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Nonvertebrate Chordates, Fishes, and Amphibians

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Nonvertebrate Chordates, Fishes, and Amphibians Biology I: Chapter 30 CHORDATES Chordates Phylum Chordata Fishes, amphibians, reptiles, birds and mammals Four key ... – PowerPoint PPT presentation

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Title: Nonvertebrate Chordates, Fishes, and Amphibians


1
Nonvertebrate Chordates, Fishes, and Amphibians
  • Biology I Chapter 30

2
CHORDATES
3
Chordates
  • Phylum Chordata
  • Fishes, amphibians, reptiles, birds and mammals
  • Four key characteristics
  • 1. Dorsal, hollow nerve cord
  • 2. A notochord
  • 3. Pharyngeal pouches
  • 4. Tail that extends beyond the anus

4
Dorsal, Hollow Nerve Cord
  • Nerves branch from this cord at regular intervals
  • Nerves connect to internal organs, muscles and
    sense organs

5
Notochord
  • Long support rod
  • Runs through the body just below the nerve cord
  • Most chordates only have in the embryonic stage

6
Pharyngeal Pouches
  • Paired structures in the throat (pharynx) region
  • Fishes and amphibians slits develop that connect
    the pharyngeal pouches to the outside of the body
  • The slits may then develop into gills that are
    used for gas exchange

7
Tail
  • All chordates have a tail that extends beyond the
    anus at some point in their lives
  • The tail can contain bone and muscles and is used
    in swimming by many aquatic species

8
Most Chordates are Vertebrates
  • More than 99 of all chordates are in the
    subphylum Vertebrata
  • Vertebrae individual segments that make up the
    backbone encloses and protects the spinal cord
  • Backbone is part of an endoskeleton, or internal
    skeleton

9
Nonvertebrate Chordates
  • The two groups
  • Soft-bodied marine organisms
  • Have the four key characteristics at some point
    in their lives
  • Tunicates
  • Filter feeders
  • Lancelets
  • Small, fish-like creatures

10
Fishes
  • Aquatic vertebrates that are characterized by
  • Paired fins
  • Used for movement
  • Scales
  • Used for protection
  • Gills
  • Used for exchanging gases

11
Evolution of Fishes
  • Fishes were the first vertebrates to evolve
  • The evolution of jaws and the evolution of paired
    fins were important developments during the rise
    of fishes

12
The First Fishes
  • Jawless creatures whose bodies where armored with
    bony plates
  • Lived in the oceans during the late Cambrian
    Period, about 510 mya
  • Fishes kept this armored, jawless body plan for
    100 million years

13
The Age of Fishes
  • Ordovician and Silurian Periods 505-410 mya,
    fishes underwent a major adaptive radiation
  • Devonian Period Age of Fishes
  • Some were jawless with little armor
  • Ancestors of modern hagfishes and lampreys
  • Others were armored and ultimately became extinct
    about 360 mya

14
The Arrival of Jaws
  • Other ancient fishes kept their bony armor and
    possessed a feeding adaptation that would
    revolutionize vertebrate evolution JAWS
  • Jawless fishes
  • Limited to eating small particles of food that
    they filter out of the water or suck up like a
    vacuum cleaner
  • Jaws can hold teeth and muscles
  • Much wider variety of food
  • Defend themselves by biting

15
The Arrival of Paired Fins
  • More control of body movement
  • Fin tails and powerful muscles gave greater
    thrust when swimming
  • Enabled fishes to move in new and varied patterns
  • This enabled fishes to use their jaws in complex
    ways

16
The Rise of Modern Fishes
  • Although the early jawed fishes soon disappeared,
    they left behind two major groups that continued
    to evolve and still survive today
  • Ancestors of modern sharks and rays skeletons
    made of resilient cartilage
  • Group that evolved skeletons made of true bone

17
Form and Function in Fishes
  • Adaptations to aquatic life include
  • Various modes of feeding
  • Specialized structures for
    gas exchange
  • Paired fins for locomotion

18
Feeding
  • Herbivores, carnivores, parasites,
    filter feeders, detritus feeders
  • A single fish may exhibit several modes of
    feeding (carp eat what is available) while
    others are very specialized (barracuda
    carnivore)
  • Pyloric ceca finger-like pouches found in many
    species of fish that secrete digestive enzymes to
    help digest food

19
Respiration
  • Most fishes exchange gases using gills located on
    either side of the pharynx
  • The gills are made up of feathery filaments
  • Lampreys and sharks have several gill openings on
    the side of the body
  • A number of fishes, such as the lungfish, have an
    adaptation that allows them to survive in
    oxygen-poor water or in areas where bodies of
    water often dry up

20
Respiration
21
Circulation
  • Closed circulatory systems with a heart that
    pumps blood around the body in a single loop
  • Heart consists of 4 parts
  • Sinus venosus thin-walled sac that collects
    blood
    from the fishs veins
  • Atrium a large muscular chamber that serves as a

    one-way compartment for blood
  • Ventricle thick-walled muscular chamber
    pumping
    portion of the heart
  • Bulbus arteriosus connects to a large blood
    vessel called the aorta, which moves blood to the
    fishs gills

22
Circulation
23
Excretion
  • Most fishes rid themselves of nitrogenous wastes
    in the form of ammonia
  • Gills, kidneys
  • Saltwater fishes
  • Lose water by osmosis kidneys return as much
    water to the body as possible
  • Freshwater fishes
  • Gain water by osmosis kidneys pump out plenty of
    dilute urine

24
Response
  • Well-developed nervous systems organized around a
    brain
  • Cerebrum area of the brain responsible for all
    voluntary activities of the body
  • Cerebellum region of the brain that coordinates
    body movements
  • Medulla oblongata area of the brain that
    controls the functioning of many internal organs

25
Response
  • Lateral line system sensitive receptor system
    that enables fish to detect gentle currents and
    vibrations in the water (the 6th sense)

26
Movement
  • Most move by alternately contracting paired sets
    of muscles on either side of the backbone
  • Because their body tissues
    are more dense than the water
    they swim in,
    sinking is an
    issue for fishes
  • Swim bladder gas-filled organ found in many bony
    fishes that adjusts their buoyancy

27
Reproduction
  • Oviparous term used to refer to animals whose
    eggs hatch outside the mothers body
  • Ovoviviparous term used to refer to animals
    whose young are born alive after developing in
    eggs inside the mothers body
  • Viviparous term used to refer to animals that
    bear live young that are nourished directly by
    the mothers body as they develop

28
Groups of Fishes
  • Over 24,000 living species that are extremely
    diverse
  • Jawless fishes
  • Cartilaginous fishes
  • Bony fishes

29
Jawless Fishes
  • Have no true teeth or jaws
  • Skeletons are made of fibers and cartilage
  • Lack vertebrae keep notochords as adults
  • Two main classes
  • Lamprey
  • Hagfishes

30
Sharks and Their Relatives
  • Class Chondrichthyes
  • Sharks, rays, skates,
  • Also sawfishes and chimaeras
  • Cartilage, not bone

31
350 Living Species
  • Curved tails
  • Torpedo-shaped bodies
  • Pointed snouts
  • Mouth underneath
  • Enormous number of teeth
  • Always exceptions!

32
Bony Fishes
  • Class Osteichthyes
  • Skeletons made of hard, calcified
    tissue bone
  • Ray-finned fishes
  • Rays or spines that support the fins
  • Only 7 living species of bony fish are not
    ray-finned
  • Lobe-finned fishes

33
Ecology of Fishes
  • Anadromous fishes that spend most of their lives
    in the ocean but migrate to fresh water to breed
  • Examples lampreys, sturgeons, and salmon
  • Catadromous fishes that spend most of their
    lives in fresh water but migrate to the ocean to
    breed
  • Example European eel, American eel

34
AMPHIBIANS
35
Amphibian
  • Have survived for hundreds of millions of years
  • The only modern descendants
  • of an ancient group that
    gave rise to all other
    land
    vertebrates
  • Amphibian means double lifelive in both water
    and on land

36
Amphibian
  • Vertebrate
  • Lives in the water as a larva
    and on land as an adult
    (with some
    exceptions)
  • Breathes with lungs as an adult
  • Has moist skin that contains mucus glands
  • Lacks scales and claws

37
Evolution of Amphibians
  • The first amphibians to climb onto land probably
    resembled lobe-finned fishes similar to the
    modern coelacanth
  • The amphibian had legs,
    appearing about 360 mya

38
Evolution of Amphibians
  • Early amphibians evolved several adaptations that
    helped them live at least part of their lives out
    of water
  • Bones in the limbs and limb girdles became
    stronger for more efficient movement
  • Lungs and breathing tubes enabled them to breathe
    air
  • The sternum formed a bony shield to support and
    protect internal organs, esp. the lungs

39
Evolution of Amphibians
  • Soon after they appeared, amphibians underwent a
    major adaptive radiation
  • Some were huge Eogyrinus
    was about 5 meters long!
  • Amphibians became the
    dominant form of animal
    life
    in the warm, swampy fern forests about
    360-286 mya
  • Climate changes caused many of the swamps to
    disappear
  • Most amphibians became extinct

40
Evolution of Amphibians
  • Only three orders of small amphibians survive
    today
  • Frogs and toads
  • Salamanders
  • Caecilians

41
Form and Function in Amphibians
  • Although the class Amphibia is relatively small,
    it is diverse enough to make it difficult to
    identify a typical species
  • We will focus on the structures found in frogs

42
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43
Feeding
  • Tadpoles
  • Filter feeders or herbivores that graze on algae
  • Eat almost constantly
  • Adult amphibians
  • Almost entirely carnivorous
  • Mouth? esophagus ? stomach ? small intestines ?
    large intestines ? cloaca

44
Respiration
  • Larval amphibians
  • Gas is exchanged through the skin and gills
  • Adult amphibians
  • Lungs and skin

45
Circulation
  • Double loop
  • 3 chambered heart
  • First Loop
  • Carries oxygen-poor blood heart ? lungs and skin
  • Takes oxygen-rich blood lungs and skin ? heart

46
Circulation
  • Second Loop
  • Transports oxygen-rich blood heart ? rest of the
    body
  • Transports oxygen-poor blood body ? heart

47
Circulation
48
Excretion
  • Amphibians have kidneys that filter wastes from
    the blood
  • Urine The excretory product of the kidneys
  • Urine travels through tubes called ureters into
    the cloaca
  • Urine is passes outside or temporarily stored in
    a bladder above the cloaca

49
Reproduction
  • Eggs do not have shells and tend to dry out if
    they are not kept moist
  • Most species lay eggs in the water
  • The male fertilizes them externally
  • In a few species (most salamander), eggs are
    fertilized internally

50
Reproduction
  • The male climbs onto the females back
  • The female releases the eggs that are then
    fertilized
  • The eggs are in a transparent jelly, useful for
    attaching the eggs to underwater plants and that
    provides nourishment to the growing cells

51
Reproduction
  • Some amphibians abandon their eggs after they are
    laid
  • Others incubate the young in their mouth, on
    their back, or even in their stomach!

52
Movement
  • Amphibian larvae
  • Often move very much like fishes, wiggling their
    bodies and using a flattened tail for propulsion

53
Movement
  • Adult amphibians
  • Most use their front and back
    legs to move in a variety
    of ways
  • Jump, climb, run, etc.

54
Response
  • Nictitating Membrane
  • Moveable transparent membrane in amphibians
    located inside the regular eyelid
  • Protects the surface of the eye from damage under
    water and keeps it moist on land

55
Response
  • Tympanic Membrane
  • Eardrum of amphibians
  • Inside the skull
  • Vibrates in response to sound, allowing hearing

56
Groups of Amphibians
  • Salamanders Order Urodela
  • Long bodies and tails
  • Four legs
  • Carnivores
  • Frogs and Toads Order Anura
  • Frogs Long legs and lengthy jumpers
  • Toads short legs and short hops
  • Adults lack tails
  • Caecilians Order Apoda
  • Legless animals that live in water or burrow in
    moist soil or sediment

57
Ecology of Amphibians
  • Have no feathers, fur or scales
  • Many are ideal for predators such as birds and
    mammals

58
Ecology of Amphibians
  • Amphibians have adaptations to protect themselves
  • Many have skin colors and markers that allow them
    to blend in with the environment
  • Some release toxins
  • Some are brightly colored as a warning to
    predators
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