Nereis Type Study for BSc 1st semester.ppt
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About This Presentation
Nereis Type Study for BSc 1st semester students
Slide Content
PHYLUMANNELIDA
(Metamerically segmented and coelomate animals)
(Metamerically segmented and coelomate animals)
Annelids
Soft bodied, triploblastic,
bilaterally symmetrical
and true coelomates
Divided into the
segments called as annuli
Excretion is performed by
nephridia
Soft bodied, triploblastic,
bilaterally symmetrical
and true coelomates
Divided into the
segments called as annuli
Excretion is performed by
nephridia
Nervous system well developed and has brain
Class –Polychaeta: (animals
with many setae)
Setae are many form
lateral parapodia
Head is distinct with
sensory organs like
eyes, tentacles, palps
etc
Free swimming larval
stage is found called
as trochophore
example -Nereis
with many setae)
Setae are many form
lateral parapodia
Head is distinct with
sensory organs like
eyes, tentacles, palps
etc
Free swimming larval
stage is found called
as trochophore
example -Nereis
Parapodia
Heteronereis
Heteronereis
Tube dwelling polychaetes
Arenicola Sabella
Arenicola Sabella
Class–Oligochaeta: (
animals with few setae)
Setae few and are
arranged segmentally
Distinct head eyes and
tentacles are absent
Clitellum is usually
present
example -Pheretima
(earthworm)
animals with few setae)
Setae few and are
arranged segmentally
Distinct head eyes and
tentacles are absent
Clitellum is usually
present
example -Pheretima
(earthworm)
Class–Hirudinea: (Class of leeches)
Ectoparasiticand
freshwaterforms
Secrete an enzyme in
its gut called as
hirudin
33 segments
Oral sucker. Posterior
sucker
Anusis present in 22
nd
segment on dorsal
side.
Ectoparasiticand
freshwaterforms
Secrete an enzyme in
its gut called as
hirudin
33 segments
Oral sucker. Posterior
sucker
Anusis present in 22
nd
segment on dorsal
side.
Leech bite
Nereis (Clamworm or sand worm)
Systematic position
Phylum: Annelida
Class: Polychaeta
Subclass: Errantia
Systematic position
Phylum: Annelida
Class: Polychaeta
Subclass: Errantia
Habits and Habitat
Nereis: marine polychaetes, usually found on sandy shore
between tidemarks.
Lives in burrows which it forms with the help of jaws.
Burrow is U shaped (upto 60cm) coated with mucous secreted
from body, which binds together fine particles of sand.
During breeding season worm lreaves its burrow permanently
and swims about actively in water (Heteronereis).
Length varies from few to about 40 cm.
N. pelagicais brownish,N. cultriferais greenish, N. virensis steel
blue
Nereis: marine polychaetes, usually found on sandy shore
between tidemarks.
Lives in burrows which it forms with the help of jaws.
Burrow is U shaped (upto 60cm) coated with mucous secreted
from body, which binds together fine particles of sand.
During breeding season worm lreaves its burrow permanently
and swims about actively in water (Heteronereis).
Length varies from few to about 40 cm.
N. pelagicais brownish,N. cultriferais greenish, N. virensis steel
blue
Body divisions:
Metamerically segmented and number is fairly constant for a
species: about 80 in N. cultrifera& N. dumerilliand about 200
in N. virens.
3 distinct region body regions: Head, trunk and abdomen
Metamerically segmented and number is fairly constant for a
species: about 80 in N. cultrifera& N. dumerilliand about 200
in N. virens.
3 distinct region body regions: Head, trunk and abdomen
Class Polychaeta
•Complex head structures
–Eyes
–Tentacles
–Jaws
–Filtering devices
•Parapodia –leg-like appendages at each
segment
•Setae –chitinous fibers
•Complex head structures
–Eyes
–Tentacles
–Jaws
–Filtering devices
•Parapodia –leg-like appendages at each
segment
•Setae –chitinous fibers
Body Plan –Key Features
•Segmented (metamers)
•Septa separate coelem at each segment
•Longitudinal and circular muscles
•Peristaltic movement
•Closed circulatory system
•Cerebral ganglia with two nerve cords
•Advanced nephridia
•Segmented (metamers)
•Septa separate coelem at each segment
•Longitudinal and circular muscles
•Peristaltic movement
•Closed circulatory system
•Cerebral ganglia with two nerve cords
•Advanced nephridia
Free Swimming Predator
Nereis virens
•Parapodia used to swim and burrow
•Chitinous jaws to capture prey
•Eye spots and small tentacle
•Gas exchange at parapodia
Nereis virens
•Parapodia used to swim and burrow
•Chitinous jaws to capture prey
•Eye spots and small tentacle
•Gas exchange at parapodia
Parapodia:Flattened, fleshy,
vertical flap like outgrowth
of body wall on lateral sides
of trunk segments.
Biramous: Dorsal
notopodium & Ventral
neuropodium
Ramus divided ito 2 leaf like
lobes or ligulae (dorsal
superior & ventral inferior
ligula
Each part bears tentacular
process known as cirrus;
dorsal cirrus larger than
ventral
Aciculum:Parapodia supported
internally by a long, stout and black
chitinous rod
Setae/Chaetae:Each part also bears a bundle of long, fine, stiff
chitinous bristles
vertical flap like outgrowth
of body wall on lateral sides
of trunk segments.
Biramous: Dorsal
notopodium & Ventral
neuropodium
Ramus divided ito 2 leaf like
lobes or ligulae (dorsal
superior & ventral inferior
ligula
Each part bears tentacular
process known as cirrus;
dorsal cirrus larger than
ventral
Aciculum:Parapodia supported
internally by a long, stout and black
chitinous rod
Setae/Chaetae:Each part also bears a bundle of long, fine, stiff
chitinous bristles
Body Plan
Tentacle Feeder
•Burrow in sand or mud
•Tentacles
–Covered with mucous and cilia
–Retracted to collect food or for protection
•Gills present for gas exchange
•Burrow in sand or mud
•Tentacles
–Covered with mucous and cilia
–Retracted to collect food or for protection
•Gills present for gas exchange
Nereis virensHead
Peristomium: 1
st
segment of body, surrounds slit like mouth,
lacks parapodia, 2 pairs of peristomial cirri on each side.
Dorsolateral pair longer than the ventro-lateral pair.
Prostomium: Anterior projection of prostomium, fleshy lobe
lying above and in front of mouth, 2pairs of pigmented eyes,
sensory prostomial tentacles & 2 jointed palps.
Peristomium: 1
st
segment of body, surrounds slit like mouth,
lacks parapodia, 2 pairs of peristomial cirri on each side.
Dorsolateral pair longer than the ventro-lateral pair.
Prostomium: Anterior projection of prostomium, fleshy lobe
lying above and in front of mouth, 2pairs of pigmented eyes,
sensory prostomial tentacles & 2 jointed palps.
Nereis virensCross Section
Alimentary canal: Straight tube ext. from ant. to post
suspened in the body cavity by dorsal mesentery & inter-
segmental septa. Opening at ant. End mouth, post end anus.
Foregut:comprises buccal cavity and pharynx
Midgut:Oesophagus and stomach intestine
Hindgut:Rectum occupies the last body segment
(pygidium), opens to the exterior through a terminal anus
Mouth:transverseelongatedslitopeningventrallybelow
prostomium,borderedbyperistomiumleadingtobuccalcavity
Buccalcavity:widechambersucceededbythehighlymuscular
pharynx.
Denticles:Cuticleliningtheirlumenisthickenedatplacestoform
denticlesorteethorparagnaths
Chitinousjaw:embeddedlaterallyinthewallofpharynxisa
stout,mobile,incurved,pointed,notchedatapexwithinner
marginsserrated
Oesophagus: Narrow tube extending 5 segments behind pharynx
Oesophageal gland:long, unbranched, sacculated glandular
pouches. Secretes proteolytic enzymes.
Stomach intestine: segmentally constricted, straight, thin walled tube. Epithelial lining contains scattered
gland cells, secrete digestive enzymes.
Digestive System
suspened in the body cavity by dorsal mesentery & inter-
segmental septa. Opening at ant. End mouth, post end anus.
Foregut:comprises buccal cavity and pharynx
Midgut:Oesophagus and stomach intestine
Hindgut:Rectum occupies the last body segment
(pygidium), opens to the exterior through a terminal anus
Mouth:transverseelongatedslitopeningventrallybelow
prostomium,borderedbyperistomiumleadingtobuccalcavity
Buccalcavity:widechambersucceededbythehighlymuscular
pharynx.
Denticles:Cuticleliningtheirlumenisthickenedatplacestoform
denticlesorteethorparagnaths
Chitinousjaw:embeddedlaterallyinthewallofpharynxisa
stout,mobile,incurved,pointed,notchedatapexwithinner
marginsserrated
Oesophagus: Narrow tube extending 5 segments behind pharynx
Oesophageal gland:long, unbranched, sacculated glandular
pouches. Secretes proteolytic enzymes.
Stomach intestine: segmentally constricted, straight, thin walled tube. Epithelial lining contains scattered
gland cells, secrete digestive enzymes.
Digestive System
Buccal cavity and pharynx are wrapped in a common muscular
coat and together they extend upto 4
th
or 5
th
trunk segment.
They can be fully everted to form a proboscis or introvert.
This operation exposes the tip of the jaw for capturing prey.
coat and together they extend upto 4
th
or 5
th
trunk segment.
They can be fully everted to form a proboscis or introvert.
This operation exposes the tip of the jaw for capturing prey.
Food & feeding mechanism
Nereis:carnivorous, raptorial feeder, preys upon small crustaceans, worms, larvae,
actively captured by the exposed jaws of proboscis.
Eversion of proboscisis brought about by protractor muscles, extending below the
wall of peristomium and that of buccal cavity & pharynx.
Retraction of pharynxis brought about by retractor musclesextending backwards
from posterior end of the pharynx to body wall & relaxation of body wall
musculature.
Nereis:carnivorous, raptorial feeder, preys upon small crustaceans, worms, larvae,
actively captured by the exposed jaws of proboscis.
Eversion of proboscisis brought about by protractor muscles, extending below the
wall of peristomium and that of buccal cavity & pharynx.
Retraction of pharynxis brought about by retractor musclesextending backwards
from posterior end of the pharynx to body wall & relaxation of body wall
musculature.
Filter feeding:
Nereis diversicolorsecretes mucousat one end of its burrow.
By dorso-ventral undulations of its bodysets up a constant
current of water entering through the burrow through that end
and leaving through the other.
Mucous cone behave like a strainer, holding the food particles.
Food laden mucous coneis finally ingested by the worm.
Nereis diversicolorsecretes mucousat one end of its burrow.
By dorso-ventral undulations of its bodysets up a constant
current of water entering through the burrow through that end
and leaving through the other.
Mucous cone behave like a strainer, holding the food particles.
Food laden mucous coneis finally ingested by the worm.
Digestion, absorption and egestion
Engulfed food passes backwards through midgut by peristaltic actionof gut
wall
Oesophageal glands and gland cells of mid-gut epitheliumsecrete juices
containing digestive enzymeslike:
Amylases:catalyzes the hydrolysis of starch into sugar
Lipases:catalyzes the breakdown or hydrolysis of fats (lipids)
Proteases:catalyzes the hydrolysis of the peptide bonds
Digestion and absorption takes place mainly in the stomach intestine.
Indigested food substances pass into rectum and are finally egested through
anus as faecal matter.
Engulfed food passes backwards through midgut by peristaltic actionof gut
wall
Oesophageal glands and gland cells of mid-gut epitheliumsecrete juices
containing digestive enzymeslike:
Amylases:catalyzes the hydrolysis of starch into sugar
Lipases:catalyzes the breakdown or hydrolysis of fats (lipids)
Proteases:catalyzes the hydrolysis of the peptide bonds
Digestion and absorption takes place mainly in the stomach intestine.
Indigested food substances pass into rectum and are finally egested through
anus as faecal matter.
Respiration:
Gills or any other special organs are absent
Respiration is carried out by whole body surface but more
specifically by the thin, flattened lobes of parapodia, which
possess extensive capillary networks, lying very close to the
surface.
Gills or any other special organs are absent
Respiration is carried out by whole body surface but more
specifically by the thin, flattened lobes of parapodia, which
possess extensive capillary networks, lying very close to the
surface.
Blood circulates throughout the body through
a system of closed tubes or blood vessels.
Blood:Fluid filled plasma containing
nucleated, colourless amoeboid cellsor
corpuscles and dissolved haemoglobin, which
serves as the respiratory pigment.
Brings about transportation of gases, food,
excretory materials.
Blood vessels:Three main longitudinal blood
vessels: dorsal, ventral and a peri-neural
Dorsal vessel:runs above the alimentary canal, through dorsal mesentery, from hind
end forward to 5
th
segment.
Strong peristaltic waves pass from its posterior to anterior end, driving blood anteriorly.
Behind oesophagus, it acts as a collecting vesselreceiving blood from body wall,
parapodia,nephridiaand alimentary canal.
Ventral vessel:Mid ventrally below the alimentary canal, entire length of body.
Blood flows from anterior to posterior end.
Peri-neural vessel:It runs ventrally surrounding the nerve cord, collects blood from the
ventral body wall and conveys to the ventral vessel.
a system of closed tubes or blood vessels.
Blood:Fluid filled plasma containing
nucleated, colourless amoeboid cellsor
corpuscles and dissolved haemoglobin, which
serves as the respiratory pigment.
Brings about transportation of gases, food,
excretory materials.
Blood vessels:Three main longitudinal blood
vessels: dorsal, ventral and a peri-neural
Dorsal vessel:runs above the alimentary canal, through dorsal mesentery, from hind
end forward to 5
th
segment.
Strong peristaltic waves pass from its posterior to anterior end, driving blood anteriorly.
Behind oesophagus, it acts as a collecting vesselreceiving blood from body wall,
parapodia,nephridiaand alimentary canal.
Ventral vessel:Mid ventrally below the alimentary canal, entire length of body.
Blood flows from anterior to posterior end.
Peri-neural vessel:It runs ventrally surrounding the nerve cord, collects blood from the
ventral body wall and conveys to the ventral vessel.
Excretory systemExcretion is brought about by nephridia, one pair of which is
found in each segment except a few anterior or posterior
ones.
Shape: oval, curved body and a narrow neck.
Body: synctial mass of connective tisuue, containing a coiled
excretory or nephridial tubule open at both ends.
One end of tubule runs through neck and opens into coelom of
adjacent anterior segment by a funnel like nephrostome.
Coilednephridialtubuleopenstotheexteriorthrough
nephridiopore,situatednearthebaseofventralcirrusofparapodia.
Outer surface of nephridium:Densely covered by blood capillaries
Gland cells of the ciliated excretory tubuleremove waste from
blood and finally discharges through nephridiopore.
Nitrogenous waste is mainly ammonia (ammonotelic).
Ciliated Nephrostome also removes dead or dying coelomic corpuscleswhich have been
eaten up or have been destroyed by foreign bodies such as bacteria.
Selective resorption:Useful substance entering excretory tubule is reabsorbed and returned to
blood capillaries
found in each segment except a few anterior or posterior
ones.
Shape: oval, curved body and a narrow neck.
Body: synctial mass of connective tisuue, containing a coiled
excretory or nephridial tubule open at both ends.
One end of tubule runs through neck and opens into coelom of
adjacent anterior segment by a funnel like nephrostome.
Coilednephridialtubuleopenstotheexteriorthrough
nephridiopore,situatednearthebaseofventralcirrusofparapodia.
Outer surface of nephridium:Densely covered by blood capillaries
Gland cells of the ciliated excretory tubuleremove waste from
blood and finally discharges through nephridiopore.
Nitrogenous waste is mainly ammonia (ammonotelic).
Ciliated Nephrostome also removes dead or dying coelomic corpuscleswhich have been
eaten up or have been destroyed by foreign bodies such as bacteria.
Selective resorption:Useful substance entering excretory tubule is reabsorbed and returned to
blood capillaries
Nervous system
Welldevelopednervoussystem,bilaterally
symmetrical,metamericallysegmented&
distinguishedintocentral,peripheral&
visceralnervoussystem
Centralnervoussystem:Cerebralgangliaorbrain
isalargebilobedmasslocateddorsallyin
prostomium.
Sub-phararyngealganglion:formedbyfusionof
2pairsofgangliaofventralnervecordlyingbelow
thepharynxinfirsttrunksegment.
Brainisconnectedwithsub-pharyngeal
ganglionbyapairofstoutnervestrandsorcircum-
pharyngealconnectives,runningoneoneitherside
ofpharynx,forminganervering.
Ventralnervecord:runsposteriorlyfromsub-
pharyngealganglionthroughoutbodyalongthe
mid-ventralline,immediatelybeneaththeventral
bloodvessel.
Formedbyfusionoftwoclosecordsenclosedina
commonsheathofconnectivetissue. Ineach
segment,nervecordisdilatedintoasegmental
ganglion(pairofgangliafusedtogether)
Welldevelopednervoussystem,bilaterally
symmetrical,metamericallysegmented&
distinguishedintocentral,peripheral&
visceralnervoussystem
Centralnervoussystem:Cerebralgangliaorbrain
isalargebilobedmasslocateddorsallyin
prostomium.
Sub-phararyngealganglion:formedbyfusionof
2pairsofgangliaofventralnervecordlyingbelow
thepharynxinfirsttrunksegment.
Brainisconnectedwithsub-pharyngeal
ganglionbyapairofstoutnervestrandsorcircum-
pharyngealconnectives,runningoneoneitherside
ofpharynx,forminganervering.
Ventralnervecord:runsposteriorlyfromsub-
pharyngealganglionthroughoutbodyalongthe
mid-ventralline,immediatelybeneaththeventral
bloodvessel.
Formedbyfusionoftwoclosecordsenclosedina
commonsheathofconnectivetissue. Ineach
segment,nervecordisdilatedintoasegmental
ganglion(pairofgangliafusedtogether)
Nervous system Peripheralnervoussystem:consistofnerves
connectedtobrain,circumpharyngeal
connectives&segmentalganglia.
Brain:nervesto(1)prostomialpalps,(2)pair
ofnervetoeyes&prostomialtentacle(3)
nuchalorgan(ciliatedpit;light,food&mating)
Circumpharyngealconnectives:nerveto
ventral&dorsalperistomialcirri
Subpharyngealganglia:nervetobodywall&
parapodiaof3
rd
segment(1
st
trunksegment)
Segmentalganglia:Givesout4pairs.
I&IVpairsupplylongitudinalmuscles&
bodywall
IIpairparapodia&IIIproprio-receptorsin
muscles
Visceralnervoussystem:consistofnetworkof
somatogastricnervesandafewganglia
supplyingthedorsal&ventralwallsofpharynx
(proboscis)
connectedtobrain,circumpharyngeal
connectives&segmentalganglia.
Brain:nervesto(1)prostomialpalps,(2)pair
ofnervetoeyes&prostomialtentacle(3)
nuchalorgan(ciliatedpit;light,food&mating)
Circumpharyngealconnectives:nerveto
ventral&dorsalperistomialcirri
Subpharyngealganglia:nervetobodywall&
parapodiaof3
rd
segment(1
st
trunksegment)
Segmentalganglia:Givesout4pairs.
I&IVpairsupplylongitudinalmuscles&
bodywall
IIpairparapodia&IIIproprio-receptorsin
muscles
Visceralnervoussystem:consistofnetworkof
somatogastricnervesandafewganglia
supplyingthedorsal&ventralwallsofpharynx
(proboscis)
Reproductive system
Some are hermaphrodite; mostly dioecious
Gonads:Testes & Ovary are neither distinct nor permanent organs
Masses of developing gametes formed only during breeding seasonas projections
of swellings by proliferation of ventral septal peritoneumin all body segments
except a few anterior ones
Gametes are shed as spermatogonia in male& as oogonia in femaleinto
coelomic fluid, where they undergo maturation to develop into spermatozoa and
ova
In mature worms coelom remains packed with gametes
Gonoducts: there are no gonoducts
Ripe sperms & Ova are discharged to outside sea water mostly through
metanephridiaby the action of cilia borne by nephrostomes and nephridial
tubules. Goodrich proposed the name nephromixia or mixonephridia.
Dorsal ciliated organ occurs in each segment, may act as gonoducts but real
function remains controversial.
Some are hermaphrodite; mostly dioecious
Gonads:Testes & Ovary are neither distinct nor permanent organs
Masses of developing gametes formed only during breeding seasonas projections
of swellings by proliferation of ventral septal peritoneumin all body segments
except a few anterior ones
Gametes are shed as spermatogonia in male& as oogonia in femaleinto
coelomic fluid, where they undergo maturation to develop into spermatozoa and
ova
In mature worms coelom remains packed with gametes
Gonoducts: there are no gonoducts
Ripe sperms & Ova are discharged to outside sea water mostly through
metanephridiaby the action of cilia borne by nephrostomes and nephridial
tubules. Goodrich proposed the name nephromixia or mixonephridia.
Dorsal ciliated organ occurs in each segment, may act as gonoducts but real
function remains controversial.
Heteronereis
At sexual maturity,most of the posterior
segments, filled with gametes,exhibit
morphological and anatomical
differentiation.
Sexual region or epitoke of worm
Few anterior segments which do not take
part in gamete formation, constitute the
asexual region or atoke
Sexually mature worm with these two
regions is known as heteronereis
Epitoky:phenomenon of transformation
of nonsexual individual into sexual
individual
At sexual maturity,most of the posterior
segments, filled with gametes,exhibit
morphological and anatomical
differentiation.
Sexual region or epitoke of worm
Few anterior segments which do not take
part in gamete formation, constitute the
asexual region or atoke
Sexually mature worm with these two
regions is known as heteronereis
Epitoky:phenomenon of transformation
of nonsexual individual into sexual
individual
Swarming:Sexually mature individuals swim to the surface of sea water in
order to shed sperms and ova
Female produces a substance; fertilium,which attracts the males and
stimulates shedding of sperms, which in turn stimulates the shedding of eggs.
Fertilization is mostly externalin Nereis virensand takes place in sea water.
In Platynereis megalops, male wraps around female & inserts his anus into her
mouth and injects sperms.
Sperms pass directly into coelom of female where fertilization of egg occurs.
Fertilized eggs are shed from the posterior end of the females body.
Nereis diversicolordoes not attain epitokousform and fertilization takes
place in burrow of female or on the surface of mud.
order to shed sperms and ova
Female produces a substance; fertilium,which attracts the males and
stimulates shedding of sperms, which in turn stimulates the shedding of eggs.
Fertilization is mostly externalin Nereis virensand takes place in sea water.
In Platynereis megalops, male wraps around female & inserts his anus into her
mouth and injects sperms.
Sperms pass directly into coelom of female where fertilization of egg occurs.
Fertilized eggs are shed from the posterior end of the females body.
Nereis diversicolordoes not attain epitokousform and fertilization takes
place in burrow of female or on the surface of mud.
Characteristic features of heteronereis
•Instead of creeping about on sea buttom, heteroneris swims actively in
surface water
•Body divisible into atoke and epitoke
•Parapodia:posterior region becomes larger,develop flattened leaf
like outgrowth for more rapid respiration.Normal setae are replaced by
oar-shaped setae.
•Eyes are greatly enlarged and become conspicuous
•Prostomial palps become reduced but peristomial cirri becomes
longer
•Intenstine becomes compressed and functionless due to much
developed gonads
•Pygidium develops special sensory papillae
•Instead of creeping about on sea buttom, heteroneris swims actively in
surface water
•Body divisible into atoke and epitoke
•Parapodia:posterior region becomes larger,develop flattened leaf
like outgrowth for more rapid respiration.Normal setae are replaced by
oar-shaped setae.
•Eyes are greatly enlarged and become conspicuous
•Prostomial palps become reduced but peristomial cirri becomes
longer
•Intenstine becomes compressed and functionless due to much
developed gonads
•Pygidium develops special sensory papillae
The trochophore larva is about 0.1 mm in diameter,
ciliated, unsegmented and pear shaped pelagic creature
Prototroch-anequatorialbandofbeatingciliathatpropelsthetrochophorethroughthewater.
Metatroch-infeedingtrochophoresthisbandofciliabeatinadirectionoppositetothatof
theprototrochandbetweenthemtheydriveacurrentofwaterbearingfoodparticles(e.g.
bacteria)intothefoodgroovewhereciliaaroundthemouthdrivestheparticlesintothegut.
Theciliatedringhelpsinfeedingandlocomotion
Eyespot -typically 1-3 are present
Sensory apical organ or plate
bearing a tuft of cilia present.
Brain ganglion, are usually
evident beneath the apical
organ
Digestive tract complete.
Gut regionated into
oesophagus, stomach and
intestine.
Mouthlies ventrally beneath
the prototroch and anus near
the lower apex.
Protonephridia:excretory and osmoregulatory organs which
drive out excess water and waste products along with it.
ciliated, unsegmented and pear shaped pelagic creature
Prototroch-anequatorialbandofbeatingciliathatpropelsthetrochophorethroughthewater.
Metatroch-infeedingtrochophoresthisbandofciliabeatinadirectionoppositetothatof
theprototrochandbetweenthemtheydriveacurrentofwaterbearingfoodparticles(e.g.
bacteria)intothefoodgroovewhereciliaaroundthemouthdrivestheparticlesintothegut.
Theciliatedringhelpsinfeedingandlocomotion
Eyespot -typically 1-3 are present
Sensory apical organ or plate
bearing a tuft of cilia present.
Brain ganglion, are usually
evident beneath the apical
organ
Digestive tract complete.
Gut regionated into
oesophagus, stomach and
intestine.
Mouthlies ventrally beneath
the prototroch and anus near
the lower apex.
Protonephridia:excretory and osmoregulatory organs which
drive out excess water and waste products along with it.
Metamorphosis of trochophore larva
Trochophore is a pelagic creature drifting about in sea
Metamorphosis results in termination of planktonic existence.
This results in loss of many larval structures like protonephridia,
muscle band and ciliated girdles.
Cells of apical plate form the prostomium and brain
Larva gradually develops in length with the formation and
development of trunk segments, setal sacs and setae.
Mouth region fuses with the first trunk segment to form the
peristomium without setae.
Larva eventually sinks to the bottom to complete post larval
development and assume the habit of adults
Trochophore is a pelagic creature drifting about in sea
Metamorphosis results in termination of planktonic existence.
This results in loss of many larval structures like protonephridia,
muscle band and ciliated girdles.
Cells of apical plate form the prostomium and brain
Larva gradually develops in length with the formation and
development of trunk segments, setal sacs and setae.
Mouth region fuses with the first trunk segment to form the
peristomium without setae.
Larva eventually sinks to the bottom to complete post larval
development and assume the habit of adults
Significance of trochophore
Helps in dispersal of the species.
Phylogenetic significance: It appears in the development of
several phyla such as Annelida, Mollusca, Bryozoa, etc.
suggesting that all these groups of animals all descended from a
common hypothetical ancestor trocozoon (Trocophore theory)
Helps in dispersal of the species.
Phylogenetic significance: It appears in the development of
several phyla such as Annelida, Mollusca, Bryozoa, etc.
suggesting that all these groups of animals all descended from a
common hypothetical ancestor trocozoon (Trocophore theory)
Tentacle Feeder
(Amphitrite)
(Amphitrite)
Ciliary Feeder
•Burrow in sand or mud
•Epithelia secretes leathery tube
•Tentacles
–Covered with mucous and cilia
–Grooved for sorting different sized particles
–Can be retracted for protection
•Tentacles used for gas exchange
•Burrow in sand or mud
•Epithelia secretes leathery tube
•Tentacles
–Covered with mucous and cilia
–Grooved for sorting different sized particles
–Can be retracted for protection
•Tentacles used for gas exchange
Tube Feeder
•Epithelia often secretes parchment-like tube
•Parapodia “fans” or peristaltic motion
moves water through tube
•Mucous captures food
•Epithelia often secretes parchment-like tube
•Parapodia “fans” or peristaltic motion
moves water through tube
•Mucous captures food
Tube Feeder -Chaetopterus
Class Oligochaeta
•Examples
–Lumbricus terrestris (earthworm)
–Tubifex worms
•Examples
–Lumbricus terrestris (earthworm)
–Tubifex worms
Longitudinal Anatomy
Circulatory System
•Closed –capillary network for exchange
•Dorsal and ventral blood vessels
•Five aortic arches for pumping (heart)
•Contains amoeboid cells and dissolved
hemoglobin
•Coelomic fluid –also involved in
circulation
•Closed –capillary network for exchange
•Dorsal and ventral blood vessels
•Five aortic arches for pumping (heart)
•Contains amoeboid cells and dissolved
hemoglobin
•Coelomic fluid –also involved in
circulation
Cross Sectional Anatomy
Nephridia
•Found in each segment
•Nephrostome crosses into next segment
–Cilliated funnel to draw in fluid
•Water and nutrient reabsorbed
•Function similar to kidney
•Found in each segment
•Nephrostome crosses into next segment
–Cilliated funnel to draw in fluid
•Water and nutrient reabsorbed
•Function similar to kidney
Nephridia
Reproduction
•Hermaphroditic –exchange sperm
•Clitellum
–Attach during mating
–Secretes cocoon
•Hermaphroditic –exchange sperm
•Clitellum
–Attach during mating
–Secretes cocoon
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