End Show Slide 1 of 28 Biology Mr. Karns Classification New System.

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End Show Slide 1 of 28 Biology Mr. Karns Classification New System

End Show Slide 2 of Kingdoms and Domains

End Show 18-3 Kingdoms and Domains Slide 3 of 28 The Tree of Life Evolves Systems of classification adapt to new discoveries. Linnaeus classified organisms into two kingdoms— animals and plants. The only known differences among living things were the fundamental traits that separated animals from plants.

End Show 18-3 Kingdoms and Domains Slide 4 of 28 The Tree of Life Evolves Five Kingdoms Scientists realized there were enough differences among organisms to make 5 kingdoms: Monera Protista Fungi Plantae Animalia

End Show 18-3 Kingdoms and Domains Slide 5 of 28 The Tree of Life Evolves Six Kingdoms Recently, biologists recognized that Monera were composed of two distinct groups: Eubacteria and Archaebacteria.

End Show 18-3 Kingdoms and Domains Slide 6 of 28 The Tree of Life Evolves What are the six kingdoms of life as they are now identified?

End Show 18-3 Kingdoms and Domains Slide 7 of 28 The Tree of Life Evolves The six-kingdom system of classification includes: Eubacteria Archaebacteria Protista Fungi Plantae Animalia

End Show 18-3 Kingdoms and Domains Slide 8 of 28 The Tree of Life Evolves Changing Number of Kingdoms Introduced Names of Kingdoms 1700’s Late 1800’s 1950’s 1990’s Plantae Animalia Protista Plantae MoneraProtista Fungi Plantae Eubacteria Archae- bacteria Animalia ProtistaFungiPlantae

End Show 18-3 Kingdoms and Domains Slide 9 of 28 The Three-Domain System Molecular analyses have given rise to a new taxonomic category that is now recognized by many scientists. The domain is a more inclusive category than any other—larger than a kingdom.

End Show 18-3 Kingdoms and Domains Slide 10 of 28 The Three-Domain System What is the three-domain system of classification?

End Show 18-3 Kingdoms and Domains Slide 11 of 28 The Three-Domain System The three domains are: Eukarya, which is composed of protists, fungi, plants, and animals. Bacteria, which corresponds to the kingdom Eubacteria. Archaea, which corresponds to the kingdom Archaebacteria.

End Show 18-3 Kingdoms and Domains Slide 12 of 28 The Three-Domain System Modern classification is a rapidly changing science. As new information is gained about organisms in the domains Bacteria and Archaea, they may be subdivided into additional kingdoms.

End Show 18-3 Kingdoms and Domains Slide 13 of 28 Domain Bacteria Members of the domain Bacteria are unicellular prokaryotes. Their cells have thick, rigid cell walls that surround a cell membrane. Their cell walls contain peptidoglycan.

End Show 18-3 Kingdoms and Domains Slide 14 of 28 Domain Bacteria The domain Bacteria corresponds to the kingdom Eubacteria.

End Show 18-3 Kingdoms and Domains Slide 15 of 28 Domain Archaea Members of the domain Archaea are unicellular prokaryotes. They live in extreme environments. Their cell walls lack peptidoglycan, and their cell membranes contain unusual lipids not found in any other organism.

End Show 18-3 Kingdoms and Domains Slide 16 of 28 Domain Archaea The domain Archaea corresponds to the kingdom Archaebacteria.

End Show 18-3 Kingdoms and Domains Slide 17 of 28 Domain Eukarya The domain Eukarya consists of organisms that have a nucleus. This domain is organized into four kingdoms: Protista Fungi Plantae Animalia

End Show 18-3 Kingdoms and Domains Slide 18 of 28 Domain Eukarya

End Show 18-3 Kingdoms and Domains Slide 19 of 28 Domain Eukarya Protista The kingdom Protista is composed of eukaryotic organisms that cannot be classified as animals, plants, or fungi. Its members display the greatest variety. They can be unicellular or multicellular; photosynthetic or heterotrophic; and can share characteristics with plants, fungi, or animals.

End Show 18-3 Kingdoms and Domains Slide 20 of 28 Domain Eukarya Fungi Members of the kingdom Fungi are heterotrophs. Most fungi feed on dead or decaying organic matter by secreting digestive enzymes into it and absorbing small food molecules into their bodies. They can be either multicellular (mushrooms) or unicellular (yeasts).

End Show 18-3 Kingdoms and Domains Slide 21 of 28 Domain Eukarya Plantae Members of the kingdom Plantae are multicellular, photosynthetic autotrophs. Plants are nonmotile—they cannot move from place to place. Plants have cell walls that contain cellulose. The plant kingdom includes cone-bearing and flowering plants as well as mosses and ferns.

End Show 18-3 Kingdoms and Domains Slide 22 of 28 Domain Eukarya Animalia Members of the kingdom Animalia are multicellular and heterotrophic. The cells of animals do not have cell walls. Most animals can move about. There is great diversity within the animal kingdom, and many species exist in nearly every part of the planet.

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End Show Slide 24 of Organisms whose cell walls contain peptidoglycan belong in the kingdom a.Fungi. b.Eubacteria. c.Plantae. d.Archaebacteria.

End Show Slide 25 of Multicellular organisms with no cell walls or chloroplasts are members of the kingdom a.Animalia. b.Protista. c.Plantae. d.Fungi.

End Show Slide 26 of Organisms that have cell walls containing cellulose are found in a.Eubacteria and Plantae. b.Fungi and Plantae. c.Plantae and Protista. d.Plantae only.

End Show Slide 27 of Molecular analyses have given rise to a new taxonomic classification that includes a.three domains. b.seven kingdoms. c.two domains. d.five kingdoms.

End Show Slide 28 of Which of the following contain more than one kingdom? a.only Archaea b.only Bacteria c.only Eukarya d.both Eukarya and Archaea

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