Exam I Slides (PDF)

Summary

This document introduces basic biology concepts, including the scientific method, properties of life, and general biological principles. The document likely contains information about atoms, molecules, and the organization of organisms and may also include images or diagrams.

Full Transcript

In simple terms, biology is the study of life.
Biologists may study anything from the microscopic or
submicroscopic view of a cell to ecosystems and the whole living
planet.
 Branches
Bacteriology Cell Biology Evolution Etiology Zoology

Helminthology Ichthyology Genetic Engineering Forensic Biology Genetics

Herpetology Malacology Ornithology Virology Microbiology
 Branches
Bacteriology Cell Biology Evolution Ethology Zoology

Helminthology Ichthyology Genetic Engineering Forensic Biology Genetics

Herpetology Malacology Ornithology Virology Microbiology
 Properties of Life

Response to Growth and Energy
Order Reproduction Adaptation Homeostasis
stimulus Development processing
 Order
Organisms are highly organized and consist of one or more cells. Even
very simple, single-celled organisms are remarkably complex. Inside
each cell, atoms come together through chemical bonding and form
molecules. Molecules come together to form cell components or
structures called organelles.
 Activity 1

Organize the following elements
Organization levels of the body

8Organ system 9Organism 2 Molecule

6 Tissue 3.Macromolecule 4.Organelle

5 Cell 1. Atom 7 Organ
 Response to Stimuli
Organisms respond to diverse stimuli. For example, plants can bend
toward a source of light or respond to touch. Even tiny bacteria can
move toward or away from chemicals, a process called chemotaxis. A
movement toward a stimulus is considered a positive response, while
movement away from a stimulus is regarded as a negative response.

https://www.youtube.com/watch?v=F6QMU3KD7zw
Pavlov experiment
 Reproduction
For a population to survive, some individuals within that population
must reproduce.
Reproduction begins by first duplicating their genetic material. Once the
genetic material is duplicated, it is then divided equally into two new
cells.
 Adaptation
All living organisms exhibit a “fit” to their environment. Biologists refer
to this fit as adaptation. Adaptations are a consequence of evolution
by natural selection.
 Physical adaptations
Body structures that help an organism find and consume food and
water, protect itself, cope with tough environments, and reproduce.

This owl has camouflaged feathers Giraffes have long necks that allow them to
that help it hide from predators. reach high leaves in tall trees.
 Behavioral adaptations
Are actions an organism takes to survive.

Migrating (Reproductive) Communicating
Grey whales migrate thousands of miles Worker weaver ants communicate with
every year to give birth to their calves in one another using chemical signals
warm water off the coast of Mexico. Then called pheromones. Ants that
whales travel in groups back to the successfully find food lay down
nutrient-rich waters of the Arctic. pheromone trails to help other workers
find the new food source.
 Growth and Development
Both multicellular and single-celled organisms grow and develop
according to specific instructions encoded in their DNA. DNA is
organized into genes that provide information for cellular growth and
development.
 Homeostasis
Is the ability of an organism to regulate and maintain constant internal
conditions.
 Energy Processing
Some organisms can obtain energy through metabolic pathways such as
photosynthesis. Photosynthesis is a process where light energy can be
captured and converted into chemical energy.
Organisms that are capable of making their own chemical energy are
referred to as autotrophs. Others must obtain their chemical energy by
consuming other organisms. These individuals are referred to as
heterotrophs.
Scientific Method
 Scientific method
Is a process used by scientists to study the world around them. It
can also be used to test whether any statement is accurate.
6 STEPS OF THE SCIENTIFIC METHOD
1. Identify the Problem

2. Form a Hypothesis

3. Design an Experiment

4. Perform an Experiment

5. Analyze the Data

6. Communicate the Results
 1. IDENTIFY THE PROBLEM
The scientific method starts with identifying a problem and forming a
question that can be tested.
 Example:
- The graduate student office generates considerable quantities of
coffee waste every day.

-
- How can we use this coffee waste?

- Ideas!
Scientific question can be answered by making observations with your
five senses and gathering evidence.

For example, “How does coffee grounds fertilizer affect plant growth?”

Fertilized Unfertilized

Observation– the process of using the five senses to gather information.
 2. FORM A HYPOTHESIS
Hypothesis is a possible explanation for a set of observations or an
answer to a scientific question. A hypothesis must be testable and
measurable.
For example,

“If I give my plants coffee grounds fertilizer in the spring,
then they will be growing faster, or my plants will have a
higher number of leaves”

YES NO

Experimentation Process
 3. DESIGN AN EXPERIMENT
Test the hypothesis by designing an experiment. This includes
creating a list of materials and a procedure— a step-by-step
explanation of how to conduct the experiment.

Mineral water (W)
Not used fresh coffee powder at 7 and 30 days (NU7, NU30)
Dried spent grounds from espresso mocha at 7 and 30 days (M7, M30)
Dried spent grounds from espresso pod at 7 and 30 days (P7, P30)
 Variable– a factor that changes in an experiment.

Types of Variables
Independent Variable– the variable that is tested and changed by the scientist.
֍ Ex. The amount of coffee grounds fertilizer used on your plants.

Dependent Variable– the variable that is measured by the scientist and changes
as a result of the independent variable.
֍ Ex. How many centimeters is growing the plant in each treatment.

Controlled Variable– the variables that are kept the same (constant) throughout the
entire experiment.
֍ Ex. Same type of plant, same amount of light and water.
 4. PERFORM AN EXPERIMENT
A proper experiment compares two or more things but changes only
one variable.
Controlled Experiment– an experiment that compares two or more
things but only changes one variable.

The coffee solutions (Table 1; Fig. 1) were prepared
with powders from different sources: not used fresh
expresso powder (NU) or dried spent grounds from
expresso mocha (M) or pods (P). The powders were
dissolved in mineral water at a final concentration of
17.5 g L−1 , kept in the dark at room temperature for 7
and 30 days, and then gently decanted to separate
ground coffee sediment from water. Suspensions were
not filtered to avoid introducing or extracting
components. Simple mineral water (W), pure from any
coffee powder, was used as a negative control.
 5. ANALYZE THE DATA
Data are the facts, figures, and other evidence gathered through
observations. A data table provides you with an organized way to
collect and record your observations.

Data Analysis- the process of interpreting the meaning of the data
collected in an experiment, finding patterns in the data, and thinking
about what the patterns mean.
 Mineral water (W)
Not used fresh coffee powder at 7 and 30 days (NU7, NU30)
Dried spent grounds from espresso mocha at 7 and 30 days (M7, M30)
Dried spent grounds from espresso pod at 7 and 30 days (P7, P30)
Total length (A) and total fresh biomass (B) of cucumber seedlings treated with W: mineral water; NU7: not used
coffee 7 days; NU30: not used coffee 30 days; M7: mocha seven days; M30: mocha 30 days; P7: pod 7 days;
P30: pod 30 days. Data are mean ± se (n=10). Different letters indicate statistically significant differences
according to one-way ANOVA (P