Transcript Notes
Porifera, Cnidaria, and Flatworms Levels of Organization • All animals are multicellular – made of more than 1 cell • Animals can be organized on the cellular, tissue, or organ level of organization. • Cell – Sponge • Tissue – Jellyfish - Have endoderm & ectoderm only • Organ – Worms - Have ectoderm, endoderm, and mesoderm Type of Body Plan • Two body plans are present in the animal kingdom: • Sac plan: • Incomplete digestive system with only one opening. • Ex: Jellyfish • & planaria •Tube-within-a-tube plan: •Complete digestive system. •Two openings allows for specialization along the length of the tube. •Ex: Roundworms, earthworms, insects Type of Symmetry • Three types: • Asymmetrical animals have no particular symmetry. • Radial symmetry means the animal is organized similar to a wheel. • Bilateral symmetry means the animal has definite right and left halves. Type of Coelom • Coelom - an internal body cavity where internal organs are found. • Ex: Mollusks, annelids, echinoderms, vertebrates • Pseudocoelom - a body cavity incompletely lined with mesoderm. • Ex: Roundworms, rotifers • Acoelomates - have mesoderm but no body cavity. • Ex: Flatworms, sponges, jellyfish Segmentation • Segmentation is the repetition of body parts along the length of the body. • Animals can be segmented or nonsegmented. • Segmentation leads to specialization of parts. • Ex: annelids, arthropods, and chordates (includes vertebrates). • • • • • • Phylum Porifera - Sponges Meaning: Pore-bearing Symmetry – none (asymmetrical) Organization – cellular level Acoelomates – no body cavity (so no organs) Non-segmented Habitat – fresh & salt water • Anatomy (see below and on next slide) Osculum Amebocyte Collar cell Flagella Pore channel Pores Spicules Epidermis Internal cavity Filaments Flagella Collar cell Anatomy •Epidermis – found along outer body wall •Amoeboid cells (amebocytes) – middle layer •Transport nutrients •Produce spicules •Form sex cells •Collar cells - inner layer – digest nutrients •Collar cells contain the following: •Flagella - pull water in through pores and circulate water though the sponge •Filaments - trap food particles. • • • • Life processes Sponges are classified according to type of spicules Support - spicules (act like bones for the sponge) Diet - filter feeders – filter bacteria, protists, and sometimes small crustaceans Feeding – – Filaments trap food – Collar cells digest food •Movement: - Swim as larva - Sessile (permanently attached to a surface) as adults. •Response - no nervous system. •Excretion - through the osculum. •Respiration - take in oxygen as water passes through body – diffusion. •Reproduction – •Hermaphrodites (make eggs & sperm). •Asexually by: •Budding: Produce internal buds that can grow into new sponges when the conditions are more favorable •Regeneration: Growth of a whole organism from a fragment •Sexually: •Release sperm into the water •Sperm enters pores of another sponge of same species •Fertilizes egg within •Larva released through osculum •(see life cycle diagram next slide). •Poor reproductive odds!!! http://www.eeob.iastate.edu/faculty/DrewesC/htdocs/Q-sponge.htm 5. 1. 2. 1. Sperm 2. Egg 3. Dividing cells (spongocoel) 4. Larva 5. Larva released 6. Flagella (moves) 7. New sponge develops 6. 3. 7. 4. Phylum Cnidaria •Named for – specialized stinging cells called cnidocytes (contain the stingers called nematocysts – these may contain poison) •Symmetry – radial •Organization – tissue level •Acoelomates – no body cavity (so no organs) •Non-segmented; sac body plan •Habitat – mostly salt water, hydra found in fresh water •Body forms: may be a polyp or a medusa, or may alternate between the two forms. •Polyp – tentacles up, usually sessile •Medusa – tentacles down, usually active •Examples of animals – •Sea anemone – solitary polyp, very colorful •Coral – some solitary, most colonial, polyp form, calcium carbonate skeleton, form reefs •Portuguese man-of-war – colony of polyp & medusa individuals, each with specialized jobs such as feeding & reproduction •Jellyfish – medusa, can live at great depths •Hydra – freshwater, polyp form, commonly attached to underwater rocks or plants, less than 1cm in length Tentacle Mouth Ectoderm---- Ovary Stinging capsule -------Endoderm ------------------------GVC – Gastrovascular cavity Bud Testis Sperm Developing egg Basal disc Anatomy •Sac body plan – single opening serves as mouth and anus •Outer tissue layer – ectoderm •Inner tissue layer – endoderm •Mesoglea – jelly-like material that separates above 2 tissue layers •Muscle fibers running in 2 directions •Tentacles surround mouth •Large space inside called gastrovascular cavity (GVC) Life processes •Movement: •Directional •Move by contraction & expansion of body •Tentacles can grab prey •Response: •Nerve net – interconnecting nerve cells and communicate with sensory cells throughout body (think of a basketball net) •Support •Hydrostatic skeleton –fluid-filled closed chambers •Diet – protists and small animals •Feeding – •Sting prey with nematocysts (stingers) •Stuff food into mouth using tentacles •Don’t chase their prey – but movement of medusa can help drawn food in towards body. •Food passes into GVC (gastrovascular cavity) •Digestion – by cells of endoderm •Internal transport: •Nutrients and oxygen pass from cell to cell through the process of diffusion •Respiration: •Diffusion between ectoderm & water. •Excretion: •Wastes are excreted through the mouth •Reproduction: •Usually appear as separate males & females •Sexual reproduction – see life cycle diagram given separately •Jellyfish – •Release eggs & sperm into water •Swim as larva, settle as polyps, then divide to become medusa •Several young from one fertilized egg •Hydra – release egg or sperm from body wall; meet, swim as larva, settle as polyp Medusa Egg Blastula Planula Polyp Sperm •Asexual reproduction •Budding – cluster of cells form, break off , grow into adults •Regeneration – fragments develop into new animals Phylum Platyhelminthes •Meaning – flatworms •Symmetry - bilateral •Sac body plan •Non-segmented •Acoelomates •Organization – organ level •Have organs for all life processes except respiration and circulation •Habitat – fresh or salt water, moist environments, inside host •Examples: Tapeworms Marine flatworms Flukes Freshwater planarians Planarians • Lifestyle - free-living • Habitat - freshwater • Movement – secrete slime, push through with cilia, muscles • Excretion – flame cells – interconnecting canals throughout body • Response - small brain - ladder of nerves - light-sensitive eyespots - Auricles sensitive to chemicals • Respiration - diffusion •Internal transport - diffusion •Diet – plankton (small worms or crustaceans) •Feeding – wrap around prey - secrete slime - extend pharynx to suck up food •Digestion – occurs in GVC •Gender - hermaphrodites •Sexual reproduction – have sex, exchange sperm, each planaria gets pregnant - 2 sets of young hatch from eggs 2-3 weeks later. •Asexual reproduction – capable of regeneration; 1 worm can even grow 2 heads or 2 tails!! Planarian Eyespot Brain Auricle Longitudinal nerve cord Transverse nerve cord GVC Pharynx Flame cells Excretory pore Mouth Mesoderm Endoderm Ectoderm GVC Flame cells Cilia Ovary Oviduct Testes Sperm duct Penis Vagina Parasitic Flatworms • Two classes - flukes and tapeworms • Require host to carry on life cycle – see next slide • Primary host – infect as adult • Secondary host – infect as larval stage • Tapeworm – • Scolex with hooks and suckers to hold itself inside the gut. • No digestive system; absorbs host’s digested food through skin •Body is an assembly line of square sections called proglottids, which contain male and female sex organs. •As proglottids mature, they break off, pass with feces, and release eggs. •When animals feed in feces-contaminated food, larva eventually form cysts in muscles of secondary host. •When humans eat infected meat, larva hatch from cyst, attach to intestine, and grow to adulthood. 1. Hooks 2. Suckers 3. Scolex 4. Neck 5. Proglottids 6. Testes 7. Ovary 8. Eggs 9. Detached proglottid 10. Longitudinal nerve cord 11. Brain (ganglia) 12. Transverse nerve cord Life cycle: •Contracted by eating undercooked, infected beef, pork, or fish. •Transmitted to cats & dogs by fleas that have eaten feces of infected host •Primary symptom – weight loss •In prolonged infections – worms migrate to eyes, heart, brain, lungs, & liver & form cysts – cause swelling, cramps, diarrhea, anemia, & seizures •Diagnosed by fecal exam; treated with medicine Fluke •Have sucker at anterior end to attach to host •Various species – can infect digestive tract, bile duct, blood, & lungs. •Blood flukes cause schistosomiasis – one of the most common worm infections worldwide (about 200 million in mostly Middle East, Asia, Africa, & S. America) •Common in areas with poor sewage treatment •Enter through skin when in infected water – see life cycle diagram next slide Schistosomiasis •Diagosed by fecal exam; treated with medicine •Symptoms: nausea, abdominal pain, increased bowel movements, diarrhea, weight loss, fatigue •Burrow through host, feed on host’s blood & tissues. •Can live for up to 2-3 decades inside host (usually only 5-10 years) •Reproduce non-stop – 100 – 300 eggs/day