. 34.—Bilharzia haematobiaCobb. × 10. The female (♀) lying in the gynaecophoric canal of the male (♂).d, Alimentary canal;ms, oral sucker of male;vs, ventral suckers. (After Leuckart.)
The worm is found usually in couples, which have been proved to be male and female individuals (Fig. 34), often in considerable numbers in the veins of the pelvic region, chiefly the veins of the bladder and of the large intestine, and it is tolerably certain thatBilharziaenter these vessels from the portal vein. Their long slender bodies enable them to penetrate into the finer vessels, which get partially or entirely choked up, and the circulation accordingly impeded. But the most serious consequences are observed in the urinary bladder. The mucous membrane is swollen and inflamed here and there, chiefly on the dorsal surface, the capillaries appear varicose and covered with mucus, mixed with blood-extravasations in whichBilharzia-eggs are noticeable. The eggs also cause numerous swollen knots in the submucous tissue. Should the disease not pass beyond this stage (and such is usually the case, especially in South Africa), a temporary haematuria ensues. The urine, which is only expelled with great effort, accompanied by intense pain, is mixed with blood, mucous clots, and masses ofBilharzia-eggs, from which some of the embryos have already hatched out. The symptoms, however, may gradually pass away, and a more or less complete recovery accomplished. The disease may indeed be of a far less severe character, and may not interfere with the usual occupations of the patient; but, onthe other hand, a far more extensive thickening of the wall of the bladder sometimes occurs; hard masses of eggs, uric acid crystals, and other deposits, may lead to the formation of stones, degeneration of the substance of the ureter, and eventually to that of the kidney itself. The stone, indeed, has long been known to be a prevalent disease in Egypt, and it is now known to arise from concretions formed round masses ofBilharziaeggs. From the portal vein, again, otherBilharziamay gain access to the rectum, or the liver, and it has also been found in the lungs, and may give rise to most serious complications, if indeed the patient lives.
How infection occurs is a question to which at present no satisfactory answer can be made. The attempt to introduce embryos ofBilharziainto the common fresh-water animals of Alexandria has hitherto proved fruitless (Looss[88]), although there seems little doubt that the comparative immunity of Europeans from the disease is in some way owing to their drinking purer water than the natives. Possibly, as Leuckart suggests, the embryo becomes a sporocyst in man himself, somewhat asTaenia murinais known to develop in the rat without an intermediate host.[89]The immense numbers of the parasite in one host would then readily receive an explanation.
ABilharzia, possiblyB. haematobia, was found by Cobbold in the portal vein ofCercopithecus fuliginosus; andB. crassainfests the cattle of Egypt, Sicily, and certain parts of India, but does not produce haematuria.
Of the other Trematodes of man and domestic animals there is not room to speak fully.Distomum pulmonale, which occurs in the lungs of the cat, tiger, and dog, as well as in man, is especially common in Japan, China, Corea, and Formosa.D. sinenseandD. rathouisihave been also found in inhabitants of these countries.
Bisexual Trematodes.—Zoologically,Bilharziais interesting from its bisexual condition. It is not, however, the only bisexual Trematode. In cysts in the branchial chamber of Ray's bream,Brama raii, two worms are found, which are probably the slender male and the swollen female of the same species (Distomum okenii). The only doubt that can arise proceeds from the tendency in all Trematodes for the male organs to ripen beforethe female organs. Until we certainly know that the swollen egg-bearing form (♀) does not arise from a previously male form (♂), the case is open to suspicion. Since, however, Kölliker[90]never found intermediate hermaphrodite conditions, thisDistomummay be almost certainly regarded as of distinct sexes.Didymozoon thynni(Monostomum bipartitum), from cysts on the gills of the Tunny (Thynnus), is another case. Two slender worms flattened posteriorly, come together, and the body of one becomes folded to receive that of the other. They fuse completely except for a small lateral opening through which the anterior parts of both worms may freely protrude. The enclosing individual contains a coiled uterus filled with eggs, and is the female, whereas the smaller individual never possesses eggs, and is probably the male.[91]Nematobothrium(Fig. 22, A), which occurs also in the Tunny, in the form of two immensely long individuals intricately wound about each other in a cyst, is, however, not bisexual.
fig35Fig. 35.—Distomum okeniiKöll. Showing male and female as they occur together in the branchial cavity ofBramaraii(Ray's bream). (From Bronn, after Kölliker.) Nat. size.
Fig. 35.—Distomum okeniiKöll. Showing male and female as they occur together in the branchial cavity ofBramaraii(Ray's bream). (From Bronn, after Kölliker.) Nat. size.
Fig. 35.—Distomum okeniiKöll. Showing male and female as they occur together in the branchial cavity ofBramaraii(Ray's bream). (From Bronn, after Kölliker.) Nat. size.
Table of Digenetic Trematodes and their Life-Histories.[92]
Limnaea stagnalis
Planorbis corneus
D. clavigerumRud.
Limnaea ovata
Planorbis corneus
Classification of Trematodes.—We have seen (p.63) that it is hardly possible to carry out fully the division of Trematodes into Monogenea and Digenea. Nevertheless, pending further investigation on the doubtful points, this classification may still beused. Monticelli[93]has proposed the main divisions of a new classification, which has been also adopted by Braun, and is based on the nature of the suckers. These divisions are indicated below in brackets.
CESTODA
INTRODUCTION—NATURE OF CESTODES—OCCURRENCE OF CESTODES—THE TAPE-WORMS OF MAN AND DOMESTIC ANIMALS—TABLE OF THE LIFE-HISTORIES OF THE PRINCIPAL CESTODES OF MAN AND DOMESTIC ANIMALS—STRUCTURE AND DEVELOPMENT OF CESTODES—TABLE FOR THE DISCRIMINATION OF THE MORE USUAL CESTODES OF MAN AND DOMESTIC ANIMALS—CLASSIFICATION.
The Cestodes or Tape-worms are exclusively endoparasitic Platyhelminthes living, in the adult condition, in the alimentary canal of Vertebrates, with the exception ofArchigetes(Fig. 37), which may become mature in the body-cavity ofTubifex. In relation with this wholly parasitic existence, the Cestodes exhibit certain characteristic modifications in structure and mode of development, such as the formation, by the segmentation of the "neck," of a (usually) long chain of "proglottides" or joints, which form the "body" of the Cestode; and the entire absence of an alimentary tract, both in the larva and adult. As an adaptation to the fixed mode of life, the anterior end (head, scolex) is modified to form an adhering organ. Various adaptive forms of larvae are known. These live in the internal organs of one or more intermediate hosts, and are transferred to the final host passively during a meal. Lastly, there is the curious metamorphosis by which the adult is formed from a portion (scolex) of the larva.[94]
fig36Fig. 36.—Echinobothrium affineDies., from the intestine ofTorpedo, × 43.hd, Head;hk, hooks;hl, lobes of the head;ov, ovary;pe, penis;ps, penis-sheath;te, testes;ut, uterus;vag, vagina;yg, yolk-glands. (After Pintner.[95])
Fig. 36.—Echinobothrium affineDies., from the intestine ofTorpedo, × 43.hd, Head;hk, hooks;hl, lobes of the head;ov, ovary;pe, penis;ps, penis-sheath;te, testes;ut, uterus;vag, vagina;yg, yolk-glands. (After Pintner.[95])
Fig. 36.—Echinobothrium affineDies., from the intestine ofTorpedo, × 43.hd, Head;hk, hooks;hl, lobes of the head;ov, ovary;pe, penis;ps, penis-sheath;te, testes;ut, uterus;vag, vagina;yg, yolk-glands. (After Pintner.[95])
Taenia solium, from man (Fig. 39, B), orEchinobothrium(Fig. 36), from an Elasmobranch fish, is fixed to the mucous lining of the intestine of its host by means of a radially-constructed apparatus of four suckers and a circlet of hooks (Fig. 39), which are borne by the "head" or "scolex," being that part of the worm which is directly derived from part of the larva, and which contains the central, commissural portion of the nervous system. Firm adhesion to the host's intestine is necessary, in order to avoid the loosening action of the peristaltic movements of the intestine as the food passes along. The heads of different Cestodes exhibit a marvellous variety of suckers and hooks, from a mere muscular depression inSchistocephalus, to the compound proboscides ofTetrarhynchus[96]which is found in Elasmobranchs. The jointed body, often of enormous length (up to 20 yards inBothriocephalus latus), is usually separated from the head by a slender neck, from which the proglottides are segmented off from behind forwards, and become more and more individualised as they recede farther away from the neck by the intercalation of younger joints. Thus in Fig. 36 the mature, distal proglottis has passed through all the stages represented by the other segments.
fig37Fig. 37.—Archigetes sieboldii(appendiculatus), from the coelom ofTubifex rivulorum. × 40.app, Persistent larval appendage;go, genital pore;hk, persistent larval hooks;ov, ovary;sc, sucker;te, testes;yg, yolk-glands. (After Leuckart.)
Fig. 37.—Archigetes sieboldii(appendiculatus), from the coelom ofTubifex rivulorum. × 40.app, Persistent larval appendage;go, genital pore;hk, persistent larval hooks;ov, ovary;sc, sucker;te, testes;yg, yolk-glands. (After Leuckart.)
Fig. 37.—Archigetes sieboldii(appendiculatus), from the coelom ofTubifex rivulorum. × 40.app, Persistent larval appendage;go, genital pore;hk, persistent larval hooks;ov, ovary;sc, sucker;te, testes;yg, yolk-glands. (After Leuckart.)
The longitudinal muscles, the nerves, and excretory vessels which supply the proglottides are continuous throughout and with those of the head. Each joint contains at first male genitalia comparable with those of a Trematode; then the female organs develop, and finally self-fertilisation follows. The Cestodes feed through their skin, probably by the aid of fine protoplasmic processes, which penetrate the tough investing membrane and absorb the already digested food which bathes them. When a proglottis ofCalliobothriumis approaching maturity it separates from the parent, the broken ends of muscles, nerves, and excretory vessels speedily heal, and it is now capable of continued growth and of fairly active movement if it remains in the intestine of the host. According to van Beneden, it may even attain a size equal to, or exceeding, that of the whole parent or "strobila."[97]These considerations led Leuckart, von Siebold, P. J. van Beneden, and others, to Steenstrup's conclusion that a jointed tape-worm is really a colony composed of two generations—the head and neck derived from the larva, and the proglottides produced by the segmentation of the neck.[98]This view of the colonial nature of jointed Cestodes was generally adopted from 1851 to 1880. During the last fifteen years, however, the varied interpretations of the facts of the ontogeny of this group have led some authors to adopt the monozootic view (that a Cestode is one individual), others are still of the older opinion, and Hatschek (Lehrbuch, p. 349) and Lang take up intermediate positions. Lang considers that the formation of the joints of a tape-worm from a small fixed "scolex," is not only largely comparable with the strobilation of ascyphistomaand the consequent formation of a pile of medusae, as in the life-history ofAurelia, butthat both processes have arisen from the power of regenerating the necessary organs in each of the new segments. The result in both cases is the rapid formation of a number of joints, which gradually separate from the parent, to carry the eggs and young to new stations. Just as some Coelenterata (Lucernaria) may be regarded as not having advanced much beyond a scyphistoma stage, so there are unisegmental Cestodes (e.g.Archigetes, Fig. 37) which have remained as a slightly altered but sexual scolex, directly comparable with a Trematode, and, as all authors are agreed, representing one generation only. Such monozootic forms are now classed as a special family, the Cestodaria or Monozoa, of whichCaryophylleus mutabilis, from the intestine of various Cyprinoid fish, is the most abundant representative, whileAmphiptyches(Gyrocotyle)urna, fromChimaera monstrosaof the northern hemisphere, is paralleled byA. rugosa, found inCallorhynchus antarcticusof the southern seas.
fig38Fig. 38.—Scolex polymorphusRud. (larva ofCalliobothrium filicolleZschokke), from the muscles ofApogon, a Mediterranean fish; also found in many Invertebrates (e.g.Sepia).A, Inverted scolex, with calcareous bodies;B, everted older larva.br, Brain;exo, terminal excretory aperture;fc, flame-cells;for.sec; secondary excretory pores;hk, hooks of the adult Cestode;inrag, pit at the bottom of which the head is developed;msc, anterior sucker;nl, lateral nerve;sc, suckers;tl,tp, lateral and main excretory vessels. (After Monticelli.)
Fig. 38.—Scolex polymorphusRud. (larva ofCalliobothrium filicolleZschokke), from the muscles ofApogon, a Mediterranean fish; also found in many Invertebrates (e.g.Sepia).A, Inverted scolex, with calcareous bodies;B, everted older larva.br, Brain;exo, terminal excretory aperture;fc, flame-cells;for.sec; secondary excretory pores;hk, hooks of the adult Cestode;inrag, pit at the bottom of which the head is developed;msc, anterior sucker;nl, lateral nerve;sc, suckers;tl,tp, lateral and main excretory vessels. (After Monticelli.)
Fig. 38.—Scolex polymorphusRud. (larva ofCalliobothrium filicolleZschokke), from the muscles ofApogon, a Mediterranean fish; also found in many Invertebrates (e.g.Sepia).A, Inverted scolex, with calcareous bodies;B, everted older larva.br, Brain;exo, terminal excretory aperture;fc, flame-cells;for.sec; secondary excretory pores;hk, hooks of the adult Cestode;inrag, pit at the bottom of which the head is developed;msc, anterior sucker;nl, lateral nerve;sc, suckers;tl,tp, lateral and main excretory vessels. (After Monticelli.)
Occurrence of Cestodes.—The distribution of Cestodes and their larvae is analogous to that of the digenetic Trematodes, although the absence of an alimentary canal limits the habitat of the mature worms to certain sites, such as the blood-vessels, the lymphatic and coelomic spaces, and the digestive system, where their body may be bathed by a nutritive fluid. Almost all groups of Vertebrates are attacked by Cestodes. Those of fishes, and particularly of Elasmobranchs, are distinguished by certain structural and developmental features; those of birds byothers; those of mammals, by a third set of characters. The young stages of the Cestodes of Sharks and Rays occur encysted in the body-cavity, or in the pyloric appendages, of Teleosteans, which probably swallow them along with those invertebrate animals upon which they prey. The larvae of the Cestodes of carnivorous mammals or piscivorous birds, live respectively in herbivores and fishes, but how the latter are infected we know in very few instances. Cestode larvae are known to occur in many Invertebrates, and occasionally are taken free swimming in the sea, presumably crossing from one host to the next. Ctenophores, Siphonophores, Copepods, Ostracods, Decapods, various Molluscs especially Cephalopods, Earthworms, and other Annelids, are the intermediate hosts of these larvae (see Fig. 38), the fate of which, however, has been determined in but few cases.
Occurrence of Cestodes in Man.[99]—Tape-worms, either in the adult or larval stages (bladder-worms), have, from ancient times, been known to occur in man, and in the animals that serve him as food. Until comparatively recent times, however, the true nature of these parasites, and particularly of "hydatids" (cystic larvae), was unrecognised. Up to the seventeenth century the larvae were regarded as abscesses or diseased growths of the affected organs, and it was only at the close of that century that their animal nature was even suggested. Even at the beginning of the nineteenth century, three modes of origin of Cestodes—by "generatio aequivoca" from the tissues of the body, or by the union of previously distinct proglottides, or again by metamorphosis of free-living worms drunk with water by cattle or birds (as Linnaeus suggested)—were still variously held, at a time when Malpighi, Pallas, and Goeze had recognised the true connexion between the cystic and segmented states ofTaenia crassicollis(the cat tape-worm), and when Goeze had seen the eggs ofTaeniae, and Abildgaard[100]had even conducted the first helminthological experiments (conversion of the larvalSchistocephalus, Fig. 40, into the adult form).