Earth's Systems and Population Ecology Quiz PDF

Summary

This document covers population ecology, discussing concepts like population size, density, dispersion patterns, and demographics. It further delves into population growth models, limiting factors, and the interactions between Earth's systems. The document also touches on Earth's structure and plate tectonics.

Full Transcript

is an interdisciplinary
and transdisciplinary
study of the relationship
between humans and
their natural, social, and
built environments.
branch of ecology that
works to understand the
patterns and processes
of change over time or
space for populations of
a single species.
group of organisms of
the same species that
occupy the same area
at the same time.
Study of factors that
affect the growth,
stability and decline
of population.
1. Population Size
Total number of
individuals.
2. Population Density

number of
individuals/organisms
per unit area.
3. Dispersion Pattern
refer to how the
individuals in a
population are
distributed in space at a
given time.
Dispersion Pattern
4. Demographics
Study of population that
includes several
parameters in collecting
and analyzing numbers
and statistics.
a. Birth Rate

Number of offspring
produce in a population
in a given period of time.
b. Death or Mortality Rate
Number of deaths in
a population in a
given period of time.
c. Gender Ratio
Number of males and
females that help
researchers predict
population growth or
decline.
5. POPULATION GROWTH
the increase in the
number of humans
on Earth.
1. Exponential Growth (J Shape Curve)
Growth that occur in an
ideal environment where
resources in unlimited.
There will be no
competition that limits
the growth.
2. Logistic Growth (S Shape Curve)

Occurs when the
population begin to
approach a finite
carrying capacity.
 Carrying Capacity

Above the carrying Carrying capacity
capacity is just right.
1. Limiting Factors
anything that constrains a
population's size and
slows or stops it from
growing.
a. Density Dependent Factors
Factors that depend on population
size.
b. Density Independent Factors
All populations are affected in similar
ways regardless of population size.
2. Age Structure
the proportionate
numbers of people in
different age categories
in a given population for
a defined time.
 It is a graphs that show
what fraction of a population
survives from one age to the
next.
 Ecologists use survivorship
curves to visualize how the
number of individuals in a
population drops off with
time.
 Late Loss

Early Loss

Constant Loss
 A finite world can
support only a finite
population!
 5 system of Earth
Atmosphere
EARTH’S Geosphere
Biosphere
Hydrosphere
SYSTEM Cryosphere
 EARTH AS A SYSTEM
The Earth is made up of
different system called
spheres.
The Earth's four systems—atmosphere, hydrosphere, geosphere, and biosphere—interact in complex ways
to support life and shape our planet. The atmosphere, composed of gases, envelops Earth and regulates
temperature while providing oxygen for living organisms. The hydrosphere includes all water bodies, such
as oceans, rivers, and lakes, which cycle water through evaporation, condensation, and precipitation,
influencing weather and climate. The lithosphere, Earth's solid outer layer, consists of rocks and soil, and
provides nutrients for plant growth while forming the landforms we see. The biosphere encompasses all
living things, which depend on and affect the other three systems through processes like photosynthesis,
respiration, and decomposition. These interactions create a balanced environment, enabling the Earth's
ecosystems to thrive.
When we say the Earth's systems are
EARTH AS A SYSTEM
interdependent, we mean that each
system relies on and affects the
others, creating a network of
interactions that sustain the planet's
environment and life. System is a collection of
interdependent parts
enclosed within a defined
boundary.
1. ATMOSPHERE
a protective layer of
gases that shelters all life
on Earth, keeping
temperatures within a
relatively small range and
blocking out harmful rays
of sunlight.
The Aurora Borealis, or Northern Lights,
occurs when charged particles from the
Sun collide with Earth's atmosphere near
the poles. These particles, guided by
Earth's magnetic field, excite oxygen and
nitrogen molecules, causing them to
emit light. This interaction creates the
vibrant and dynamic light displays
predominantly seen in high-latitude
regions.

LAYERS OF THE ATMOSPHERE
  the first and the
a. Troposphere lowest layer of
Earth’s atmosphere.
 starts from the
ground (or sea level)
of our planet and
expands up to 10 km
up in the sky.
Tropopause
 the boundary between
the troposphere and
stratosphere.
 This is where the
temperature stabilizes.
  goes up around 50 km
above the Earth’s
b. Stratosphere ground.
 ozone layer is found in
this layer.
 increase in
temperature occurs
because of absorption
The ozone layer is crucial because it absorbs
of UV.
most of the Sun's harmful ultraviolet (UV)
radiation, particularly UV-B and UV-C rays. This
protection is essential for life on Earth as UV
radiation can cause skin cancer, cataracts, and
harm marine ecosystems and agriculture.
  the third and coldest
layer of Earth's
c. Mesosphere atmosphere, reaching
about 130 degrees
below zero.
 where most meteors, or
space rocks burn up
before they can crash to
the ground.
  considered the "hot
d. Thermosphere layer" because it
contains the hottest
temperatures in the
atmosphere because
of few molecules and
atoms.
e. Exosphere  The air in the
exosphere is
extremely thin - in
many ways it is
almost the same as
the airless void of
outer space.
2. HYDROSPHERE
 consists of those
parts of the earth
system composed
of water in its
liquid, gaseous
and solid phases.
3. BIOSPHERE
 contains all living
organisms and it is
intimately related
to the other three
spheres.
 4.GEOSPHERE  The solid portion of
the Earth that
includes the
interior structure,
rocks and minerals,
Geosphere Vs Lithosphere
landforms down to
The geosphere includes all of Earth's solid parts,
like the crust, mantle, and core. The lithosphere is the core.
part of the geosphere, specifically the rigid outer
layer made up of the crust and upper mantle. This
layer is divided into tectonic plates that move,
causing earthquakes, volcanoes, and mountain
formation. So, the lithosphere is the geosphere's
hard outer shell.
 EARTH’S
STRUCTURE
1. Crust  Outermost layer of
the earth.
a. Continental crust
(landmasses)
b. Oceanic Crust
(below the ocean)
2. Mantle  Largest layer of the
earth.

a. Upper Mantle
b. b. Lower Mantle
 "Brittle" means something is hard but can break or
shatter easily when stressed. In geology, rocks in the
Earth's crust are often brittle, meaning they crack or
break quickly under pressure, leading to events like
earthquakes.

Lithosphere  Includes the brittle
upper portion of
Happens in Lithosphere
the mantle and the
crust.
Plate tectonics is a key process in the lithosphere
where the Earth's outer shell is divided into large, rigid
plates that float on the semi-fluid asthenosphere
beneath them. These plates are in constant motion,
driven by heat from within the Earth. They interact at
their boundaries, where they can collide (forming
mountains), move apart (creating ocean basins), or
slide past each other (causing earthquakes). Plate
tectonics shapes the Earth's surface, affects the
distribution of continents and oceans, and plays a
significant role in geological phenomena such as
earthquakes and volcanic activity.
 Partially molten
layer of rock.
 Alfred Wegener
 Published the concept of
continental drift.
 Suggested that 200
million years ago a
supercontinent (Pangaea)
began to break into pieces
and started moving away.
Plate Tectonics Theory
 Scientific theory
that explains
how major
landforms are
created.
We have 7 major plates and 11 minor plates
7 continents
( Asia, Africa, North America, South America,
Antarctica, Europe, Australia) Tectonic Plates
Plate Boundaries
 Place where tectonic plates meet.
 Types of Plate Boundaries
a. Convergent
 When this process
occur in the ocean it
creates ocean trench.
 trench is the deepest
place in ocean and
ocean trenches are created through the
often sites for strong
process of subduction at convergent
plate boundaries, where one tectonic
earthquakes.
plate descends beneath another, leading
to the formation of deep, elongated
depressions on the ocean floor.
Philippine Sea Plate
boundaries are convergent,
bounded to the east is the
Pacific Plate while on the west
is the Eurasian Plate.
 Types of Plate Boundaries
 Tectonics plates are
b. Divergent moving apart in opposite
directions.
 it creates new seafloor
when hot magma swelling
up and eventually cools
down that creates ridges in
ocean floor.
Over million of years the rising
magma can create a series of
volcanoes known as Volcanic
Arc.
Majority of volcanic arcs can
be found in the Ring of Fire.
The Ring of Fire is a horse
shoe shaped string of about
455 volcanoes edges the
Pacific Ocean. It is the most
seismically and volcanically
active zone in the world.
 Types of Plate Boundaries
c. Transform
 Occurs when two plates
slide each other
horizontally.
 As the plates rub each
other it creates stress that
causes the rocks to break
resulting in earthquakes.
 Types of Plate Boundaries
c. Transform
 It produces shallow
earthquakes but no
volcanoes.
 Places where these
breaks happens called
faults (cracks).
Longest Fault is San Andreas Fault (1200
km or 750 miles) located North America
3. Core  Innermost part of the
earth.
 Very hot and very
dense center of the
Earth.
 Outer Core and Inner
Core
  Responsible for earth’s
a. Outer Core magnetic field.
 has a low viscosity
meaning it is malleable
(easily deformed).
 Composed of liquid Iron
(Fe) and Nickel (Ni).
 No enough pressure to
keep in solid state.
Mars Core is liquid while
Venus core is solid.
The magnetic field serves as a
shield against solar wind
particles.
 The solar radiation coming from
the sun interacts with the Earth’s
Magnetic Field and pointing it
away from the sun. Fortunately,
the magnetic field attack most of
the solar wind particles so they
don’t reach earth’s surface.
 Earth’s Magnetic Field serves as
a shield against solar wind
particles. It is mostly caused by
electric currents (energy release
at the source) in the liquid core.
b. Inner Core
 Solid in nature
because of the
pressure.
 “There are no passengers on
spaceship EARTH, we are all
CREW.”
-Marshall McLuhan-

Thank you!
1. OMAT
ATOM 2. TREONNSU
NEUTRONS
4. AOGNR 3. LCTEEONR
ORGAN 5. SCLLE ELECTRONS
7. OARNCB CELLS 6. MYUOMNTIC
CARBON COMMUNITY
8. IOAMSNRG
10. OOEYGCL
ORGANISM 9. EPRY
ECOLOGY PREY
ECOLOGY AND
ECOSYSTEM
ECOLOGY
 branch of biological
sciences dealing with
interactions between
organisms and their
environment (chemical
and physical factors)
CHEMICAL BASIS
OF LIFE
MATTER
 pure substance with
various type of
particles that occupy
space and has mass.
ELEMENT
 A unique form of matter
with specific chemical and
physical properties that
cannot be broken down
into smaller substances by
ordinary chemical
reactions.
ATOM
 Basic particle of an
element.
 the smallest unit of
matter that retains all of
the chemical properties
of an element.
STRUCTURE OF ATOM
ATOMIC MASS
 Associated with the
number of neutrons and
protons that are present
in nucleus of an element.
ATOMIC NUMBER
 The number of protons
present in an element.
Atomic Number is ?
Atomic Mass is ?
MOLECULES
 Formed when two or
more atoms join
together through
chemical bonds.
 BIOLOGICAL
BASIS OF LIFE
 LEVELS OF
ORGANIZATION
CELLS
 The basic unit of life.
 Smallest unit of life that
is capable of performing
life functions.
 Nucleus
Ribosomes Cell Membrane

Mitochondria Cytoplasm
BASIC PARTS OF A CELL
ANIMAL VS PLANT CELL
TISSUES
 Collection of cells which
have similar structure
and perform relatively
similar functions.
ORGAN

 Collection of tissues that
carry out a single
function.
ORGAN SYSTEM
 Group of organs that
work together to perform
a specific function.
CIRCULATORY SYSTEM
ORGANISM
 Living thing that has an
organized structure
that can react to
stimuli, reproduce,
grow, adapt and
maintain homeostasis.
ECOLOGY LEVELS OF ORGANIZATION
POPULATION
 consists of individual of
the same species living
together and can
reproduce with each
other for the
continuation of species.
COMMUNITY
 Association of two
or more population
or of different
species inhabiting
in a particular area.
ECOSYSTEM
 A geographic area
where biotic and
abiotic factors
interact.
 Bacteria

BIOTIC COMPONENTS
ABIOTIC COMPONENTS
Producers Consumers Decomposers

CATEGORIES OF BIOTIC COMPONENTS
TYPES OF CONSUMERS
 is the process by
which plants use
sunlight, water, and
carbon dioxide to
create oxygen and
energy in the form
of sugar.
FACTORS AFFECTING PHOTOSYNTHESIS

1. Light Intensity
2. Concentration of CO2
3. Temperature
4. Water
5. Pollution
ECOLOGICAL RELATIONSHIPS
1. Competition
 the interaction of
individuals that
fight for a
common resource
that is in limited
supply.
a. Interspecific Competition

 occurs between
individuals of
different species.
b. Intraspecific Competition

 occurs between
individuals of the
same species.
2. Predation

 When one
species eats
another species.
 Predator-prey
relationship
3. Symbiosis
 a close, prolonged
association
between two or
more different
biological
species.
a. Commensalism
 interaction in
which one species
gain benefits while
the other species
neither benefit nor
harmed.
b. Mutualism
 type of symbiotic
relationship where
all species
involved benefit
from their
interactions.
c. Parasitism
 relationship between
species, where one
organism, the parasite,
lives on or inside another
organism, the host,
causing it some harm.
FEEDING RELATIONSHIP :
ENERGY TRANSFER
FOOD CHAIN
 refers to the sequence or
chain of transfer of
matter and energy in the
form of food from
organisms to organisms.
FOOD WEB
 All of the
interconnected and
overlapping food
chains in an
ecosystem.
PYRAMID OF ENERGY
 a graphical
representation of
the amount of
energy at each
trophic level of a
food chain.
LAW OF 10%
 states that only 10
per cent of the
energy available
gets passed onto
the next level of
consumers.
Thank you!
ECOLOGICAL SUCCESSION
ECOLOGICAL SUCCESSION
 is a series of changes that occur
in an ecological community over
time.
Process of Ecosystem Succession
1. Nudation
 formation of a nude or a bare area.
 It might result from flooding, erosion,
landslide, volcanic eruption, or other
artificial or natural reasons.
2. Invasion
 A new species reaches the newly
created bare area and they try to
establish there (pioneer species).
3. Competition and Co-action
When competition between species
occurs, less competitive species will be
replaced with species that are better able
to fill the available ecological niches.
4. Reaction
Since the organisms grow in a place, the
environment molds itself under the
organism’s influence. the area’s
temperature, land, water, and soil
change.
5. Stabilization (Climax)
The final or terminal community
becomes more or less stabilized for
longer period of time.
Two Types of Succession