Download Ecology Unit Study Guide Levels of organization Organism

Ecology Unit Study Guide
Levels of organization
Organism  population 
Ecology Unit Study Guide
community  ecosystem  biosphere
(Individual) organisms of one species all biotic organisms biotic & abiotic
all ecosystems
Levels of organization
Organism  population 
community  ecosystem  biosphere
(Individual) organisms of one species all biotic organisms biotic & abiotic
all ecosystems
Limiting Factors
Density Dependent are biotic and are greater as a population increases.
Food, disease, predators, competition
Density Independent are abiotic. Their effect is not related to population size.
Natural disaster, weather and climate
Carrying Capacity is the number of organisms an ecosystem can support.
Limiting Factors
Density Dependent limiting factors are biotic and are greater as a population increases.
Food, disease, predators, competition
Density Independent limiting factors are abiotic. Their effect is not related to population size.
Natural disaster, weather and climate
Carrying Capacity is the number of organisms an ecosystem can support.
Places in an ecosystem:
Habitat: the address or place in an ecosystem that provides an organism with its needs
Niche: the job or role of an organism in an ecosystem. This describes what it eats, how it
lives/eats, and where it lives. Two different species of organisms do not occupy the same niche. If
they do, there is competition and one organism does not survive.
Places in an ecosystem:
Habitat: the address or place in an ecosystem that provides an organism with its needs
Niche: the job or role of an organism in an ecosystem. This describes what it eats, how it
lives/eats, and where it lives. Two different species of organisms do not occupy the same niche. If
they do, there is competition and one organism does not survive.
Roles in an ecosystem:
Producers: plants, green bacteria, algae. They go through photosynthesis, 6CO2 + 6H2O 
C6H12O6 + 6O2, which creates food for all organisms, including plants. They are the base of all
food chains. Producers also go through cellular respiration.
Consumers : Must “eat” or ingest other organisms for energy. They use this food in the process
of respiration, C6H12O6 + 6O2  6CO2 + 6H2O which releases energy from food. There are
three classes of consumers: herbivores eat plants, carnivores eat other animals, omnivores eat
everything.
Decomposers: These organisms (bacteria, fungus) digest their food outside the organisms and
absorb the nutrients. After absorbing their food, they also go through the process of respiration.
These ecosystem roles cycle matter through an ecosystem and move energy through an
ecosystem.
Roles in an ecosystem:
Producers: plants, green bacteria, algae. They go through photosynthesis, 6CO2 + 6H2O 
C6H12O6 + 6O2, which creates food for all organisms, including plants. They are the base of all
food chains. Producers also go through cellular respiration.
Consumers : Must “eat” or ingest other organisms for energy. They use this food in the process
of respiration, C6H12O6 + 6O2  6CO2 + 6H2O which releases energy from food. There are
three classes of consumers: herbivores eat plants, carnivores eat other animals, omnivores eat
everything.
Decomposers: These organisms (bacteria, fungus) digest their food outside the organisms and
absorb the nutrients. After absorbing their food, they also go through the process of respiration.
These ecosystem roles cycle matter through an ecosystem and move energy through an
ecosystem.
Trophic Levels
These are feeding or food levels. The first trophic level is always a producer, the next level is
a primary (1st) consumer, the next level is a secondary consumer, etc.
Trophic Levels
These are feeding or food levels. The first trophic level is always a producer, the next level is
a primary (1st) consumer, the next level is a secondary consumer, etc.
Food Chains
Show one way matter and energy can move. The arrows always point in the direction of energy
movement. Food chains always start with a producer
Food Chains
Show one way matter and energy can move. The arrows always point in the direction of energy
movement. Food chains always start with a producer
Food Webs
Show the energy relationships in an ecosystem. The arrows show which way energy is moving.
Organisms in a food web may have more than one source of food, they may also be prey to
several organisms.
Food Webs
Show the energy relationships in an ecosystem. The arrows show which way energy is moving.
Organisms in a food web may have more than one source of food, they may also be prey to
several organisms.
Ecological Pyramids
At each level, only 10% of the energy is available from the lower level. The remaining 90% is
used by the organism or released as heat.
Decomposers are found at every trophic level
Ecological Pyramids
At each level, only 10% of the energy is available from the lower level. The remaining 90% is
used by the organism or released as heat.
Decomposers are found at every trophic level
Ecological pyramids:
Energy Pyramid: show available energy at each trophic level, only 10% of energy on one level is
available to the level above it. The 1st trophic level is always a producer. You can convert a food
chain to an energy pyramid.
Numbers Pyramid: show the number of organisms at each trophic level; again, the lowest level is
producers
Biomass Pyramid: shows the mass of organic material available for energy at each trophic level.
Ecological pyramids:
Energy Pyramid: show available energy at each trophic level, only 10% of energy on one level is
available to the level above it. The 1st trophic level is always a producer. You can convert a food
chain to an energy pyramid.
Numbers Pyramid: show the number of organisms at each trophic level; again, the lowest level is
producers
Biomass Pyramid: shows the mass of organic material available for energy at each trophic level.
Relationships in an Ecosystem:
Cooperation: organisms of the same species working toward a common goal. Organisms that
hunt together or live in colonies demonstrate cooperation
Competition: organisms of the same or different species that both need a limited resource (food,
shelter, mates)
Symbiosis: organisms of DIFFERENT species that live in a very close relationship. At least one
member benefits from the relationship
Mutualism: both species receive a benefit
Parasitism: one benefits (parasite) the other is harmed (host)
Predator/Prey: one organism uses another for food. The predator hunts and eats the prey
Relationships in an Ecosystem:
Cooperation: organisms of the same species working toward a common goal. Organisms that
hunt together or live in colonies demonstrate cooperation
Competition: organisms of the same or different species that both need a limited resource (food,
shelter, mates)
Symbiosis: organisms of DIFFERENT species that live in a very close relationship. At least one
member benefits from the relationship
Mutualism: both species receive a benefit
Parasitism: one benefits (parasite) the other is harmed (host)
Predator/Prey: one organism uses another for food. The predator hunts and eats the prey
Matter and Energy:
Matter recycles through a food web, energy moves in one direction. Energy is changed to
different forms as it moves through a food web.
Matter and Energy:
Matter recycles through a food web, energy moves in one direction. Energy is changed to
different forms as it moves through a food web.
Carbon Cycle: processes that move carbon between the biotic and abiotic (physical) parts of an
ecosystem.
Photosynthesis (ab), respiration (ba), consuming (bb), decomposition (ba), combustion
(b/aa), diffusion (aa)
Carbon is also stored in fossil fuels, seashells and limestone. The largest reservoir of carbon is
the oceans
Carbon Cycle: processes that move carbon between the biotic and abiotic (physical) parts of an
ecosystem.
Photosynthesis (ab), respiration (ba), consuming (bb), decomposition (ba), combustion
(b/aa), diffusion (aa)
Carbon is also stored in fossil fuels, seashells and limestone. The largest reservoir of carbon is
the oceans
Humans affect the carbon cycle by burning fossil fuels & deforestation that increase the amount of
CO2 in the atmosphere, increase global warming rates and increase the amount of acid rain.
Humans affect the carbon cycle by burning fossil fuels & deforestation that increase the amount of
CO2 in the atmosphere, increase global warming rates and increase the amount of acid rain.
Nitrogen Cycle: processes that move nitrogen between the biotic and abiotic (physical) parts of
an ecosystem. 78% of the air is N2 gas, only a few bacteria can use it in this form so it has to be
changed. Fixing: Bacteria and lightning chemically change nitrogen so that organisms use it.
Nitrification: bacteria bond nitrogen so that plants can absorb it. De-nitrification: bacteria convert
nitrogen compounds back into N2 gas. Consuming moves nitrogen from one living organism to
another. Living things need nitrogen in order to make proteins and DNA.
Nitrogen Cycle: processes that move nitrogen between the biotic and abiotic (physical) parts of
an ecosystem. 78% of the air is N2 gas, only a few bacteria can use it in this form so it has to be
changed. Fixing: Bacteria and lightning chemically change nitrogen so that organisms use it.
Nitrification: bacteria bond nitrogen so that plants can absorb it. De-nitrification: bacteria convert
nitrogen compounds back into N2 gas. Consuming moves nitrogen from one living organism to
another. Living things need nitrogen in order to make proteins and DNA.
Humans affect the nitrogen cycle by releasing fertilizer onto surfaces; this increases algae growth
and can “kill” a stream or lake
Humans affect the nitrogen cycle by releasing fertilizer onto surfaces; this increases algae growth
and can “kill” a stream or lake