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Title: Animalia


1
Animalia
  • Animals are multicellular, heterotrophic
    eukaryotes.
  • Except for sponges all animals have tissues which
    are specialized collections of cells separated
    from other tissues by membranes.
  • Tissues are arranged together to produce organs
    and organs are organized into organ systems (e.g.
    digestive system).

2
Animalia
  • Most animals are bilaterally symmetrical and form
    a large clade called the Bilateria.
  • Bilateral animals have a left and right side, top
    and bottom, as well as front and rear ends.
  • A smaller number are radially symmetrical (e.g.
    jellyfish).

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Divisions of the Bilateria
  • We belong to a division of the Bilateria called
    the deuterostomes (a group defined by how the
    embryo develops).
  • It includes us and all chordates as well as the
    echinoderms e.g. starfish (which have secondarily
    evolved radial symmetry).

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33.2
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Porifera
  • The phylum Porifera (the sponges) includes about
    5000 species almost all of which are marine
    (there are about 150 freshwater species).
  • Sponges occur worldwide at all latitudes from the
    intertidal zone to the deep sea.
  • Range in size from a few millimeters to 2 meters
    across.
  • Porifera means pore-bearing and refers to the
    numerous pores and channels that permeate a
    sponges body.

7
Yellow tube sponge
Barrel sponge
8
Porifera
  • Sponges are the simplest multi-cellular
    organisms, but they lack the germ layers of more
    complex metazoans.
  • They have a cellular level of organization
    lacking true tissues and organs.
  • Body is a mass of cells imbedded in a gelatinous
    matrix which is supported by a framework of
    spicules.

9
Glass sponge spicules
10
Porifera feeding
  • Sponges are sessile and depend on water movement
    to bring in food and oxygen and remove wastes.
  • Sponges generate their own flow of water having a
    unique water current system.

11
Porifera feeding
  • Water enters through many small pores called
    ostia and exits through fewer, larger oscula.

12
Oscula
13
Porifera feeding
  • Openings are connected by a series of canals,
    which are lined by choanocytes (flagellated
    collar cells) that maintain the current and
    filter out food particles.

Choanocytes
14
33.2
15
Cnidaria
16
Cnidaria
  • The phylum Cnidaria includes over 9,000 species
    of aquatic, radially symmetrical animals which
    have specialized stinging organelles called
    nematocysts.
  • They include the jellyfish, box jellyfish, sea
    anemones, fire corals, sea pens and hard corals.

17
Cnidaria
  • Cnidarians are the simplest animals equipped with
    nerve cells which are arranged into a nerve net,
    but there is no central nervous system.

18
Cnidaria digestion
  • Cnidarians have an internal body cavity, the
    gastrovascular cavity, but no one-way gut. Food
    enters and waste exits through the same opening,
    the oral cavity.
  • Digestion takes place extracellularly within the
    gastrovascular cavity.

19
Body forms
  • Cnidaria have one of two basic body forms
  • Polyp
  • Medusa
  • In some groups one or other body form is used
    exclusively, but in others the two forms are used
    in a single life cycle.

20
Polyp and medusa
  • The polyp or hydroid form is adapted to a sessile
    existence and the medusa form to a free-floating
    or pelagic life.
  • In both cases radial symmetry is favored because
    stimuli and food are equally likely to come from
    all directions.
  • Polyps and medusae may look quite different, but
    are basically inverted versions of each other.

21
Fig. 7.2
22
Giant Jellyfish Cyanea capillata
Fig 7.14
23
Fig 7.19
Sea anemones
24
Polyp and medusa
  • Both polyps and medusa are equipped with
    tentacles around the oral cavity.
  • The tentacles are equipped with cnidocytes that
    contain stinging nematocysts, which are used to
    kill prey.

25
Figure 7.3
26
Coral Reefs
  • Coral reefs are found in shallow waters in the
    tropics.
  • They are calcareous structures and what makes
    them unique as geological structures is that they
    are formed by some of the organisms that live on
    them, specifically reef-building corals and
    coralline algae.
  • They are the largest living structures on the
    planet.

27
Coral Reefs
  • Reef-building corals contain symbiotic algae
    (zooxanthellae) that supply a significant part of
    the corals energy in exchange for protection and
    access to light.
  • These algae require light for photosynthesis and
    so reef-building corals can live only in clear
    waters less than 100m deep (and most species
    occur in much shallower waters).

28
Coral polyps
29
Brain coral (Anthozoa)
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Shumann Island, Papua New Guinea (fringing reef).
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33.2
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Bilateral Animals
  • Unlike the radiate animals all of these organisms
    are mobile and have evolved cephalization with
    their sense organs concentrated at the head end.
    There is also the beginning of a ladder-type
    nervous system.
  • In addition, they are bilaterally symmetrical.

33
Plathyhelminthes
  • Among the simplest bilateral animals but of
    significant economic importance is the phylum
    Platyhelminthes, which includes a variety of
    parasitic forms such as the flukes and tapeworms.

34
Plathyhelminthes
  • They have evolved organs and in some cases organ
    systems. The simplest excretory or
    osmoregulatory systems and circulatory systems
    are found in members of these groups.

35
Phylum Platyhelminthes
  • Members of the Platyhelminthes typically have
    dorsoventrally flattened bodies that are usually
    slender and leaflike or ribbonlike.
  • There are four classes in the Platyhelminthes.
    The Turbellaria are free living whereas as
    members of the Monogenea, Trematoda and Cestoda
    are parasitic.

36
Class Trematoda
  • There are about 9000 species of trematodes
    (flukes) all of which are parasitic. Most
    parasitize vertebrates.
  • Adaptations for parasitism include suckers and
    hooks for attachment, glands to produce cyst
    material and increased reproductive capacity.

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Sheep liver fluke
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Clonorchis liver fluke
  • Clonorchis is the most important liver fluke to
    infect humans. Common in much of Asia (including
    China, Japan and southern Asia).
  • Adult flukes live in the bile passages and
    shelled miricidia pass out in feces. The
    miricidia enter snails eventually leave the
    snails as cercariae and find a fish where they
    encyst.
  • If fish is eaten raw or poorly cooked the person
    becomes infected

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8.8
40
Class Cestoda (tapeworms)
  • Tapeworms are parasites of the vertebrate
    digestive tract and about 4000 species are known.
  • Almost all tapeworms require at least two hosts
    with the definitive host being a vertebrate,
    although intermediate hosts can be invertebrates.

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Class Cestoda
  • Members of the Class Cestoda (tapeworms) are
    quite different in appearance from the other
    members of the Platyhelminthes.
  • They have long, flat, tape-like bodies composed
    of a scolex for attaching to their host and a
    chain of many reproductive units or proglottids
    called a strobila. New proglottids form behind
    the scolex and the strobila may become extremely
    long.

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8.12
43
Tapeworm scolex
Hooks
Suckers
The scolex is equipped with suckers and hooks
that enable it to grip onto its hosts intestines.
44
Class Cestoda
  • Tapeworms live in the intestines and because they
    are immersed in digested food lack a digestive
    system of their own. Instead they simply absorb
    food across their tegument.

45
Human tapeworms
  • Humans are definitive hosts to several tapeworms
    including the beef tapeworm Taenia saginata, pork
    tapeworm T. solium, and fish tapeworm
    Diphyllobothrium latum.

46
Human tapeworms
  • The lifecycles of these parasites are similar.
  • Shelled larvae are shed into the environment.
  • These are consumed by the intermediate host and
    the larvae hatch, bury into blood vessels and
    make their way to skeletal muscle where they
    encyst becoming so called bladder worms or
    cysticerci.

47
Human tapeworms
  • The encysted larva waits, perhaps for years, for
    its host to be eaten.
  • If the meat is uncooked the cysticercus extends
    its scolex, attaches to the wall of the intestine
    and within 2-3 weeks matures and begins growing
    and producing eggs. A tapeworm may be many
    meters long and live for years.

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8.15
49
Mollusca
50
Mollusca
  • The molluscs are a very diverse group with over
    100,000 living species including such familiar
    organisms as clams, mussels, limpets, snails,
    squids and octopi.

51
Mollusca
  • Many molluscs possess a hard shell and as a
    result there are many fossil molluscs (more than
    30,000 species have been described).
  • Molluscs were abundant in the oceans of the
    Cambrian period and must have evolved in the
    pre-Cambrian over 570 million years ago.

52
Molluscs
  • Living molluscs range in size from small clams
    and snails to the giant and colossal squids which
    can weigh up to 1,000 lbs and measure 60 feet
    long with tentacles extended.
  • The shells of giant clams may be 1.5 wide and
    weigh 225 kg, but most molluscs have shells less
    than 5cm across.

53
Molluscs
  • The word Mollusca is from the Latin molluscus
    meaning soft and describes the soft body, which
    is one of the key features of the group.
  • Most molluscs live in the sea and range from
    tropical to Arctic waters. Others occur in
    freshwater and on land.
  • There is a great range of life styles that
    includes bottom feeding, filter feeding, boring,
    burrowing and pelagic forms.

54
Molluscs
  • Molluscs have diversified into a great variety of
    body forms from the sessile, filter-feeding clam
    to the slow-moving grazing snail to the actively
    hunting, intelligent octopus.
  • These different forms are all derived from a
    basic molluscan body plan.

55
Molluscan body plan
  • At its simplest the molluscan body consists of a
    head-foot and a visceral mass.
  • The head-foot contains the locomotory, feeding,
    cephalic, and sensory organs.
  • The visceral mass includes the digestive,
    circulatory, respiratory and reproductive organs.

56
Molluscan body plan Head-foot
  • Many molluscs have a well developed head that
    contains a mouth, often tentacles, and some
    specialized sensory organs.
  • Many possess eyes that range from very simple
    light sensing structures to the highly developed
    eyes of cephalopods.

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Bay scallop (note the blue eyes).
58
Cuttlefish
59
Incurrent and excurrent siphons of Northwest
ugly clam
10.26
60
Mating snails.
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Cone shell
62
Phylum Annelida
  • The annelids (L. annelus a little ring) are the
    segmented worms.
  • The annelid body is metameric being composed of
    serially repeated segments or metameres.
  • Each segment is separate from the next segments
    being divided by partitions or septa.

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Segmentation
  • Within each segment are components of most organ
    systems such as the circulatory, nervous and
    excretory systems.
  • Thus, there is a degree of redundancy in annelids
    so that if a segment is damaged it need not be
    fatal.

65
Segmentation
  • The evolution of segmentation is the great
    evolutionary innovation of the annelids.
  • Because the coelom is divided by septa the force
    of muscle contraction in a segment is not
    transmitted throughout the body, but instead is
    confined to the single segment.
  • Thus, one segment may elongate while the adjacent
    one contracts and this allows the animal to make
    fine, controlled movements

66
Annelids
  • Annelids occur worldwide being found in the sea,
    freshwater, and in the soil.
  • They feed on organic matter in the mud or soil,
    by filtering suspended particles from the water,
    act as predators, or suck blood.

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11.3B
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Worlds largest leech Haementeria ghilianii
11.17
69
Phylum Arthropoda
  • The Arthropoda (from the Greek Arthron, joint and
    podus, foot) are the largest group of organisms
    and they occur in all environments on earth.
  • The group includes spiders, ticks, mites,
    centipedes, millipedes, crustaceans, insects and
    others.

70
Characteristics of the Arthropoda
  • Bilaterally symmetrical with a segmented
    (metameric) body divided into head, thorax and
    abdomen cephalothorax and abdomen or fused head
    and trunk.

71
Characteristics of the Arthropoda
  • Jointed appendages. Primitively one pair per
    segment, but number often reduced.
  • Appendages often greatly modified for specialized
    tasks.

72
Characteristics of the Arthropoda
  • Exoskeleton of cuticle.
  • Exoskelton secreted by underlying epidermis. Made
    of chitin, protein, lipid and often calcium
    carbonate.
  • Exoskeleton is shed periodically (ecdysis) as the
    organism grows.

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Classification of Phylum Arthropoda
  • Subphylum Chelicerata horseshoe crabs, spiders,
    tick, mites, scorpions,
  • Subphylum Crustacea crabs, lobsters, copepods,
    barnacles, pill bugs
  • Subphylum Myriapoda millipedes and centipedes
  • Subphylum Hexapoda springtails, insects

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12.2
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Hobo spider
Brown recluse spider
76
Female Black Widow spider with egg sac
77
12.10 a
78
Dust mite
79
Wood tick
Wood tick
80
12.32B
81
12.16A
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12.46
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33.2
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Phylum Echinodermata
  • The echinoderms (hedgehog skin) are a very
    unusual group that includes about 7000 living
    species.
  • Members include starfish, brittle stars, sea
    urchins, sea cucumbers, and sea lilies or feather
    stars.
  • They are deuterostomes (as are chordates), but
    have secondarily evolved radial symmetry from
    bilateral symmetry (they still have bilaterally
    symmetrical larvae).

86
Characteristics of the Echinodermata
  • Exclusively a marine group. They cannot
    osmoregulate so rarely occur even in brackish
    water.
  • The body is not segmented, but shows pentaradial
    symmetry.
  • There is no head or brain and the nervous system
    is relatively simple.

87
Characteristics of the Echinodermata
  • They possess an endoskeleton of dermal calcareous
    ossicles, which are connected together by
    connective tissue.
  • Possess a unique water vascular system that
    consists of a series of canals that extend from
    the body surface as tube feet.
  • These tube feet are tentacle-like and enable the
    animal to move. In some species movement of the
    arms or spines contributes to locomotion too.

88
Classes of Echinoderms
  • There are a total of five classes of echinoderms
    and about 7300 species.
  • Class Asteroidea sea stars or starfishes
  • Class Ophiuroidea Brittle stars
  • Class Echinoidea Sea Urchins, Sand dollars
  • Class Holothuroidea Sea cucumbers
  • Class Crinoidea Sea Lilies and Feather stars.

89
Cushion seastar (Asteroidea)
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Brittle star (Ophiuroidea)
93
Sea urchins
94
Sea cucumber
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Feather star
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