In this article we will discuss about Molluscs:- 1. General Characters of Molluscs 2. Classification of Molluscs 3. Economic Importance.

General Characters of Molluscs:

1. Molluscs are essentially aquatic mostly marine, few freshwater and some terrestrial forms.

2. The body is soft, un-segmented, bilaterally symmetrical and consists of head, foot, mantle and visceral mass.

3. The body is clothed with one layered often ciliated epidermis.

4. Body is commonly protected by an exoskeletal calcareous shell of one or more pieces, secreted by the mantle.

5. Head is distinct, bearing the mouth and provided with eyes, tentacles and other sense organs except in Pelecypoda and Scaphopoda.

6. Ventral body wall is modified into a muscular flat or plough-like surface, the foot which is variously modified for creeping, burrowing and swimming.

7. Mantle or pallium is a fold of body wall that leaves between itself and the main body mass, the mantle cavity.

8. Visceral mass contains the vital organs of the body in a compact form taking the form of a dorsal hump or dome.

9. Body cavity is haemocoel. The true coelom is generally limited to the pericardial cavity and the lumen of the gonads and nephridia.

10. Digestive tract is simple with an anterior mouth and posterior anus but in gastropods, scaphopods and cephalopods the intestine becomes U-shaped bringing the anus to an anterior position.

11. Pharynx contains a rasping organ, the radula, except in Pelecypoda.

12. Circulatory system is open except in cephalopods which shows some tendency towards a closed system.

13. Respiratory organs consist of numerous gill or ctenidia usually provided with osphradium at the base. Lung is developed in terrestrial forms. Respiratory pigment is usually haemocyanin.

14. Excretory system consists of a pair of metanephridia which are true coelomoducts and communicate from pericardial cavity to the exterior by nephridiopore.

15. Nervous system consists of paired cerebral, pleural, pedal and visceral ganglia joined by longitudinal and transverse connectives and nerves.

16. Sexes usually separate (dioecious) but some are hermaphroditic.

17. Fertilisation is external or internal.

18. Development is either direct or with metamorphosis through the trochophore stage called veliger larva.

Classification of Molluscs:

The classification is adopted from Hyman, L.H. (1957) with certain modifications from Parker and Haswell (1965).

Class 1. Aplacophora Or Solenogasters: (Gr., a = not + plax = plate + pherein = bearing)

1. Body worm-like, bilaterally symmetrical and cylindrical.

2. Head, mantle, foot, shell and nephridia are absent.

3. Body covered with cuticle beset with nu­merous calcareous spicules.

4. Mouth and anus are terminal or sub-terminal at opposite end.

5. Digestive tract straight generally provided with a radula.

6. A pair of coelomoducts in the form of gonoducts opening into the terminal part of intestine or independently.

7. A mid-dorsal longitudinal keel or crest is often present.

8. Sexes united (hermaphroditic) or separate (dioecious).

Order 1. Neomenioidea:

1. Mid-ventral longitudinal groove present.

Examples:

Neomenia Proneomenia, Lepidomenia.

Order 2. Chaetodermatoidea:

1. Mid-ventral longitudinal groove absent.

Examples:

Chaetoderma, Prochaetoderma.

Class 2. Polyplacophora: (Gr., poly = many + plax = plate + pherein – bearing):

1. Mostly bilaterally symmetrical, dorsoventrally flattened molluscs.

2. Body elliptical, convex dorsally and flat­tened ventrally.

3. Head distinct without eyes and tentacles.

4. Shell composed of a longitudinal series of eight calcareous pieces.

5. Foot flat and ventral, laterally bordered by a groove containing gills.

6. Radula well developed comprising 17 teeth.

7. Intestine coiled with a terminal anus.

8. A pair of nephridia extending from perica­rdium to the lateral groove.

9. A pair of gonoducts without relation to the pericardium.

10. Sexes are separate (dioecious).

Order 1. Lepidopleurida:

1. Valves of the shell without insertion plates, or if present without insertion teeth.

Examples:

Lepidopleurus, Hanleya.

Order 2. Chitonina:

1. Valves of the shell with insertion plates and teeth.

Examples:

Tonicella, Chiton, Cryptochiton, Choneplex.

Class 3. Monoplacophora: (Gr., monos – one + plax + plate + pherein – bearing)

1. Body bilaterally symmetrical and seg­mented.

2. Shell comprises single piece or valve.

3. Head without eyes and tentacles.

4. Foot flat and ventral.

5. Mantle encircles the body as a circular fold of the body wall.

6. Gills external and serially arranged.

7. Five pairs of nephridia serially arranged.

8. Sexes separate (dioecious).

Examples:

Neopilina galatheae.

Class 4. Gastropoda: (Gr., gaster = belly + podos = foot):

1. Gastropods are marine, freshwater, terres­trial and few parasitic on echinoderms.

2. Body un-segmented, asymmetrical typically with a univalve, spirally coiled shell.

3. Head distinct bearing tentacles, eyes and mouth.

4. Foot is ventral, broad, flat and muscular forming the creeping sole and often bearing dorsally a hard piece, the opercu­lum on its posterior end.

5. Visceral mass spirally coiled exhibiting torsion.

6. Mantle is a collar-like fold of body wall, lining the body whorl leaving a space, the mantle cavity, between itself and the body.

7. Buccal cavity contains an odontophore with a radula bearing rows of chitinous teeth.

8. Digestive system comprises a muscular pharynx, long oesophagus, stomach, long coiled intestine and anteriorly placed anus.

9. Respiration by gills (ctenidia) in. most forms, through the wall of the mantle cavity in some forms and in many by lungs.

10. Circulatory system is open and the heart is enclosd in a pericardium.

11. Excretory organs comprise metanephridia which are paired in primitive forms and reduced to a single nephridia in most forms.

12. Nervous system comprises distinct cere­bral and pleural besides buccal, pedal, parietal and visceral ganglia.

13. Sexes are separate (dioecious) in most forms, while in some forms united (hermaphroditic).

14. Development includes trochophore and veliger larval stages.

Subclass I. Prosobranchia:

1. Mostly marine, few freshwater or terres­trial forms.

Neopillna galatheae, Lepidopleurus and Tonicella

2. Owing to torsion of the visceral mass, the visceral nerve commissures are twisted into a figure of “8”.

3. Mantle cavity opens anteriorly in front of the visceral mass.

4. Shell is generally conical and spirally coi­led with an operculum.

5. Head distinct with snout bearing a pair of tentacles and a pair of eyes.

6. Foot is muscular, forms the ventral part of the body.

7. Ctenidia or gills, if present, are situated in front of the heart.

8. Sexes are separate (dioecious).

Order 1. Archaeogastropoda:

1. Prosobranchs without proboscis, siphon, penis and prostratic glands.

2. Operculum is also absent in many forms with few exceptions.

3. One or two bipectinate internal gills.

4. Heart mostly with two auricles.

5. Two osphradia usually present.

6. Nervous system not concentrated usually with pedal cords.

7. Sex cells discharged directly into the sea by way of the right nephridia.

Examples:

Haliotis, Fissurella, Acmaea, Patella, Trochus, Asteraea, Turbo.

Order 2. Mesogastropoda:

1. Prosobranchs usually with siphon, penis and a non-calcified operculum.

2. Radula taenioglossate type having 7 teeth in each row.

3. One monopectinate gill.

4. Heart with one auricle.

5. Single ospharadium.

6. Single nephridium.

7. Nervous system concentrated without pe­dal cords.

Examples:

Viviparus, Ampullarius, Pila, Valvata, Truncatella, Littorina, Hydrobia, Jonthina, Cypraea.

Order 3. Stenoglossa or Neogastropoda:

1. Shell with more or less elongated siphonal canal.

2. Radula consists of rows with two or three teeth in each row.

Examples:

Murex, Magilus, Buccinum, Melongena, Corns, Terebra.

Subclass II. Opisthobranchia:

1. Exclusively marine gastropods.

2. Shell often reduced or wanting, when present often covered with mantle or pedal folds.

3. Operculum usually absent.

4. Single gill or often replaced by secondary branchiae in the form of dorsal out­growths.

5. Heart with one auricle posterior to the ventricle.

6. Due to the detorsion, the mantle cavity rotated to the right side or is often lost.

7. Nervous system concentrated due to detorsion.

8. Hermaphrodite, i.e., sexes united.

Order 1. Onchidiacea:

1. Slug-like, naked or without shell opistho- branchs.

2. Mantle projects widely beyond the foot.

3. Head bears a pair of retractile tentacles each tipped with an eye.

4. Pulmonary sac, anus and female gonopore located at the posterior end.

5. Male gonopore placed anteriorly.

Examples:

Onchidium, Onchidella.

Order 2. Cephalaspidea:

1. Shell is generally present but may be partly or wholly enclosed by mantle.

2. Parapodial lobes present or absent.

3. Head with tentacular shield.

Examples:

Acteon, Hydatina, Bulla.

Order 3. Anaspidea or Aplysiacea:

1. Found mostly in tropical and subtropical waters.

2. Shell small, more or less covered by mantle.

3. Parapodial lobes well developed.

4. Anterior end bears a pair of tentacles, a pair of rhinophores and a pair of eyes.

5. Sperm duct open, running the body length to the penis located anteriorly.

Examples:

Aplysia, Akera.

Order 4. Pteropoda:

1. Pelagic snails with or without shell.

2. Swim by a pair of lateral expansions.

3. Protandrous, hermaphrodite with an open sperm groove.

Representative molluscs of class gastropoda

Examples:

Spiratella, Cavolina, Peraclis, Clione.

Order 5. Acochilidiacea:

1. Minute without shell or naked snail.

2. Gills, parapodia and visceral sac projecting behind the foot.

3. Sexes united or separate in few.

Example:

Acochlidium.

Order 6. Philinoglossacea:

1. Minute naked snails.

2. Head appendages absent.

3. Gills are absent.

4. Visceral mass separated from the foot only by a shallow groove.

Example:

Philinoglossa.

Order 7. Saccoglossa:

1. With or without shell.

2. Pharynx suctorial.

3. Sperm duct is closed.

4. Parapodia and cerata present.

Example:

Oxynoe.

Order 8. Notaspidea:

1. Shell present or absent.

2. Parapodia absent.

3. Gills bipectinate and osphradium on the right side.

4. Mantle present but devoid of mantle cavity.

Examples:

Tylodina, Pleurobranchus.

Order 9. Nudibranchia:

1. Shell absent or naked.

2. Internal gill or ctenidium and osphradium absent.

3. Mantle or mantle cavity absent.

4. Respiration by secondary branchiae usu­ally arranged in a circlet around the anus.

Examples:

Doris, Tritonia, Armina, Eolis.

Order 10. Rhodopacea:

1. Vermiform snail.

2. Without external appendages.

3. Nephridia protonephridial type.

Example:

Rhodope.

Order 11. Pyramidellacea:

1. Shell spirally twisted.

2. Long invaginable proboscis.

3. Operculum absent.

4. Gills and radula absent.

Examples:

Turbonilla, Odostomia.

Order 12. Parasita:

1. Endoparasitic gastropods found in the interior of holothurians.

2. Extremely degenerated snails.

Examples:

Entoconcha, Thyonicola.

Subclass III. Pulmonata:

1. Mostly freshwater or terrestrial, a few marine members.

2. Shell typically spiral or reduced or absent, if present partly or completely concealed by mantle.

3. Operculum is absent.

4. Mantle cavity transformed into a pulmo­nary sac with a narrow pore on the right side, gill absent.

5. Heart with one auricle anterior to the ventricle.

6. Nervous system secondarily symmetrical owing to the shortening of connectives and concentrartion of ganglia into a circum- oesophageal ganglionic complex.

7. Hermaphroditic.

Order 1. Basommatophora:

1. Freshwater, brackish water and marine forms.

2. Shell delicate with a conical spire and large aperture.

3. One pair of non-invaginable tentacles with the eyes at their bases.

4. Male and female gonopore generally separate.

Examples:

Siphonaria, Lymnaea, Planorbis.

Order 2. Stylommatophora:

1. Terrestrial pulmonates.

2. Shell with a conical spire, internal or absent.

3. Two pairs of invaginable or retractile tentacles with the eyes at the tips of the posterior pair.

4. Male and female gonopores usually united.

Examples:

Limax, Helix, Partula, Retinella.

Class 5. Scaphopoda: (Gr., scapha = boat + podos = foot)

1. Exclusively marine.

2. Body is bilaterally symmetrical, elongated and enclosed in a tusk-like shell open at both ends.

3. Eyes, tentacles and gills are absent.

4. Mantle tubular completely enclosing the body.

5. Mouth surrounded by lobular processes or outgrowths.

6. Foot is reduced, used for digging.

7. Heart rudimentary.

8. Sexes separate (dioecious).

Example:

Dentalium.

Class 6. Pelecypoda: (Gr., pelekys = hatchet + podos = foot)

1. Aquatic, mostly marine, some freshwater forms.

2. Body is bilaterally symmetrical and later­ally compressed.

3. Shell consists of two lateral valves, hinged together mid-dorsally.

4. Head is not distinct; pharynx, jaws, radula and tentacles are absent.

5. Foot is ventral, muscular which is plough­share.

6. Mantle is bilobed, consiting of paired, right and left lobes.

7. Gills or ctenidia are paired, one on each side.

8. Coelom is reduced to a dorsally placed pericardium.

9. Alimentary canal is coiled with large paired digestive glands.

10. Heart is contained within pericardium and comprises median ventricle and two auricles.

11. Excretory organs are paired nephridia or kidneys open at one end into pericardium at the other end to the exterior.

12. Nervous system consists typically of four pairs of ganglia, viz., cerebral, pleural, pedal and visceral.

13. Cerebral and pleural of each side usually fused into a single cerebro-pleural gang­lion.

14. Sense organs are statocyst and osphradia.

15. Sexes are separate or united.

16. Development is accompanied by meta­morphosis which usually includes a trochophore larva.

Order 1. Protobranchia:

1. Single pair of plate-like ctenidia each consisting of two rows of flattened gill filaments.

2. Foot is not compressed but has a flattened ventral surface or sole for creeping.

3. Two adductor muscles present.

Examples:

Nucula, Solenomya.

Order 2. Filibranchiata:

1. Single pair of plume-like gills formed of distinct V-shaped filaments.

2. Inter-filamentar junctions are either absent or formed by groups of inter-locking cilia.

3. Inter-lamellar junctions are either absent or non-vascular.

4. Two adductor muscles present, anterior may be reduced or absent.

5. Foot small and poorly developed.

Examples:

Mytilus, Area.

Order 3. Pseudolamellibranchiata:

1. Gills are plaited so as to form vertical folds.

2. Inter-filamentar junctions may be ciliary or vascular.

3. Inter-lamellar junctions vascular and non­vascular.

4. Single large posterior adductor muscle present.

5. Shell valves are frequently equal.

6. Foot rudimentary or feebly developed.

Examples:

Pecten, Ostraea, Melagrina.

Order 4. Eulamellibrnachiata:

1. Gills are firm and basket-like.

2. Gill filaments are united by vascular interfilamentar and inter-lamellar junctions.

3. Two equal sized adductor muscles present.

4. Siphon of small or large size present.

5. Foot large, byssus small or absent.

Examples:

Anodonta, Unio, Cardium, Venus, Mya, Teredo.

Order 5. Septibranchiata:

1. Gills reduced to a horizontal muscular partition dividing the mantle cavity.

2. Two adductor muscles present.

3. Foot long and slender and byssus rudimen­tary or absent.

4. Sexes united.

Examples:

Poromya, Cuspidaria.

Class 7. Cephalopoda: (Gr., kephale = head + podos = foot)

1. Exclusively marine.

2. Body bilaterally symmetrical with head and trunk.

3. Shell spiral, chambered or usually with or without reduced shell embedded in the mantle.

4. Head bears large eyes and mouth.

5. Trunk consists of symmetrical and uncoiled visceral mass.

6. Mantle encloses posteriorly and ventrally a large mantle cavity.

7. Foot altered into a series of sucker bearing arms or tentacles encircling the mouth.

8. Mouth bears jaws and radula.

9. Two or four pairs of bipectinate gills.

10. Circulatory system closed, heart with two or four auricles.

11. Excretory system comprises two or four pairs of nephridia.

12. Nervous system is highly developed and the principal ganglia are concentrated around the oesophagus.

13. Sexes are separate.

14. Development meroblastic without meta­morphosis.

Representative molluscs of class scaphopoda and pelecypoda

Subclass I. Belemnoidea or Dibranchiata:

1. Shell usually internal and reduced, enveloped by the mantle, when external its cavity is not divided by septa.

2. Main part of the foot is modified into 8 or 10 sucker bearing arms encircling the mouth.

3. Funnel forms a complete tube.

4. Two ctenidia or gills, two kidneys, two auricles and two branchial hearts present.

5. Ink gland duct and chromatophores are present.

6. Eyes are complex in structure.

Order 1. Decapoda:

1. Body is generally elongated often with lateral fins.

2. Arms are 10 of which 8 short and 2 long. Two longer arms or tentacles are retractile bearing suckers at their distal ends. Eight smaller arms bear stalked suckers provided with horny rims.

3. Shell is internal and well developed.

4. Nidamental glands are usually present.

5. Heart enclosed in the well developed coelom.

Examples:

Sepia, Loligo, Spirula.

Order 2. Octopoda:

1. Body usually globose and devoid of lateral fins.

2. Eight arms with sessile suckers and devoid of horny rims.

3. Shell is absent except in female Argonauta.

4. Nidamental glands absent.

5. Heart does not lie in the reduced coelom.

Examples:

Octopus, Agronauta.

Subclass II. Nautiloidea or Tetrabranchiata:

1. Shell is external, spiral and chambered.

2. Main part of the foot encircling the mouth, divided into lobes bearing numerous tentacles.

3. Funnel does not form a complete tube.

4. Four ctenidia or gills, four kidneys and four auricles are present.

5. Ink gland and chromatophores are absent.

6. Eyes are simple.

Example:

Nautilus.

Subclass III. Ammonoidea:

1. Shell of various forms straight to spiral.

2. Siphon external and marginal siphuncle.

3. Usually with frilled septal edges.

4. Extinct forms.

Example:

Ammonites.

Nautilus and Chiton

Economic Importance of Molluscs:

Some Mollusca are indirectly harmful to man but most of them are beneficial. The harmful molluscs are slugs and shipworms. Slugs are injurious in gardens and cultivations, they not only eat the leaves but also destroy plants by cutting up their roots and stems.

Teredo, the shipworm burrows into wooden structures immersed in the sea, it causes serious damage to wharves, piers and ships. But molluscs are a great source of human food in various parts of world, millions of maunds of clams, oysters, scallops and mussels are eaten in China, Japan, Malaya, Europe and America, oysters being regarded as a delicacy.

Other bivalves, octopuses and cuttlefishes furnish large quantities of food in Europe. Shells of freshwater mussels are used in the pearl button industry in all parts of the world, they are made from the nacreous layer of shells, no other material stands laundering as these buttons.

Shells of oysters are mixed with tar for making roads in America and lime from these shells is used in feeding poultry for formation of their egg shells. Lime is also used in buildings.

In many parts of the world molluscan shells are used for making ornaments and jewellery, in some parts shells of Cypraea (cowrie) are used as money and as ornaments.

Many freshwater clams and marine oysters produce pearls, but the most valuable natural pearls are produced by pearl oysters Pinctada margaritifera and Pinctada mertensi which inhabit the warmer parts of Indian and Pacific Oceans along the coasts of China, India, Sri Lanka and Japan. A pearl is made when a small foreign object, such as a particle of sand or a parasite, lodges between the shell and the mantle.

The foreign object becomes a nucleus around which concentric layers of nacreous are laid by the mantle, in this manner a pearl is formed. But pearls are also produced by most pelecypods including freshwater clams.

In Japan pearl culture is practiced by artificially introducing a small solid or liquid irritant below the mantle of the oyster, the resultant one year old pearl is then transplanted to another oyster, a pearl of good size is obtained in three years after transplanting.