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Published byKelly Hunter Modified over 9 years ago
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Biology: Exploring Life
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Understand your world Make informed decisions Self Family Medical Diet Make informed votes Understand significance of accomplishments
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Bios = life ology = study of Biology = study of life
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Atom Carbon Molecule Lipid Organelle Mitochondrion Cell Eye receptor
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Tissue Nervous Organ Eye (multiple tissues) Organ system Visual system (multiple organs: eye, tear ducts, eyelids, brain, etc.) Multicelled organism Sparrow
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Population All sparrows in a forest Community All living things in the same forest Ecosystem All living & nonliving (soil, water, etc.) things in a geographical area Biosphere Everything on Earth that supports life
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Producers—provide food for ecosystem Plants Photosynthesis Consumers—eat/ingest others Eat plants Eat other animals Decomposers—break down dead Producers & Consumers Recycle chemical nutrients Fungi
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Cycle in ecosystem Producers convert sunlight & nutrients Producers create energy Consumers eat producers or other consumers Consumer dies Decomposers break down Consumers & producers Chemical nutrients are released
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Cell Basic functional unit of life Prokaryotic Small, very simple Bacteria Eukaryotic Complex Organelles with membranes Plants, animals, fungi
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Shared by all living things regardless of the form or complexity of life Order Organization Regulation Maintain internal environment Growth & Development Change with age during lifetime Energy Processing Metabolism Take in energy, transform to maintain life
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Response to Environment Environmental stimuli affect organism Sweating, chills Reproduction Method to pass on genetic information Sexual, asexual Adaptation Traits that aid survival are passed to next generation
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In summary, living organisms must…. Have organization Regulate themselves Grow Metabolize Respond Reproduce Adapt
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Taxonomy—ID and organize into logical groups Nomenclature—name organisms Binomial nomenclature (Genus, species) Homo sapiens (human) Canis lupus (wolf) Felis concolor (cougar)
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Group LevelExample Domain Eukarya KingdomAnimalia PhylumArthropoda ClassInsecta OrderLepidoptera FamilyDanaidae GenusDanaus Speciesplexippus Monarch Butterfly
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Bacteria Multiple kingdoms Prokaryotes Archaea Multiple kingdoms Prokaryotes Eukarya Eukaryotes Protists (multiple kingdoms) Kingdom Fungi Kingdom Plantae Kingdom Animalia
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Charles Darwin On the Origin of Species by Means of Natural Selection, 1859 “Descent with modification”— evolution of ancestors into current species Proposed to occur through natural selection
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Observations #1—Individuals in a population vary in heritable traits #2—Some individuals survive better than others due to these traits #3—Over time and generations, more individuals will have these beneficial traits “Survival of the fittest” Individuals with traits that aid in survival and/or reproduction will be more likely to pass on those traits to the next generation. Mutations Changes in DNA can lead to variations in traits
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Gather information about the world Do it objectively Explain the natural world using rules or patterns in the natural world Explanations that are testable Can use information for prediction No conclusion drawn in science is final! However, can say many things with high probability
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Observation Hypothesis Test Analyze & Interpret Repeat Theory
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Hypothesis #1: Dead batteries Observations Question Hypothesis #2: Burned-out bulb
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Hypothesis #1: Dead batteries Observations Question Hypothesis #2: Burned-out bulb Prediction: Replacing batteries will fix problem Prediction: Replacing bulb will fix problem Test prediction
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Hypothesis #1: Dead batteries Observations Question Hypothesis #2: Burned-out bulb Prediction: Replacing batteries will fix problem Prediction: Replacing bulb will fix problem Test prediction Test falsifies hypothesisTest does not falsify hypothesis
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Control Group Standard of Comparison Identical to testing group other than the variable being tested Sampling Error Certain amount of error in any study Try to minimize by taking large sample sizes
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Can we use viruses that attack bacteria (bacteriophages) to fight infections?
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Hypothesis - Bacteriophages can protect mice against infectious bacteria Prediction - Mice injected with bacteriophages will not die as a result of bacterial injection
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Experimental group Inject with bacteria and bacteriophage Control group Inject with bacteria and saline
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Experimental group All mice lived Control group All mice died Conclusion - Bacteriophage injections protect mice against bacterial infections
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Prediction - Bacteriophage injections will be more effective treatment than single dose of the antibiotic streptomycin Test - Mice injected with bacteria, then with saline, streptomycin, or bacteriophage
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With 2nd injection: Bacteriophage - 11 of 12 mice lived 60 mg/gm streptomycin - 5 of 12 lived 100 mg/gm streptomycin - 3 of 12 lived Saline - all mice died Conclusion - Bacteriophage treatment can be as good or better than antibiotic
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Limited to our knowledge and understanding of the natural world Cannot answer philosophical, moral, or ethical questions Limited by man’s fallibility
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