Chapter 1, Human Biology PDF

Summary

This document is a lecture outline or syllabus for a human biology course. It covers the scientific method and the characteristics of life, including examples related to smoking and lung cancer. The document mentions the use of experiments and observations to study concepts.

Full Transcript

BIO 103 Human Biology

The most important class you’ll take at AUS!

Dr. Aaron Bartholomew
BSc. In Marine Science / Biology, minor in Chemistry from University
of Miami. GPA: 3.99 / 4

PhD. in Marine Science (Marine Ecology) from The College of William
and Mary. GPA: 3.94 / 4

I have been at beautiful AUS since 2002

I have written 31 papers / chapters that have been cited more than 2,500
times.
Read the syllabus (on ilearn)

Read the slides and book before watching the lecture

Take notes in class

Optional homework questions (also on ilearn) can help
your grade

Feel free to contact me: office and via e-mail.

Statistics lab data sheet due on Jan. 25th
 CHAPTER 1

Learning about human biology
Objectives
Learn the scientific method

Learn the characteristics of life

Learn the characteristics of humans
 You cannot prove anything
Logic dictates that you cannot prove anything.
You can disprove incorrect ideas, however.

If a à (then) b If this is assumed true

If b à (then) a Then this is also true,
If b à (then) a but this is not true
 So how does science work?

We can disprove wrong ideas.
We cannot “prove” ideas to be true, we can only
accumulate evidence supporting ideas.
 The scientific method
1 Make general observations
2 Form a general hypothesis or “idea” or “educated guess”
3 Form testable hypotheses and plan an experiment
4 Perform experiments or observations that randomly sample the
population of interest, and with proper controls
5 Do your results support your general hypothesis? If not change
your general hypothesis.
6 Make further predictions and perform further experiments to
support (or not) your general hypothesis
7 Publish your results
8 If a hypothesis has broad support, has never been disproven, and
explains many natural phenomena, it may become a theory
1 General Observation
“Many people that are smokers are having serious
health problems, including lung cancer (and also high
blood pressure, heart attacks, strokes, emphysema and
stinky breath)”
2 General hypothesis
People who smoke are more likely to get lung
cancer than people who do not smoke.
3 Observational study and testable hypotheses
Question: Do UAE smokers have a higher lung cancer risk?
Randomly sample from the UAE: 100,000 smokers and 100,000 non-
smokers and count the number of people that get lung cancer in each
group after many years.
Why is random sampling important?
Why is it important to avoid confounded experiments?
What is the control group, and why is it important? What is the
experimental group?
Testable hypotheses:
1 There is no significant difference in the incidence of lung cancer
between the two groups (null hypothesis)
2 There is a significant difference in the incidence of lung cancer
between the two groups (alternate hypothesis)
Observational Study Results
Smokers: 60 cases of lung cancer out of 100,000

Non-smokers: 2 cases of lung cancer out of 100,000

What does this mean?
At what point is the other person cheating?
Other:You
31:31
32:30
40:22
56:6
60:2
62:0
Rejection of null hypothesis at
p < 0.05 = 1/20 times or less it would happen.
Reject null hypothesis

Testable hypotheses:
1 There is no significant difference in the incidence of lung
cancer between the two groups (null hypothesis)
2 There is a significant difference in the incidence of lung
cancer between the two groups (alternate hypothesis)
Evidence supports the idea that cigarettes may cause lung
cancer, but does not prove this!
4 Experimental study to test hypothesis
Experimental plan: Take 200,000 mice and randomly divide them into
2 groups of 100,000. Expose one group to cigarette smoke throughout
their life, and do not expose the other group.

Which is the control group? What is the experimental group?

Testable hypotheses:
1 There is no significant difference in the incidence of lung cancer
between the two groups
2 There is a significant difference in the incidence of lung cancer
between the two groups
Which is the null hypothesis, which is the alternate hypothesis?
 Experimental study results
Compare incidence of lung cancer in mice

Results:
Smoking Non-smoking
210 4

Once again, after doing statistics we reject the null
hypothesis, and support the alternate hypothesis.
Cigarette company (skeptical) response:
“These two studies do not prove that cigarettes cause lung cancer,
the first was merely bad luck, and besides it only looked at one
country. The second involved MICE not people”.
We did not prove cigarettes caused cancer, but we did accumulate
evidence.

Only through the accumulation of overwhelming scientific
evidence from a variety of studies the world over did cigarette
companies admit that smoking causes lung cancer.
Smoking advertising: then vs. now
 Ways to Disseminate Findings
Peer-reviewed journals: (most reliable results come from these sources, these are
available online and often as hard copies also)
Presentations at scientific meetings: (material is often times not yet peer-reviewed)
Popular press and reputable websites: online newspapers / magazines / websites
(they may mis-represent the findings, and are usually not peer-reviewed).
It’s very important to realize that a lot of the “scientific” information online is
“junk” = not accurate. Try to get your information from reliable web sites, with high
professional standards.
Examples:
Online newspapers that have real journalists (New York Times, The Guardian,
Wall Street Journal, The Hindu, Khaleej Times, etc.)
Government websites
University websites
Websites of well-known, reputable organizations (American Heart Association,
Mayo Clinic, American Cancer Society, etc.)
What are the characteristics of life?
 The Characteristics of Life
How are living things different from nonliving things?
Living things:
Take in energy and raw materials from surroundings
Have different chemical compositions
Are composed of at least one cell
Maintain homeostasis
Sense and respond to their environment (often by moving)
Grow and reproduce
Have DNA (although some non-living viruses do too)
Populations of living things are capable of evolving
The Characteristics of Life
Living things take in energy and raw materials from
their surroundings
Plants, some bacteria and some protists (Autotrophs):
Energy: from sunlight (usually)
Materials: water, carbon dioxide, nitrogen, phosphorus, etc.
Plants create their own food through photosynthesis.

Animals, fungi, some bacteria, some protists (Heterotrophs)
Energy: chemical bonds from eating (or decomposing) other animals /
plants.
Materials: from other organisms.
 The Characteristics of Life
Living things have different chemical compositions

The molecules of life are:
Proteins (examples: enzymes, muscle proteins, structural proteins
like: keratin (hair / nails), collagen (tendons, ligaments, cartilage,
etc.)
Carbohydrates (energy stored: starches in plants, glycogen in
animals, converted to glucose as fuel)
Lipids (energy stored in body fat, every cell membrane)
Nucleic acids (DNA, RNA).

Carbon: in life vs. in environment: 18% vs. 0.03%.
The Characteristics of Life
Cell theory of biology:
A cell is the smallest unit of life, so all living things have at
least one cell.
All cells come from pre-existing cells.
Unicellular vs. multicellular.

A unicellular amoeba A rabbit neuron
 The Characteristics of Life
Living things: maintain homeostasis
Internal environment maintained within a narrow chemical
and physical range for cells to survive
Maintenance of this environment is called: homeostasis.
Examples: Human body temperature around 37 C.
(Slightly warmer after exercise, slightly cooler when
sleeping)

Maintained by: sweating, shivering, changing blood
circulation to skin: less blood if it is cold out, more blood if
it is warm out
 The Characteristics of Life
Living things: sense and respond to the environment

Living things are irritable: they perceive and respond to
external stimuli.

Examples:
Humans withdraw their hands from hot objects,
Some plants grow towards the light and move their leaves to
catch the maximum amount of sun,
Bacteria move away from noxious chemicals.
The Characteristics of Life

Living things: grow and reproduce
Asexual reproduction: organism produces an
offspring that is an exact genetic copy of itself.

Sexual reproduction: sperm and egg (gamete) cells
join. Offspring have ½ of their genetic material from
each parent.
! Warning !
The next slide shows sexual reproduction,
look away if this will be offensive to you.
Sexual reproduction:
toads mating

Asexual reproduction: a
unicellular amoeba
dividing into two
identical individuals

Asexual reproduction: a
multicellular hydra
budding off an offspring
The Characteristics of Life
Populations of living things: are capable of evolving
Evolution: a change in frequency of genetic traits in a
population of organisms. Sometimes the population may
change, over time, into a new species.

Natural selection: (“survival of the fittest”) animals with
“good genes” are more likely to survive and reproduce, thus
passing these good genes on to their offspring.
Nature “selects” animals with the best traits for survival and
reproduction because unfit animals, with less fit genes, may
die without reproducing and do not pass on their less fit
genes.
An example of evolution

The peppered moth: flies around at night, rests on tree
trunks during the day.
Birds eat them when they rest on trees, if they see
them.
In 1800’s in England, lots of air pollution (coal) and
tree trunks became black in some places.
The moth had 2 different color types:
1) Black
2) White / speckled.
Black moths at first: very rare (not seen in surveys)
In industrialized areas: black moths increase in number (90%).
Less industrialized areas: black form rarer.
Now: black form is declining again (less pollution).
The gene frequencies within the population changed over
time: the moth population evolved.
What are the Defining Features of Humans?
 Defining Features of Humans
Bipedalism in mammals (although bonobo chimpanzees often walk
upright)
This frees the hands for carrying / making things

Opposable thumbs (that can touch fingertips)
With fine motor skills, we can use tools

Large brain, relative to body size
Our key evolutionary “innovation”

Capacity for complex language
Enables complex communication and transmission of information and
customs between generations (complex culture).
High intelligence!
Humans have the largest brains relative to body size of any
animal. Example: Porpoises are 2.5 times heavier than us,
but their brains are only 1.2 times bigger than ours.
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