1 / 33

Class Agnatha 80 species of hagfishes and lampreys Skin lacks scales and plates

Class Agnatha 80 species of hagfishes and lampreys Skin lacks scales and plates Cartilaginous skeleton, unpaired fins Notochord remains throughout life Some are parasitic Hagfishes are marine; most lampreys live permanently in fresh water All lampreys reproduce in fresh water.

mschiffer
Download Presentation

Class Agnatha 80 species of hagfishes and lampreys Skin lacks scales and plates

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. Class Agnatha • 80 species of hagfishes and lampreys • Skin lacks scales and plates • Cartilaginous skeleton, unpaired fins • Notochord remains throughout life • Some are parasitic • Hagfishes are marine; most lampreys • live permanently in fresh water • All lampreys reproduce in fresh water

  2. Figure 34.8 A hagfish

  3. Figure 34.9 A sea lamprey

  4. Class Agnatha

  5. Class Agnatha

  6. Class Chondrichthyes Includes: Sharks Rays Skates

  7. Class Chondrichthyes

  8. Class Chondrichthyes

  9. Figure 34.11 Cartilaginous fishes (class Chondrichthyes): Great white shark (top left), silky shark (top right), southern stingray (bottom left), blue spotted stingray (bottom right)

  10. Class Chondrichthyes • Skeletons are made of cartilage • Skin is covered with placoid • scales

  11. Sharks • Mouth contains 6-20 rows of • teeth that point inward; when they break or wear down, the others move forward • Paired nostrils on the snout have specialized nerve cells that connect • with olfactory bulbs of the brain • Largest brain of all fish

  12. Adaptations of Cartilaginous Fish • Most pump water over their gills • by expanding and contracting their mouth cavity and pharynx • Rays and skates have spiracles • located behind their eyes • Ammonia is converted to urea, which is much less toxic

  13. Swimming generates lift and • many cartilaginous fish can store large amounts of low-density lipids in their livers to maintain buoyancy

  14. Reproduction in Chondrichthyes • Fertilization is internal, a male transfers sperm using a modified pelvic fin called a clasper. • Sensory Functions • The lateral line system is present in • nearly all fish, which is a row of sensory structures that runs the length of the fish to detect vibrations in the water

  15. Class Chondrichthyes

  16. Class Osteichthyes – Bony Fish • Characteristics: • Bones • Lungs or Swim Bladder • Lungfishes have gills and • lungs • ** All bony fish have an operculum • a hard plate that opens at the rear • and covers and protects the gills • Scales

  17. Lobe-Finned Fishes • Have fleshy fins that are supported by a series of bones • 7 species of lungfishes and one species of coelocanth exist today

  18. The lungfish resembles a short bodied eel. The base color of the fish is brown with small spots all over. They are carnivores. The dorsal and anal fins are long-based.

  19. Figure 34.14 A coelocanth (Latimeria), the only extant lobe-finned genus

  20. Ray-Finned Fishes • Have fins that are supported • by long, segmented, flexible • bony elements called rays. • includes eels, perch, salmon, • guppies, bass

  21. Figure 34.13 Anatomy of a trout, a representative ray-finned fish

  22. Figure 34.12a Ray-finned fishes (class Actinopterygii): yellow perch

  23. Respiratory and Circulatory Systems • Water flows away from the head and • the blood flows toward the head. This countercurrent flow allows more oxygen to diffuse into the gills • Fish regulate their overall density by adjusting the amount of gas in their swim bladders • There are four chambersin the heart

  24. Buoyancy in Fish Squalene (liver oil)

  25. Buoyancy in Fish

  26. Buoyancy in Fish aaaaaa aaaaaaa Physoclistous bladder

  27. Respiration in Fish

  28. Respiration in Fish

  29. Osmoregulation in Fish

  30. Reproduction • Fertilization in most species is external • If internal fertilization occurs, the male • inserts his sperm into the female using • a modified anal fin; the female carries • the eggs inside her until the young are • born

  31. Fish Reproductive Adaptations Diadromous - fish that make “two runs” in their life to live and reproduce Anadromous - fish that “run up” - salmon Catadromous - fish that “run down” - eels Parthenogenesis - no males required, females produce diploid eggs - Amazon molly

More Related