Transcript Food Web

Ecosystems, Food
Chains, and Food Webs
Ecosystem: A community of living things and the non-living components of their
environment (things like weather, water, chemicals, etc) interacting as a system.
Food Web: A complex network of living organisms within an ecosystem whose
predator/prey interactions are connected within an ecosystem.
Food Chain: A linear (simple) sequence of organisms within a food web.
-The different levels
as you move
through a food
chain are referred
to as trophic levels
Producers
Photosynthesic – mainly algae in the
marine environment. Marine plants
are rare due to the salinity of the
water.
Chemosynthesic – bacteria in the
deepest darkest areas of the ocean use
methane and sulfur dioxide to create
energy.
Phytoplankton – small autotrophic
organisms who obtain their energy
through photosynthesis.
Consumers
*Primary*
*Secondary*
-Filter feeders – heterotrophic
organisms which feed on zooplankton
or other smaller filter feeders.
-Can be large (whales/sunfish) or
small (amphipods/small fish)
-Zooplankton – small heterotrophic
organisms who feed on phytoplankton or
filter nutrients and minerals out of the
water.
Consumers
-Tertiary, quaternary, etc – The larger
organisms that you are most familiar
with.
-Sharks, squid, tuna, swordfish,
dolphins, seals.
Decomposers
-Decomposers – usually small bacteria
(fungi on land) which break down
decaying organic material.
-Can also be scavengers, such as crabs
and some deep water fish.
-They are important in returning
nutrients back into ecosystem that would
otherwise be lost in the water column.
-Zooplankton and filter-feeders are the
primary predators of decomposers in
marine environments.
Affecting one part of a marine food
web ends up impacting the
population of every other level.
-Why are there so few top level predators
and so many zooplankton and
phytoplankton?
A: Only 10% of an organisms
energy is passed on to the next
trophic level.
Top-down vs. Bottom-up
Organisms higher up in food webs
determine the population size at
each level. (ie sharks)
Organisms lower in food webs
determine the population size at
each level. (ie kelp)
These are the 2 theories
attempting to explain how
ecosystem populations
change over time
*Density-dependent factors – factors in an ecosystem that
depend on the population size of the organisms involved.
*Density-independent factors – factors in an ecosystem
that are not a result of population size.
What factors could possibly affect the
populations within an ecosystem?
1) Disease
2) Climate Change (Biggie for marine organisms)
3) Invasive Species
4) Human Impact
5) Death vs. Birth (Carrying Capacity)
6) Predator Prey Interaction
7) Natural Disasters
8) Immigration vs. emmigration
Carrying Capacity (K) – The maximum size a
population can reach before factors force
the population to stop growing.
Ecosystems from another
perspective
Symbiotic
Relationships
*Translates to “living with” in Latin**
Close interactions between
two different biological
species
Mutualism – both species involved
benefit from the relationship (+,+)
coral
-Exchange oxygen and carbon dioxide
-Provide a safe place to live
zooxanthellae
Parasitism – the species performing the
action benefits and the other is harmed
(+,-)
-Juvenile pearl fish swim into anus
of sea cucumber to feed on
digestive system and gonads
Sea cucumber
Juvenile pearl fish
Anus
Commensalism – one species benefits,
and the other species is not affected
at all (+,0)
-The barnacles hitch a
free ride on the whale
through nutrient rich
waters, while the whale
is unaffected.
Altruism – the species performing the
action is harmed, and the other benefits
(-,+)
-This goes against typical evolutionary biology (survival of the fittest)
-So why does it happen?
Identify the type of
symbiotic relationship
exhibited in each of
the following
examples.
Sea anemone/Hermit crab
commensalism
Cleaner shrimp/zebra moray eel
mutualism
Clam/Barnacle
commensalism
Hermit Crab/egg sacs
parasitism
Clownfish/sea anemone
mutualism
Remora/shark, ray, turtle
commensalism