Origin of Life, Charactristics of Life and Body and Ecological Organization (1).pdf

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ORIGIN Characteristi
OF cs of Life

Body and
Ecological
Organizatio
 At the end of the lesson the
student should be able to:
1. Explain the evolving concept of
life based on emerging pieces of
evidence.
2. Describe how unifying themes
(e.g structure and function,
 EARTH’S EARLY ATMOSPHERE
4.6 Billion Years Old
Geologic evidence shows
Earth formed 4.6 BYA

Early Atmosphere
Probably contained CO₂,
CO, Nitrogen, Ammonia,
Methane
But, No Oxygen!
(wouldn’t support life)

3.8 BYA
Earth cooled enough for
liquid water to form
I. Early Theory
a. Spontaneous Generation (Abiogenesis)- The hypothesis
that life arises regularly from non-living thing

II. Experiments That Helped to Disprove Spontaneous
Generation
a. Italian physician and poet, Francesco Redi (1668)
1. Hypothesis: Maggots arose from tiny, non-visible
eggs laid on meat
2. Procedures:
a. Put pieces of meat in several jars, leaving half
open to the air
b. Cover the other half with thin gauze to prevent
entrance of flies
3. Results:
a. After a few days, meat in all jars spoiled and
maggots were found only on the meat in the
uncovered jars
b. One of the first documented experiments to use
a control!
II. Experiments That Helped to Disprove Spontaneous
Generation cont.
a. French scientist, Louis Pasteur (1859)
The French Academy of Sciences held a contest for the
best experiment either proving or disproving spontaneous
generation
1. Hypothesis: Microorganisms do not arise from meat
broth
2. Procedures:
a. Place meat broth in a flask with a long, curved neck.
(This permitted air to enter, but trapped dust and
other airborne particles)
b. Boil the flask thoroughly to kill any microorganisms
c. Do NOT seal the open end of the flask
d. Wait an entire year before gathering results
Results:
a. After a year, no microorganisms could be found in the
broth!

b) Pasteur then removed
the curved neck, permitting
dust and other particles to
enter. In just one day, the
flask contained
microorganisms!
c) Microorganisms had
clearly entered the flask with
the dust particles from the air
III. Theories Explaining the Formation of Life

a. The Formation of Complex Molecules: the Miller/Urey Experiment
(1953)
1. Miller and Urey simulated the conditions of Earth’s early
atmosphere and oceans, adding energy to simulate the lightning
that was believed to be commonplace
2. After one week, 10-15% of the carbon had turned into organic
compounds, and 2% of the carbon had created amino acids, the
building blocks of proteins/life
III. Theories Explaining the Formation of Life cont.
B. Molecules from Space
1. Many of the compounds produced by the Miller/Urey experiment are
known to exist in space.
2. If these compounds can survive the harshness of space, perhaps they
were present when earth initially formed.
3. Organic molecules could have also been brought to earth by space
debris.
IV. Current Theories

a. The Formation of Complex Molecules
1. Collections of these molecules tend to gather together into tiny
round droplets known as coacervates
a. In the laboratory, these droplets have been shown to grow
and divide!
b. Coacervates are not living cells, but their existence suggests
ways in which the first cell may have formed.
c. Early oceans are the perfect environment for coacervates –
warm, wet, large, and the water “protected” their delicate
structure

Figure 16.9
IV. Current Theories

B. The First True Cells
1. They were prokaryotic (lacked
nucleus), anaerobic (survived
in absence of O₂),
heterotrophs that resemble
types of bacteria alive today
2. Found in rock 3.5 billion years
old
IV. Current Theories
C. The Evolution of Photosynthesis
1. Early heterotrophic bacteria fed on
organic molecules, releasing CO₂ as
a waste product.
2. 3.5 billion years ago, photosynthesis
evolved that was mostly anaerobic,
releasing sulfur as a waste product.
3. Natural selection favored organisms
that could harness energy from the
Living
readily available sun stromatolite
4. 2.7 billion years ago, photosynthesis s still exist
that used sunlight and released in Shark
Bay,
oxygen as a waste product Australia
developed. Commonly used in
cyanobacteria (which produce fossils
called stromatolites)
V. The Road to Modern Organisms

A. Oxygen and Life
1. Oxygen began to increase in the atmosphere about 2.3 bya
2. Oxygen was poisonous to early anaerobic organisms and
many either died off or remained underground/underwater.
Earth was transformed!

Anaerobic bacteria such as these
now live only deep within the ocean
, deep in mud and in other places
where the atmosphere does not
h
Organisms using Oxygen began to
evolve and dominate the planet!
V. The Road to Modern Organisms

B. Eukaryotes and the Origin of Complex Cells
1. Eukaryotic organisms with a true nucleus, DNA and membrane-
bound organelles evolved between 1.4 and 1.6 bya
1. Eukaryotes likely evolved because of endosymbiosis – one
bacterium engulfing another and passing that structure on
2. For example, the modern chloroplast is the descendent of an
engulfed cyanobacteria!
V. The Road to Modern Organisms
C. Sexual Reproduction and Multicellular Life
1. Multi-celled organisms are thought to have evolved when single-
celled organisms stacked together to share the duties of life
2. The origin of sexual reproduction rapidly increased the rate of
early evolution
3. Genes and traits began shuffling and combining in ways they
were not capable of before
4. Genetic variation created new species under the influence of
natural selection!
Characteristics of Life
 Biology = the study of life

What does it mean to be alive???

There are 8 characteristics of life...
No single characteristic is enough to
describe a living thing...
They must have all eight.
 8 Characteristics of Life

1. Living things are made up cells.
2. Living things reproduce.
3. Living things are based on a
universal genetic code (DNA).
4. Living things grow and develop.
 8 Characteristics of Life
(cont.)
1. Living things obtain and use materials
and energy.
2. Living things respond to their
environment.
3. Living things maintain a stable
internal environment. (homeostasis)
4. Taken as a group, living things
change over time.
 1—Made up of cells
They can be either unicellular or multicellular.
***Unicellular = made up of ONE cell
Picture of a unicellular organism.
Picture of a Cell

***Multi-cellular = made up of MORE than one cell
Picture of multicellular organisms
 2—Reproduction
There are 2 types of reproduction:
1. Asexual 2. Sexual

***asexual = reproduction ***sexual = reproduction
that requires ONE parent that requires TWO parents
3—Based on a genetic code

***DNA = DNA is the genetic code found in
every cell. DNA is inherited from parents
and controls your traits.
 4—Grow and Develop

**All living things grow ***Think about it... Do
and develop during at you look the same as
least part of their life. when you were
born????
5—Need for materials and energy

**Living things need a constant supply of materials
and energy.
**Metabolism = the process of using those
materials.
 6—Response to the environment
**Organisms detect and respond to STIMULI
(or signals) from their environment.

**Internal stimuli =
signal comes from **External stimuli =
inside the organism signal comes from
outside the organism
7—Maintaining internal balance
Despite changing
conditions around them,
organism must keep
their internal conditions
stable/balanced.

**Homeostasis =
the process of keeping the internal
environment stable/balance/constant
 8—Change over time

Over hundreds, thousands, and millions of years,
organisms have the potential to change =
evolution
Organization &
Body Systems
 Anatomy & Physiology

The study of the
human body
Anatomy is
concerned with
the structure of
a part
Physiology
is concerned
with the
function of
the part
 Levels of Organization
Body is organized into levels from
most simple to most complex
 Atoms

Most simple
Compose all
substances
Chemicals
elements
Molecules

Atoms joined
together form
molecules
Example:
amino acids
 Macromolecules

Molecules joined
together form
macromolecules
Example: protein
 Organelles

Tiny structures
found in cells that
perform cellular
functions
Example:
mitochondria –
supplies cell with
energy
 Cells
Macromolecules found in all cells
Basic unit of all living things
 Tissue
Composed of similar types of cells and
performs a specific function
Example: blood, muscle, fat
 Organs

Groups of
tissues working
together to
perform a
specific function
Example: heart,
stomach
Organ System

Groups of organs
that perform a
particular function
Example: digestive
system: supply body
with the nutrients
needed for growth
and repair
 Organism
All the body systems
make up an organism
Unicellular organism:
made up of one cell
Example: amoeba
Multicellular organism:
made up of many cells
Example: gorillas
 Review

1. ________ is concerned with the
structure or an organ or part, while
________ is concerned with the
function.
1. ___________ are groups of tissues
working together to perform a specific
function.
3. ______________ organisms are made
up of many cells, while ___________
organisms are made up of one cell.
4. Basic unit of all living things are called
________.
 Introduction

Organs in the body
work together in
systems
11 organ systems
in the body
Organ systems can
be divided into 4
categories based
on function
 Body
Systems

Support,
Integration & Maintenance Reproduction &
Movement, Coordination Development
of the Body
& Protection
Support, Movement, &
Protection
Integumentary System:
Organs: skin and accessory
organs (hair & nails)
Function: protects tissue,
regulate body temperature
& contains sense organs
Skeletal System
Organs: bones,
cartilage, & ligaments
Function: protects
body parts, produce
blood cells, stores
calcium & phosphorus
salts
Muscular System
Organs: skeletal,
cardiac, and smooth
muscles
Function: move
voluntarily, respond to
stimuli, produce body
heat
 Integration & Coordination

Nervous System
Organs: brain, spinal
cord & nerves
Function: conducts
nerve impulses from
the sense organs to
the brain and then to
the muscles and gland
Endocrine System:
Organs: Hypothalamus,
pituitary, thyroid,
parathyroid, adrenals,
pancreas, ovaries,
testes
Function: secretes
chemicals that are
messengers between
body part, maintain
proper functioning of
reproductive system
Maintenance of Body

Circulatory
(Cardiovascular)
system:
Organs: Heart, blood
vessels, blood
Function: transports
nutrients and oxygen to
cells through blood,
removes wastes
Immune (Lymphatic)
System:
Organs: Lymph
nodes, thymus,
spleen
Function: protects
body from disease
Respiratory
System:
Organs: Nose,
pharynx, larynx,
trachea, lungs
Function: bring
oxygen into lungs
and take carbon
dioxide out of the
lungs
Digestive System:
Organs: mouth,
pharynx,
esophagus,
stomach, small &
large intestine,
rectum
Function: receive
food and digest into
nutrient molecules
Urinary System:
Organs: kidneys and
urinary bladder
Function: gets rid of
nitrogenous wastes,
helps regulate fluid
level and chemical
content of the blood
 Reproduction & Development
Reproductive
System:
Organs: Male:
testes, epididymis,
vas deferens,
urethra, penis
Female: ovaries,
Fallopian tubes,
vagina, uterus
Function: produce
sex cells, nourish and
protect fetus (female)
Level of Organization of an
Ecosystem
 Biosphere contains the combined
portions of the planet in which all of
life exist, including land, water and
atmosphere
 Species

Species - group
of organisms so
similar to
another that
they can breed
and produce
fertile offspring
 Population

Population – same
species and live in
same area
 Community

Communities –
different populations
that live together in a
defined area
 Ecosystem

Ecosystem – a
collection of all
organisms that live in
a particular place
together with their
nonliving
environment.
What shapes an Ecosystem?
 Biotic and Abiotic

Biotic and Abiotic factors determine the
survival and growth of an organism and
the productivity of the ecosystem in
which an organism lives.
 Biotic Factors

Living Factors that
influence an
ecosystem
Plant life
Animal life
 Abiotic Factors

Physical, non-living
factors that influence
an ecosystem
Examples-
temperature,
precipitation,
humidity, wind,
nutrients, sunlight
 Other factors that affect an
Ecosystem
The area where an A niche is the full
organism lives is range of physical and
called its habitat. biological conditions
in which an organism
Habitats provide lives and the way in
populations of which the organism
wildlife with food, uses those
water, shelter and conditions. It is an
space. organisms’
occupation.
 Biome

Biome – a group of
ecosystems that have
the same climate and
similar dominant
communities.
13.1 Ecologists Study Relationships
KEY CONCEPT
Ecology is the study of the relationships among
organisms and their environment.
13.1 Ecologists Study Relationships
Ecologists study environments at different levels of
organization.
Ecology is the study of the interactions among living things, and
between living things and their surroundings.
An ______is an individual living thing, such as an
alligator.
A __________is a group of the same
species that lives in one area.
A ___________ is a group of different
species that live together in one area.
An ________ includes all of the
organisms as well as the climate, soil,
water, rocks and other nonliving things
in a given area.
A ________ is a major regional or global
community of organisms characterized
by the climate conditions and plant
communities that thrive there.