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Early Systems of Classification

Organizing Life’s Diversity. Chapter 17. 17.1 The History of Classification. Early Systems of Classification. Biologists use a system of classification to organize information about the diversity of living things. Organizing Life’s Diversity. Chapter 17. 17.1 The History of Classification.

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Early Systems of Classification

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  1. Organizing Life’s Diversity Chapter 17 17.1 The History of Classification Early Systems of Classification • Biologists use a system of classification to organize information about the diversity of living things.

  2. Organizing Life’s Diversity Chapter 17 17.1 The History of Classification Aristotle’s System • More than 2000 years ago, Aristotle developed the first widely accepted system of biological classification. • Aristotle classified organisms as either animals or plants.

  3. Organizing Life’s Diversity Chapter 17 17.1 The History of Classification • Animals were classified according to the presence or absence of “red blood.” • Animals were further grouped according to their habitats and morphology. • Plants were classified by average size and structure as trees, shrubs, or herbs.

  4. Organizing Life’s Diversity Chapter 17 17.1 The History of Classification Linnaeus’s System • Linnaeus’s system of classification was the first formal system of taxonomy. Perching bird Wading bird Bird of prey

  5. Organizing Life’s Diversity Chapter 17 17.1 The History of Classification Binomial Nomenclature • Linnaeus’s method of naming organisms, called binomial nomenclature, gives each species a scientific name with two parts. • The first part is the genus name, and the second part is the specific epithet, or specific name, that identifies the species.

  6. Organizing Life’s Diversity Chapter 17 17.1 The History of Classification • Biologists use scientific names for species because common names vary in their use. Ursus americanus American black bear

  7. Organizing Life’s Diversity Chapter 17 17.1 The History of Classification • When writing a scientific name, scientists use these rules: • The first letter of the genus name always is capitalized, but the rest of the genus name and all letters of the specific epithet are lowercase. • If a scientific name is written in a printed book or magazine, it should be italicized. • When a scientific name is written by hand, both parts of the name should be underlined. • After the scientific name has been written completely, the genus name will be abbreviated to the first letter in later appearances (e.g., C. cardinalis).

  8. Organizing Life’s Diversity • Each category is contained within another, and they are arranged from broadest to most specific. Chapter 17 17.1 The History of Classification Taxonomic Categories • The taxonomic categories used by scientists are part of a nested-hierarchal system.

  9. Organizing Life’s Diversity Chapter 17 17.2 Modern Classification

  10. Organizing Life’s Diversity Chapter 17 17.2 Modern Classification Characters • To classify a species, scientists construct patterns of descent by using characters. • Characters can be morphological or biochemical.

  11. Organizing Life’s Diversity Chapter 17 17.2 Modern Classification Morphological Characters • Shared morphological characters suggest that species are related closely and evolved from a recent common ancestor. • Analogous characters are those that have the same function but different underlying construction. • Homologous characters might perform different functions, but show an anatomical similarity inherited from a common ancestor.

  12. Organizing Life’s Diversity Chapter 17 17.2 Modern Classification Phylogenetic Reconstruction • Cladistics reconstructs phylogenies based on shared characters. • Scientists consider two main types of characters when doing cladistic analysis. • An ancestral character is found within the entire line of descent of a group of organisms. • Derived characters are present in members of one group of the line but not in the common ancestor.

  13. Introduction to Animals Chapter 24 24.1 Animal Characteristics Tissue Development • Endoderm • inner layer of cells in the gastrula • Ectoderm • outer layer of cells in the gastrula • Mesoderm • layer of cells between the endoderm and ectoderm

  14. Introduction to Animals Chapter 24 24.1 Animal Characteristics

  15. Introduction to Animals Chapter 24 24.2 Animal Body Plans Directional Terms • Anterior • In front of, front • Posterior • Behind, toward the rear • Distal • Away from, father from the origin • Proximal • Near, closer to the origin

  16. Introduction to Animals Chapter 24 24.2 Animal Body Plans Directional Terms • Inferior • Below, under • Superior • Above, over • Lateral • Away from the middle, toward the side • Medial • Toward the midline, middle, away from the side • Dorsal • Near the upper surface, towards the back • Ventral • Toward the bottom, belly surface

  17. Introduction to Animals • Have a fluid-filled cavity with tissue formed from mesoderm that lines and encloses the organs in the coelom Chapter 24 24.2 Animal Body Plans Body Cavities • Coelomates

  18. Introduction to Animals • Have a fluid-filled body cavity that develops between the mesoderm and the endoderm rather than developing entirely within the mesoderm Chapter 24 24.2 Animal Body Plans Body Cavities • Pseudocoelomates

  19. Introduction to Animals Chapter 24 24.2 Animal Body Plans Body Cavities • Acoelomates • Have solid bodies without a fluid-filled body cavity between the gut and the body wall

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