Pseudocoelomate Animals: Nematodes in Depth
Explore the fascinating world of nematodes, detailing their structure, functions, energy metabolism, and examples like Ascaris and hookworms. Learn about common human parasitic infections caused by nematodes.
Pseudocoelomate Animals: Nematodes in Depth
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Presentation Transcript
Chapter 15 Pseudocoelomate Animals Kingdom: Phylum: Class: Order:
I. Intro A. General Characteristics of pseudocoelomates a. bilateral, unsegmented, triploblastic, complete gut (tube within a tube), lack circulatory and respiratory systems, dioecious, b. 2 cavities • gut cavity + pseudocoel formed from blastocoel • lack true coelom (peritoneal cavity), not lined w/ peritoneum c. body wall (epidermis)/dermis/muscles surrounding pseudocoel
B. Evolutionary Advantages of Pseudocoelom a. ↑ freedom of movement b. space for development (niche)/differentiation of digestive/reproductive/excretory systems c. storage area for wastes d. hydrostatic skeleton
II. Phylum Nematoda (Nemata): A. Form/Function a. Muscles • longitudinal (no circular), beneath hypodermis • run in 4 bands, marked by 4 hypodermal cords • Hydrostatic pressure • each muscle cells has contractile fibrillarportion (spindle) + noncontractile sarcoplasmic portion (cell body) • sarcoplasmic extends into pseudocoel, stores glycogen • What is glycogen???? • fibrillar is striated w/actin/myosin • See next slide: actin/myosin
P. Nematoda (Nemata): Form/Function b. Feeding/digestion • parasitic/predatory • mouth → pharynx → non-muscular intestine → rectum → anus • food sucked into pharynx • muscles contract, lumen expands • intestine is 1 cell thick • food moves posteriorly as new food enters and body moves • defecation occurs via opening anus + allowing pseudocoelomic pressure to expel waste
P. Nematoda (Nemata): Form/Function c. How do Nematodes get their energy?? • Anaerobic energy metabolism • Glycolysis??? d. Nervous/sensory system • 2 nerve cords, ventral nerve cords • sensory papillae at head/tail • amphids = pair of sensory organs on head • lead into a deep cuticular pit w/ modified cilia • Dendrites
Phylum Nematoda (Nemata): Form/Function d. Reproduction • most dioecious w/ ♂ smaller than ♀ • ♂ has copulatory spicules to hold ♀ vulva open against hydrostatic pressure • internal fertilization • eggs stored in uterus until deposited
III. Phylum Nematoda Examples • Common human parasites covered in class • Ascaris (large roundworms) • Pinworms • Hookworm • Porkworm • Filarial worms • Guinea worm
1st Nematode Parasite: Ascaris • Large roundworm of humans (Ascaris lumbricoides) • up to 64% of people in some areas of SE US • +1.2 Billion affected worldwide • infection rates highest in children • ♂ more heavily infected than ♀ • ♀ lays 200,000 eggs/day • eggs pass via host’s feces • embryos develop into infective juveniles in 2 wks • killed by direct sunlight/↑ temp. • resistant to dessication/↓ O2 • eggs remain viable long after fecal matter disappears
P. Nematoda: Ascaris continued… • infection via ingestion of eggs (finger/uncooked veggies) • juveniles hatch, burrow through intestinal wall to veins/lymph • carried through ♥ to lungs • break into alveoli and carried up trachea/pharynx • coughed up/swallowed • pass to stomach • mature in intestine after 2 months • feed on intestinal contents • may block/perforate intestines • emerge from anus/throat • enter eustachian tubes/middle ear • Roundworm in dogs/cats • similar life cycle as human roundworm • juveniles migrate to uterus of pregnant dogs • puppies infected
2nd Nematode Parasite: Necator • Hookworms (Necator americanus) • 9–11 mm • hook-like curve on anterior end • dioecious • large plates in mouth cuts into intestinal mucosa • then suck host’s blood • suck more than they digest (anemia) • eggs pass in feces • infective juveniles burrow through skin to blood • travel in blood to lungs • coughed up and swallowed • mature in the intestine • Secrete anticoagulant
3rd Nematode Parasite: Trichina • Trichina worm (Trichinella spiralis) • tiny • + 2.4% of US • trichinosis (potentially lethal) • adults burrow into intestinal mucosa • ♀ directly produce juvenile worms • juveniles penetrate blood vessels/circulate throughout body to all tissues (live 10-20 yrs) • penetrate skeletal muscle • redirecting gene expression of the musculature so it loses its striations • becomes a nurse cell to the parasite • encyst in muscle • excyst when poorly cooked meat containing encysted juveniles is eaten • infect humans/hogs/rats/cats/dogs
4th Nematode Parasite: Enterobius • Pinworms (Enterobius vermicularis) • most common nematode parasite in the US • 30% all children, 16% all adults • causes little disease • + 12 mm • adults live in large intestine/cecum • ♀ migrate to anal region at night/lay eggs (Scotch Tape Method) • itching • scratching contaminates hands and bedclothes • eggs develop/become infective w/i 6 hrs at body temp. • ingested, hatch in duodenum, mature in large intestine • haploid ♂ from unfertilized eggs • diploid ♀ come from fertilized eggs (haplodiploidy)
5th Nematode Parasite: Filarial Worms • Filarial worms • 8 sp. infect humans, 250 million people infected • some live in lymphatic system • cause inflammation/blockage of lymphatics • ♀ release live young (microfilariae) into blood/lymph • mosquitoes ingest microfilariae • worms develop to infective stage • move into mosquito bite wound when it feeds • Elephantiasis caused by repeated exposure • swelling/growth of connective tissue • dog heartworm (Dirofilaria immitis) • most common U.S. filarial worm • transmitted by mosquitoes
