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Brachiopods

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Shah Naseer

Brachiopods are marine invertebrates with hard shells known as valves. They are divided into two classes - Articulata and Inarticulata. Articulata have valves that are hinged and can open, while Inarticulata valves are cemented together and cannot open. Brachiopods live with their lophophore protruding between the valves to filter feed on plankton. Their shells have distinct features like teeth and sockets that interlock the valves together. Brachiopods were most common in the Paleozoic era and remain important index fossils for determining paleoenvironments.

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 Phylum:Phylum: BrachiopodaBrachiopoda  Classes:Classes:ArticulataArticulata  InarticulataInarticulata     Orders:Orders: 7 Articulate 7 Articulate   4 Inarticulate4 Inarticulate
 Copy diagram on pageCopy diagram on page 125 a) and b) Black125 a) and b) Black to show  to show  a typical articulate a typical articulate  brachiopod.brachiopod.  They have 2 They have 2 VALVESVALVES   (shells) that totally enclose (shells) that totally enclose  the soft parts.the soft parts.  The average size is 20 - 70 The average size is 20 - 70  mm but can range up to 370 mm but can range up to 370  mm.mm.  The valves can open and are The valves can open and are  hinged at one end; muscles hinged at one end; muscles  open and close the shell.open and close the shell.
Morphology 2Morphology 2  They usually allow water into They usually allow water into  the shell, as they are filter the shell, as they are filter  feeders extracting food from feeders extracting food from  seawater.seawater.  The two valves are different The two valves are different  in size (as opposed to in size (as opposed to  bivalves).bivalves).  However; they do show a However; they do show a  line of lateral symmetryline of lateral symmetry   along the middle of the along the middle of the  animalanimal. . Highlight this onHighlight this on your diagramyour diagram..
Morphology 3:Morphology 3:Naming of the valvesNaming of the valves  The smaller valve is the The smaller valve is the  BRACHIALBRACHIAL valve (upper in valve (upper in  life position).life position).  The larger valve is the The larger valve is the  PEDICLEPEDICLE valve (lower in life valve (lower in life  position).position).  The animal secretes the The animal secretes the  valves as it grows, the valves as it grows, the  original small shell is called original small shell is called  thethe UMBOUMBO and the shell  and the shell  grows outwards from either grows outwards from either  side of this point. side of this point. Make sureMake sure that you can see the umbothat you can see the umbo on a hand specimen.on a hand specimen.
Morphology 4:Morphology 4:  Often the pedicle valve has aOften the pedicle valve has a small circular openingsmall circular opening ((FORAMENFORAMEN) at the end) at the end through which a type of footthrough which a type of foot extends called theextends called the PEDICLEPEDICLE.. Make sure thatMake sure that you can see the foramen inyou can see the foramen in a hand specimen.a hand specimen.  The pedicle allows theThe pedicle allows the brachiopod to attach itself tobrachiopod to attach itself to the sea floor.the sea floor.  Inside the shell the body fillsInside the shell the body fills much of the body cavity.much of the body cavity.
Morphology 5:Morphology 5:  Some shells like rhynchonellidsSome shells like rhynchonellids have ahave a wrinkly COMMISUREwrinkly COMMISURE withwith FOLDSFOLDS (one on either(one on either side of the sulcus)side of the sulcus) and aand a SULCUS (in the middle)SULCUS (in the middle)..  Draw a rhynchonellid showingDraw a rhynchonellid showing the fold and sulcus and thethe fold and sulcus and the inhalentinhalent andand exhalentexhalent currents.currents.  Folds have inhalent and sulcusFolds have inhalent and sulcus has the exhalent.has the exhalent.  The currents are thereforeThe currents are therefore separated.separated.  The crenulated commissureThe crenulated commissure also provides a greater surfacealso provides a greater surface area.area.
 The inside of the shell is theThe inside of the shell is the MANTLE CAVITYMANTLE CAVITY and is mainlyand is mainly thethe LOPHOPHORE, whichLOPHOPHORE, which is ais a food gathering and water-food gathering and water- filtering device.filtering device.  Draw diagram (d) fromDraw diagram (d) from page 125 Black.page 125 Black. The important muscles are:The important muscles are:  At the posterior end is theAt the posterior end is the pedicle “foot” type ofpedicle “foot” type of ligament/muscle which whenligament/muscle which when extended could usually reachextended could usually reach outside of the shell.outside of the shell.  The main muscles were theThe main muscles were the ADDUCTOR and DIDUCTORADDUCTOR and DIDUCTOR muscles, which were used tomuscles, which were used to close the shell.close the shell.
Internal morphology 2:Internal morphology 2:  Draw diagrams from pageDraw diagrams from page 125 Black:125 Black:  c)c) for muscle position.for muscle position.  e) and f)e) and f) showing internal viewsshowing internal views of shells with muscle scars.of shells with muscle scars.  Both sets of muscles wereBoth sets of muscles were attached to the shell andattached to the shell and although not preserved in thealthough not preserved in the fossils there are scars left fromfossils there are scars left from where the muscles werewhere the muscles were attached to the shell.attached to the shell.  TheThe CARDINAL PROCESSCARDINAL PROCESS andand HINGEHINGE acts as a fulcrum onacts as a fulcrum on which the muscles can pull.which the muscles can pull.  The diductor muscles contractThe diductor muscles contract and pull down the cardinaland pull down the cardinal process and open the shell.process and open the shell.
Internal Morphology 3:Internal Morphology 3:  As the diductor musclesAs the diductor muscles relax the adductor musclesrelax the adductor muscles contract and close the shell.contract and close the shell.  Role of theRole of the lophophorelophophore is tois to act as a feeding device,act as a feeding device, which collects suspendedwhich collects suspended particles.particles.  Some brachiopods likeSome brachiopods like spiriferids have a spiralspiriferids have a spiral calcite support called acalcite support called a lophophore support orlophophore support or spiralia.spiralia.  Draw diagram d on pageDraw diagram d on page 137.137.
Internal morphology 4:Internal morphology 4:  On the diagram you can seeOn the diagram you can see that the brachiopod hasthat the brachiopod has TEETHTEETH (pedicle valve) and(pedicle valve) and SOCKETSSOCKETS (brachial valve).(brachial valve).  What do you think the role ofWhat do you think the role of these are?these are?
Articulate Brachiopod Orders:Articulate Brachiopod Orders:  There are 7 orders.There are 7 orders. (including Productids).(including Productids).  For each draw a simpleFor each draw a simple diagram.diagram.  Make a note of the typeMake a note of the type of hinge line:of hinge line:  Long orLong or  ShortShort
 They tended to live inThey tended to live in shallow marine conditionsshallow marine conditions (up to 500 m but may go(up to 500 m but may go down to 6, 000m).down to 6, 000m).  Modern forms live in cool -Modern forms live in cool - temperate waters around thetemperate waters around the Pacific (Japan, S. Australia,Pacific (Japan, S. Australia, New Zealand, N. AtlanticNew Zealand, N. Atlantic and W. Scotland).and W. Scotland).  As there are modern dayAs there are modern day equivalents we know theirequivalents we know their environments and so theyenvironments and so they are good palaeoenvironmentare good palaeoenvironment indicators (indicators (index fossilsindex fossils).).
Index fossils etc.Index fossils etc.  Define an index fossil:Define an index fossil:  A fossil that is restricted to aA fossil that is restricted to a particularparticular palaeoenvironment.palaeoenvironment.  Corals mare perhaps theCorals mare perhaps the best index fossils.best index fossils.  The most commonThe most common question regardingquestion regarding Brachiopods is how to tellBrachiopods is how to tell the difference betweenthe difference between them and Bivalves.them and Bivalves.  We will cover this next whenWe will cover this next when we look at Bivalves.we look at Bivalves.
 Brachiopods are a long-livedBrachiopods are a long-lived Phylum ranging from thePhylum ranging from the Cambrian to Present.Cambrian to Present.  They were very common inThey were very common in the Palaeozoic and slightlythe Palaeozoic and slightly less so in the Mesozoic butless so in the Mesozoic but still remain important.still remain important.  In the Present not manyIn the Present not many forms are left withforms are left with approximately 70 Genera.approximately 70 Genera.  Over 2500 fossil Genera areOver 2500 fossil Genera are known.known.  The largest were found inThe largest were found in the Cambrian (370 mm).the Cambrian (370 mm).
Brachiopods
Brachiopods

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Brachiopods

  • 1.  Phylum:Phylum: BrachiopodaBrachiopoda  Classes:Classes:ArticulataArticulata  InarticulataInarticulata     Orders:Orders: 7 Articulate 7 Articulate   4 Inarticulate4 Inarticulate
  • 2.  Copy diagram on pageCopy diagram on page 125 a) and b) Black125 a) and b) Black to show  to show  a typical articulate a typical articulate  brachiopod.brachiopod.  They have 2 They have 2 VALVESVALVES   (shells) that totally enclose (shells) that totally enclose  the soft parts.the soft parts.  The average size is 20 - 70 The average size is 20 - 70  mm but can range up to 370 mm but can range up to 370  mm.mm.  The valves can open and are The valves can open and are  hinged at one end; muscles hinged at one end; muscles  open and close the shell.open and close the shell.
  • 3. Morphology 2Morphology 2  They usually allow water into They usually allow water into  the shell, as they are filter the shell, as they are filter  feeders extracting food from feeders extracting food from  seawater.seawater.  The two valves are different The two valves are different  in size (as opposed to in size (as opposed to  bivalves).bivalves).  However; they do show a However; they do show a  line of lateral symmetryline of lateral symmetry   along the middle of the along the middle of the  animalanimal. . Highlight this onHighlight this on your diagramyour diagram..
  • 4. Morphology 3:Morphology 3:Naming of the valvesNaming of the valves  The smaller valve is the The smaller valve is the  BRACHIALBRACHIAL valve (upper in valve (upper in  life position).life position).  The larger valve is the The larger valve is the  PEDICLEPEDICLE valve (lower in life valve (lower in life  position).position).  The animal secretes the The animal secretes the  valves as it grows, the valves as it grows, the  original small shell is called original small shell is called  thethe UMBOUMBO and the shell  and the shell  grows outwards from either grows outwards from either  side of this point. side of this point. Make sureMake sure that you can see the umbothat you can see the umbo on a hand specimen.on a hand specimen.
  • 5. Morphology 4:Morphology 4:  Often the pedicle valve has aOften the pedicle valve has a small circular openingsmall circular opening ((FORAMENFORAMEN) at the end) at the end through which a type of footthrough which a type of foot extends called theextends called the PEDICLEPEDICLE.. Make sure thatMake sure that you can see the foramen inyou can see the foramen in a hand specimen.a hand specimen.  The pedicle allows theThe pedicle allows the brachiopod to attach itself tobrachiopod to attach itself to the sea floor.the sea floor.  Inside the shell the body fillsInside the shell the body fills much of the body cavity.much of the body cavity.
  • 6. Morphology 5:Morphology 5:  Some shells like rhynchonellidsSome shells like rhynchonellids have ahave a wrinkly COMMISUREwrinkly COMMISURE withwith FOLDSFOLDS (one on either(one on either side of the sulcus)side of the sulcus) and aand a SULCUS (in the middle)SULCUS (in the middle)..  Draw a rhynchonellid showingDraw a rhynchonellid showing the fold and sulcus and thethe fold and sulcus and the inhalentinhalent andand exhalentexhalent currents.currents.  Folds have inhalent and sulcusFolds have inhalent and sulcus has the exhalent.has the exhalent.  The currents are thereforeThe currents are therefore separated.separated.  The crenulated commissureThe crenulated commissure also provides a greater surfacealso provides a greater surface area.area.
  • 7.  The inside of the shell is theThe inside of the shell is the MANTLE CAVITYMANTLE CAVITY and is mainlyand is mainly thethe LOPHOPHORE, whichLOPHOPHORE, which is ais a food gathering and water-food gathering and water- filtering device.filtering device.  Draw diagram (d) fromDraw diagram (d) from page 125 Black.page 125 Black. The important muscles are:The important muscles are:  At the posterior end is theAt the posterior end is the pedicle “foot” type ofpedicle “foot” type of ligament/muscle which whenligament/muscle which when extended could usually reachextended could usually reach outside of the shell.outside of the shell.  The main muscles were theThe main muscles were the ADDUCTOR and DIDUCTORADDUCTOR and DIDUCTOR muscles, which were used tomuscles, which were used to close the shell.close the shell.
  • 8. Internal morphology 2:Internal morphology 2:  Draw diagrams from pageDraw diagrams from page 125 Black:125 Black:  c)c) for muscle position.for muscle position.  e) and f)e) and f) showing internal viewsshowing internal views of shells with muscle scars.of shells with muscle scars.  Both sets of muscles wereBoth sets of muscles were attached to the shell andattached to the shell and although not preserved in thealthough not preserved in the fossils there are scars left fromfossils there are scars left from where the muscles werewhere the muscles were attached to the shell.attached to the shell.  TheThe CARDINAL PROCESSCARDINAL PROCESS andand HINGEHINGE acts as a fulcrum onacts as a fulcrum on which the muscles can pull.which the muscles can pull.  The diductor muscles contractThe diductor muscles contract and pull down the cardinaland pull down the cardinal process and open the shell.process and open the shell.
  • 9. Internal Morphology 3:Internal Morphology 3:  As the diductor musclesAs the diductor muscles relax the adductor musclesrelax the adductor muscles contract and close the shell.contract and close the shell.  Role of theRole of the lophophorelophophore is tois to act as a feeding device,act as a feeding device, which collects suspendedwhich collects suspended particles.particles.  Some brachiopods likeSome brachiopods like spiriferids have a spiralspiriferids have a spiral calcite support called acalcite support called a lophophore support orlophophore support or spiralia.spiralia.  Draw diagram d on pageDraw diagram d on page 137.137.
  • 10. Internal morphology 4:Internal morphology 4:  On the diagram you can seeOn the diagram you can see that the brachiopod hasthat the brachiopod has TEETHTEETH (pedicle valve) and(pedicle valve) and SOCKETSSOCKETS (brachial valve).(brachial valve).  What do you think the role ofWhat do you think the role of these are?these are?
  • 11. Articulate Brachiopod Orders:Articulate Brachiopod Orders:  There are 7 orders.There are 7 orders. (including Productids).(including Productids).  For each draw a simpleFor each draw a simple diagram.diagram.  Make a note of the typeMake a note of the type of hinge line:of hinge line:  Long orLong or  ShortShort
  • 12.  They tended to live inThey tended to live in shallow marine conditionsshallow marine conditions (up to 500 m but may go(up to 500 m but may go down to 6, 000m).down to 6, 000m).  Modern forms live in cool -Modern forms live in cool - temperate waters around thetemperate waters around the Pacific (Japan, S. Australia,Pacific (Japan, S. Australia, New Zealand, N. AtlanticNew Zealand, N. Atlantic and W. Scotland).and W. Scotland).  As there are modern dayAs there are modern day equivalents we know theirequivalents we know their environments and so theyenvironments and so they are good palaeoenvironmentare good palaeoenvironment indicators (indicators (index fossilsindex fossils).).
  • 13. Index fossils etc.Index fossils etc.  Define an index fossil:Define an index fossil:  A fossil that is restricted to aA fossil that is restricted to a particularparticular palaeoenvironment.palaeoenvironment.  Corals mare perhaps theCorals mare perhaps the best index fossils.best index fossils.  The most commonThe most common question regardingquestion regarding Brachiopods is how to tellBrachiopods is how to tell the difference betweenthe difference between them and Bivalves.them and Bivalves.  We will cover this next whenWe will cover this next when we look at Bivalves.we look at Bivalves.
  • 14.  Brachiopods are a long-livedBrachiopods are a long-lived Phylum ranging from thePhylum ranging from the Cambrian to Present.Cambrian to Present.  They were very common inThey were very common in the Palaeozoic and slightlythe Palaeozoic and slightly less so in the Mesozoic butless so in the Mesozoic but still remain important.still remain important.  In the Present not manyIn the Present not many forms are left withforms are left with approximately 70 Genera.approximately 70 Genera.  Over 2500 fossil Genera areOver 2500 fossil Genera are known.known.  The largest were found inThe largest were found in the Cambrian (370 mm).the Cambrian (370 mm).