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Aspects of Ecological Study
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Ecology The study of the interactions that take place among
organisms and their environment Aspects of Ecological Study
Biosphere The part of Earth that supports life
Top portion of Earth's crust All the waters that cover Earth's
surface Atmosphere that surrounds Earth. Are nonliving factors of
an environment.
Abiotic Factors Are nonliving factors of an environment. Abiotoic
Factors include amount of water and oxygen, temperature, light, and
soil. Biotic Factors Are the living factors of an environment.
Levels of Organization in Ecology Ecosystem All the organisms
living in an area and the nonliving features of their environment
Types: Terrestrial = land (forest, meadow, desert) Aquatic = water
(pond, lake, stream, ocean) However.. An ecosystem can be as large
as the Sahara Desert, or as small as a puddle, or one tree in the
rainforest!!! Ex. Pond Ecosystem Population All the organisms in an
ecosystem that belong to the same species Community All the
interacting populations in an ecosystem The place in which an
organism lives
Habitat The place in which an organism lives provides the kinds of
food and shelter, the temperature, and the amount of moisture the
organism needs to survive Niche Is the role and position a species
has in its environment (how it meets its needs for survival)
Example: see the soil ecosystem on pages in textnote each organisms
role and how it uses the resources in its own way to survive Living
Relationships Photo from: Dr. Todd Huspeni Animal Parasitology
UW-Stevens Point Symbiosis Relationship in which there is a close
and permanent association among organisms of different species
Examples: Commensalism, Mutualism, Parasitism Photo from: Dr. Todd
Huspeni Animal Parasitology UW-Stevens Point Commensalism Symbiotic
Relationship in which one species benefits and the other species is
neither harmed nor benefited Ex. Clownfish protected by
anemoneanemone not harmed or helped
Photo from: Dr. Todd Huspeni Animal Parasitology UW-Stevens Point
Ex. Spider Crab hitches a ride from jellyfish
Photo from: Dr. Todd Huspeni Animal Parasitology UW-Stevens Point
Mutualism A symbiotic relationship in which both species benefit
Ex. Ants protect acacia tree by attacking any animal that tries to
feed on ittree provides nectar and home for ants Photo from: Dr.
Todd Huspeni Animal Parasitology UW-Stevens Point Parasitism: A
type of interspecific interaction where one species (the host) is
harmed at least in some way by the other (the parasite). Tapeworm
Photo from: Dr. Todd Huspeni Animal Parasitology UW-Stevens Point
Dog hookworm Photo from: Dr. Todd Huspeni Animal Parasitology
UW-Stevens Point Filariasis (Elephantiasis) caused by parasitic
worm
Photo from: Dr. Todd Huspeni Animal Parasitology UW-Stevens Point
Fleas Photo from: Dr. Todd Huspeni Animal Parasitology UW-Stevens
Point Lice Photo from: Dr. Todd Huspeni Animal Parasitology
UW-Stevens Point Ticks Photo from: Dr. Todd Huspeni Animal
Parasitology UW-Stevens Point Learning Targets Students will be
able to demonstrate how energy transfers through food webs Students
will be able to define and give examples of producers and consumers
Box Jellyfish Live off of Northern Australia in Great Barrier Reef
and in Indo-Pacific Very powerful venom among most deadly in world
Can be fatal to humans and survivors will have pain for months and
permanent scars from tentacles Up to 15 tentacles grow from each
corner, and tentacles can be up to 3 meters in length! Stinging not
activated by touch, but by chemical contained on prey Have eye
clusters, but lack a central nervous system, so scientists dont yet
understand how they see Sea turtles are unaffected by the sting of
the jellyfish and regularly eat them Average lifespan less than 1
year How Organisms Obtain Energy The Producers: Autotrophs
Organisms that use energy from the sun or chemical compounds to
make their own nutrients (photosynthesis) Water+carbon dioxide
glucose +oxygen
6H2O CO C6H12O O2 The Consumers: Heterotrophs
Organisms that cannot make their own food and must feed on other
organisms Consumers- 5 Types Herbivores - primary consumer eat
plants only
Carnivores - higher level consumers eat other animals Consumers 5
Types Omnivores - can fit in at any consumer level eatboth plants
and animals Decomposers - break down dead organisms Scavengers -
eat dead animals Food Chain A food chain is a simple model of the
feeding relationship in an ecosystem. Food Chain For example,
shrubs are food for deer, and deer are food for mountain lions. The
mountain lion is the second organism of the food chain.It eats the
deer.It is the secondary consumer. Because shrubs make their own
food through photosynthesis, they are called producers. The deer is
the first organism of the food chain to eat the shrub.It is the
primary consumer. Shrubs are the beginning of the food chain.They
receive their energy from sunlight. Food Chain Algae make their own
food from sunlight.They are the basis for the food chain in this
example. Generalized Food Web of the Antarctic
Fig. 4.18, p. 77 Humans Blue whale Sperm whale Crabeater seal
Killer whale Elephant seal Leopard Adlie penguins Petrel Fish Squid
Carnivorous plankton Krill Phytoplankton Herbivorous zooplankton
Emperor penguin Note:Arrows Go in direction Of energy flow Food
Webs http://www.youtube.com/watch?v=sbWyrcY5i3s
Food Webs are Food Chains that intersect each other.Food webs are
what really happens in nature. Nowlets do an activity!! Grab a
textbook and turn to page 53 (1 book per table)a little background
music for you while you get books Food Web Activity Each group gets
a deck of food web cards, whiteboard, and marker Lay out the cards
on the whiteboard, arrange them into a potential food web Add 5
organisms of your own to the web Connect the webs with the arrows
Label the autotrophsand heterotrophs For each heterotroph ID:
carnivore, herbivore, omnivore, decomposer, scavenger Where do
decomposers fit in food chains? Trophic Level Each Organism in a
food chain represents a feeding step in the passage of energy and
materials How does energy transfer in a food chain?
10% rule Each organism at a trophic level loses energy from its
food through waste and metabolic processes.Only 10% of the energy
is used for growth and passed on to the next level of the food
chain Max Number of Trophic Levels:
3 4 Why? Only 10% of energy gets passed on, so energy dwindles away
quickly: Mouse eats grass gets 10% energy Snake eats mouse gets 10%
of 10% = 1% Hawk eats snake gets 10% of 1% = 0.1% Energy Pyramid
Energy Pyramid The bars are drawn in proportion to the total energy
utilized at each trophic Pyramid of Numbers Pyramid of Numbers A
bar diagram that indicates the relative numbers of organisms at
each trophic level in a food chain. The length of each bar gives a
measure of the relative numbers. Pyramid of Biomass Pyramid of
Biomass As pyramids of number but uses dry mass of all organisms at
each trophic level. Music review Does anything else transfer in a
food chain?
Toxins (heavy metals, DDT, PCBs) = stored in the fat of organisms
Bioaccumulation = accumulation of toxic chemicals in the tissue of
an organism Biomagnification = increase in concentration of a
pollutant from the environment to the first organism and subsequent
organisms in a food chain The higher the animal is on the food
chain, the higher the concentration of toxins DDT Problem
Background of DDT
DDT is a pesticide used for mosquito control and pest control in
agricultural crops. DDT accumulation in some bird species resulted
in death, nervous system damage, and reproductive failure. As a
result DDT was banned in the United States in 1972. DDT is broken
down by organism and stored in fat = Damage = decrease
population
Reproductive failure (in birds/eagles- eggshell thinning) Immune
system problems Nervous system damage Death Bioaccumulation
Factor
The concentration of a chemical/toxin in tissue divided by its
concentration in the diet