1. Protostome Animals

2. Chapter 31 Opening Roadmap.
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3. The largest phylum on Earth!
Figure 31.1
Major protostome bilaterian phyla
Major deuterostome bilaterian phyla
The largest phylum on Earth!
Arthropoda
Chelicerates
Nematoda
Crustaceans
Myriapods
Mollusca
Insects
80K species
Over 1 Million insect species!
Platyhelminthes
Annelida
Chordata
Figure 31.1 The Relative Diversity of Animal Lineages.
Echinodermata
Cnidaria
Porifera
Other
invertebrates
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4. The bilaterian protostomes are divided into two major groups.
Figure 31.2
Porifera
Ctenophora
ANIMALS
Cnidaria
LOPHOTROCHOZOA
Rotifera
Platyhelminthes
Annelida
PROTOSTOMES
Mollusca
ECDYSOZOA
Nematoda
Tardigrada
BILATERIANS
Onychophora
Arthropoda
Echinodermata
Chordata
DEUTEROSTOMES
The bilaterian protostomes are divided into two major groups.
Figure 31.2 Protostomes Are a Monophylatic Group Comprising Two Major Lineages.
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5. The lophophore is a suspension feeding structure around the mouth.
Table 31.1
The lophophore is a suspension feeding structure around the mouth.
Lophotrocho-zoans are 13 phyla, of which these four are well known.
The trochophore is a larval stage with a ring of cilia.
Table 31.1 Key Lineages of Lophotrochozoans.
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6. These structures name the Lophotrochozoans:
Figure 31.4
These structures name the Lophotrochozoans:
(a) Lophophores function in suspension
feeding in adults.
(b) Trochophore larvae swim and may feed.
Food particles
Food particles
Water
current
Anus
Mouth
surrounded
by the
lophophore
(ring of
ciliated
tentacles)
Mouth
Cilia used in
locomotion
and feeding
Figure 31.4 Lophotrochozoans Are Named after Two Traits.
Anus
Gut
0.1 mm
0.1 mm
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7. What Is a Lophotrochozoan?
Many lophotrochozoan phyla include species that have long, thin, tubelike bodies that lack limbs; they are worms with a basic tube-within-a-tube design
The outside tube is the skin, which is derived from ectoderm
The inside tube is the gut, which is derived from endoderm
Muscles and organs derived from mesoderm are located between the two tubes
Worms may or may not have a coelom

8. Platyhelminthes—flatworms
Figure 31.6
Platyhelminthes—flatworms
(a) Free-living turbellarian
Eye spots
Gut
Pharynx
Mouth
0.5 mm
Male
Female
(b) Parasitic fluke
Figure 31.6 Wormlike Lophotrochozoans Are Diverse.
In planarians, the pharynx is both mouth and anus; the digestive system is a “blind pouch”
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9. Annelida—segmented worms
Figure 31.6
Annelida—segmented worms
(c) Marine polychaete
1 cm
Bristle-like
chaetae on
parapodia
(d) Terrestrial earthworm
oligochaete
Earthworms have small setae that provide friction for pushing and pulling body sections through moist soil.
Figure 31.6 Wormlike Lophotrochozoans Are Diverse.
Leeches (not shown) are also annelids
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10. What Is a Mollusk?
Mollusks are a highly diverse monophyletic group of lophotrochozoans
Characteristic body plan:
Foot—a large muscle located at base of the animal, used in movement
Visceral mass—the region containing most of the main internal organs and external gill
Mantle—outgrowth of the body wall that covers the visceral mass, forming an enclosure called the mantle cavity

11. Molluscs are a diverse group of lophotrochozoans
Figure 31.7
Molluscs are a diverse group of lophotrochozoans
Shell
(when
present)
Mantle
cavity
Radula
Gill
Muscular
foot
Visceral mass (internal
organs and external gill)
(secretes shell)
Figure 31.7 Mollusks Have a Distinct Body Plan.
Molluscs radiated into several lineages:
Chitons (mollusks with dorsal shells made of plates)
Bivalves (clams and mussels with two shells)
Gastropods (slugs and snails—no shell, one spiral shell)
Cephalopods (squid and octopuses)
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12. Table 31.2 Key Lineages of Mollusks.
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13. Stripes are waves of muscle contraction Figure 31.8
Figure 31.8 How Snails Walk on One Foot.
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14. 50 µm Rasp-like radula scrapes off pieces of food Figure 31.9
Figure 31.9 The Radula Is Unique to Mollusks.
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15. mantle fills with water
Figure 31.10
Cavity enclosed by
mantle fills with water
Water is forced out through
siphon; animal moves
Figure Jet Propulsion in Mollusks.
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16. The bilaterian protostomes are divided into two major groups.
Figure 31.2
Porifera
Ctenophora
ANIMALS
Cnidaria
LOPHOTROCHOZOA
Rotifera
Platyhelminthes
Annelida
PROTOSTOMES
Mollusca
ECDYSOZOA
Nematoda
Tardigrada
BILATERIANS
Onychophora
Arthropoda
Echinodermata
Chordata
DEUTEROSTOMES
The bilaterian protostomes are divided into two major groups.
Figure 31.2 Protostomes Are a Monophylatic Group Comprising Two Major Lineages.
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17. (a) Lophotrochozoans grow incrementally. (b) Ecdysozoans grow
Figure 31.11
(a) Lophotrochozoans grow
incrementally.
(b) Ecdysozoans grow
by molting.
Figure Lophotrochozoans and Ecdysozoans Differ in Their Mechanism of Growth.
Growth
bands
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18. Table 31.3 Key Lineages of Mollusks.
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19. Table
Table Key Lineages of Arthropods (Traditional Groupings, Separating Insects from Crustaceans)
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20. Table
Table Key Lineages of Arthropods (Traditional Groupings, Separating Insects from Crustaceans)
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21. Major segments Minor segments
Figure 31.12
(a) Insects have three tagmata.
Tagmata
Major segments
Head
Thorax
Abdomen
Note: all legs and wings attach to thorax
Jointed limbs
Minor segments
Segmented body
Exoskeleton
(covers body)
(b) Spiders have two tagmata.
Tagmata
Abdomen
Figure Arthropods Have a Specialized Body Plan.
Cephalothorax
Chelicerae
Pedipalp
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22. Table
Table Key Lineages of Arthropods (Traditional Groupings, Separating Insects from Crustaceans)
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23. Appendages on different segments have different…
Figure 31.13
Appendages on different segments have different…
Primary functions:
Sensory
Feeding
Defense
Walking
Swimming
A crayfish is a decapod crustacean
Figure Arthropods Have a Modular Body Plan.
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24. There are three major classes of arthropods.
Figure 31.15
ONYCHOPHORA
CRUSTACEA
There are three major classes of arthropods.
Crabs
Lobsters
Shrimp
Isopods
Copepods
Two pairs of
antennae
Barnacles
Recent data indicate insects are nested within the clade of crustaceans
Brine shrimp
Remipedes
Loss of one
pair of
antennae
Insects
MYRIAPODA
Centipedes
Millipedes
ARTHROPODA
Single pair
of antennae
Figure Phylogeny of the Major Groups of Arthropods.
CHELICERATA
Sea spiders
Mites
Chelicerae
and pedipalps
Ticks
Horseshoe
crabs
Scorpions
Spiders
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25. (a) Aphid: Incomplete metamorphosis (hemimetabolous metamorphosis)
Figure 31.16a
(a) Aphid:
Incomplete metamorphosis
(hemimetabolous metamorphosis)
Nymphs
Figure 31.16a Insect Metamorphosis Can Be Incomplete or Complete.
Nymphs look like smaller versions of adults and eat
the same foods.
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26. Complete metamorphosis is 10 times more common among insects!
Figure 31.16b
(b) Mosquito:
Complete metamorphosis
(holometabolous
metamorphosis)
Adult
Pupae
Larvae
Larvae look substantially different from adults and
eat different foods.
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Figure 31.16b Insect Metamorphosis Can Be Incomplete or Complete.
Complete metamorphosis is 10 times more common among insects!