1. Ecosystems

2. Studying organisms in their environment
biosphere
ecosystem
community
population
organism

3. Essential questions What limits the production in ecosystems?
How do nutrients move in the ecosystem?
How does energy move through the ecosystem?

4. Ecosystem All the organisms in a community plus abiotic factors
ecosystems are transformers of energy & processors of matter
Ecosystems are self-sustaining
what is needed?
capture energy
transfer energy
cycle nutrients

5. Ecosystem inputs nutrients cycle inputs energy nutrients
biosphere
energy flows through
constant input of energy
nutrients cycle
Matter cannot
be created or destroyed
Don’t forget the laws of Physics!
nutrients can only cycle
inputs
energy
nutrients

6. Generalized Nutrient cycling
consumers
consumers
consumers
producers
decomposers
decomposers
nutrients ENTER FOOD CHAIN = made available to producers
nutrients made available to producers
return to abiotic reservoir
Decomposition connects all trophic levels
abiotic reservoir
abiotic reservoir
geologic processes
geologic processes

7. Carbon cycle abiotic reservoir: CO2 in atmosphere enter food chain:
photosynthesis = carbon fixation in Calvin cycle
recycle:
return to abiotic:
respiration
combustion
Carbon cycle
CO2 in
atmosphere
Diffusion
Respiration
Photosynthesis
Plants and algae
Plants
Animals
Industry and home
Combustion of fuels
Carbonates in sediment
Bicarbonates
Deposition of
dead material
Deposition
of dead
material
Fossil fuels
(oil, gas, coal)
Dissolved CO2

8. Nitrogen cycle Atmospheric nitrogen Carnivores Herbivores Birds Plants
abiotic reservoir:
N in atmosphere
enter food chain:
nitrogen fixation by soil & aquatic bacteria
recycle:
decomposing & nitrifying bacteria
return to abiotic:
denitrifying bacteria
Atmospheric
nitrogen
Carnivores
Herbivores
Birds
Plankton with
nitrogen-fixing
bacteria
Plants
Death, excretion, feces
Fish
Nitrogen-fixing
bacteria
(plant roots)
Decomposing bacteria
amino acids
excretion
Ammonifying bacteria
Nitrogen-fixing
bacteria
(soil)
loss to deep sediments
Nitrifying bacteria
Denitrifying
bacteria
soil nitrates

9. Phosphorus cycle abiotic reservoir: rocks, minerals, soil
enter food chain:
erosion releases soluble phosphate
uptake by plants
recycle:
decomposing bacteria & fungi
return to abiotic:
loss to ocean sediment
Phosphorus cycle
Land
animals
Plants
Animal tissue
and feces
Urine
Soluble soil
phosphate
Decomposers
(bacteria and
fungi)
Loss in
drainage
Rocks and
minerals
Phosphates
in solution
Decomposers
(bacteria & fungi)
Animal tissue
and feces
Aquatic
animals
Plants and
algae
Precipitates
Loss to deep sediment

10. Water cycle Solar energy Transpiration Evaporation Precipitation
abiotic reservoir:
surface & atmospheric water
enter food chain:
precipitation & plant uptake
recycle:
transpiration
return to abiotic:
evaporation & runoff
Water cycle
Solar energy
Transpiration
Water vapor
Evaporation
Precipitation
Oceans
Runoff
Lakes
Percolation in soil
Aquifer
Groundwater

11. Remember transpiration?

12. Breaking the water cycle
Deforestation breaks the water cycle
groundwater is not transpired to the atmosphere, so precipitation is not created
forest  desert
desertification

13. Repairing the damage The Greenbelt Movement planting trees in Kenya
restoring a sustainable ecosystem
establishing democracy
empowering women
Wangari Maathai
Nobel Peace prize 2004

14. Studying ecosystems Hubbard Brook Experimental Forest 7800 acres
38 acre deforestation
Hubbard Brook Experimental Forest
7800 acres

15. Effects of deforestation
40% increase in runoff
loss of water
60x loss in nitrogen
10x loss in calcium
loss into surface water 80
nitrate levels in runoff 40
loss out of ecosystem!
of nitrate (mg/l )
Concentration 4
Deforestation 2
Why is nitrogen so important?
1965
1966
1967
1968
Year