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Concepts

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Concepts & Methods in Biology Chapter 1 – PowerPoint PPT presentation

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Title: Concepts


1
Concepts Methods in Biology
  • Chapter 1

2
Biology
  • Scientific study of life
  • Lays the foundation for asking basic questions
    about life and the natural world

3
Why Study Biology?
  • To learn how organisms are constructed, how they
    function, where they live, and what they do
  • To help develop, modify, and refine ideas about
    life

4
Molecules of Life
  • All things are made up of the same units of
    matter
  • Living things are made up of a certain subset of
    molecules
  • Nucleic acids
  • Proteins
  • Carbohydrates
  • Lipids

5
DNA (deoxyribonucleic acid)
  • Signature molecule of life
  • Molecule of inheritance
  • Directs assembly of amino acids

6
DNA and Inheritance
  • Inheritance
  • Acquisition of traits by way of transmission of
    DNA from parent to offspring
  • Reproduction
  • Mechanism by which an organism produces offspring
  • Governed by instructions in DNA

7
DNA Guides Development
  • Multicelled organisms develop
  • Series of stages
  • Instructions for each stage in DNA

8
Nothing Lives without Energy
  • Energy Capacity to do work
  • Metabolism Reactions by which cells acquire
    and use energy to grow, survive, and reproduce

9
Sensing and Responding
  • Organisms sense changes in their environment and
    make responses to them
  • Receptors detect specific forms of energy
    (stimuli)
  • Allows maintenance of homeostasis

10
Levels of Organization
  • Cell
  • Multicelled Organism
  • Population
  • Community
  • Ecosystem
  • Biosphere

11
Interdependencies among Organisms
  • Producers
  • Make their own food
  • Consumers
  • Depend on energy stored in tissues of
    producers
  • Decomposers
  • Break down remains and wastes

12
Energy Flow
  • Usually starts with energy from sun
  • Transfer from one organism to another
  • Energy flows in one direction
  • Eventually, all energy flows back to the
    environment

13
ENERGY FROM SUN
Producers
NUTRIENT CYCLING
Consumers, Decomposers
ONE-WAY FLOW OF ENERGY
In time, all energy flows back to the environment.
14
Unity of Life
  • All organisms
  • Are composed of the same substances
  • Engage in metabolism
  • Sense and respond to the environment
  • Have the capacity to reproduce based on
    instructions in DNA

15
Diversity of Life
  • Millions of living species
  • Millions more now extinct
  • Classification schemes attempt to organize
    diversity

16
Scientific Names
  • Devised by Carolus Linnaeus
  • First name is genus (plural, genera)
  • Homo sapiens - genus is Homo
  • Second name is species within genus

17
3 Domains
Eubacteria (Bacteria)
Archaebacteria (Archaea)
Eukaryota (Eukaryotes)
18
6 Kingdoms
Protistans
Plants
Fungi
Animals
Eukaryotes
Archaebacteria
Eubacteria
Origin of life
19
Prokaryotic Organisms
Eukaryotic Organisms
  • Single cells
  • No nucleus or organelles
  • Smaller, less complex
  • Single- or multi-celled
  • Nucleus and other organelles
  • Larger, more complex

20
Mutation Source of Variation
  • Mutation change in structure of DNA
  • Basis for the variation in heritable traits
  • Most are harmful

21
Adaptive Trait
  • A trait that gives the individual an advantage in
    survival or reproduction, under a given set of
    circumstances

22
Evolution
  • Genetically based change in a line of descent
    over time
  • Population changes, not individuals

23
Artificial Selection
  • Breeders are selective agents
  • Individuals exhibiting favored traits are bred
  • Favored traits become more common in population

24
Natural Selection
  • Individuals vary in some heritable traits
  • Some forms of heritable traits are more adaptive
  • Natural selection is differences in survival and
    reproduction among individuals that vary in their
    traits
  • Adaptive forms of traits become more common than
    other forms

25
Antibiotic Resistance
  • Antibiotics are used to kill bacteria
  • Mutations for antibiotic resistance exist or
    arise
  • Antibiotic-resistant bacteria survive and
    reproduce better than nonresistant
  • Over time, proportion of antibiotic-resistant
    bacteria increases

26
Scientific Method
  • Observe phenomenon
  • Develop hypotheses
  • Make predictions
  • Devise test of predictions
  • Carry out test and analyze results

27
Inductive Logic
  • Using observations and facts to arrive at
    generalizations or hypotheses
  • Observation Eagles, swallows, and robins have
    feathers
  • Hypothesis All birds have feathers

28
Deductive Logic
  • Drawing a specific conclusion based on a
    generalization
  • Generalization - Birds have feathers
  • Example - Eagles are birds
  • Conclusion - Eagles have feathers

29
Role of Experiments
  • Used to study a phenomenon under known conditions
  • Allows you to predict what will happen if a
    hypothesis is not wrong
  • Can never prove a hypothesis 100 correct

30
Experimental Design
  • Control group
  • A standard for comparison
  • Identical to experimental group except for
    variable being studied
  • Sampling error
  • Nonrepresentative sample skews results
  • Minimize by using large samples

31
Scientific Theory
  • A hypothesis that has been tested for its
    predictive power many times and has not yet been
    found incorrect
  • Has wide-ranging explanatory power
  • Darwins theory of evolution by natural selection

32
Limits of Science
  • Scientific approach cannot provide answers to
    subjective questions
  • Cannot provide moral, aesthetic, or philosophical
    standards
  • Conflict with supernatural beliefs
  • Copernicus
  • Darwin

33
Scientists Raise Questions
  • The external world, not internal conviction,
    must be the testing ground for scientific beliefs
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