Transcript Ch 25 PPT
Chapter 25
Worms & Mollusks
25-1 FLATWORMS
Flatworms
• Phylum Platyhelminthes
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–
–
–
Acoelomates
Thin, solid bodies
Bilateral symmetry
Found in marine,
freshwater, and
moist habitats on land
– Examples: tapeworms, flukes, and
planarians
Feeding and Digestion in
Planarians
• Feed on dead or
slow moving
organisms
• It extends the
pharynx out of its
mouth
• Enzymes digest the
food outside of the
body
• Food is sucked into
pharynx
Planarians
• Head – senses and responds to the
environment
• Eyespots – sensitive to light
• Sensory pits – used to detect food, chemicals,
and movements in the environment
• Pharynx – muscular tube that extends outside
the body to digest food
• Cilia – underneath, help with moving the
planarian
• Flame cells – helps to remove water from the
planarian’s body
Head
Eyespot
Nerve chord
Digestive
Cavity
Nervous Control in Planarians
• Some have a nerve
net and others have
a simple central
nervous system
• Ganglia receive
messages from the
eyespots and
sensory pits and
then communicates
with the rest of the
body through nerve
cords
Reproduction in Planarians
• Asexually, they
regenerate body
parts by mitosis
• Most are
hermaphrodites
• Sexually- two
flatworms exchange
sperm to fertilize
eggs internally
• Zygotes are released
in capsules into
water
Diversity of Flatworms
• Planarians are free-living
• Tapeworms and flukes are parasites
which live in many vertebrates (dogs,
cats, cows, humans, etc.)
Tapeworm
Fluke
Feeding and Digestion in
Parasitic Flatworms
• Parasites live on or in
another organism and
depends on it for food
• Have mouthparts with
hooks to attach to host
• They do not have a
complex nervous
system, muscular
tissue, or digestive
organs because they
are surrounded by
nutrients
Tapeworm bodies have
sections
• The body is made of
a head and
repeating sections
called proglottids
• Scolex – head
• Proglottid –
contains muscles,
nerves, flame cells,
and reproductive
organs
The Life Cycle of a Fluke
The Life Cycle of a Fluke
• Adults live in blood vessels
• Fluke eggs pass out of body in waste product
• Eggs hatch into free-swimming larvae and
enter the snail host
• Larvae develop and reproduce in the snail
and then leave the snail
• When humans walk in water, the flukes bore
through the skin and enter the bloodstream
and into the intestines
Fluke Life Cycle
Beautiful Flatworms
Marine Flatworms of Japan
Flatworms from Maldives
Flatworms from the Red Seas
Flatworms from the Philippines
and Thailand
Flatworms from Australia and Fiji
Flatworms from Hawaii and Pacific
Coast
From Atlantic Ocean
From East Asia
Chapter 25.2
Roundworms and Rotifers
Roundworms
• Phylum Nematoda
– Live in soil, animals, freshwater, and
saltwater
– Most are free-living, but some are parasitic
– Tapered at both ends
– Thick outer coverings
– Have longitudinal muscles to make the
worm move back and forth
– Pseudocoelomate
– Two openings: a mouth and anus
Nematode- roundworm
Two Roundworms
Reproducing
Roundworm Diversity
• Ascaris infect mostly children who put soil
into their mouths or eat veggies that are
not cleaned
– Intestines to bloodstream to lungs
• Hookworms infect humans walking
barefoot in warm climates
– Cause weakness due to blood loss
Ascaris
Ascaris (Intestinal Roundworm)- These
nematodes are found exclusively in humans
and are present mostly in unsanitary areas
without modern plumbing. Around one in six
people worldwide are infected by Ascaris
(Raven et al. 746). A study conducted in
Cameroon focused on school children and
found that 65.5 % were infected with Ascaris
parasitic roundworms. Ascaris eggs are spread
through feces, and, when ingested, hatch and
bore through the intestinal wall. They move to
the heart, the lungs, and finally out the
breathing passages where they are swallowed,
thus perpetuating the cycle. Females lay
hundreds of thousands of eggs each day and
can reach nearly 30 centimeters in length
(Raven et al. 746).
Hookworms
Researchers have long noted that
humans in tropical areas known to
be hookworm hotbeds have much
lower rates of allergies. Recent
research also suggests that
hookworms may indeed prevent
allergy attacks. The speculation is
that in an absence of such parasites,
people's immune systems have
essentially too much time on their
hands, causing the disproportionate
and inappropriate immunoresponses that result in allergies.
The hookworms must avoid
detection in order to survive and
thus "damp down" humans'
immune systems with proteins.
Roundworm Diversity
• Pinworms infect children that eat things
that came from contaminated soil
– Females lay eggs near anus, leading to
itching and infection
• Trichinella cause trichinosis and enter
the body through undercooked pork
Pinworms
Roundworm Diversity
• Filarial worms cause
Elephantiasis and
heart worms.
• Carried by
mosquito
Elephantiasis
Nematodes as Parasites
o Many Nematodes are decomposers, but a lot are
parasites, such as heartworms. Humans host
about 50 species of nematodes. Many infect
insects and on plants.
Guinea Worm
• The guinea worm is a parasitic
nematode that causes Guinea Worm
Disease, or Dracunculiasis. Carried by
water fleas. Only females survive.
Can take 2 months to remove one.
People can have up to 60 worms.
Preventable by having clean drinking
water.
Roundworm Diversity
• Nematodes infect other organisms besides
humans
– Trees, cereal crops, food crops, and fungi
Pinewood nematode
Phylum Rotifera
“Wheel-bearer”
Phylum Rotifera
• pseudocoelomate
• aquatic and microscopic
• males are rare and even unknown in some
species
• Parthenogenesis- female rotifers produce
diploid eggs that do not need fertilization
• cilia located near the mouth aid in locomotion
• complete digestive system with mouth,
intestine and anus
Rotifers
Chapter 25.3
Mollusks
Phylum Molluska
• Coelomates
• Bilateral symmetry
• Protostomes
• Digestive tract with
two openings
• Muscular foot
• Mantle
Mollusk Feeding and
Digestion
• Radula- Tonguelike
organ with rows of
teeth that scrapes food
into mouth.
• Scrape algea off rocks
• Tear live prey apart
• Drill into shells of prey
• Both mouth and anus
• Complete gut: Digestive
glands, stomach,
intestines
Mollusk Respiration
• Gills- made of
filamentous
projections from the
mantle filled with
blood to diffuse
gases.
• Land snails and
slugs use the lining
of their mantles to
get oxygen from the
air.
Mollusk Circulation
• Open circulatory system - Blood is
pumped from vessels to open spaces
around organs. Slow moving organisms
(snails and clams).
• Closed circulatory system - Blood
confined to vessels that deliver oxygen
where it is needed. Faster moving
organisms (squid and octopus)
Mollusk Excretion
• Nephridium- filters waste from blood
• Waste leaves through the mantle cavity
Mollusk Nervous Systems
• Nervous system
• Some have a brain
– Octopus
• Some have eyes
– Octopus
– Squid
Mollusk Movement
• Muscular foot- clams use to
burrow in sand
• Some bivalves can clap shells
together to swim
• Siphon- Expels water from the
mantle to “jet-propel” through
the water
• Snails glide over a mucus trail
with muscle contractions
Mollusk Reproduction
• Sexually- aquatic male
and females release egg
and sperm into the water
for external fertilization.
• Land mollusks are usually
hermaphrodites with
internal fertilization.
• Trochophore- Larval stage
of most mollusks
Phylum Mollusca
1. Gastropods
2. Bivalves
3. Cephalopods
1. Class Gastropoda
• “Stomach-foot”
• Large foot under the
stomach
• Single shell- snail,
conch, periwinkle
• Thick mucus covers
bodiesnudibranches, slugs
abalone
Giant African Land Snail
2. Class Bivalvia
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Two-Shells
Filter feed
Moves slowly
Includes clams, mussels, oysters, and scallops
Mussels!
Oyster!
Clam!
Scallop!
And scallops have creepy eyes.
3. Class Cephalopoda
• “Head-foot”
• Fast
• Foot= arms/tentacles
with suckers
• Include: Squid,
octopus, nautilus,
cuttlefish
3. Class Cephalopoda
Cuttlefish
Octopus larva
Useful Mollusks Vs. Harmful Mollusks
• Filter water to clean
ecosystem
• Shells collected for
their beauty
• Pearls from oysters
• Snail venom used to
treat depression,
Alzheimer's, epilepsy,
heart disease
• Shipworms burrow
into boat wood
• Slugs eat garden
plants
Chapter 25.4
Segmented
Worms
Phylum Annelida
• Protostomes
• Segmented body divided by walls of
tissue
• Closed circulatory system
• Coelomates
• Bilateral symmetry
• Two body openings
Annelid Feeding and
Digestion
• Eat food/soil
• MouthCrop
GizzardIntestine
Anus
• Some parasites can
store enough food to
last for months.
Annelid Circulation
• Closed circulatory
system
• Enlarged vessels
near the head are
used to pump blood
like a heart
Annelid Respiration and
Excretion
• Land annelids
breath through skin
• Aquatic annelids
have gills
• Segmented worms
have two nephridia
per segment to
collect and export
waste
Annelid Nervous System
• Brain
• Nerve chords made
of ganglia (group of
nerve tissue)
• Can detect light and
vibrations
Annelid Movement
• First- Contracts circular muscles to
lengthen segments.
• Second- Contracts longitudinal muscles
to shorten segments, pulling the posterior
segments forward.
• Setae- Bristles that
anchor the worm in the
soil during movement.
Annelid Reproduction
• Asexually- fragmentation, some worms
can regenerate missing pieces.
• Sexually- hermaphrodites, they exchange
sperm between clitellum segments
• Young develop in a cocoon.
Phylum Annelida
1. Class Oligochaeta
1. Earthworms
2. Class Polychaeta
1. Polychaetes
3. Class Hirudinea
1. Leeches
1. Earthworms: Class
Oligochaeta
• Eat their own mass in soil per day
• Aerate the soil by tunneling
• Live for about two years
• Come to the earth’s surface when it rains
to find a mate while the ground is damp
and it is easier to move.
• Compost organic waste
2. Class Polychaeta
• Bristleworm
and
Fan Worm
• Marine animals
• Have eyes
• Fan worms are sessile filter feeders that
retreat into their tube if disturbed.
3. Leeches: Class Hirudinea
• Parasite
• Live in fresh water
• Front and rear suckers
• Can be used after surgery to prevent
blood clotting and drain blood that has
pooled
• Saliva contains anesthesia
– Anesthesia: Prevents any pain
– Anticoagulants: Prevents blood clots