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Published byGriselda Bruce Modified over 8 years ago
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Depending on where you live, this might be a mountain lion, cougar, puma, or panther – all of these are “common” names for the “Felis concolor”
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Why Classify? To study the great diversity of organisms on the planet, biologists must give each organism a name. Biologists use a classification system to name organisms & group them in a logical manner.
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Classification Taxonomy – The practice of naming & classifying organisms Scientists assign each organism a universally accepted name.
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Biologists need a way to name organisms that does not depend on language or location. They group organisms into large & smaller, more specific categories called “taxa” (singular = taxon)
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Scientific Nomenclature – biological system of naming 1750’s – Carl Linnaeus (Swedish biologist) wanted to catalog all known species. Came up with a 2-word Latin system called “binomial nomenclature.”
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This unique 2-part name is called the “scientific name.” All scientific names are made up of 2 Latin words that consist of the genus name followed by the species name. Common Name: honeybee Scientific Name: Apis mellifera
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Genus + species identifier (often descriptive) Genus – A level of classification that contains similar species. Common Name: cheetah Scientific Name: Acinonyx jubatus Common Name: leopard/panther Scientific Name: Panthera pardus Common Name: lion Scientific Name: Panthera leo
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Naming Rules 1. All members of a genus share the genus name as the first term. 2. The 2 nd term is the “species identifier” and is often descriptive. 3. The genus is capitalized and the species identifier is lowercased. 4. Both terms should be italicized.
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The Linnaean System Organisms are grouped at successive levels of a hierarchy based on similarities in their form & structure. 8 Basic Levels: domain, kingdom, phylum, class, order, family, genus, species
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See page 425 in textbook
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Levels of the Linnaean System ~Domain~ The most basic differences among cell types – 3 domains: 1. Bacteria – unicellular, prokaryotic, cells have cell walls, cell walls contain peptidoglycan (kingdom “Eubacteria”) 2. Archaea – same as bacteria but cell walls do not have peptidoglycan (a special protein). (kingdom “Archaebacteria”) 3. Eukarya – Consists of all organisms whose cells have a nucleus. Organized into 4 kingdoms of the 6 –kingdom system: (Protista, Fungi, Plantae, Animalia)
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~Kingdom~ 6 large groups: Plantae, Animalia, Fungi, Protista, Archaebacteria, Eubacteria
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Subgroup within a kingdom. ~Phylum~ Animal Phyla…
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Subgroup within a phylum. ~Class~
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Subgroup within a class ~Order~
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Subgroup with order ~Family~
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Subgroup within a family. Each genus is made up of species with uniquely shared traits. ~Genus~ African Wild dog – Family:canidae Genus:lycaon
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~Species~ A unique group of organisms united by heredity and interbreeding.
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“Modern Systematics”
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How do we tell one species from another? Systematics is the study of biological diversity and its origins. It focuses on understanding evolutionary relationships among organisms such as genes, & the evolution of intrinsic traits, ecological interactions, & geographic distributions.
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Scientists name & put organisms into groups based on their evolutionary history (how closely related they are). This is called “phylogeny.”
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Phylogenetics Phylogeny is the grouping of organisms into categories that represent lines of evolutionary decent, not just physical similarities. It shows the ancestral relationships between species.
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Phylogenetic Tree A diagram that shows the lines of evolutionary descent of different species, organisms, or genes from a common ancestor.
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Misleading Similarities… Convergent evolution: Similarities may evolve in groups that are not closely related because they have adapted to similar habitats or lifestyles. (ex. Wings of a bird & wings of an insect)
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Similarities that arise through convergent evolution are called “analogous characters.” Analogous structures have the same function (ex. wings for flight), while homologous structures have similar structure.
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Cladistics An extremely similar method of classification is “cladistics.” Cladistics is a method of analysis that infers relationships by careful comparisons of shared characters (rather than by ancestors).
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“Ancestral” vs. “Derived” Characters An ancestral character is thought to have evolved in a common ancestor of both groups. A derived character is one that evolved in one group but not in the other group… a new trait. An ancestral trait for the horse & monkey is that they have hair. A derived trait for the monkey is an “opposable thumb”
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A “clade” is a set of groups that are related. Each clade is compared to an “outgroup.” The outgroup lacks some of the shared characteristics. (Think of it as a “basic” model – like a car before you add all the accessories)
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