bis2c: lecture 31: deuterosomes i: echinoderms & hemichordates
TRANSCRIPT
![Page 1: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/1.jpg)
Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Lecture 31:
Deuterosomes I: Echinoderms & Hemichordates
BIS 002C Biodiversity & the Tree of Life
Spring 2016
Prof. Jonathan Eisen1
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
• SLIDES AVAILABLE AT http://tinyurl.com/BIS2CL31
2
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Where we are going and where we have been…
3
•Previous lecture: •30: Triploblasts: Protostomes:
Ecdysozoans II I
•Current Lecture: •31: Deuterosomes I: Echinoderms &
Hemichordates
•Next Lecture: •31: Deuterosomes II: Chordates
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Topics ..
4
• Deuterostome innovations and uses of these innovations
• Major Groups of Deuterostome
• Focus on Echinoderms
• Innovations
• Symmetry
• Tube feet
• Chordate Introduction
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Animals - AKA Metazoans
5
Metazoans
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Clicker
What evidence supports the assertion that the common ancestor of metazoans at least colonial, if not multicellular?
A. Comparisons of modern metazoans
B. Comparisons of metazoans to choanoflagellates
C. Neither A nor B
D. Both A and B
!6Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
![Page 7: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/7.jpg)
Clicker
What evidence supports the assertion that the common ancestor of metazoans at least colonial, if not multicellular?
A. Comparisons of modern metazoans
B. Comparisons of metazoans to choanoflagellates
C. Neither A nor B
D. Both A and B
!7Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
![Page 8: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/8.jpg)
Clicker
What is the best evidence that sponges are the deepest branching group within the metazoa?
A. They are the most primitive animals
B. They have cells similar to those seen in choanoflagellates
C. All other animals are more complex
D. Sponges are not bilaterally symmetric
E. Branching patterns in molecular phylogenies
!8Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
![Page 9: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/9.jpg)
Clicker
What is the best evidence that sponges are the deepest branching group within the metazoa?
A. They are the most primitive animals
B. They have cells similar to those seen in choanoflagellates
C. All other animals are more complex
D. Sponges are not bilaterally symmetric
E. Branching patterns in molecular phylogenies
!9Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
![Page 10: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/10.jpg)
Figure 31.1 A Phylogenetic Tree of the Animals
!10Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Notochord
Hemichordates
DEUTEROSTOMES (Chapter 33)
Chordates
EchinodermsRadial symmetry
Placozoans
Cnidarians
Arrow worms
Lophotrochozoans
Calcareous sponges
Demosponges
Glass sponges
Ecdysozoans
PROTOSTOMES (Chapter 32)
Centopheres
Sponges (Chapter 33)
Diploblasticanimals(Chapter 31)
Bilaterains(triploblastic)
Eum
etazoans
![Page 11: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/11.jpg)
Figure 31.1 A Phylogenetic Tree of the Animals
!10Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Notochord
Hemichordates
DEUTEROSTOMES (Chapter 33)
Chordates
EchinodermsRadial symmetry
Placozoans
Cnidarians
Arrow worms
Lophotrochozoans
Calcareous sponges
Demosponges
Glass sponges
Ecdysozoans
PROTOSTOMES (Chapter 32)
Centopheres
Sponges (Chapter 33)
Diploblasticanimals(Chapter 31)
Bilaterains(triploblastic)
Eum
etazoans
Common ancestor
![Page 12: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/12.jpg)
Figure 31.1 A Phylogenetic Tree of the Animals
!10Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Notochord
Hemichordates
DEUTEROSTOMES (Chapter 33)
Chordates
EchinodermsRadial symmetry
Placozoans
Cnidarians
Arrow worms
Lophotrochozoans
Calcareous sponges
Demosponges
Glass sponges
Ecdysozoans
PROTOSTOMES (Chapter 32)
Centopheres
Sponges (Chapter 33)
Diploblasticanimals(Chapter 31)
Bilaterains(triploblastic)
Eum
etazoans
Common ancestor
•Colonial •Cell adhesion systems
![Page 13: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/13.jpg)
Figure 31.1 A Phylogenetic Tree of the Animals
!10Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Notochord
Hemichordates
DEUTEROSTOMES (Chapter 33)
Chordates
EchinodermsRadial symmetry
Placozoans
Cnidarians
Arrow worms
Lophotrochozoans
Calcareous sponges
Demosponges
Glass sponges
Ecdysozoans
PROTOSTOMES (Chapter 32)
Centopheres
Sponges (Chapter 33)
Diploblasticanimals(Chapter 31)
Bilaterains(triploblastic)
Eum
etazoans
Common ancestor
•Colonial •Cell adhesion systems
![Page 14: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/14.jpg)
Figure 31.1 A Phylogenetic Tree of the Animals
!10Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Notochord
Hemichordates
DEUTEROSTOMES (Chapter 33)
Chordates
EchinodermsRadial symmetry
Placozoans
Cnidarians
Arrow worms
Lophotrochozoans
Calcareous sponges
Demosponges
Glass sponges
Ecdysozoans
PROTOSTOMES (Chapter 32)
Centopheres
Sponges (Chapter 33)
Diploblasticanimals(Chapter 31)
Bilaterains(triploblastic)
Eum
etazoans
Unique cell junctions; collagen and proteoglycans in extracellular matrix
Common ancestor
•Colonial •Cell adhesion systems
![Page 15: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/15.jpg)
Figure 31.1 A Phylogenetic Tree of the Animals
!10Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Notochord
Hemichordates
DEUTEROSTOMES (Chapter 33)
Chordates
EchinodermsRadial symmetry
Placozoans
Cnidarians
Arrow worms
Lophotrochozoans
Calcareous sponges
Demosponges
Glass sponges
Ecdysozoans
PROTOSTOMES (Chapter 32)
Centopheres
Sponges (Chapter 33)
Diploblasticanimals(Chapter 31)
Bilaterains(triploblastic)
Eum
etazoans
Unique cell junctions; collagen and proteoglycans in extracellular matrix
Multicellularity, Blastula
Common ancestor
•Colonial •Cell adhesion systems
![Page 16: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/16.jpg)
Figure 31.1 A Phylogenetic Tree of the Animals
!10Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Notochord
Hemichordates
DEUTEROSTOMES (Chapter 33)
Chordates
EchinodermsRadial symmetry
Placozoans
Cnidarians
Arrow worms
Lophotrochozoans
Calcareous sponges
Demosponges
Glass sponges
Ecdysozoans
PROTOSTOMES (Chapter 32)
Centopheres
Sponges (Chapter 33)
Diploblasticanimals(Chapter 31)
Bilaterains(triploblastic)
Eum
etazoans
Unique cell junctions; collagen and proteoglycans in extracellular matrix
Multicellularity, Blastula
Common ancestor
•Colonial •Cell adhesion systems
Monoblasts (Sponges)
![Page 17: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/17.jpg)
Figure 31.1 A Phylogenetic Tree of the Animals
!10Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Silicaceous spicules
Choanocytes; spicules
Notochord
Hemichordates
DEUTEROSTOMES (Chapter 33)
Chordates
EchinodermsRadial symmetry
Placozoans
Cnidarians
Arrow worms
Lophotrochozoans
Calcareous sponges
Demosponges
Glass sponges
Ecdysozoans
PROTOSTOMES (Chapter 32)
Centopheres
Sponges (Chapter 33)
Diploblasticanimals(Chapter 31)
Bilaterains(triploblastic)
Eum
etazoans
Unique cell junctions; collagen and proteoglycans in extracellular matrix
Multicellularity, Blastula
Common ancestor
•Colonial •Cell adhesion systems
Monoblasts (Sponges)
![Page 18: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/18.jpg)
Figure 31.1 A Phylogenetic Tree of the Animals
!10Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Silicaceous spicules
Choanocytes; spicules
Notochord
Hemichordates
DEUTEROSTOMES (Chapter 33)
Chordates
EchinodermsRadial symmetry
Placozoans
Cnidarians
Arrow worms
Lophotrochozoans
Calcareous sponges
Demosponges
Glass sponges
Ecdysozoans
PROTOSTOMES (Chapter 32)
Centopheres
Sponges (Chapter 33)
Diploblasticanimals(Chapter 31)
Bilaterains(triploblastic)
Eum
etazoans
Unique cell junctions; collagen and proteoglycans in extracellular matrix
Multicellularity, Blastula
Common ancestor
•Colonial •Cell adhesion systems
Monoblasts (Sponges)
Eumetazoans
![Page 19: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/19.jpg)
Figure 31.1 A Phylogenetic Tree of the Animals
!10Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Silicaceous spicules
Choanocytes; spicules
Notochord
Hemichordates
DEUTEROSTOMES (Chapter 33)
Chordates
EchinodermsRadial symmetry
Placozoans
Cnidarians
Arrow worms
Lophotrochozoans
Calcareous sponges
Demosponges
Glass sponges
Ecdysozoans
PROTOSTOMES (Chapter 32)
Centopheres
Sponges (Chapter 33)
Diploblasticanimals(Chapter 31)
Bilaterains(triploblastic)
Eum
etazoans
Unique cell junctions; collagen and proteoglycans in extracellular matrix
Two embryonic cell layers; nervous system
Multicellularity, Blastula
Common ancestor
•Colonial •Cell adhesion systems
Monoblasts (Sponges)
Eumetazoans
![Page 20: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/20.jpg)
Figure 31.1 A Phylogenetic Tree of the Animals
!10Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Silicaceous spicules
Choanocytes; spicules
Notochord
Hemichordates
DEUTEROSTOMES (Chapter 33)
Chordates
EchinodermsRadial symmetry
Placozoans
Cnidarians
Arrow worms
Lophotrochozoans
Calcareous sponges
Demosponges
Glass sponges
Ecdysozoans
PROTOSTOMES (Chapter 32)
Centopheres
Sponges (Chapter 33)
Diploblasticanimals(Chapter 31)
Bilaterains(triploblastic)
Eum
etazoans
Unique cell junctions; collagen and proteoglycans in extracellular matrix
Two embryonic cell layers; nervous system
Multicellularity, Blastula
Common ancestor
•Colonial •Cell adhesion systems
Monoblasts (Sponges)
![Page 21: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/21.jpg)
Figure 31.1 A Phylogenetic Tree of the Animals
!10Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Silicaceous spicules
Choanocytes; spicules
Notochord
Hemichordates
DEUTEROSTOMES (Chapter 33)
Chordates
EchinodermsRadial symmetry
Placozoans
Cnidarians
Arrow worms
Lophotrochozoans
Calcareous sponges
Demosponges
Glass sponges
Ecdysozoans
PROTOSTOMES (Chapter 32)
Centopheres
Sponges (Chapter 33)
Diploblasticanimals(Chapter 31)
Bilaterains(triploblastic)
Eum
etazoans
Unique cell junctions; collagen and proteoglycans in extracellular matrix
Two embryonic cell layers; nervous system
Multicellularity, Blastula
Common ancestor
•Colonial •Cell adhesion systems
Monoblasts (Sponges)
Diploblasts
![Page 22: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/22.jpg)
Figure 31.1 A Phylogenetic Tree of the Animals
!10Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Silicaceous spicules
Choanocytes; spicules
Notochord
Hemichordates
DEUTEROSTOMES (Chapter 33)
Chordates
EchinodermsRadial symmetry
Placozoans
Cnidarians
Arrow worms
Lophotrochozoans
Calcareous sponges
Demosponges
Glass sponges
Ecdysozoans
PROTOSTOMES (Chapter 32)
Centopheres
Sponges (Chapter 33)
Diploblasticanimals(Chapter 31)
Bilaterains(triploblastic)
Eum
etazoans
Unique cell junctions; collagen and proteoglycans in extracellular matrix
Two embryonic cell layers; nervous system
Multicellularity, Blastula
Common ancestor
•Colonial •Cell adhesion systems
Monoblasts (Sponges)
Diploblasts
Triploblasts (Bilaterians)
![Page 23: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/23.jpg)
Figure 31.1 A Phylogenetic Tree of the Animals
!10Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Silicaceous spicules
Choanocytes; spicules
Simplification; loss of nervous system
Notochord
Hemichordates
DEUTEROSTOMES (Chapter 33)
Chordates
EchinodermsRadial symmetry
Placozoans
Cnidarians
Arrow worms
Lophotrochozoans
Calcareous sponges
Demosponges
Glass sponges
Ecdysozoans
PROTOSTOMES (Chapter 32)
Centopheres
Sponges (Chapter 33)
Diploblasticanimals(Chapter 31)
Bilaterains(triploblastic)
Eum
etazoans
Unique cell junctions; collagen and proteoglycans in extracellular matrix
Two embryonic cell layers; nervous system
Multicellularity, Blastula
Common ancestor
•Colonial •Cell adhesion systems
Monoblasts (Sponges)
Diploblasts
Triploblasts (Bilaterians)
![Page 24: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/24.jpg)
Figure 31.1 A Phylogenetic Tree of the Animals
!10Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Silicaceous spicules
Choanocytes; spicules
Simplification; loss of nervous system
Notochord
Bilateral symmetry along an anterior-posterior axis; three embryonic cell layers
Hemichordates
DEUTEROSTOMES (Chapter 33)
Chordates
EchinodermsRadial symmetry
Placozoans
Cnidarians
Arrow worms
Lophotrochozoans
Calcareous sponges
Demosponges
Glass sponges
Ecdysozoans
PROTOSTOMES (Chapter 32)
Centopheres
Sponges (Chapter 33)
Diploblasticanimals(Chapter 31)
Bilaterains(triploblastic)
Eum
etazoans
Unique cell junctions; collagen and proteoglycans in extracellular matrix
Two embryonic cell layers; nervous system
Multicellularity, Blastula
Common ancestor
•Colonial •Cell adhesion systems
Monoblasts (Sponges)
Diploblasts
Triploblasts (Bilaterians)
![Page 25: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/25.jpg)
Figure 31.1 A Phylogenetic Tree of the Animals
!10Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Silicaceous spicules
Choanocytes; spicules
Simplification; loss of nervous system
Notochord
Bilateral symmetry along an anterior-posterior axis; three embryonic cell layers
Hemichordates
DEUTEROSTOMES (Chapter 33)
Chordates
EchinodermsRadial symmetry
Placozoans
Cnidarians
Arrow worms
Lophotrochozoans
Calcareous sponges
Demosponges
Glass sponges
Ecdysozoans
PROTOSTOMES (Chapter 32)
Blastopore develops into mouth
Centopheres
Sponges (Chapter 33)
Diploblasticanimals(Chapter 31)
Bilaterains(triploblastic)
Eum
etazoans
Unique cell junctions; collagen and proteoglycans in extracellular matrix
Two embryonic cell layers; nervous system
Multicellularity, Blastula
Common ancestor
•Colonial •Cell adhesion systems
Monoblasts (Sponges)
Diploblasts
Triploblasts (Bilaterians)
![Page 26: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/26.jpg)
Figure 31.1 A Phylogenetic Tree of the Animals
!10Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Silicaceous spicules
Choanocytes; spicules
Simplification; loss of nervous system
Notochord
Bilateral symmetry along an anterior-posterior axis; three embryonic cell layers
Hemichordates
DEUTEROSTOMES (Chapter 33)
Chordates
EchinodermsRadial symmetry
Placozoans
Cnidarians
Arrow worms
Lophotrochozoans
Calcareous sponges
Demosponges
Glass sponges
Ecdysozoans
PROTOSTOMES (Chapter 32)
Exoskeleton molting Blastopore develops into mouth
Centopheres
Sponges (Chapter 33)
Diploblasticanimals(Chapter 31)
Bilaterains(triploblastic)
Eum
etazoans
Unique cell junctions; collagen and proteoglycans in extracellular matrix
Two embryonic cell layers; nervous system
Multicellularity, Blastula
Common ancestor
•Colonial •Cell adhesion systems
Monoblasts (Sponges)
Diploblasts
Triploblasts (Bilaterians)
![Page 27: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/27.jpg)
Figure 31.1 A Phylogenetic Tree of the Animals
!10Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Silicaceous spicules
Choanocytes; spicules
Simplification; loss of nervous system
Notochord
Bilateral symmetry along an anterior-posterior axis; three embryonic cell layers
Blastopore develops into anus
Hemichordates
DEUTEROSTOMES (Chapter 33)
Chordates
EchinodermsRadial symmetry
Placozoans
Cnidarians
Arrow worms
Lophotrochozoans
Calcareous sponges
Demosponges
Glass sponges
Ecdysozoans
PROTOSTOMES (Chapter 32)
Exoskeleton molting Blastopore develops into mouth
Centopheres
Sponges (Chapter 33)
Diploblasticanimals(Chapter 31)
Bilaterains(triploblastic)
Eum
etazoans
Unique cell junctions; collagen and proteoglycans in extracellular matrix
Two embryonic cell layers; nervous system
Multicellularity, Blastula
Common ancestor
•Colonial •Cell adhesion systems
Monoblasts (Sponges)
Diploblasts
Triploblasts (Bilaterians)
![Page 28: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/28.jpg)
Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Animal Diversity
11
Triploblasts (Bilaterians)
![Page 29: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/29.jpg)
Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Protostomes
12
Protostomes
![Page 30: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/30.jpg)
Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Protostomes
13
Deuterostomes
![Page 31: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/31.jpg)
Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Deuterostomes
14
![Page 32: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/32.jpg)
Figure 33.1 Phylogeny of the Deuterostomes
!15Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
![Page 33: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/33.jpg)
General/Common Features of Deuterostomes Common Ancestor
!16Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
![Page 34: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/34.jpg)
General/Common Features of Deuterostomes Common Ancestor
!17Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
• Development !Radial cleavage !Blastopore becomes the anus
and mouth forms on opposite side
!Coelom develops from mesodermal pockets that bud off from the gastrula cavity
!Triploblastic, coelomate animals with internal skeletons
!Complete gut.
• There are far fewer species of deuterostomes than protostomes.
![Page 35: BIS2C: Lecture 31: Deuterosomes I: Echinoderms & Hemichordates](https://reader033.vdocuments.us/reader033/viewer/2022051300/588069eb1a28ab0b098b702b/html5/thumbnails/35.jpg)
Three Main Clades
!18Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Echinoderms
Hemichordates
Chordates
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Ambulacrarians
19
Chordates
Common ancestor (bilaterally symmetrical, pharyngeal slits present)
Echinoderms
Hemichordates
Lancelets
Tunicates
VertebratesVertebral column, anterior skull, large brain, ventral heart
Notochord, dorsal hollow nerve cord, post-anal tail
Am
bulacrarians
• Two main groups: echinoderms and hemichordates
• Have ciliated, bilaterally symmetrical larvae
• Adult hemichordates are also bilaterally symmetrical.
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Ambulacrarians
19
Chordates
Common ancestor (bilaterally symmetrical, pharyngeal slits present)
Echinoderms
Hemichordates
Lancelets
Tunicates
VertebratesVertebral column, anterior skull, large brain, ventral heart
Notochord, dorsal hollow nerve cord, post-anal tail
Ciliated larvae
Am
bulacrarians
• Two main groups: echinoderms and hemichordates
• Have ciliated, bilaterally symmetrical larvae
• Adult hemichordates are also bilaterally symmetrical.
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Ambulacrarians
19
Chordates
Common ancestor (bilaterally symmetrical, pharyngeal slits present)
Echinoderms
Hemichordates
Lancelets
Tunicates
VertebratesVertebral column, anterior skull, large brain, ventral heart
Notochord, dorsal hollow nerve cord, post-anal tail
Radial symmetry as adults, calcified internal plates, loss of pharyngeal slits
Ciliated larvae
Am
bulacrarians
• Two main groups: echinoderms and hemichordates
• Have ciliated, bilaterally symmetrical larvae
• Adult hemichordates are also bilaterally symmetrical.
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Ambulacrarians - Others - Xenoturbellids
20
Xenoturbellids
Xenoturbellids (two species): wormlike organisms that feed on or parasitize mollusks in the north Atlantic.
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Xenoturbella in the news
!21Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
• VIDEOS
22
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!25Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Ambulacrarians
26
Xenoturbellids
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Ambulacrarians
27
Xenoturbellids
Acoels
Acoels: also wormlike, live as plankton, between grains of sediment, or on other organisms such as corals.
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Ambulacrarians
28
Xenoturbellids
Acoels
s Not clear exactly where acoels branch in the tree
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Figure 33.4 Highly Reduced Acoels Are Probably Relatives of the Ambulacrarians
!29Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
• See http://www.nature.com/news/2011/110209/full/470161a.html for discussion of acoels
• http://www.latimes.com/science/sciencenow/la-sci-sn-churro-sea-worm-bilateria-20160205-story.html
• http://www.nature.com/nature/journal/v530/n7588/abs/nature16545.html
30
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Clicker
Which of the following topics would studies of Xenoturbellid evolution be most useful for?
A. Origin of diploblasty
B. Origin of radial symmetry
C. Origin of bilateral symmetry
D. Origin of segmentation
E. Origin of blastulas
!31Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
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Clicker
Which of the following topics would studies of Xenoturbellid evolution be most useful for?
A. Origin of diploblasty
B. Origin of radial symmetry
C. Origin of bilateral symmetry
D. Origin of segmentation
E. Origin of blastulas
!32Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Protostomes
33
Xenoturbellids
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Ambulacrarians
34
Xenoturbellids
Acoels
sFocus on Two Main Lineages of Ambulocrarians
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Hemichordates
35
Xenoturbellids
Acoels
s Focus on Hemichordates
Hemichordates
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Hemichordates Body Plan
!36Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Saccoglossus kowalevskii
ProboscisCollarTrunk
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Hemichordates Body Plan
!37Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Saccoglossus kowalevskii
Proboscis
Proboscis used for feeding and locomotion and sometimes protection
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!38Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Saccoglossus kowalevskii
Collar
Collar contains a stomochord similar to the notochord of chordates
Hemichordates Body Plan
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!39Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Saccoglossus kowalevskii
Trunk
Trunk contains pharynx and pharyngeal gill slits
Hemichordates Body Plan
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
For Your Personal Enjoyment
40
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Group 1: Acorn worms
• Up to 2 m long, burrow in soft marine sediments
• Digestive tract is a mouth, pharynx, and intestine
• The pharynx opens to the outside via pharyngeal slits.
• Vascularized tissue around the slits is a gas exchange surface.
• Prey is captured with the large proboscis, which is covered in sticky mucus.
41
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Acorn Worms
42
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016 43
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Group 2: Pterobranchs
• Sedentary marine animals that live in tubes secreted by the proboscis.
• Some are solitary, others form colonies.
• The collar has one to nine pairs of arms with tentacles for prey capture and gas exchange.
!44Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Ambulacrarians
45
Chordates
Common ancestor (bilaterally symmetrical, pharyngeal slits present)
Echinoderms
Hemichordates
Lancelets
Tunicates
VertebratesVertebral column, anterior skull, large brain, ventral heart
Notochord, dorsal hollow nerve cord, post-anal tail
Radial symmetry as adults, calcified internal plates, loss of pharyngeal slits
Ciliated larvae
Am
bulacrarians
Focus on Echinoderms
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Ambulacrarians
45
Chordates
Common ancestor (bilaterally symmetrical, pharyngeal slits present)
Echinoderms
Hemichordates
Lancelets
Tunicates
VertebratesVertebral column, anterior skull, large brain, ventral heart
Notochord, dorsal hollow nerve cord, post-anal tail
Radial symmetry as adults, calcified internal plates, loss of pharyngeal slits
Ciliated larvae
Am
bulacrarians
Focus on Echinoderms
Echinoderms
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Diversity
!46Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
~7,500 species
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Symmetry
Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Larvae are
bilateral
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Echinoderm Symmetry
48
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Body Plan
!49Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Aboral (top)
Oral (bottom)
No head or brain
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Water Vascular System
!50Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Water enters through pores known as madreporites
Circulates through canals that lead to tube feet
Hydraulic system used for locomotion, feeding, waste transport, respiration
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Echinoderm Video
51
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Endoskeleton
• Endoskeleton derived from mesoderm • The endoskeleton is covered in epidermis • The skeletal plates are connected by collagen which can be
stiff or flexible which controls body tone without muscle
!52Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Echinoderm Endoskeleton
53
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For your personal enjoyment
!54Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
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Crinoidea- Sea Lily’s and Feather Stars
!55Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
• 600 described extant species, many more in the fossil record • Both shallow water and deep trenches • Oral surface in dorsal, aboral surface is ventral • Sea Lily’s are attached to the surface by a stalk
Fossil Sea Lily’s, 330 mya
Feather Star
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Asteroidea- Sea stars
!56Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
• 1500 described species, both shallow and deep habitats • Mostly predaceous with an evertable stomach • Remarkable capacity for regeneration
Pycnopodia- sunflower star
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Asteroidea- Evertable stomach
!57Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
• When feeding, sea stars can extend their stomach pushing it through very small openings • The water vascular system is used to slowly pull muscles apart along with specialized ‘catch collagen’
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Asteroidea- Crown of Thorns
!58Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
• Among the largest sea stars, spines have neurotoxins • Voracious predator of coral (Great Barrier Reef) • Introduced species that is difficult to control
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Ophiuroidea- Brittle stars and basket stars
!59Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
• 1,900 described species • Long, slender arms often with spines; fast moving • Secretive predators, some are bioluminescent
Brittle Star Basket Star Basket Star
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Echinoidea- Sea Urchins and Sand Dollars
!60Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
• 950 described species • Slow moving, grazers on algae (Aristrotle’s lantern) • Protected by spines (urchins) and a calcareous test
StrongylocentrotusAristotle’s lantern
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Echinoidea- Sea Urchins and California Kelp
!61Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
• Urchins feed on kelp (brown algae) • Kelp forests in California harbor a great diversity of species • If unchecked, urchins can create ‘urchin barrens’ • Sea otters prey on urchins (using tools) keeping populations in check; they are a keystone species
Kelp forest, Monterey Bay
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Holothuroidea- Sea Cucumbers
!62Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
• 1,200 described species, scavengers and filter feeders • Soft-bodied, secondary bilateral symmetry* • Catch collagen allows them squeeze into tight places • Unique defense (evisceration), some are toxic
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Chordates
64
Chordates
Common ancestor (bilaterally symmetrical, pharyngeal slits present)
Echinoderms
Hemichordates
Lancelets
Tunicates
VertebratesVertebral column, anterior skull, large brain, ventral heart
Notochord, dorsal hollow nerve cord, post-anal tail
Radial symmetry as adults, calcified internal plates, loss of pharyngeal slits
Ciliated larvae
Am
bulacrarians
Focus on Chordates
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Deuterostomes
65
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Deuterostomes
65
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Chordate Derived Traits Most Apparent in Juveniles
!66Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
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Notochord
!67Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
• Notochord is a dorsal supporting rod. • Core of large cells with fluid-filled vacuoles, making it rigid but
flexible. • In tunicates it is lost during metamorphosis to the adult stage. • In vertebrates it is replaced by skeletal structures.
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Dorsal hollow nerve cord
!68Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
• Formed by an embryonic folding of the ectoderm • Develops to form the central nervous system in vertebrates
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Post Anal Tail
!69Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
• Extension of the body past the anal opening • In some species (e.g., humans) most visible in embryos • The combination of postanal tail, notochord, and muscles
provides propulsion
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Pharyngeal Slits
!70Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
• The pharynx is a muscular organ that brings water in through the mouth (via cilia) which then passes through a series of openings to the outside (slits).
• Ancestral pharyngeal slits present at some developmental stage; often lost or modified in adults.
• Supported by pharyngeal arches.
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Clicker
71
Why are pharyngeal slits NOT considered a synapomorphy of chordates?
A. They occur in other deuterostomes B. They are lost in some chordates C. They are modified into gills in vertebrates D. They only occur in the embryo of some chordates
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Clicker
72
Why are pharyngeal slits NOT considered a synapomorphy of chordates?
A. They occur in other deuterostomes B. They are lost in some chordates C. They are modified into gills in vertebrates D. They only occur in the embryo of some chordates
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Figure 33.1 Phylogeny of the Deuterostomes
!73Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Chordates
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Chordates
Common ancestor (bilaterally symmetrical, pharyngeal slits present)
Echinoderms
Hemichordates
Lancelets
Tunicates
VertebratesVertebral column, anterior skull, large brain, ventral heart
Notochord, dorsal hollow nerve cord, post-anal tail
Radial symmetry as adults, calcified internal plates, loss of pharyngeal slits
Ciliated larvae
Am
bulacrarians
Focus on Chordates
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Chordates
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Chordates
Common ancestor (bilaterally symmetrical, pharyngeal slits present)
Echinoderms
Hemichordates
Lancelets
Tunicates
VertebratesVertebral column, anterior skull, large brain, ventral heart
Notochord, dorsal hollow nerve cord, post-anal tail
Radial symmetry as adults, calcified internal plates, loss of pharyngeal slits
Ciliated larvae
Am
bulacrarians
Three Major Groups *Lancelets *Tunicates *Vertebrates
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Lancelets (aka Cephalochordates)
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Chordates
Common ancestor (bilaterally symmetrical, pharyngeal slits present)
Echinoderms
Hemichordates
Lancelets
Tunicates
VertebratesVertebral column, anterior skull, large brain, ventral heart
Notochord, dorsal hollow nerve cord, post-anal tail
Radial symmetry as adults, calcified internal plates, loss of pharyngeal slits
Ciliated larvae
Am
bulacrarians
Focus on Lancelets
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016 77
Branchiostoma lanceolatum
Gut
TailAnusDorsal hollow nerve cord
NotochordPharyngeal slits
Lancelet Has Key Chordate Features
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016 78
Branchiostoma lanceolatum
TailAnusDorsal hollow nerve cord
NotochordPharyngeal slits
Lancelet Features
• Lancelets (aka amphioxus) are very small, less than 5 cm.
• Notochord is retained throughout life.
• Burrow in sand with head protruding; also swim.
• Pharynx is enlarged to form a pharyngeal basket for filtering prey from the water.
• Fertilization takes place in the water.
• Segmented body muscles
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Lancelet development
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Tunicates
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Chordates
Common ancestor (bilaterally symmetrical, pharyngeal slits present)
Echinoderms
Hemichordates
Lancelets
Tunicates
VertebratesVertebral column, anterior skull, large brain, ventral heart
Notochord, dorsal hollow nerve cord, post-anal tail
Radial symmetry as adults, calcified internal plates, loss of pharyngeal slits
Ciliated larvae
Am
bulacrarians
Focus on Tunicates
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Adult Tunicates
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• Tunicates (sea squirts or ascidians, thaliaceans, and larvaceans):
• Sea squirts form colonies by budding from a single founder. Colonies may be meters across.
• Adult body is baglike and enclosed in a “tunic” of proteins and complex polysaccharides secreted by the epidermis.
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Adult Tunicates
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• Solitary tunicates seem to lack all of the synapomorphies of chordates?
• No dorsal hollow nerve cord, no notochord, no postanal tail
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Adult Tunicates
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• Solitary tunicates seem to lack all of the synapomorphies of chordates?
• No dorsal hollow nerve cord, no notochord, no postanal tail
HOW ARE THESE CHORDATES?
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Juvenile Tunicates
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Ascidian tunicate larva
• Sea squirt larvae have pharyngeal slits, a hollow nerve cord, and notochord in the tail region.
• The swimming, tadpolelike larvae suggest a relationship between tunicates and vertebrates.
• Larvacean tunicates do not undergo the metamorphosis and retain all of the chordate features.
Larvacean tunicates
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Slides by Jonathan Eisen for BIS2C at UC Davis Spring 2016
Vertebrates
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