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Cephalochordates Urochordates (Ascidians) Vertebrates

Deuterostomia. Cephalochordates Urochordates (Ascidians) Vertebrates. Phylum Chordata. Ambulacraria. Hemichordates Echinoderms. Phylum Hemichordata Enteropneusta (acorn worms) Pterobranchia (colonial) Phylum Chordata SubPhylum Urochordata (the Tunicates)

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Cephalochordates Urochordates (Ascidians) Vertebrates

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  1. Deuterostomia Cephalochordates Urochordates (Ascidians) Vertebrates Phylum Chordata Ambulacraria Hemichordates Echinoderms

  2. Phylum Hemichordata Enteropneusta (acorn worms) Pterobranchia (colonial) Phylum Chordata SubPhylum Urochordata (the Tunicates) Ascidiacea (Ascidians) Thaliacea (Salps) Appendicularia (Larvaceans) SubPhylum Cephalochordata SubPhylum Vertebrata

  3. Phylum Hemichordata • Class Enteropneusta (acorn worms, 75 spp.) • Class Pterobranchia (colonial; 25 spp.) • wormlike body with proboscis (prosome), collar (mesosome), • and trunk (metasome), each with a (coelomic compartment) • - pharyngeal gill slits and dorsal hollow nerve chord like • in chordates; no notochord • - separate sexes; asexual reproduction • common (in pterobranchs) • - mouth + anus form secondarily • after blastopore closes • - unique excretory structure, the • glomerulus Acorn worm

  4. proboscis used for movement in burrows, and for deposit- feeding on organic matter on the surface outside the burrow Enteropneusts (acorn worms)

  5. Enteropneusts (acorn worms) water out, thru slits water in - cilia draw water through mouth (where food particles may be captured), then water exits pharyngeal gill slits

  6. Class Pterobranchia Colonial filter-feeders with 0-1 gill slits Bryozoan-like features: 1) tentacles move water in same way as a lophophore 2) mesocoel extends into ciliated tentacles used in filter-feeding 3) live in secreted hard tubes 4) U-shaped gut, anus opening outside the tentacles water flow food

  7. Class Pterobranchia Colonial filter-feeders with 0-1 gill slits Bryozoan-like features: 1) tentacles move water in same way as a lophophore 2) mesocoel extends into ciliated tentacles used in filter-feeding 3) live in secreted hard tubes 4) U-shaped gut, anus opening outside the tentacles 5) colony of zooids produced by asexual growth immature asexual bud

  8. Deuterostomia Cephalochordates Urochordates (Ascidians) Vertebrates Phylum Chordata Ambulacraria Hemichordates Echinoderms

  9. Phylum Hemichordata Enteropneusta (acorn worms) Pterobranchia (colonial) Phylum Chordata SubPhylum Urochordata (tunicates) Ascidiacea (ascidians) Thaliacea (salps) Appendicularia (larvaceans) SubPhylum Cephalochordata SubPhylum Vertebrata

  10. Phylum Chordata At some stage of development, all chordates possess: - Pharyngeal gill slits - Dorsal, hollow nerve chord - Dorsal notochord (hollow flexible tube) - Post-anal tail, tadpole stage at some point in lifecycle - Gland in pharynx that processes iodine: - endostyle (Urochordata, Cephalochordata) - thyroid gland (Vertebrata)

  11. pharyngeal gill slits: Out-pockets in the pharynx Become gill chambers and gills in aquatic chordates Become jaws, inner ear, and tonsils in terrestrial chordates notochord: a firm, flexible rod derived from mesoderm cells; becomes the endoskeleton in vertebrates dorsal nerve cord: a hollow tube above the notochord; becomes the spinal cord and brain in vertebrates The combination of these characters is a synapomorphy for Chordata, but all 3 traits rarely show up in the adult stage

  12. 3,000 spp. SubPhylum Urochordata - numerous gill slits on pharynx used in suspension feeding - oral + atrial siphons - notochord and nerve chordpresent in tadpole larvae - no coelom or bony tissue - adult body covered in secreted tunic, a polysaccharide coating Class Ascidiacea (Ascidians) - benthic; solitary or colonial Class Thaliacea (Salps) - pelagic, colonial Class Appendicularia (Larvaceans) - pelagic, solitary - adults retain larval characteristics

  13. Class Ascidiacea – the ascidians, or tunicates - sessile, benthic adults; large, short-lived tadpole larvae - solitary forms, or colonial (may be socialor compound) - colonies form by asexual reproduction - hermaphrodites - often colorful + chemically defended - tropical species contain a photosynthetic symbiont, the cyanobacterium Prochloron

  14. Filter-feeding in ascidians • sheets of iodinated mucus • produced by ciliated tract • called the endostyle - mucus sheets move over the gills slits in the pharynx, through which water is pumped, trapping food particles

  15. Solitary Ascidians Styela montereyensis

  16. Colonial ascidians 1: In social species, individuals are clones from asexual reproduction, but do not share a common tunic (covering)

  17. Colonial ascidians 2: In compound species, individuals are clones that share a common tunic, and may even share siphons PHOTO B: colonial species in which each individual animal retains its own inhalent and exhalent siphons PHOTO C: colony in which individuals are packed in a ring and share a centrally placed, common exhalent siphon (yellow arrow).

  18. Tadpole larvaeshow the chordate features that are not seen in the adult ascidian - all ascidian larvae are lecithotrophic (non-feeding) and most are very short lived, swimming for a few minutes to find a suitable site for attachment and metamorphosis

  19. Ascidian Metamorphosis

  20. Class Thaliacea, the salps - pelagic animals living in open water - gelatinous + transparent colonial salp - atrial siphon is shifted to posterior end - contraction of circular muscles compresses the tunic, forcing water out of atrial siphon & causing jet-propulsion forwards

  21. Salps can be solitary or colonial. Colonial forms make long chains, which easily break apart.

  22. Class Appendicularia, the larvaceans • - pelagic, live in a secreted mucous house • pharynx reduced, bears only 2 slits • complex mucus nets spun for filter feeding • - neoteny: larval form develops gonads for reproduction, • adult stage is gradually lost from the life cycle • - postanal tail beats to produce water currents • - notochord + reduced dorsal nerve chord present in tail

  23. larvaceans live inside a 2-layer gelatinous (jelly-like) house: (1) pre-filter web, 1 meter across, traps large particles (2) inner mucus filter traps small particles (2-20 mm) which are eaten As webs and house become clogged with debris, they are cast off (15 times per day) - animal spins a new house just before leaving old one, quickly inflates it - old houses sink to deep sea larvacean out of its house

  24. larvaceans live inside a 2-layer gelatinous (jelly-like) house larvacean out of its house

  25. An outstanding mystery in marine science: what supplies all necessary food to sustain animals of the deep sea? - 30% of the carbon needed to keep the deep sea alive could not be accounted for in sediment traps Answer: sinking larvacean webs supply the missing nutrients to feed the ocean floor (Robison et al., Science 2005, 308:1609-1611)

  26. Also remove up to 50% of particulate material that rivers dump into the upper 5 meters of the sea - important to keep water clear enough for light to penetrate for photosynthetic organisms Thus, larvaceans are critical living filters that sustain communitiesliving in near-surface waters and the deep-sea!

  27. SubPhylum Cephalochordata - Amphioxus, fishlike animals also called lancelets - Ciliary mucus suspension feeders, much like ascidians - water moved through pharyngeal gill slits by cilia - iodinated mucous produced by endostyletraps food - Closed circulatory system similar to that of fishes, but no heart - Segmented muscle bands called myotomes - notochord lasts through adult life, but never becomes vertebral column and no brain develops (i.e., definitely not a vertebrate) 25 spp.

  28. Expression patterns of developmental genes are also being used to study the evolution of vertebrates - whole nervous system of lancelet-like ancestor was essentially compressed into the vertebrate brain

  29. SubPhylum Vertebrata: the vertebrates vertebral columnhouses dorsal nerve cord there’s a lot of interest in studying the other chordates to understand how our lineage evolved – who’s our nearest relative among the invertebrates?

  30. vertebrates Analysis of the highly conserved 18S gene suggested that the nearest relatives of vertebrates were the cephalochordates

  31. New analyses of hundreds of protein-coding genes consistently support Ascidiacea as the sister group of the vertebrates, notthe cephalochordates Cephalochordata Ascidiacea Vertebrata

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