Campbell Biology - Chapter 1 - Evolution, Themes, and Scientific Inquiry PDF

Summary

This document summarizes the first chapter of the 12th edition of Campbell Biology. It introduces fundamental concepts of evolution and the themes of biology. The chapter also discusses scientific inquiry and biological organization. It also looks at the interaction of organisms and their environment.

Full Transcript

Chapter 1
Evolution, the Themes of Biology, and
Scientific Inquiry

© 2021 Pearson Education, Inc.
 The light, dappled fur of this beach mouse (Peromyscus
polionotus) allows it to blend into its habitat —brilliant
white sand dunes, dotted with sparse clumps of beach
grass along the Florida seashore. Mice of the same
species that inhabit nearby inland areas are much darker,
blending with the soil and vegetation where they live

© 2021 Pearson Education, Inc. Figure 1.1a
© 2021 Pearson Education, Inc. Figure 1.1b
CONCEPT 1.1: The study of life reveals unifying
themes
Biology is the scientific study of life
We recognize life by what living things do
Biology is a subject of enormous scope

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 There are five unifying themes in Biology
– Organization
– Information
– Energy and Matter
– Interactions
– Evolution

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© 2021 Pearson Education, Inc. Figure 1.2
Theme: New Properties Emerge at Successive
Levels of Biological Organization
Life can be studied at different levels, from
molecules to the entire living planet
This enormous range can be divided into different
levels of biological organization
Reductionism is an approach that reduces complex
systems to simple components that are
manageable to study

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Figure 1.3

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Emergent Properties
Emergent properties result from the arrangement
and interaction of parts as complexity increases
Emergent properties characterize nonbiological
entities as well
– For example, a functioning bicycle emerges only
when all of the necessary parts connect in the
correct way

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 The reductionist approach studies the isolated
components of the living system
To explore emergent properties, biologists
complement reductionism with systems biology,
analysis of the interactions among the parts of a
biological system
Systems biology can be used to study life at all
levels

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Structure and Function
At each level of the biological hierarchy we find a
correlation between structure and function
Analyzing a biological structure gives us clues
about what it does and how it works
Conversely, knowing the function of something
provides insight into its structure and organization

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Figure 1.UN01

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The Cell: An Organism’s Basic Unit of Structure
and Function
The cell is the smallest unit of organization that can
perform all activities required for life
The cell theory states that all living organisms are
made from cells
Every cell is enclosed by a membrane that
regulates passage of materials between the cell
and its environment
The cells of bacteria and archaea are prokaryotic,
while all other forms of life are composed of
eukaryotic cells

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 A eukaryotic cell has membrane-enclosed
organelles, the largest of which is usually the
nucleus
By comparison, a prokaryotic cell is simpler and
usually smaller and does not contain a nucleus or
other membrane-enclosed organelles

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Figure 1.4

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Theme: Life’s Processes Involve the Expression
and Transmission of Genetic Information
Within cells, structures called chromosomes contain
genetic material in the form of DNA
(deoxyribonucleic acid)

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Figure 1.5

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DNA, the Genetic Material

Each chromosome contains one long DNA
molecule with hundreds or thousands of genes
Genes are the units of inheritance
They encode information for building the molecules
synthesized within the cell
The genetic information encoded by DNA directs
the development of an organism

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Figure 1.6

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 The molecular structure of DNA accounts for its
ability to store information
Each DNA molecule is made up of two long chains
arranged in a double helix
Each chain is made up of four kinds of chemical
building blocks called nucleotides and abbreviated
A, G, C, and T

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Figure 1.7

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 For many genes, the sequence provides the
blueprint for making a protein
Protein-encoding genes control protein production
indirectly
DNA is transcribed into RNA, which is then
translated into a protein
Gene expression is the process of converting
information from gene to cellular product

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Figure 1.8

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Genomics: Large-Scale Analysis of DNA
Sequences
An organism’s genome is its entire “library” of
genetic instructions
Genomics is the study of whole sets of genes in
one or more species
Proteomics is the study of whole sets of proteins
and their properties
The entire set of proteins expressed by a given cell,
tissue, or organ is called a proteome

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 The genomics approach depends on
– “High-throughput” technology, which yields
enormous amounts of data
– Bioinformatics, which is the use of computational
tools to process a large volume of data very rapidly
– Interdisciplinary research teams

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Theme: Life Requires the Transfer and
Transformation of Energy and Matter
The input of energy from the sun and the
transformation of energy from one form to another
make life possible
The chemical energy generated by plants and other
photosynthetic organisms (producers) is passed
along to consumers
Consumers are organisms that feed on other
organisms or their remains

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Figure 1.9

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 When organisms use energy to perform work, some
energy is lost to the surroundings as heat
As a result, energy flows through an ecosystem,
usually entering as light and exiting as heat
Chemicals cycle within an ecosystem, where they
are used and then recycled

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Theme: From Molecules to Ecosystems,
Interactions Are Important in Biological
Systems
Interactions between the components of the system
ensure smooth integration of all the parts
This holds true equally well for molecules in a cell
and the components of an ecosystem

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Molecules: Interactions Within Organisms
Interactions between components that make up
living organisms—organs, tissues, cells, and
molecules—are crucial to their smooth operation
Many biological processes can self-regulate
through a mechanism called feedback

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 In feedback regulation, the output, or product of a
process, regulates that very process
The most common form of regulation in living
organisms is negative feedback, in which the
response reduces the initial stimulus
A less common form of regulation is positive
feedback, in which an end product speeds up its
own production

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Figure 1.10

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Ecosystems: An Organism’s Interactions with
Other Organisms and the Physical Environment
At the ecosystem level, each organism interacts
with other organisms
These interactions may be beneficial or harmful to
one or both of the organisms
Organisms also interact continuously with the
physical factors in their environment, and the
environment is affected by the organisms living
there

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Figure 1.11

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 Each organism interacts continuously with physical
factors in its environment
Humans interact with our environment, sometimes
with dire consequences
Over the past 150 years, humans have greatly
increased the burning of fossil fuels and the release
of carbon dioxide (CO2) into the atmosphere
The resulting global warming is just one aspect of
climate change

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 Wind and precipitation patterns are also shifting
Extreme weather events such as storms and
droughts are occurring more often
As habitats deteriorate, plant and animal species
shift their ranges to more suitable locations
For some, there is insufficient suitable habitat
Populations of many species are shrinking in size or
even disappearing

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Figure 1.12

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CONCEPT 1.2: The Core Theme: Evolution
accounts for the unity and diversity of life
An understanding of evolution helps us to make
sense of everything we know about life on earth
The scientific explanation for both the unity and
diversity of organisms is evolution, the concept
that living organisms are modified descendants of
common ancestors
An abundance of evidence supports the occurrence
of evolution

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 “Nothing in biology makes sense except in the light
of evolution”—Theodosius Dobzhansky

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Classifying the Diversity of Life
Approximately 1.8 million species have been
identified and named to date
Each species is given a two-part name: The genus,
to which the species belongs, and a species name
unique to that species
E.g., Homo sapiens, is the name of our species
Estimates of the total number of species that
actually exist range from 10 million to over 100
million

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The Three Domains of Life
Organisms are currently divided into three domains,
named Bacteria, Archaea, and Eukarya
The prokaryotes include the domains Bacteria and
Archaea

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 Domain Eukarya includes all eukaryotic organisms
Domain Eukarya includes the four subgroups
– Plants, which produce their own food by
photosynthesis
– Fungi, which absorb nutrients
– Animals, which ingest their food
– Protists

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 Protists are the most numerous and diverse
eukaryotes
These are mostly single-celled organisms
They are classified into several groups
Some protists are less closely related to other
protists than they are to plants, animals, or fungi

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Figure 1.13

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Unity in the Diversity of Life
A striking unity underlies the diversity of life; for
example,
– DNA is the universal genetic language common to all
organisms
– Unity is evident in the similar skeletons of different
animals
The history of life as documented by fossils and
other evidence is the saga of a changing Earth,
billions of years old

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Figure 1.14

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Figure 1.15

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Charles Darwin and the Theory of Natural
Selection
Charles Darwin published On the Origin of Species
by Means of Natural Selection in 1859
Darwin made two main points
– Species showed evidence of “descent with
modification” from common ancestors
– “Natural selection” is the mechanism behind descent
with modification
Darwin’s theory explained the duality of unity and
diversity

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Figure 1.16

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Figure 1.17

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 Darwin observed that
– Individuals in a population vary in their traits, many of
which seem to be heritable
– More offspring are produced than survive, and
competition is inevitable
– Species generally suit their environment

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 Darwin reasoned that
– Individuals with traits that are best suited to their
environment are more likely to survive and
reproduce
– Over time, more individuals in a population will have
the advantageous traits
Evolution occurs as the unequal reproductive
success of individuals

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 The natural environment “selects” for the
propagation of beneficial traits
Darwin called this process natural selection

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Figure 1.18

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 Natural selection results in the adaptation of
organisms to the circumstances of their way of life
and their environment
For example, bat wings are an example of
adaptation

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Figure 1.19

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The Tree of Life
The shared anatomy of mammalian limbs reflects
the inheritance of the limb structure from a common
ancestor
Fossils and other evidence corroborate anatomical
unity in support of mammalian descent with
modification

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 Darwin proposed that natural selection could cause
an ancestral species to give rise to two or more
descendent species
– For example, the finch species of the Galápagos
Islands are descended from a common ancestor
Evolutionary relationships are often illustrated with
treelike diagrams that show ancestors and their
descendants

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Figure 1.20

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CONCEPT 1.3: In studying nature, scientists
form and test hypotheses
The word science is derived from Latin and means
“to know”
Inquiry is the search for information and
explanations of natural phenomena
Scientists use a process of inquiry that includes
making observations, forming logical hypotheses,
and testing them

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Exploration and Observation
Biology begins with careful observation
Observations can reveal valuable information about
the natural world
Biologists also rely heavily on the published
contributions of fellow scientists
They build on the foundation of existing knowledge
Identifying relevant publications is easier than in the
past, thanks to indexed and searchable electronic
databases

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Gathering and Analyzing Data
Recorded observations are called data
– Qualitative data often take the form of recorded
descriptions
– Quantitative data are expressed as numerical
measurement, organized into tables and graphs

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Figure 1.21

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 Inductive reasoning derives generalizations from
a large number of specific observations
Careful observations and data analyses, along with
generalizations reached by induction, are
fundamental to our understanding of nature

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Forming and Testing Hypotheses
In science, a hypothesis is an explanation, based
on observations and assumptions, that leads to a
testable prediction
It must lead to predictions that can be tested by
making additional observations or by performing
experiments
An experiment is a scientific test, carried out under
controlled conditions

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 For example:
– Observation: Desk lamp doesn’t work
– Question: Why does’t the desk lamp work?
– Hypothesis 1: The bulb is burnt out
– Hypothesis 2: The bulb is not screwed in properly
Both these hypotheses are testable

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Figure 1.22

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Deductive Reasoning
Deductive reasoning uses general premises to
make specific predictions
Initial observations may give rise to multiple
hypotheses
We can never prove that a hypothesis is true, but
testing it in many ways with different sorts of data
can significantly increase our confidence in it

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Questions That Can and Cannot Be Addressed
by Science
A hypothesis must be testable
– For example, a hypothesis that ghosts fooled with the
desk lamp cannot be tested
Supernatural and religious explanations are outside
the bounds of science

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The Flexibility of the Scientific Process
The scientific method is an idealized process of
inquiry
However, very few scientific inquiries adhere rigidly
to this approach
Backtracking may be necessary partway through
the process
In other cases, observations may be too puzzling to
prompt well-defined questions, until further studies
are complete

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Figure 1.23

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A Case Study in Scientific Inquiry: Investigating
Coat Coloration in Mouse Populations
Color patterns of animals vary widely in nature,
sometimes even between members of the same
species
Two populations of mice of the same species
(Peromyscus polionotus), but with different color
patterns reside in different environments
The beach mouse lives on white sand dunes with
sparse vegetation; the inland mouse lives on darker
soil

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Figure 1.24

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 The two types of mice match the coloration of their
habitats
Natural predators of these mice are all visual
hunters
Francis Bertody Sumner hypothesized that the color
patterns had evolved as adaptations to protect the
mice from predators
In 2010, Hopi Hoekstra and a group of students
tested this hypothesis

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 The researchers predicted that mice that did not
match their habitat would be preyed on more
heavily than mice that did match the surroundings
They built models of mice, painted them to match
one of the surroundings, and placed equal numbers
of each type of model in each habitat
They then recorded signs of predation
The data fit the key prediction of the camouflage
hypothesis

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Figure 1.25

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Variables and Controls in Experiments
In a controlled experiment, an experimental group
(the non-camouflaged mice in this case) is
compared with a control group (the camouflaged
mice)
Experimental variables are features or quantities
that vary in an experiment
– The independent variable is the one that is
manipulated by the researchers
– The dependent variable is the one predicted to be
affected in response

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Theories in Science
In the context of science, a theory is
– Broader in scope than a hypothesis
– General enough to lead to many new, testable
hypotheses
– Supported by a large body of evidence in
comparison to a hypothesis

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CONCEPT 1.4: Science benefits from a
cooperative approach and diverse viewpoints
Most scientists work in teams, which often include
graduate and undergraduate students
Good communication is important in order to share
results through seminars, publications, and
websites
Research papers are not published until vetted by
colleagues in the “peer review” process

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Building on the Work of Others
Scientists check each other’s claims by performing
similar experiments
If experimental results are not repeatable, the
original claim will have to be revised
It is not unusual for different scientists to work on
the same research question

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 Scientists cooperate by sharing data about model
organisms (for example, the fruit fly Drosophila
melanogaster)
There are several other popular model organisms
as well
Biologists approach interesting questions from
different angles

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Science, Technology, and Society
The goal of science is to understand natural
phenomena
The goal of technology is to apply scientific
knowledge for some specific purpose
Science and technology are interdependent

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 The combination of science and technology can
have dramatic effects on society
– For example, the discovery of DNA by James
Watson and Francis Crick allowed for advances in
DNA technology such as testing for hereditary
diseases
Debates on technology center more on “should we
do it” than “can we do it”

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 Ethical issues that arise from new technology can
have as much to do with politics, economics, and
cultural values as with science and technology

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Figure 1.26

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The Value of Diverse Viewpoints in Science
Many important inventions have occurred where a
mix of different cultures ignited new ideas
– For example, the printing press relied on innovations
from China (paper and ink) and Europe (mass
production in mills)
Science benefits from a diversity of backgrounds
and viewpoints among its practitioners
The more voices heard, the more robust, valuable,
and productive the scientific interchange

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Figure 1.UN09

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