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Classification Q: What is the goal of biologists who classify living things?

Classification Q: What is the goal of biologists who classify living things?. Why classify organisms? How do evolutionary relationships affect the way scientists classify organisms? What are the major groups within which all organisms are currently classified?. A: To Find Order in Diversity.

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Classification Q: What is the goal of biologists who classify living things?

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  1. Classification Q: What is the goal of biologists who classify living things? Why classify organisms? How do evolutionary relationships affect the way scientists classify organisms? What are the major groups within which all organisms are currently classified?

  2. A: To Find Order in Diversity Q: What is one thing we can do to “find order in a diverse world”? A: Give it a name and describe it This is one of the most basic skills a scientist does, but exactly how do scientists name things?

  3. Common Names • Depending where you live, common names are assigned to living things—but this presents a problem because common names may vary from place to place and among languages • Examples: • bobcat, cougar, puma, mountain lion all refer to the same type of cat • In the UK a buzzard is a hawk, while in the US it is a vulture • Maryland’s state flower—black eyed Susan, yellow cornflower

  4. Assigning Scientific Names • To be useful, each scientific name must refer to one and only one species, and everyone must use that same name for that species. • It must be written in Latin

  5. Dichotomous Keys • One of the earliest classification systems • Consists of a series of paired statements or questions that describe alternative possible characteristics of an organism. • The paired statements usually describe the presence or absence of a certain visible characteristics or structures. • Each set of choices is arranged so that each step produces a smaller subset.

  6. Using a Dichotomous Key How would you describe this leaf?

  7. Binomial Nomenclature • Definition: having a two-part scientific name • Written in italic if typing or underlined if hand-written • First word (of name) is capitalized and the second word (of name) is lower-cased • Example: Felisconcolor or Homo saphien • Created by a Swedish botanist named Carolus Linnaeus

  8. Binomial Nomenclature cont. • Polar bear’s scientific name is Ursusmaritimus • Ursusis the genus (plural: genera) to which the polar bear belongs • A genus is a group of similar species • The genus Ursus contains 4 species of bears including Ursusarctos—the brown bear or “grizzly” • The second part of the name is the species • A species is defined as a group of individuals capable of interbreeding and producing fertile offspring • The species name is often a description of an important trait or the organism’s habitat.

  9. Species and subspecies of Ursus • American Black Bear, Ursusamericanus • Cinnamon Bear, Ursusamericanuscinnamomum • Kermode Bear, Ursusamericanuskermodei • Brown Bear, Ursusarctos • Grizzly Bear, Ursusarctoshorribilis • Kodiak Bear, Ursusarctosmiddendorffi • Polar Bear, Ursusmaritimus (earlier Thalarctosmaritimus) • Asiatic Black Bear, Ursusthibetanus, or Selenarctosthibetanus • A hybrid between grizzly bears and polar bears has also been recorded (known commonly as a pizzly bear). The official name is a grizzly-polar bear hybrid.

  10. Classifying Species into Larger Groups • The science of naming and grouping organisms is called systematics • The goal of systematics is to organize living things into groups (called taxa; singular: taxon) that have biological meaning

  11. How did Linnaeus group species into larger taxa? • Classification System based on a hierarchy or set of ordered ranks (smallest to largest): • Species • Genus • Family • Order • Class • Phylum (Division) • Kingdom

  12. Problems with Traditional (Linnaean) Classification • Linnaean classification emphasized the overall similarities and differences to classify an organism • Modern systematists apply Darwin’s ideas (descent with modification) to classification and try to look beyond simple similarities and differences to ask questions about evolutionary relationships (i.e. who is more closely related to each other)

  13. Lesson Assessment • Identify two goals of systematics. • Why do the common names of organisms—like daisy or mountain lion—often cause problems for scientists? • The scientific name of the sugar maple is Acer saccharum. What does each part of the name designate? • List the ranks of the Linnaean system of classification from largest to smallest. • In which group of organisms are the members more closely associated—kingdom or order. Explain your answer. • Why might modern biologists have a problem with the term “species”?

  14. Today’s Main Question:How do evolutionary relationships affect the way scientists classify organisms? • Guiding Questions: • What is the goal of evolutionary classification? • What is a cladogram and how do you interpret a cladogram? • How are DNA sequences used in classification?

  15. Modern Evolutionary Classification • Remember: Linnaean classification system is based on similarities and differences • Remember: Darwin’s “Tree of Life” suggests that all living things are related to each other through evolutionary relationships back to a common ancestor • This presents some problems in how we classify living things. • Example: Birds and Reptiles

  16. What is the goal of evolutionary classification? • The concept of descent with modification (by Darwin) led to the study of phylogeny—the evolutionary history of lineages—which led to phylogenetic systematics (aka evolutionary classification). • The goal of phylogenetic systematics is to group species into larger categories that reflect lines of evolutionary descent, rather than overall similarities and differences.

  17. Evolutionary Classification • Places organisms into higher taxa whose members are more closely related to one another than they are to members of any other group. The larger the taxon is, the farther back in time all of its members shared a common ancestor. • Classifying organisms according to these above rules places them into groups called clades. • A monophyletic clade is a group of species that includes a single common ancestor and all descendants of that ancestor—living and extinct. • Paraphyletic clades include a common ancestor but are missing one or more descendants.

  18. What is a cladogram? • A diagram that links groups of organisms by showing how evolutionary lines or lineages branched off from common ancestors.

  19. Building Cladograms • Speciation • The process by which one ancestral species splits into two new ones • This is the basis by which each branching point or node is made in a cladogram • The node represents the last point at which the two new lineages above the node shared a common ancestor • The bottom or “root” of a cladogram represents the common ancestors shared by all organisms in the cladogram

  20. Derived Character: A trait that arose in the most recent common ancestor or a particular lineage and was passed along to its descendants.

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