1 / 22

Evolution and Classification of Fishes

Evolution and Classification of Fishes. Morphology of the Bony Fish. Classification. Subphylum: Vertebrata (45,000 species) -Class: Agnatha~jawless fishes (hagfish, lampreys) *May also be divided into: -- Class: Myxini (hagfish)

thelma
Download Presentation

Evolution and Classification of Fishes

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Evolution and Classification of Fishes Morphology of the Bony Fish

  2. Classification • Subphylum: Vertebrata (45,000 species) -Class: Agnatha~jawless fishes (hagfish, lampreys) *May also be divided into: -- Class: Myxini (hagfish) -- Class: Cephalaspidomorphi (lamprey) • Class: Chondrichthyes ~ sharks, skates, rays • Class: Osteichthyes (Actinopterygii) ~ bony fishes - Class: Sarcopterygii ~ lobe-finned fishes *lungfishes (ancestors of amphibians) and coelacanths

  3. Adaptations • Buoyancy: trap gas inside body in order to control vertical position in water • Streamlined shape • Muscular tail • Paired fins • Mucus secretions • Highly developed senses of smell and touch • Lateral line system: detects vibrations

  4. Evolution • All classes of fishes appear to have arisen from the jawless ostracoderms (small fish covered with bony plates) 500 million years ago – only vertebrates for 50 million years! By ~350 mya, most became extinct; survivors became ancestors of jawless fishes. • First fishes to have paired fins and jaws were the acanthodians (spiny fishes) – became extinct 270 mya. • Relatives of modern jawed, bony and cartilaginous fishes began to appear in the fossil record 400 million years ago.

  5. Evolution • Two adaptations seem critical to the evolution of other vertebrates • pouch in the posterior portion of the mouth that functioned as a lung (lungfish) • emergence of fins supported by bony lobes projecting from the body (lobe-finned fishes) • ancestors of amphibians, as lobes evolved into appendages and allowed for terrestrial living

  6. Agnatha – 80 species • Cyclostomes, or “round mouths” • Slimy skin with no plates or scales • Notochord (dorsal nerve cord) • Eel-like shape • Cartilaginous skeleton • Unpaired fins • Marine or fresh water

  7. Agnatha, cont. • Lampreys (Cephalaspidomorphi): • Most are parasitic, sucking blood and body fluids of other fish ~ highly developed sense of smell • toothy tongue tears hole in fish; chemical is released to prevent fish’s blood from clotting -- NO STOMACH • Hagfish (Myxini): • Bottom dwellers in cold marine waters • Scavengers of dead and dying fish on ocean bottom • Saws hole in fish with toothed tongue and eats them from the inside out – enters through gills, skin, or anus. - No vertebrae, but do have a cranium and an endoskeleton

  8. Chondrichthyes • Movable jaws and cartilaginous skeletons • 800 species of sharks, skates, and rays living in salt water • Most are carnivores with large olfactory organs and lateral line systems to track prey • Skin covered with placoid scales (small, toothlike spines that feel like sandpaper)

  9. Sharks • Swim w/ side-to-side motion of asymmetric tail fins • Paired pectoral fins behind head jut out from the body like wings of an airplane • Mouth has 6 to 20 rows of backward-pointing teeth that can be replaced ~ one shark may use more than 20,000 teeth

  10. Sharks • Acute ability to detect chemicals ~ blood from an injured animal can be detected up to 500 m away! • Well-developed lateral line system • Must swim continuously for gas exchange to occur (Water Mouth Gills Gill slits) • Eggs are fertilized internally and pups are born alive • Male grasps female with modified fins called claspers • Sperm runs from male into female through grooves in the claspers

  11. Rays, Skates, and Ratfishes • Flattened bodies with winglike, paired pectoral fins and, often, whiplike tails • Rays: diamond- or disk-shaped bodies • Skates: triangular bodies • Bottom dwellers • Water enters gills through two spiracles atop their heads • Most feed on mollusks and crustaceans • 25 species of ratfishes (chimaeras)

  12. Osteichthyes • 95% of 24,000 fish species • Bony internal skeleton, scaly skin, sense organs, fins, and diverse reproductive patterns • Lobe-finned fishes - (1 species - coelacanth) * Lungfishes (6 species left today) * Coelacanth (1 species left today) • Ray-finned fishes ~ snake-like eels, yellow perch, cave fish, herring, carp, walleye, etc.!!

  13. Morphology of a Bony Fish Anterior dorsal fin Scales Lateral line Posterior dorsal fin Nostril Eye Anal fin Caudal fin Mouth Operculum Pelvic fin Pectoral fin

  14. External Anatomy • Operculum: covers and protects the gills • Caudal fin: moves from side to side for swimming • Anterior dorsal fin (spines), posterior dorsal fin (rays),& anal fin: keep fish upright and moving in a straight line • Pelvic fins & pectoral fins: used to steer, brake, move up and down, and move backwards ***Fins are richly supplied with blood and, as such, help the fish to regulate body temperature when they are moved up or down

  15. External Anatomy, cont. • Integument (skin): covered with round scales of modified bone • Grow throughout life, creating growth rings that allow the age of the fish to be determined • Chromatophores: pigmented cells that give the fish color pattern

  16. Morphology of a Bony Fish Gas bladder Ribs Vertebrae Esophagus Skull Muscles Anus Gills Stomach Ovaries (or testes) Heart Intestine Gall bladder Liver

  17. Internal Anatomy • Digestive System • Carnivores with sharp teeth pointing inward • Anchored tongue lined with nerve cells for chemical detection • Much digestion occurs in outpockets of the stomach called pyloric ceca • Liver and pancreas secrete digestive enzymes • Intestine has fingerlike extensions called villi to increase surface area available for digestion

  18. Internal Anatomy, cont. • Circulatory System • Adapted for rapid swimming • Two-chambered heart, blood vessels, and blood with red and white blood cells • Oxygenated blood is carried by arteries and capillaries from gills to rest of the body • Deoxygenated blood is carried by veins from the body to the gills

  19. Internal Anatomy, cont. • Respiratory and Excretory System • Gills consist of four sets of curved pieces of bone • Each gill has a double row of gill filaments richly supplied with capillaries for rapid gas exchange • Gills help kidneys in excretion of nitrogenous wastes from the body; both organs function in osmoregulation (maintaining proper salt balance) • freshwater fish need salt and, therefore, must excrete excess water in order to maintain internal homeostasis

  20. Internal Anatomy, cont. • Gas Bladder • Contains a mixture of oxygen, carbon dioxide, and nitrogen obtained from the bloodstream • By regulating the amount of gas in the sac, fish adjust overall density and, thus, move up or down in water or hover at a given depth

  21. Internal Anatomy, cont. • Nervous and Sensory System • Brain, spinal cord, and nerves • Brain consists of five paired lobes • Optic lobes (largest part of brain): sight • Olfactory lobes: respond to smells • Cerebrum: respond to smells • Cerebellum: coordinates the muscles • Medulla oblongata: regulates internal organs

  22. Internal Anatomy, cont. • Reproduction • Separate sexes (dioecious) • Perch: external fertilization (eggs hatch within a few hours in warm water, many weeks in cold) • Sperm from male is contained in a fluid called milt • 80 to 3 million eggs may be laid, depending upon species • Some fishes bear live young after internal fertilization, e.g., guppies and mollies • Spawning: various patterns depending upon species

More Related