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AP Biology
Ecology Basics
Important concepts from previous
units:
• Regulation means control.
• Transpiration is water loss through the
stomata associated with plant leaves.
Transpiration at the stomata in
plants
High specific heat
• Water, because of its 4 possible Hydrogen
bonds, can absorb huge amounts of sunlight
energy.
Water and Hydrogen bonds
due to polarity
Hydrogen
bonds
Ecology – Is the study of the interactions occurring
between organisms and their environment.
A. Ecology also studies location and abundance of
species, either individually or collectively
Ecology on a small scale
Ecology on a global scale
B. Abiotic –environmental factors that are
without life (temperature, light, water,
nutrients, soil, and wind)
C. Biotic – environmental factors that possess
life (bacteria, protists, fungi, plants,
animals, competition, and symbiosis)
D. Another aspect of ecology is Evolutionary
time (very long periods) vs. Ecological time
(short periods of time)
Biogeography – the distribution of species and distribution
patterns seen within an area as well as the species
richness (number of different species within that area)
A. Normal species (Also referred to as indigenous or
native species)
B. Transplant species (species from another area living in
a foreign environment)
1. Accidental transplant species – Zebra Mussels and Fire
Ants
2. Human purposeful transplant species – African “killer”
honeybees and Kudzu
3. Transplant experiments should first be done but they
cost lots of money and time to perform
a. Tens Rule -1 in 10 transplants will be successful
and live; 1 of 10 successful becomes a pest.
i. Harmful to the environment or other
species (They will have no natural enemies… so they take
over and destroy that environment.)
Zebra Mussels
Fire Ants
Fire Ant Migration from Mobile
Fire Ant Bites
Red fire ants first
arrived in the U.S. in the
1930s, and they can
spread like wildfire and
even eliminate an
animals species in a
given area.
http://video.nationalgeographic.com/video/fire-ants-predation
Kudzu
https://www.youtube.com/watch?v=iLH1qLCvqSg
African “killer” Bees
•
•
•
•
•
are descendants of southern African bees imported in 1956 by
Brazilian scientists attempting to breed a honey bee better
adapted to the South American tropics.
When some of these bees escaped quarantine in 1957, they began
breeding with local Brazilian honey bees, quickly multiplying and
extending their range throughout South and Central America
Africanized bees acquired the name killer bees because they will
viciously attack people and animals who unwittingly stray into
their territory, often resulting in serious injury or death.
It is not necessary to disturb the hive itself to initiate an AHB
attack. In fact, Africanized bees have been known to respond
viciously to mundane occurrences, including noises or even
vibrations from vehicles, equipment and pedestrians.
Though their venom is no more potent than native honey bees,
Africanized bees attack in far greater numbers and pursue
perceived enemies for greater distances. Once disturbed, colonies
may remain agitated for 24 hours, attacking people and animals
within a range of a quarter mile from the hive.
C. Abiotic(non-living) Factors
1. Temperature
2. Water availability (Osmoregulation and
transpiration rates are important environmental
factors.)
3. Sunlight amount (Photosynthesis rates or
photoperiods indicates the amount of energy for a
system)
4. Wind (It can affect heat and water loss for an
environment.)
5. Rocks and soil types (pH and composition of
the soil mainly affects plants directly; animals
indirectly)
III. Climate – the average weather conditions for
an environment. Usually measured on a yearly
or monthly basis.
A. Weather –the daily conditions (Look
outside and you’ll get the weather report.)
IV. Biomes –Refers to large ecosystems in general
with similar climate conditions.
• These are affected by climate patterns (sun, wind, and rain
patterns as seen by Hadley cells.)
• The Hadley model basically shows that at the equator we
have mostly water on a global perspective.
– Due to the intense heat the water evaporates and rises. It then begins
to move toward the poles.
– As it moves higher in the air and toward the poles, the water vapor
cools and condenses into rain.
– The rain mainly falls out of the air before reaching the Tropics, that is
why we mainly find the Rainforests between the Tropics. Since all the
moisture is gone from the air by the time the wind reaches the
Tropics, we see deserts along the Tropic lines. Here again any water is
evaporated because of the high heat and mixed with water vapor from
the oceans to rise into the atmosphere. As it rises and continues to
move toward the poles, it condenses and rains or snows below the
polar circles. So we see lots of vegetation in this area. Because all the
moisture is gone by the time the wind reaches the poles, the poles are
also considered desert based on the lack of precipitation received.
Hadley Model
•
•
Tropics (23.5⁰
latitude= tilt of Earth)
(North –Tropic of
Cancer; South- Tropic
of Capricorn)
Equator - 0⁰ ; Poles
90⁰; Arctic or
Antarctic circle –
66.6⁰
. Local effects because of geography
a. Oceans – These act as heat banks. (coastal/island areas
generally warmer than interior areas)
- This is related to the Specific Heat of water. (Water’s ability to
resist temp. changes) It absorbs the sunlight’s energy (so we
don’t fry) during the day and releases the energy at night to
keep the dark side of the planet warm.
Day
Night
• Mountains –These create the rain shadow
effect. This creates deserts on the backside.
– As the winds come off the water, they are heavy
with moisture.
– When those winds run into mountains, the air is
forced upward resulting in the moisture getting
cooler and condensing resulting in lots of rain on
the front side of the mountain. With no moisture
left as the winds reach the backside or “shadow
side” of the mountain, you get deserts typically.
(Look at California and Nevada.)
– Winds increase with altitude. So plants tend to be
smaller and animals furrier.
– Temperatures on average drop 6⁰ C for each 1000
meters up in altitude.
Rain Shadow effect
c. Ponds and lakes –stratification of temperature
creates layers of differing temperature within
the body of water
and
this leads to thermoclines and turnover of nutrients
and O2. This is ultimately due to seasonal changes in
temperature. Warmer water rises and colder water
sinks.
Ice on the surfaces helps prevent this in winter so that
the whole body of water does not freeze and thereby
kill all life forms in the body of water.
Thermoclines in ponds and lakes
During summer and winter, many lakes in temperate regions are thermally stratified with little
mixing of warmer layers with the cooler layers. In spring and fall, these lakes experience a
phenomenon called turnover in which nutrient rich water from the bottom rises to the surface and
oxygen rich water from the surface sinks to the bottom and mixing of all layers occurs.
• VII. Microclimates – These are small
ecosystems /environments. (For example,
under a log/ shady side of a house.)