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Chordates By Eduardo Alexander Becerra and Caleb Jennings Staurseth.

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1 Chordates By Eduardo Alexander Becerra and Caleb Jennings Staurseth

2 What Defines a Chordate? Its.. – Notochord – Dorsal Nerve Chord – Pharyngeal Slits – Post-Anal Tail

3 Chordate Embryos and Tissues Chordates have 3 layers of tissue Deutersomes – Anus forms first, then the mouth forms Coelomates Bilaterial symmetry Endoskeleton Complete digestive system

4 Notochord: A flexible rod-like structure that is similar to a spine

5 Dorsal Nerve Chord: The nervous system in chordates.

6 Pharyngeal Slits: Gill like structures that are located on the pharynx

7 Post-Anal Tail: A tail that extends beyond the anus.

8

9 The 3 Branches The three subdivisions or ‘clades’ of chordates: – Craniates – Lancelets – Tunicates

10 Tunicates (subphylum Urochordata) The deepest branching lineage of chordates. Resembles other chordates most intensely during larval stages Larva tunicate settles down, and goes through metamorphasis – Many chordate characteristics disappear Tail and notochord go away, nervous system is destroyed Often called “sea squirts” as they shoot out water from their anus to jet away when attacked

11 Tunicate lifecycle Tunicate

12 Polycarpa Auruta

13 Lancelet (subphylum cephalochordata) Named after their bladelike shape Lancelet Larvae: – Devolop a notochord, dorsal, hollow nervecord, pharyngeal slits, and post-anal tail – Food source is plankton Post metamorphasis: – Spend most of their time in the sand, leaving their mouth exposed, catching their food. – Segmented muscle developed from somites - found in all chordate embryos

14 Adult Lancelet

15 Craniates craniates (literally means cranium/skull) are unique from their other chordate relatives in a number of characteristics: – Possess 2 clusters of ‘Hox’ genes – Neural Crest - collection of cells at the dorsal margins in an embryo which give rise to a variety of structures: Teeth Many bones and cartilage of the skull Inner layer of skin (dermis) on the facial region Sensory capsules in which sense organs such as eyes develop.

16 Craniates are seperated into 2 major Clades – Myxini/Hyperotreti (hagfish) – Vertebrata

17 -Pacific Hagfish- Myxini These bad boys have a skull made of cartilage, and swim in a snake-like motion They Also have a small brain, eyes, ears, and a nasal opening which connects to their pharynx

18 Vertebrata Craniates Lampreys (Cephalaspidomorphi) are the oldest living lineage of vertebrates, and lack a jaw

19 Vertebrata Craniates Conodonts (“cone teeth”) Early, slender, soft-bodied verebrates with advanced eyes, and lacked a jaw

20 Vertebrata Craniates Ostracoderms Additional vertebrates stemmed from the same period. Ostracoderms -- had paired fins, inner ear and sense of balance, a muscular pharynx, and armored bodies

21 Vertebrata Craniates Gnathostomes (“jaw mouth”) = jawed vertebrates The jaw enabled animals to grip food and chew it up for digestion 4 Hox Genes Enhanced sense of smell and vision resulted in a larger forebrain Have lateral line systems, which detected vibrations Consisted of placoderms = “plate-skinned” and acanthodians, which are closely related to ray- finned fish and lobe-finned fish Went extinct around 360 million years ago

22

23 Vertebrata Craniates Chondrichthyans Consists of Sharks, rays, and their close relatives Have skeleton made mostly of cartilage and loads of calcium, developed mostly in embryonic stages Sharks: have a spiral valve, which makes up for the sharks short digestive tract Have noses meant only for smelling, not breathing Eggs fertelized internally Some species are oviparous Some species are ovoviviparous Rays: Bottom-dwellers, whiplike tails, venomous barbs

24 JAWS - Great WhiteLarge Stingray

25 Vertebrata Craniates Osteichthyes (“Bony Fish”) Bony endoskeletaon Breathe through gills protected by bony flaps called operculum Buoyancy controlled with an air sac called a swim bladder Common fish

26 Vertebrata Craniates Osteichthyes continued… Ray-Finned Fishes Majority of aquatic osteichthyans Bass, trout, perch, tuna, herring Fins allow for increased maneuverability defense Blue-Fin Tuna

27 Vertebrata Craniates Osteichthyes continued… Lobe-Fins Fins have a thick muscle layer in pectoral and pelvic fins Used to “walk” across the sea floor Only three lineages left today Coelacanths, lungfishes, and tetrapods Coelacanths lungfish

28 Vertebrata Craniates Tetrrapods -- gnathostomes with feet Have 4 feet with digits Able to support weight on land No gill slits in embryonic development, what would have developed into gill slits creates ears and glands Overall, adaptions making organisms fit for land

29

30 Vertebrata Craniates First Group of Tetrapods: Amphibians 4,800 species today: Comprising of salamanders, frogs and caecilians Live on land and in water Scientists believe that the earliest tetrapods were heavily tied to water

31 Tadpole Life Cycle

32 Sources http://depts.washington.edu/fhlk12/links/StudentProjects/Images/CionaTunicateBiology/tadpole_low.gif http://lh3.ggpht.com/_yItZwKwfM- I/TTPNPSBC1LI/AAAAAAAAA_U/HobmwJ3weYo/chordatecharaceristics219.jpg http://lh3.ggpht.com/_yItZwKwfM- I/TTPNPSBC1LI/AAAAAAAAA_U/HobmwJ3weYo/chordatecharaceristics219.jpg http://www.blc.arizona.edu/courses/schaffer/182/Vertebrates/AmphioxusPurvis.jpeg http://www.google.com/imgres?um=1&hl=en&biw=1290&bih=658&tbm=isch&tbnid=vC0HTQ2FBF6zuM: &imgrefurl=http://northgoessouth.com/tag/giant-bluefin-tuna/&docid=meFYCiQ- KwXP0M&imgurl=http://northgoessouth.com/wp-content/uploads/2010/07/27Tuna-t_CA0- articleLarge.jpg&w=600&h=315&ei=axmOT8KNEsGo2wXvvr2DDA&zoom=1&iact=hc&vpx=170&vpy=384& dur=1148&hovh=163&hovw=310&tx=199&ty=95&sig=110107029035550495494&page=2&tbnh=110&tb nw=209&start=18&ndsp=20&ved=1t:429,r:15,s:18,i:224 http://www.google.com/imgres?um=1&hl=en&biw=1290&bih=658&tbm=isch&tbnid=vC0HTQ2FBF6zuM: &imgrefurl=http://northgoessouth.com/tag/giant-bluefin-tuna/&docid=meFYCiQ- KwXP0M&imgurl=http://northgoessouth.com/wp-content/uploads/2010/07/27Tuna-t_CA0- articleLarge.jpg&w=600&h=315&ei=axmOT8KNEsGo2wXvvr2DDA&zoom=1&iact=hc&vpx=170&vpy=384& dur=1148&hovh=163&hovw=310&tx=199&ty=95&sig=110107029035550495494&page=2&tbnh=110&tb nw=209&start=18&ndsp=20&ved=1t:429,r:15,s:18,i:224 http://www.google.com/imgres?um=1&hl=en&biw=1290&bih=658&tbm=isch&tbnid=mEB3K2EHov4tkM: &imgrefurl=http://www.richardherrmann.com/PersonalProjects/GameFish.html&docid=QxMmdZhCQxO_ NM&imgurl=http://www.richardherrmann.com/PersonalProjects/images- persProjects/05BluefinTuna011637.jpg&w=700&h=518&ei=axmOT8KNEsGo2wXvvr2DDA&zoom=1&iact=h c&vpx=777&vpy=210&dur=1074&hovh=193&hovw=261&tx=118&ty=118&sig=110107029035550495494 &page=3&tbnh=151&tbnw=199&start=38&ndsp=23&ved=1t:429,r:14,s:38,i:266 http://www.google.com/imgres?um=1&hl=en&biw=1290&bih=658&tbm=isch&tbnid=mEB3K2EHov4tkM: &imgrefurl=http://www.richardherrmann.com/PersonalProjects/GameFish.html&docid=QxMmdZhCQxO_ NM&imgurl=http://www.richardherrmann.com/PersonalProjects/images- persProjects/05BluefinTuna011637.jpg&w=700&h=518&ei=axmOT8KNEsGo2wXvvr2DDA&zoom=1&iact=h c&vpx=777&vpy=210&dur=1074&hovh=193&hovw=261&tx=118&ty=118&sig=110107029035550495494 &page=3&tbnh=151&tbnw=199&start=38&ndsp=23&ved=1t:429,r:14,s:38,i:266 http://images.nationalgeographic.com/wpf/media-live/photos/000/005/cache/giant-stingray- bluesheet_547_600x450.jpg http://images.nationalgeographic.com/wpf/media-live/photos/000/005/cache/giant-stingray- bluesheet_547_600x450.jpg

33 Sources part 2 http://www.biog1105-1106.org/labs/deuts/chordates.html jaws.jpg (640×480) http://www.google.com/imgres?um=1&hl=en&biw=1290&bih=658&tbm=isch&tbnid=1QBTNyeBRDnkjM:&imgrefurl=http:// palaeos.com/vertebrates/gnathostomata/gnathostomata.html&docid=ZJEYZYbF12ssWM&imgurl=http://palaeos.com/verte brates/gnathostomata/images/Gnathostomata1.jpg&w=400&h=262&ei=aw2OT6X5BIXs2QWvgvSgDA&zoom=1&iact=rc&du r=598&sig=110107029035550495494&page=2&tbnh=107&tbnw=163&start=19&ndsp=22&ved=1t:429,r:8,s:19,i:145&tx=12 2&ty=70 http://www.google.com/imgres?um=1&hl=en&biw=1290&bih=658&tbm=isch&tbnid=1QBTNyeBRDnkjM:&imgrefurl=http:// palaeos.com/vertebrates/gnathostomata/gnathostomata.html&docid=ZJEYZYbF12ssWM&imgurl=http://palaeos.com/verte brates/gnathostomata/images/Gnathostomata1.jpg&w=400&h=262&ei=aw2OT6X5BIXs2QWvgvSgDA&zoom=1&iact=rc&du r=598&sig=110107029035550495494&page=2&tbnh=107&tbnw=163&start=19&ndsp=22&ved=1t:429,r:8,s:19,i:145&tx=12 2&ty=70 http://www.google.com/imgres?start=89&um=1&hl=en&biw=1290&bih=658&tbm=isch&tbnid=C4sKRRafgcCXkM:&imgrefu rl=http://palaeos.com/vertebrates/bones/gill_arches/epibranchial.html&docid=WvfSn5InEtkJlM&imgurl=http://palaeos.co m/vertebrates/bones/gill_arches/images/TristychiusRecon.gif&w=500&h=143&ei=QQ2OT7SgBqjW2AXIoemiDA&zoom=1&i act=rc&dur=211&sig=110107029035550495494&page=5&tbnh=56&tbnw=195&ndsp=24&ved=1t:429,r:12,s:89,i:31&tx=15 5&ty=32 http://www.google.com/imgres?start=89&um=1&hl=en&biw=1290&bih=658&tbm=isch&tbnid=C4sKRRafgcCXkM:&imgrefu rl=http://palaeos.com/vertebrates/bones/gill_arches/epibranchial.html&docid=WvfSn5InEtkJlM&imgurl=http://palaeos.co m/vertebrates/bones/gill_arches/images/TristychiusRecon.gif&w=500&h=143&ei=QQ2OT7SgBqjW2AXIoemiDA&zoom=1&i act=rc&dur=211&sig=110107029035550495494&page=5&tbnh=56&tbnw=195&ndsp=24&ved=1t:429,r:12,s:89,i:31&tx=15 5&ty=32 https://www.google.com/search?q=neil+patrick+harris&um=1&ie=UTF- 8&hl=en&tbm=isch&source=og&sa=N&tab=wi&ei=RAKOT4iSDMKcgQfe3Y3yDQ&biw=1290&bih=658&sei=RwKOT560DMjq2 QXe_KWfDA https://www.google.com/search?q=neil+patrick+harris&um=1&ie=UTF- 8&hl=en&tbm=isch&source=og&sa=N&tab=wi&ei=RAKOT4iSDMKcgQfe3Y3yDQ&biw=1290&bih=658&sei=RwKOT560DMjq2 QXe_KWfDA http://30.media.tumblr.com/tumblr_lb0tidWR5R1qd8z9zo1_250.gif http://upload.wikimedia.org/wikipedia/commons/c/cd/Tunicate_komodo.jpg http://tolweb.org/Craniata http://cdn.physorg.com/newman/gfx/news/hagfish.jpg http://farm4.static.flickr.com/3357/3476498612_d29a5984ed.jpg

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