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Classification of Organisms. Developed by: Andrew Leech. Students should be able to: * Understand why a classification system is important * Understand that there are a variety of ways to classify organisms * Understand the origins of our modern classification system.
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Classificationof Organisms Developed by: Andrew Leech Students should be able to: * Understand why a classification system is important * Understand that there are a variety of ways to classify organisms * Understand the origins of our modern classification system
What is an Organism? • Organism: any living thing. • This includes everything from single celled • bacteria, all the way to the redwood tree or • Blue Whale.
The Classification Game!! Get into Pairs You will see 14 different organisms, each of them labeled with a letter. In your groups, write down two main classification groups (color, body plan, behavior, habitat). Then place the corresponding letters under the correct classification.
For Example These organisms have been classified by their color. Red Green
ARE YOU READY!
One Possible Solution Animals Plants ????
Did You Have Problems?? There are several different ways to classify these Organisms (color, shape, size, number of legs). How many groups had one or two that did not fit into either of your two classifications? What should you do when this happens?
Development of Classification? • Aristotle (350 B.C.) grouped organisms: • body parts • life histories • Activities • character.
Development of Classification? 10 groups of animals: 6 - “blooded”, 4 “bloodless”. Blooded: Humans, birds and fish Bloodless: insects and mollusks
Development of Classification? • As organisms were discovered, scientists had • to add to Aristotle’s original groupings. • Increasingly confusing and difficult to use • Lack of universal system
Origins of Classification • Modern Classification • Plants and Animals. • Discovered organisms that did not fit (Fungi)
Origins of Classification • Modern Classification • Invention of the microscope – discovered • organisms showing characteristics of both plants • and animals (Protists) • Improvements of the microscope led to 2 • bacterial kingdoms (eubacteria & archaebacteria)
TAXONOMY (Systematics) • organisms grouped by shared characteristics DERIVED CHARACTERISTICS. • Scientists were then able to find the common ancestry of the organisms.
Different ways of grouping • PHENETIC SYSTEM • PHENOTYPIC similarities (physical) • (Dolphins have body plan similar to sharks) • BEHAVIORAL • Dolphins share habitat, feeding patterns, movement with sharks
Different ways of grouping • GENOTYPIC SYSTEM • Grouped according to similarities in DNA
Cladistics • CLADISTIC SYSTEM. • Phylogeny – evolutionary history • Ex. So birds might be related to reptiles, because scientists think that birds evolved from early dinosaurs.
Scientific Names • BINOMIAL NOMENCLATURE • GENUS and SPECIES of the organism. • 1st word - Genus, 2nd word - Species. • A binomial - two words
Who do I have to thank for this? • Swedish botanist Carolus Linnaeus (1753) • Hierarchical system • species was the smallest unit, and that each species (or taxon) belonged to a higher category.
Kingdom Phylum Class Order Family Genus Species What Kingdom are you in? What phylum are you in? Why?
The Human Species Animalia (Animal in Latin) Kingdom: Phylum: Class: Order: Family: Genus: Species: Chordata (Spinal Cord) Mammalia (have mammary glands) Primates (two mammary glands) Hominoidea (bipedalism) Homo Sapien
When you refer to an organism scientifically, you always use the genus and the specie names. Therefore, the human species would be referred to as: Homo sapien
Conclusion The classification system for organisms have been around for a long time. It has endured several changes and is quite complex. Without it modern biology could not exist, much in the same way that a grocery store would go out of business if it did not have a classification system.