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Chapter 25: Vertebrate Diversity Three Groups of Amphibians Caecilians Are legless, burrowing amphibians that live in the tropics. There are 160 species ranging in ... – PowerPoint PPT presentation

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Title: Chapter%2025:%20Vertebrate%20Diversity


1
Chapter 25 Vertebrate Diversity
2
25.1 Vertebrate Origins
  • 25.1 Vertebrate Origins
  • Words to Know Chordate, Notochord, Endoskeleton

3
Phylum Chordata
  • The phylum Chordata is made of three groups
    Urochordata, Cephalochordata, and Vertebrates
  • Both Urochordates and Cephalochordates are
    invertebrates.
  • Urochordates are Tunicates like sea squirts.
  • Cephalochordates are Lancelets that spend most of
    their lives buried in the sand.
  • Vertebrates are large, active animals that have a
    well-developed brain encased in a hard skull.
  • ALL Chordates share the same four features at
    some stage in development
  • Notochord a flexible skeletal support rod
    embedded in the animals back.
  • Hollow Nerve Cord runs along the animals back.
  • Pharyngeal Slits slits through the body wall in
    the pharynx, where water can enter the mouth and
    leave the animal through these slits without
    passing through the entire digestive system.
  • Tail extends beyond the anal opening and
    contain muscles for movement.
  • Most chordate groups lose some or all of these
    characteristics in adulthood, but they are
    present in the embryo.

4
Phylum Chordata
5
Vertebrate Common Features
  • Endoskeletons
  • An Endoskeleton is an internal skeleton built of
    bone or cartilage.
  • Vertebrate endoskeletons can be divided into
    distinct parts.
  • Braincase protects the brain.
  • Vertebrae a series of short, stiff vertebrae
    are separated by joints and protect the spinal
    cord.
  • Bones support and protect the bodys soft
    tissues and provide points for muscle attachment.
  • Gill Arches found in fish and some amphibians
    help support the gills.
  • Vertebrate endoskeletons can slowly change size
    and shape.

6
Vertebrate Common Features
  • Vertebrate Classes
  • There are currently 7 classes of vertebrates
  • Agnatha jawless fish including lampreys.
  • Chondrichthyes cartilaginous fish that include
    sharks, rays, and chimeras.
  • Osteichthyes bony fish that include ray-finned
    fish, trout, and goldfish.
  • Amphibia first vertebrates adapted to land and
    include frogs, toads, salamanders, and
    caecilians.
  • Reptilia can retain moisture and live
    exclusively on land. Include snakes, lizards,
    crocodiles, alligators and turtles.
  • Aves Birds, animals with feathers and hollow
    bones.
  • Mammals animals with fur, mammary glands, and
    three middle ear bones. Includes humans,
    elephants, kangaroos etc

7
Vertebrate Classes
8
Origins of Vertebrates
  • Much of what we know comes from fossil evidence
    found in the Burgess Shale locates in the
    Canadian Rocky Mountains in the early 1900s.
  • Many are dated around the Cambrian explosion.

9
Closest Relatives
  • Tunicates may actually be the closest relatives
    of vertebrates.
  • Scientists have found that tunicates have cells
    that resemble the neural crest that is also found
    in vertebrates.

10
Jawless Fish Early Vertebrates
  • The first recognizable vertebrates were fish.
  • The oldest fish fossils date back 530 million
    years.
  • Early fish were small, jawless bottom-feeders.

11
Lampreys
  • There are more than 35 species of Lampreys.
  • They are highly specialized fish parasites.
  • Physical Characteristics include
  • Long and slender body plans with NO paired fins.
  • Mouths surrounded by large suckers.
  • Tongues covered by tooth-like projections.
  • The accidental introduction of sea lampreys into
    the Great Lakes in the early 1900s had a
    devastating effect on the fishing industry.

12
Hagfish
  • A jawless eel-like animal with a partials skull
    but NO vertebrae.
  • It uses a notochord for support.

13
25.2 Fish Diversity
  • 25.2 Fish Diversity
  • Words to Know Gill, Countercurrent Flow,
    Lateral Line, Operculum

14
Fish
  • Fish use specialized organs called gills to take
    in the oxygen dissolved in water.
  • Gills are large sheets of thin frilly tissue
    filled with capillaries that take in dissolved
    oxygen from the water and release carbon dioxide.
  • Fish circulatory systems pump blood in a single
    circulatory loop through a heart with two main
    chambers.

15
Countercurrent Flow
  • Countercurrent Flow is the opposite movement of
    water against the flow of blood in the fishs
    gills.
  • Countercurrent flow maximizes the amount of
    oxygen the fish can pull from the water by
    diffusion.

16
Swimming and Maneuvering
  • Most fish swim by contracting large segmented
    muscles on either side of their vertebral column
    from the head to the tail.
  • Fins help keep fish stable.

17
Jaws
  • Jaws evolved from gill arches.
  • Gill arches are structures made of bone or
    cartilage that function as a support for fishs
    fills.
  • Jaws developed from gill arches near the mouth,
    which fused to the cranium.
  • Jaws gave vertebrates a huge advantage as
    predators and quickly pushed them to the top of
    the food chain.

18
Two Groups of Jawed Fish
  • Jawed fish diversified very quickly after their
    first appearance about 440 million years ago.
  • Four groups appeared at this time
  • Acanthodians were fish covered with spines and
    became extinct 250 million years ago.
  • Placoderms were heavily armored with huge bony
    plates and became extinct 350 million years ago.
  • Cartilaginous Fish Skeletons are made of
    cartilage and include sharks, rays and chimera.
  • Bony Fish Include all other living fish

19
Cartilagenous Fish (Chondrichthyes)
  • Have skeletons made of cartilage.
  • Their cartilage contains calcium deposits that
    make it stiffer than the squishy stuff around
    human joints.
  • There are more than 300 species of shards and
    nearly 400 species of rays and skates.
  • All are predators.
  • Cartilaginous fish have internal fertilization
    and many give birth to live young.
  • They are also powerful swimmers with good
    eyesight and an excellent sense of smell.
  • All fish have a Lateral Line system, which is a
    series of shallow canals on the sides of the fish
    made up of cells that are sensitive to small
    changes in water movement.
  • This give fish a sense of distant touch letting
    them sense movement in the water far away.

20
Bony Fish (Osteichthyes)
  • All other living fish have skeletons made of
    bone.
  • There are more than 20,000 species of bony fish
    living in almost all aquatic environments.
  • The gills of all bony fish are in a chamber
    covered by a protective plate called the
    operculum.
  • This helps fish move water over their gills.

21
25.3 A Closer Look at Bony Fish
  • 25.3 A Closer Look at Bony Fish
  • Words to Know Ray-fin, Swim Bladder, Lobe-fin

22
Ray-finned Fish
  • All ray-finned fish, such as goldfish and tuna,
    have fins supported by a fan shaped array of
    bones called a ray-fin.
  • Ray-finned fish can quickly change a fins shape,
    making it easier for the fish to maneuver in the
    water.

23
Diversity of Body Plans
  • Long torpedo-shaped fish, such as barracuda are
    ambush predators.
  • Fish that are flattened from side to side, like
    butterfly fish, are great at maneuvering through
    corals.
  • Fish that feed on the surface of the water have
    flattened heads and mouths that point up.
  • Flatfish are flat-shaped and lie on the sea floor
    waiting for their prey to swim by.
  • Some slow-swimming fish use camouflage to hide
    from predators or prey.

24
Staying Afloat
  • Most ray-finned fish have lungs modified into a
    buoyancy organ called a Swim Bladder.
  • The Swim Bladder, helps a fish float higher or
    lower in the water, by increasing and decreasing
    oxygen levels.

25
Lobe-Finned Fish
  • The lob-finned fish include the ancestors of all
    terrestrial vertebrates.
  • Most species are extinct.
  • Lobe-fins are paired pectoral and pelvic fins
    that are round in shape.
  • These fins are arranged around a branching series
    of bony struts, like the limbs of a land
    vertebrate.

26
Coelacanths
  • Are distinctive-looking fish with thick, fleshy
    fins and a tail with three lobes.
  • They breathe with gills.

27
Lungfish
  • Live in streams and swamps in Australia, South
    America, and Africa.
  • They can breathe with either gills or lungs.

28
25.4 Amphibians
  • 25.4 Amphibians
  • Words to Know Tetrapod, Amphibian, Tadpole

29
Amphibians
  • One of the oldest known fossils of a four-limbed
    vertebrate was found in 360 million-year-old
    rocks from Greenland.
  • All of the vertebrates that live on land, as well
    as their descendants that have returned to
    aquatic environments, are Tetrapods.
  • A Tetrapod is a vertebrate that has four limbs.
  • Amphibians are animals that can live BOTH on land
    and in water.
  • Amphibian literally means life on both sides.
  • Depending on the species, amphibians breathe
    through their skin or with the use of gills or
    lungs.
  • Amphibians have a three-chambered heart.

30
Amphibian Reproduction
  • Amphibians need a source of water to reproduce.
  • Amphibians have several ways to stop eggs from
    drying out that include
  • Laying eggs directly in water,
  • Laying eggs on moist ground.
  • Wrapping eggs in leaves.
  • Brooding eggs in pockets on the females back.
  • Some frogs start off as Tadpoles aquatic larvae
    that have gills and a broad-finned tail.

31
Amphibian Metamorphosis
  • To grow into terrestrial adults, tadpoles must
    undergo metamorphosis.
  • Eggs hatch to release tadpoles.
  • As the tadpole matures, the gills are reabsorbed
    and lungs develop.
  • The circulatory system is reorganized to send
    blood to the lungs.
  • The tail fin is reabsorbed.
  • The body grows limbs and completely reorganizes
    its skeleton, muscles, and parts of the nervous
    system.
  • Many Amphibians do NOT undergo metamorphosis and
    develop directly into their terrestrial forms.

32
Three Groups of Amphibians
  • Salamanders
  • There are more than 300 species of salamanders.
  • They have a long body, four walking limbs, and a
    tail.
  • They walk with a side-t-side movement.
  • They are carnivores.

33
Three Groups of Amphibians
  • Frogs and Toads
  • There are over 3000 species of frogs.
  • Toads are a family of frogs that have rougher and
    bumpier skin and are poor jumpers.
  • Frogs and toads can make toxins that protect them
    from predators.

34
Three Groups of Amphibians
  • Caecilians
  • Are legless, burrowing amphibians that live in
    the tropics.
  • There are 160 species ranging in length from
    about 10 cm to 1.5 meters.
  • Have banded bodies that make them look like
    earthworms.

35
25.5 Vertebrates on Land
  • Words to Know Amniote, Keratin, Amniotic Egg,
    Placenta

36
Amniotes
  • An Amniote is a vertebrate that has a thin,
    tough, membranous sac that encloses the embryo or
    fetus.
  • Amniotes first appeared as small lizard-like
    creature in the late Carboniferous period.
  • All Amniotes share a set of characteristics that
    prevent water loss.
  • Skin cells are waterproof with Keratin a
    protein that binds to lipids inside the cell
    forming a hydrophobic layer that keep water
    inside the animal from reaching the skin.
  • Kidneys and large intestines are bigger in
    amniotes than in amphibians, because they can
    reabsorb water.

37
Reproduction Without Water
  • The Amniotic Egg is an almost completely
    waterproof container that keeps the embryo from
    drying out as it develops.
  • Once the amniotic egg evolved, vertebrates no
    longer had to go back to water for reproduction.
  • Most Mammal embryos develop inside of the
    mothers reproductive tract.
  • The Placenta is a membranous organ that develops
    in female mammals during pregnancy.
  • It carries nutrients from mother to embryo.
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