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Chapter 7. Classification by Evolutionary Relationship By far the most familiar is the frame work created 250 years ago by Linnaeus Organisms grouped.

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Presentation on theme: "Chapter 7. Classification by Evolutionary Relationship By far the most familiar is the frame work created 250 years ago by Linnaeus Organisms grouped."— Presentation transcript:

1 Chapter 7

2 Classification by Evolutionary Relationship By far the most familiar is the frame work created 250 years ago by Linnaeus Organisms grouped in a taxon show a high degree of similarity 2 Kingdom Phylum Class Order Family Genus Species Binomial nomenclature

3 Domains of Life

4 Kingdom Animalia ~3 million species, maybe up to 30 million Eukaryotes: DNA enclosed in nucleus Heterotrophs: Must consume organic matter to maintain cellular metabolism Metabolism = all the chemical reactions that take place in an organism. Multicellular (mostly all)

5 Kingdom Animalia

6 Must eat (no photosynthesis)

7 Kingdom Animalia Multicellular

8 Kingdom Animalia No cell walls

9 Kingdom Animalia Some asexual reproduction

10 Kingdom Animalia Most Sexual reproduction

11 Vertebrates 3% of animal species Phylum Chordata Amphibians Reptiles Fish Birds Mammals

12 Invertebrates = No Backbone 97% of all animal species are invertebrates Most species are Marine Ex:

13 SYMMETRY

14 Levels of Cell Organization Cell Level –cells have different functions Tissue Level – cells organize into groups that carry out specific functions. Organ Level – tissues organize into organs which coordinates with other organs to carry out specific processes.

15 Phylum Porifera =Sponges =“pore bearing” No symmetry = asymmetrical Structurally simplest animals No organs or true tissues, cell level, but specialized! Many pores

16 Phylum Porifera Sessile = Suspension Feeders = Filter feeders = Type of suspension feeder. Water is actively pumped or filtering structures are swept through water -- food particles taken out of water -Consume plankton and other organic materials

17

18 Sponges

19 Structure: Spicules & Spongin Spicules= Siliceous or Calcerous structures Support! Vary in shape and size Spongin =

20 Sponge Anatomy Ostia (Ostium) = Osculum= Pinacocytes= Porocytes =

21 Sponge Anatomy Choanocytes/Collar cells = Amebocytes=

22 Water Flow in Sponges 1. 2. 3. 4.

23

24 Sponge form and skeletons

25 Characteristics Branching tubular, volcano - like masses Encrusting sponges are thin brightly colored growths on rocks Glass sponges live anchored in deep water sediments & have siliceous spicules Boring sponges bore thin channels through calcium carbonate such as oysters shells and corals

26 Some sponges form new individuals after their cells are separated from one another. Asexual Reproduction

27 Sponge Reproduction Asexual Sexual Budding = parent develops small growths that eventually break off and become separate individuals. Produce gametes = the reproductive cells. Specialized collar cells or amebocytes turn into gametes Male gamete = sperm, produced by the testes. Female gamete =egg, produced by the ovaries Most hermaphrodites, produce both kinds of gametes. Broadcast spawning, sperm released into water.

28 Sexual reproduction cont. Early stage of development happens inside sponge Embryo released into water as planktonic larva and drifts with currents. Settles on bottom and grows into a new sponge

29 Fig. 7.4

30 Sponge Habitat Poles to the Tropics Most in shallow tropical waters Sponge Use Some sponges harvested in Gulf of Mexico and eastern Mediterranean The spongin are the fibers that remain after death of sponge


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