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Chapter 1 The Science of Biology

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Title: Chapter 1 The Science of Biology


1
Chapter 1 The Science of Biology
2
11 What Is Science?
  • Science is a process of inquiry, asking
    questions, the answers to which produce a body of
    knowledge, which is subject to change and
    revision.
  • The goal of science is to investigate and
    understand the natural world, to explain events
    in the natural world and to use those
    explanations to make useful predictions.

3
  • Science only deals with the natural world.
    Biology is a field in science that focuses on the
    study of life.
  • An understanding of science and the scientific
    approach is essential to making intelligent
    decisions.

4
  • Scientists collect and organize information in a
    careful, orderly way, looking for patterns and
    connections between events.
  • Scientists propose explanations that can be
    tested by examining evidence. Scientists try to
    explain events logically and analytically.

5
  • Scientific thinking begins with observation, the
    process of gathering information about events or
    processes in a careful, orderly way.
  • Observation generally involves using the senses,
    particularly sight and hearing. The information
    gathered from observations is called data. Data
    consists of observations that do not differ
    whether collected by one person or another.

6
  • Two types of data
  • Quantitative data expressed in numbers, obtained
    by counting or measuring.
  • Qualitative data descriptive and involves
    characteristics that cant usually be counted.

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  • Scientists use data to make inferences, a logical
    interpretation based on prior knowledge or
    experience.
  • After initial observations, a hypothesis is
    proposed. A hypothesis is a proposed scientific
    explanation for a set of observations.
  • Scientific hypotheses must be proposed in a way
    that enables them to be tested.

8
  • Science is an ongoing process, knowledge is
    constantly being reevaluated, revised and updated
    because of new tools, techniques and discoveries.
  • Good scientists are skeptics, questioning
    existing ideas and new hypotheses.
  • Common steps for scientists to gather information
    and answer questions are known as scientific
    methods. Not every scientific investigation uses
    every method nor do all investigations lead to
    scientific theory.

9
1-2 How Scientists Work
  • While there are no fixed steps, generally the
    scientific method involves
  • MAKE OBSERVATIONS observations utilize the
    senses to gather information. Scientific
    discovery often takes place when a scientist
    observes something no one has noticed before.

10
  • ASK A QUESTION observations may lead to
    unanswered questions. (Research may provide
    information about previous investigations of the
    question or suggest appropriate approaches to the
    problem.)
  • FORM A HYPOTHESIS an explanation for a question
    or a problem that can be formally tested. A good
    hypothesis predicts a relationship between cause
    and effect.

11
  • SET UP A CONTROLLED EXPERIMENT While we use the
    term experiment informally, a scientific
    experiment is an investigation that tests a
    hypothesis by the process of collecting
    information under controlled conditions. A
    controlled experiment involves two groups

12
  • Variable (Experimental) group test group that
    receives experimental treatment. A variable is
    the factor of an experiment that can change. In
    a controlled experiment, only one variable is
    tested at a time. There are three types of
    variables
  • Controlled (constant) variables same for both
    the control and variable group.
  • Manipulated (independent) variable variable that
    is deliberately changed.
  • Responding (dependent) variable changes in
    response to the manipulated variable (what
    happened).

13
  • Control group group that receives no
    experimental treatment, the standard against
    which results are compared.

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  • RECORD AND ANALYZE RESULTS keeping a written
    record of observations and data. Data from an
    investigation can be considered confirmed only if
    repeating the investigation several times yields
    similar results.
  • DRAWING A CONCLUSION Use evidence to determine
    whether the hypothesis was supported or refuted.

16
  • REPORTING RESULTS Results are only useful if
    they are made available to other scientists for
    peer review. Other scientists can try to verify
    the results by repeating the procedure.

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  • It is not always possible to do an experiment to
    test a hypothesis.
  • Alternative investigations may utilize fieldwork
    or surveys or large groups of subjects,
    controlling as many variables as possible.
  • As evidence accumulates from scientific
    investigations, a particular hypothesis may
    become so well supported that scientists consider
    it a theory. A theory is a well-tested
    explanation that unifies a broad range of
    observations.
  • No theory is considered absolute truth. As new
    evidence is uncovered, a theory may be revised or
    replaced.

19
1 3  Studying Life
  • The word biology means the study of life. A
    biologist is someone who uses scientific methods
    to study living things.
  • Describing what makes something alive is not
    easy.
  • No single characteristic is enough to describe a
    living thing.
  • Some non-living things share one or more traits
    with living things.

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Living things share the following characteristics
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1. Living things are made up of units called
cells.
22
  • All living things show an orderly structure,
    known as organization.
  • Although living things are very diverse, they are
    all unified in having cellular organization.
  • A cell is a collection of living matter enclosed
    by a barrier (cell membrane) that separates the
    cell from its surroundings.
  • The cell is the lowest level of structure capable
    of performing all of the activities of life.
  • Cells are complex and highly organized despite
    their small size.
  • Unicellular organisms are living things that
    consist of only a single cell.
  • Multicellular organisms contain hundreds,
    thousands or even trillions of cells with a
    variety of shapes and sizes. Each type of cell
    is specialized to perform a different function.

23
2. Living things reproduce.
24
  • All organisms produce new organisms (offspring)
    through a process called reproduction.
  • Reproduction is essential for the continuation of
    an organisms species (group of organisms that
    can interbreed and produce fertile offspring in
    nature.)
  • There are two types of reproduction
  • Sexual reproduction two cells from different
    parents unite to produce the first cell of the
    new organism. Offspring differ from their
    parents in some ways.
  • Asexual reproduction new organism has a single
    parent. Offspring and parents have the same
    traits.

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3. Living things are based on a universal genetic
code.
27
  • The directions for inheritance are carried by a
    molecule called deoxyribonucleic acid (DNA).
  • Every organism, with a few minor variations,
    interprets the genetic code of DNA in the same
    way.

28
4. Living things grow and develop.
29
  • Growth is an increase in the amount of living
    material and the formation of new structures.
  • Growth can occur by increasing the size of a
    single cell or increasing the number of cells.
  • Development is all of the changes that take place
    during the life of an organism.
  • The development of specialized cells from a
    single fertilized egg cell is called
    differentiation, because the cells produced look
    different and perform different functions.

30
5. Living things obtain and use materials and
energy.
31
  • Organisms take in energy and transform it to do
    many kinds of work.
  • Organisms use a constant supply of materials and
    energy to grow, develop, reproduce, and stay
    alive.
  • The combination of chemical reactions through
    which an organism builds up or breaks down
    materials as it carries out life processes is
    called metabolism.
  • All organisms get the material they need from
    their surroundings, or environment. The way
    organisms obtain energy varies.
  • Plants, some bacteria and most algae obtain their
    energy directly from sunlight through
    photosynthesis. They convert light into a form
    of stored energy in molecules ready to be used
    when needed.
  • Other organisms rely on photosynthetic organisms
    for their energy by eating plants or indirectly
    by eating organisms that ate plants. Decomposers
    obtain energy from organisms that have died.

32
6. Living things respond to their environment.
33
  • Organisms live in a constant interface with their
    surroundings, or environment, which includes
    other living organisms (biotic factors) as well
    as non-living factors (abiotic factors) like air,
    water, temperature and weather.
  • Anything in an organisms external or internal
    environment that causes to react is a stimulus.
    A reaction to a stimulus is a response.
  • External stimuli, which come from the environment
    outside an organism, include light and
    temperature.
  • Internal stimuli come from within an organism.
    For example, trees that drop their leaves in the
    fall conserve water and avoid freezing during the
    winter.

34
7. Living things maintain a stable internal
environment.
35
  • Even though conditions in the external
    environment may vary widely, the internal
    conditions of most organisms stay fairly
    constant.
  • The process by which they do this is called
    homeostasis.
  • A breakdown in homeostasis can result in disease
    or even death.
  • Homeostasis often involves internal feedback
    mechanisms, which respond to internal stimuli. A
    thermostat in your home maintains a constant
    temperature in your home.

36
Negative feedback mechanismA thermostat
37
  • A similar thermostat regulates human body
    temperature.
  • Human body temperature is a constant 37oC
    (98.6oF), regardless of the external temperature
    of the environment.
  • If the external temperature gets too hot and
    causes the human body temperature to rise, the
    body responds by sweating, which helps remove
    excess heat from the skin.
  • If the external temperature gets too cold and
    causes the human body temperature to drop, the
    body responds by shivering.
  • The muscle contraction when shivering produces
    heat, warming the body.

38
  • Another example of homeostasis human blood
    sugar levels.
  • The blood contains a constant amount of sugar in
    the blood. Yet the amount of sugar available to
    the body changes.
  • After you eat a meal high in sugar, blood sugar
    levels rise.
  • This stimulates the pancreas to produce a hormone
    (chemical signal) called insulin.
  • Insulin targets the liver and muscle cells of the
    body and tells them to take up the excess sugar
    and store it, bringing blood sugar levels back to
    normal.
  • After several hours of not eating, the sugar in
    the blood is used by the cells for energy,
    causing the blood sugar levels to drop.
  • This stimulates the production of a second
    hormone from the pancreas called glucagon.
  • Glucagon stimulates the liver and muscles to
    release sugar into the blood and help raise the
    blood sugar levels back to normal.

39
  • Animals are not the only organisms to use
    homeostasis.
  • Plants must regulate carbon dioxide intake and
    water loss.
  • Plants use structures call stomata (singular
    stoma) to do so.
  • Stomata are microscopic holes in a plant leaf
    (usually on the underside) that allow gases to
    enter and leave and water vapor to leave as well.
  • Each stoma consists of two guard cells, which
    control the opening and closing of stomata by
    responding to changes in water pressure.
  • When guard cells are swollen with water, the
    stoma is open.
  • When the guard cell loses water, the opening
    closes, limiting further water loss from the leaf.

40
Plant Leaf
41
8. Taken as a group, living things change over
time.
42
  • Although individual organisms experience many
    changes during their lives, the basic traits they
    inherited from their parents usually do not
    change.
  • A group of organisms, however, can change over
    time through the process of evolution.
  • Any inherited structure, behavior or internal
    process that enables an organism to respond to
    environmental factors and live to produce
    offspring is called an adaptation.

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  • There are always some differences in the
    adaptations of individuals within any population
    of organisms.
  • As the environment changes, some individuals have
    adaptations that make them better suited to the
    new conditions and more likely to survive and
    reproduce. As a result, individuals with these
    adaptations become more numerous in the
    population.
  • Over time, the characteristics of a species will
    change so that all individuals have the
    adaptation.
  • This process of change over time is called
    evolution. Life evolves as a result of the
    interaction between organisms and their
    environments.
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