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8
Case History: Sherlock
Holmes and the Most
Dangerous
Marine Animal
RQ 7.1: In the Sherlock Holmes
story, The Lion's
Mane,
who
was the culprit
and what were the
tell-tale signs?
Featured Organisms
(p. 153-154):
Irukandji
stinger (a tiny cubomedusa,
Carukia
barnesi)
The sea
wasp (a larger cubomedusa,
Chironex
fleckeri)
I. The Animal Family Tree
Note: It is
recommended that you skip this section entirely.
It is worse
than old fashioned; it is grossly misleading.
Especially bad
is Figure 7.1, which is perhaps the most
"unparsimonious"
diagrams of animal evolution I have ever
seen. Instead,
view here for tree if the main groups of animals
and
here for tree of relationships within animals with bilateral symmetry (Bilateria).
II. Sponges
(Phylum Porifera)
More
Links
terms: osculum,
spicules
RQ 7.2: Why could it be said that sponges are important
to all the water overhead (that is, if they had a head)?
|
III. Jellyfish,
Sea
Anemones, Corals,
and Ctenophores
(Phyla Cnidaria
and Ctenophora)
terms:
a) Cnidarians
- More
Links
terms: polyp, medusa, colonies,
nematocysts
(or here)
RQ 7.3: Explain how the polyp and medusa are different parts
of a hydrozoan's life cycle?
RQ 7.4: What are nematocysts and how are they used by cnidarians?
RQ 7.5: Contrast a coral
and a siphonophore
as two kinds of
cnidarians that live as colonies.
Featured
organisms (p. 108, Fig. 5.1, p. 158, Fig. 7.5):
Siphonophores
(colonial
jellyfishes)
b) Ctenophores
- More
Links
terms: combs,
colloblasts
IV. The Larger
Worms (Phyla Annelida,
Hemichordata,
Echiura,
Sipuncula,
Nemertea,
and Pogonophora)
terms: deposit feeders, suspension feeders
RQ 7.6: Contrast deposit and suspension
feeding by what the
diet consists of in each case.
V. Smaller Worms and Parasites (Phyla
Nematoda,
Platyhelminthes,
Priapulida,
Chaetognath,
Acanthocephala,
Nematomorpha,
and Mesozoa)
terms:
VI. Squids, Snails, Bivalves,
and Chitons (Phylum Mollusca)
terms: radula, ctenidium (gill), foot, mantle (secretes shell),
mantle cavity (where gills are)
a) Snails and
Their Relatives (Class Gastropoda)
terms: trochophore and veliger
larval stages, velum,
protoconch (larval shell)
RQ 7.7: How does a veliger larva of a collect food differently
than it will when it later metamorphoses into a juvenile creeping
snail, for example on a rocky shore.
1) Prosobranch snails are grazers, predators, suspension feeders.
RQ 7.8: Give three contrasting examples of how adult gastropods
(including snails) can have extremely different means of
collecting food.
2) Opisthobranchs
(sea slugs including nudibranchs)
are
few in species, diverse in life-styles.
Featured Pelagic
Molluscs (p. 165-166):
floating
purple snail (Janthina janthina)
heteropods
(planktonic swimming snails)
pteropods
(planktonic opisthobranchs)
blue
dragon "solar powered" sea slug (Pteraeolidia
janthina)
RQ 7.9: Explain how a sea slug manages to be "solar powered."
b) Clams, Oysters,
Mussels, Scallops and Their Relatives
(Class Bivalvia)
terms: siphon
RQ 7.10: How does a clam use its siphon?
c) Octopuses, Squids, Cuttlefish, and Nautiluses
(Class Cephalopoda)
terms: pen
Featured
organisms (p. 108, Fig. 5.1, p. 167, Fig. 7.13c):
Chambered
nautilus (Nautilus)
-
More Links: 1
- 2 - 3
- 4
- 5
- 6
Cuttlefish
(Sepia)
Giant
squid (Architeuthis
dux, Box 7.1, Fig. 7.15) -
More Links: 1
- 2
Giant
Pacific octopus (Octopus
dofleini, Fig. 7.13b)
RQ 7.11: What is evidence that an octopus is "smart"
at least relative to other animals without backbones?
What is the evidence that there are limits to this
intelligence?
d) Chitons, Tusk Shells,
Monoplacophorans, and Solenogastors
(Classes Polyplacophora,
Scaphopoda,
Monoplacophora,
and
Aplacophora)
Prof.
Eernisse works on Chitons!
Here is his compilation of Web
Images
(More links: 1
- 2 - 3
- 4 - 5
- 6 - 7
- 8
- 9 - 10
- 11)
RQ 7.12: What features are the same in all chitons but
different from other molluscs?
VII. Bryozoans
(or Ectoprocts),
Brachiopods,
Phoronids,
and
Entoprocts
(Imposters of Four Phyla)
terms: lophophore
VIII. The Animal Underworld (Phyla
Gnathostomulida,
Gastrotricha,
Kinorhyncha,
Rotifera,
Loricifera,
Tardigrada,
and Placozoa)
terms: interstitial
animals
RQ 7.13: Characterize where interstitial animals live.
IX. Crabs, Shrimps,
Lobsters,
and Their Relatives (Phyla
Arthropoda
and Onychophora)
a) Features of
Crustaceans
terms: nauplius
larva, exoskeleton, molting, copepodite, zoea,
and megalops
larval stages
b) The Diversity
of Crustaceans
terms: carapace
Featured Organism p. 67: Sand
crabs (Emerita analoga)
Featured Organism p. 68:
Jonah
crab (Cancer borealis)
Featured Organism p. 77, Fig. 3.12: ghost
shrimp
Featured Organism p. 15, p. 114, Tab. 5.1: Copepod
Featured
organism p. 120: crab, Cancer
productus
1) Copepods are central to ocean food webs.
RQ 7.14: Why are copepods said to be central to ocean food webs?
2) Life cycles reveal that all barnacles
are crustaceans - and
some parasites are barnacles.
terms: hermaphroditic, nauplius to cypris larval stages
RQ 7.15: A barnacle
does not look much like other crustaceans
(e.g., crabs, lobsters, and shrimps). What is the evidence that
barnacles are crustaceans?
c) The Rest of Arthropods
d) The Only Nonmarine Phylum (Onychophora)
X. Sea
Stars, Sea
Urchins, Sea Cucumbers, and Their
Relatives
(Phylum Echinodermata)More
Links
a) Stars, Cukes,
Urchins, and Brittle Stars Have Prominent
Feeding Roles
RQ 7.16: Why is a seastar
said to have a prominent feeding role?
How about a sea
urchin?
b) Crinoidsand Sea Daisies are Deep-Sea Surprises
XI. Sea
Squirts, Salps,
and Their Relatives (Phylum Chordata)
RQ 7.17: Briefly characterize how something as squishy as
a suspension feeding sea
squirt can be considered to be a
member of our own phylum, Chordata.
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This page created 3/7/01 © D.J. Eernisse, Last Modified 5/23/01,
Last Completely Checked 3/13/01