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Phylum Bryozoa “moss animals”

Phylum Bryozoa “moss animals”. Bryozoa Characteristics. Triploblastic. Organ level of organization. Bilateral Symmetry. Eucoelomate. Protostome. Bryozoa Characteristics. Gas Exchange. no organs, simple diffusion. Circulatory System. no organs, coelomic fluid. Excretion.

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Phylum Bryozoa “moss animals”

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  1. Phylum Bryozoa “moss animals”

  2. Bryozoa Characteristics Triploblastic Organ level of organization Bilateral Symmetry Eucoelomate Protostome

  3. Bryozoa Characteristics Gas Exchange • no organs, simple diffusion Circulatory System • no organs, coelomic fluid Excretion • no organs, simple diffusion Nervous system • nerve ring surrounding pharynx and nerves in tentacles (no sensory organs)

  4. Bryozoa Characteristics Skeletal system • most have a cuticle composed of chitin or calcium carbonate (zoecium) zoecium

  5. Bryozoa Characteristics Digestive System • lophophore: a contractile ring of ciliated tentacles surrounding the mouth • complete digestive system • U-shaped with anus outside lophophore (ectoproct) lophophore mouth anus

  6. Bryozoa Characteristics Reproduction • most are monoecious • most species brood their eggs externally or within special cavities in their bodies • freshwater species are capable of asexual reproduction using statoblasts (similar to gemmules) statoblasts

  7. Bryozoa Characteristics Colonial • bryozoans are sessile and live in colonies (zoarium) • colonies can be encrusting (thin sheets) or stoloniferous (plant-like) encrusting bryozoan stoloniferous bryozoan

  8. Bryozoa Characteristics Colonial • all zooids within a colony are connected by pores in each individuals cuticle • some Bryozoans are polymorphic and contain defensive zooids called avicularia pores Used in defense and anti-fouling

  9. Phylum Echinodermata “spiny skinned” animals

  10. Echinodermata Characteristics Triploblastic Organ level of organization Pentamerous Radial Symmetry No head, no brain Eucoelomate Deuterostome

  11. Protostome vs Deuterostome Protostome Deuterostome • blastopore becomes the anus • radial / indeterminate cleavage • regulative development • enterocoely • (Echinodermata, Chordata • blastopore becomes the mouth • spiral / determinate cleavage • mosaic development • schizocoely • (Annelida, Arthropoda, Mollusca, Bryozoa*)

  12. Protostome Mouth Formation Blastopore becomes the mouth and the anus forms secondarily Future anus blastopore archenteron (primitive gut) mouth

  13. Deuterostome Mouth Formation Blastopore becomes the anus and the mouth forms secondarily Future mouth blastopore archenteron (primitive gut) anus

  14. Protostome: Spiral Cleavage 2 cells 4 cells 8 cells Blastomeres divide at an oblique angle to one another, so that each lies in the furrow created by the cells beneath them

  15. Deuterostome: Radial Cleavage 2 cells 4 cells 8 cells Blastomeres divide in a symmetrical fashion, producing layers of cells directly on top of one another

  16. Protostome: Mosaic Development One blastomere is removed Development is arrested (or is defective) 4-cell stage

  17. Deuterostome: Regulative Development One blastomere is removed Development continues Development continues 4-cell stage  each blastomere is capable of regulating its development even when separated from the others

  18. Protostome: Schizocoely blastocoel mesodermal cells developing coelom split in mesoderm ectoderm endoderm mesoderm

  19. Deuterostome: Enterocoely blastocoel early mesodermal pouch separation of pouches from gut developing coelom ectoderm endoderm mesoderm

  20. Echinodermata Characteristics Water Vascular System A system of coelomic canals that functions in: circulation, gas exchange, excretion, and locomotion. stone canal madreporite ring canal radial canal tube feet

  21. Echinodermata Characteristics Water Vascular System ampulla podium The structure of the tube foot

  22. Echinodermata Characteristics Dermal Endoskeleton • All echinoderms have a dermal endoskeleton that is composed of calcareous ossicles and is covered by epidermis. • The endoskeleton allows continuous growth and provides protection. Fused to form a test (e.g. sea urchins) Articulating plates (e.g. starfish)

  23. Echinodermata Characteristics Dermal Endoskeleton • In many echinoderms the skeleton bears spines or bumps that are used for defense. Sea urchin Spines on crown of thorns starfish

  24. Echinodermata Characteristics Dermal Endoskeleton • The epidermis covering the endoskeleton contains many specialized structures: Dermal branchiae (respiration) Pedicellaria (anti-fouling)

  25. Echinodermata Characteristics Reproduction • usually dioecious • usually external fertilization (eggs and sperm are shed into the water where fertilization occurs) • indirect development with the presence of a free-swimming, bilateral larval stage (some have direct development) spawning sea urchins bilateral larval stage

  26. Echinodermata Characteristics Reproduction • this bilaterally symmetrical larval form undergoes metamorphosis into an adult with radial pentamerous symmetry (with 5 or more radiating areas) bilateral larval stage radial pentamerous adult

  27. Phylum Echinodermata Class Asteroidea Class Echinoidea Class Ophiuroidea Class Holothuroidea Class Crinoidea

  28. Echinoderm Radiation aboral region anus • Asteroidea • arms oral region ambulacral region • Echinodea • fused ossicles • Ophiuroidea • no ambulacral region • no anus • Holothuroidea • secondarily bilateral • Crinoidea • on a stalk • feathery arms

  29. Class Asteroideathe “sea stars”

  30. Class Asteroidea • star shaped with variable number of arms • ambulacral grooves open with tube feet on oral side • anus and madreporite on aboral side • tube feet usually have suckers • pedicellaria present

  31. Class Asteroidea aboral oral

  32. Class Echinoidea the“sea urchins”, “sand dollars”, “heart urchins”, “sea biscuits”…

  33. Class Echinoidea • globular or disc- shaped with no arms • ossicle plates are fused to form a compact skeleton called a “test” • ambulacral grooves closed • movable spines with interspersed tube feet • tube feet usually have suckers • anus and madreporite aboral • pedicellaria present • Aristotle’s lantern

  34. Class Echinoidea aboral aboral where the spines attach ambulacral region

  35. Class Echinoidea oral Inside the animal oral aboral oral Aristotle’s lantern - complex chewing mechanism - 5 teeth are attached

  36. Class Ophiuroidea“brittle stars” and “basket stars”

  37. Class Ophiuroidea • star shaped with arms around an obvious central disc • ambulacral grooves closed and covered by ossicles (no tube feet within them) • tube feet without suckers and are not used for locomotion • incomplete digestive system no anus • pedicellaria absent

  38. Class Ophiuroidea oral aboral Central disc

  39. Class Ophiuroidea day • Although they don’t have any eyes, some brittle stars have photosensitive “lenses” all over their body. • They can detect light/dark such as shadows and change color. night

  40. Class Holothuroideathe “sea cucumbers”

  41. Class Holothuroidea • cucumber-shaped with no arms • secondarily bilateral • ambulacral grooves closed • microscopic ossicles are embedded in muscular body  soft body • tube feet with suckers and some are modified around the mouth as feeding tentacles • pedicellaria absent • respiratory tree for gas exchange

  42. Class Holothuroidea ambulacral region with tube feet oral aboral anus mouth feeding tentacles (modified tube feet)

  43. Class Holothuroidea • Many cucumbers have a “pearlfish” living inside them. • This skinny fish enters and leaves its host through the anus at night to feed. • It is unknown whether the pearlfish is a parasite that feeds on the internal organs of the sea cucumber or whether it leaves the sea cucumber unharmed.

  44. Class Crinoideathe “sea lilies” and “feather stars”

  45. Class Crinoidea • flower-shaped • arms bearing pinnules • stalked • ciliated ambulacral grooves on oral surface with tentacle-like tube feet for food gathering • body disc and stalk contain ossicles • madreporite, spines, and pedicellaria absent

  46. Class Crinoidea oral arm pinnules stalk aboral

  47. Regeneration • Most Echinoderms are capable of regenerating parts of their bodies when they are lost. Regenerating arm

  48. Regeneration • Some sea stars and brittle stars use regeneration as a way to reproduce asexually. “comet” sea star brittle star

  49. Regeneration • Most sea cucumbers are able to expel their intestine out of their anus, and regenerate the lost structures. • This is done in defense and during times of the year when food supply is low.

  50. Indeterminate Growth • Many Echinoderms can grow or shrink depending on resource availability. • Many do not seem to senesce, so unless they are killed by a disease or predator, it is unknown how long they can live…

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