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Phylum platyhelminthes
Ch. 36 Platyhelminthes Phylum platyhelminthes · Flatworms · 3 cell (germ) layers · More complex than sponges, cnidarians and ctenophores Bilateral symmetry (left and right side)
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3 Classes class: turbellaria *planaria (free living) class: trematoda
*flukes (parasitic) class: cestoda *tapeworms (parasitic) These three classes make up 18,000 species
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Structure and Function
· Simplest animal with bilateral symmetry · Develops from 3 germ layers 1. ectoderm (outer layer) 2. mesoderm (middle layer) 3. endoderm (inner layer) · In flatworm, all 3 germ layers are pressed against each other to form solid body Belong to group called acoelomate which means without body cavity
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A. Respiration Since flat shape, all cells are in relative contact to its environment, so each cell exchanges gases by diffusion. It has no circulatory or respiratory system.
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B. Digestion · Gastrovascular cavity is a gut with single opening. Food taken in, digested, and all waste back out same opening.
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C. Nerves Located in anterior end, called cephalization.
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1. Turbellaria: non parasitic
· Majority live in ocean · Some in fresh water *Planaria dugesia (known as Planaria) · Move in water using wave like motion Move on ground by producing mucous and using cilia to glide on it
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Planaria
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Planarian Anatomy
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A. Digestion · Feed on decayed plant or animal · Food ingested through pharynx (muscular tube) extended through middle of body · Goes to gastrovascular cavity · Cells here absorb nutrients draw p a
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Digestion
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B. Excretion · Through network of excretory tubules
* To get rid of waste · Through network of excretory tubules · Run length of body · Connects to flame cell which are enclosed tufts of beating cilia Draw p b
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C. Nerves · Ganglia receive information from sensory cells
· 2 clusters of nerve cells at anterior end called cerebral ganglia which serves as simple brain · Ganglia receive information from sensory cells · Transmit signals to muscles along nerves · Has ability to learn: moves from light · Uses eyespot near ganglia to sense environment Draw p c
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D. Reproduction · Hermaphrodites · When reproduce sexually, they simultaneously fertilize each other · Usually asexual in summer by regeneration They attach posterior end to something, anterior end moves until it splits. This is fission. Each half then regenerates into 2 complete planaria. Draw p d
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2. Class Trematoda · Leaf shape parasites
· Flukes · Leaf shape parasites · Difference between free-living and parasitic is that parasitic flatworms have simpler structures Live inside host or outside on host
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A. Digestion · Anterior sucker is around mouth
· Attaches itself with anterior and ventral sucker (see fig p.711) · Anterior sucker is around mouth · Draws hosts body fluid into gastrovascular cavity Wastes go out the same opening
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B. Nerves · No eyespots Entire external surface is covered by a sheet of fused cells called tegument which protects fluke against host
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C. Reproduction · Hermaphrodites but sexual reproduction occurs · Human is the primary host (this is where harm can be done) · Adult worm lives in human blood vessels · Eggs and sperm fertilize · Some fertilized eggs make it to host’s bladder and intestines and get excreted in urine or feces
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Reproduction · These eggs make it to fresh water and develop into ciliated larvae · These larvae find a particular species of snail. They burrow into snail’s tissue and asexual reproduction takes place. Snail is intermediate host (no harm is done here) · Larvae develop tails and leave · Enter skin of human and begin cycle again · Bad in Asia, Africa and S. America Draw life cycle transp. 149 also on p.712 fig. 36-4
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3. Class Cestoda · Tapeworms · Parasitic
· In intestines of most vertebrates · Up to 7 species can affect humans · Get through raw or undercooked food, which contains eggs or larvae Causes digestive problems, weight loss, lack of energy and anemia
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Tapeworms
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A. Digestion · No gastrovascular cavity · No digestive organs
· No mouth · No gastrovascular cavity · No digestive organs Absorb nutrients directly from host’s digestive tract through its own tegument
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B. Structure · Anterior is knob-shaped called scolex which has hooks and suckers · Short neck connects to proglottids (draw structure fig p. 713) · As tapeworm grows, it adds new proglottids behind scolex, and pushes others behind · Can be ft. in length
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C. Excretory Out same manner as absorption
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D. Nerves · No eyespots · No light sensitive structures
Have tegument which is close to environment
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E. Reproduction · Hermaphrodites
· Sperm from 1 proglottid fertilizes eggs from itself or another worm · Has 2 hosts *primary host is human *intermediate host is cow or pig Draw life cycle of tape worm transp. 150 or fig p. 714 · Hermaphrodites · Each proglottid contains both sex organs · Eggs stored in uterus Oldest proglottids have most eggs (up to 100,000)
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