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Lecture #14 Phylum Chordata: The vertebrate Phylum Phylum Chordata • only 45,000 species • characteristics: – – – – – – – – 1. bilaterally symmetrical 2. notochord 3. pharyngeal gill slits 4. dorsal, hollow nerve cord 5. post-anal tail 6. complete digestive system 7. thyroid gland 8. ventral, contractile heart Numbers 1 – 5 may be in a unique combination and are found at some stage in development Chordates Craniates Vertebral column Head Brain Notochord Ancestral deuterostome • Chordate classification characteristics: • Notochord? No Echinoderms • Notochord? Yes keep evolving • Brain? No Urochordate (tunicate) • Brain? Yes keep evolving • Head/Cranial cavity? No Cephalochordate (lancelet) • Cranial cavity? Yes keep evolving • Vertebral column? No Hagfish • Vertebral column? Yes Lampreys & keep evolving baby!!! Phylum Chordata • notochord: – supportive rod that extends most of the animal’s length – extends into the tail – dorsal to the body cavity – flexible to allow for bending but resists compression – composed of large, fluid-filled cells encased in a fairly stiff fibrous tissue – will become the vertebral column in many chordates Phylum Chordata • dorsal, hollow nerve cord: – runs along the length of the body – dorsal to the notochord – expands anteriorly as the brain – develops from ectoderm – BUT: in most vertebrates – nerve cord is solid and is ventral to the vertebral column Phylum Chordata • pharyngeal gill slits: – series of openings in the pharyngeal region of the embryo – develop as a series of pouches separated by grooves – in some embryos – grooves develop into slits – used in primitive chordates for filter feeding – in aquatic vertebrates – transformed these slits/pouches into gills – embryonic in terrestrial chordates Phylum Chordata • SubPhyla: – Urochodata: sea squirts (tunicates) • notochord, pharyngeal gill slits, and tail present in freeswimming larvae – Cephalochordata: amphioxus • all four chordate traits persist through life – Hyperotreti: hagfishes • jawless, no paired appendages – Vertebrata: vertebrates Subphylum Cephalochordata • • • • known as the lancelets earliest diverging group of chordates get their name (Lancelet) from their blade-like shape embryos develop: a notochord, a dorsal, hollow nerve cord, pharyngeal gill slits and a post-anal tail • filter-feeders – cilia draw water into the mouth • swim like fishes – chevron shaped muscles on either side of the notochord Muscle segments Notochord Dorsal, hollow nerve cord Brain Mouth Muscular, post-anal tail Anus Pharyngeal slits or clefts Subphylum Urochordata • tunicates • embryonic/larval stage has the characteristics of the chordate • larva swims to a new substrate and undergoes metamorphosis – to form the adult tunicate • retain the pharyngeal gill slits in the adults • water flows in through an incurrent siphon - filtered by a net of mucus on the pharyngeal gill slits Incurrent siphon to mouth Excurrent siphon Atrium Pharynx with numerous slits Tunic Excurrent siphon Anus Intestine Esophagus Stomach Craniates • chordates with a head • head – consists of a brain, surrounded by a skull, and other sensory organs • living craniates all share a series of unique characteristics • most basic craniate – hagfish https://www.youtube.com/watch?v=t5PGZRxh AyU Vertebrates • branching off from the primitive chordates involved innovations in the nervous system and skeleton – vertebraes have a more extensive skull – development of the vertebral column composed of vertebrae • most vertebrates – vertebrae enclose a spinal cord (replaces the notochord) – development of fin rays in aquatic vertebrates – development of limbs in terrestrial vertebrates • adaptations in respiration and circulation – more efficient gas exchange system – gills are modified in aquatic vertebrates; lungs in the terrestrial vertebrates – more efficient heart – 2 to 4 chambered • adaptations in thermal regulation – warm blooded vs. cold blooded • adaptations in reproduction – amniotic egg – placental animals Vertebrate Taxonomy • most basal vertebrate – lamprey – jawless • development of jaws marked the evolution of the gnathostomes • development of ray-finned fishes lungs marked the evolution • development of lobed fins marked the evolution of lobefinned fishes • development of limbs marked the development of amphibians and reptiles • development of mammary glands marked the development of mammals • Vertebrate classification requirements: • Vertebral column? No Hagfish • Jaws? No Lampreys • Bony skeleton? No Sharks, Milk Rays Amniotic egg • Lobed fins? No? Ray finned Legs fish Lung derivatives • Lung derivatives? No Lobed fins Coelocanth Mineralized skeleton • Legs? No Lungfish Jaws • Amniotic egg? No Vertebral column Amphibian Head • Milk? No Reptile Brain • What’s left??? MAMMALS!! Chordates Craniates Vertebrates Gnathostomes Osteichthyans Lobe-fins Tetrapods Amniotes Notochord Ancestral deuterostome
