Hemichordata and Invertebrate Chordates

Phylum Hemichordata All live marine environments. Characteristics of Hemichordata:- All live marine environments. Bilaterally symmetrical. Body divided into three sections, a proboscis, a collar and a trunk.

Body cavity a true coelom divided into three cavities. Complete digestive tract, feeds on fine particles in the water. Dorsal, sometimes tubular, nerve cord.

Class Enteropneusta Marine worms Ciliated epidermis and glands cover acorn worms Burrow in sandy and muddy substrates Common name ‘acorn worms’

Maintenance Functions Ventral Mouth Lateral Pharyngeal slits,few to several hundred Cilia and mucus assist acorn worms in feeding Ciliary tracts converge near the mouth and form a mucoid string that enters the mouth

Eww!!! Enteropneusta extends its posterior end out of the burrow during defecation. Eww!!!

Nervous system Ectodermal in origin Lies at the base of the ciliated epidermis Consist of dorsal and ventral nerve tracts No major ganglia Sensory receptors are unspecialized

Respiration Simple diffusion of metabolic waste Cilia associated with Pharyngeal slits circulate water into mouth and out of body Gas exchange as water passes through pharyngeal slits

Circulatory system Colorless blood moves nutrients and wastes Dorsal and ventral contractile vessel Blood moves anteriorly in dorsal Posteriorly in ventral vessel Branches from theses vessels lead to open sinuses (Partially open circulatory system) Anterior flowing blood moves through glomerulus (excretory organ) Waste filtered into proboscis coelom and out through pores found in wall of proboscis

Reproduction and Development Dioecious!! pheromones External Fertilization

Evolutionary ties b/w hemichordatres and echinoderms Ciliated larvae

Class Pterobranchia pteron- wing branchia- gill Deep marine water Some live in shallow waters

Body divided into three regions Size 0.1 - 5mm

Individuals called zooids

Most live in secreted tubes in asexually produced colonies

Maintenance Functions Filter feeders Cilia on tentacles trap and transport Food to mouth Respiration and excretory exchange by diffusion

Reproduction and Development Asexual budding is common and responsible for colony formation Also some posses one or two gonads Most species are dioecious External fertilization Planula-like larva (cnidarian) Settles to a substrate, forms cocoon and metamorphoses into an adult

Phylum Chordata Characteristic of the chordates Deuterostome embryo development Notochord, phayngeal slits or pouches, dorsal tubular nerve cord, and postanal tail Coelomate animals Bilateral symmetry Endoskeleton Two major groups: nonvertebrate chordates and vertebrates

Subphylum Urochordata Uro, tail and chorda, cord Class ascidians Tunicates or sea squirts

Solitaire or colonial Sessile adults Attach to solid substrates two siphons that permit seawater to circulate through the body Oral siphon also the mouth Atrial siphon

Body wall Tunic- gown Connective tissue like covering Tough secreted by the epidermis Composed of proteins Salts, cellulose Stolons extensions of tunic help root

Maintenance Functions Longitudinal and circular muscles below the body wall epithelium Nervous system largely confined to body wall Forms nerve plexus with a single ganglion between oral and atrial opening Sensitive to mechanical and chemical stimuli around siphon but no complex sensory organs

Reproduction and Development Tadpole larva Attaches to substrate by adhesive papillae located below the mouth During development internal structures rotate 1800 bending the digestive tract into a U-shape

Reproduction and Development Monoecious Self fertilization and cross fertilization

Subphylum Cephalochordata Elongated laterally flattened nearly transparent Lancelets Size up to 5 cm tadpole like animals All four chordate characteristics persist throughout life Shallow waters genera Branchiostoma (Amphioxus)

Reproduction and Development Dioecious Gonads shed gametes into the atrium Leave the body through the atriopore External fertilization Bilaterally symmetrical larva Larva free swimming Larva Settle to substrate then metamorph into adults

Maintenance Function Filter feeders Buried in sandy substrate Mouth pointed upward

Edible particles move along cilia to the gut Cilia on lateral surfaces of gill sweep water into mouth Food sorted in the cirri Edible particles move along cilia to the gut

No true heart Contractile waves in the walls of major vessels propel blood Blood contains amoeboid cells and bathes tissues in open spaces

Excretory tubules are modified coelomic cells closely associated with blood vessels. Coelom reduced- restricted to canals near the gill bars, endostyle and the gonads