1. Nutrient Cycles in Nature Ch. 3-3
Ecology Notes 3
Nutrient Cycles in Nature
Ch. 3-3

2. 1. THE WATER CYCLE Water is important because: Cells are 70-80% water
Water is a factor that determines ecosystem productivity

3. The Water Cycle Condensation Precipitation Evaporation Transpiration
Runoff
Percolation
Root
Uptake

4. 1. The Water Cycle Sources for Evaporation
BODIES OF WATER - lakes, ponds, oceans, etc…
ANIMALS - water lost through perspiration & respiration
TRANSPIRATION - water taken up through plant roots is released into the atmosphere through the leaves

5. 2. THE CARBON CYCLE
Autotrophs and Heterotrophs release CO2 into the atmosphere during CELLULAR RESPIRATION
Decomposers release CO2 from dead/decaying organisms into the atmosphere
Fire, volcanic eruption, etc. can release CO2 into the environment
PLANTS USE CO2 FOR PHOTOSYNTHESIS

6. The Carbon Cycle
CO2 in
Atmosphere
CO2 in Ocean

7. 2. The Carbon Cycle Human Influence on the Carbon Cycle
The GREENHOUSE EFFECT is natural heating of the planet
GLOBAL WARMING describes the debatable increased heating of the Earth as a result of human influence
Humans burn fossil fuels and other materials that release CO2
Extra CO2 traps heat in the atmosphere

8. The Greenhouse Effect Greenhouse Effect Different Latitudes Sunlight
90°N North Pole
Sunlight
Sunlight
66.5°N
Arctic circle
Some heat
escapes
into space
Sunlight
Tropic of Cancer
23.5°N
Most direct sunlight
Equator 0°
Greenhouse
gases trap
some heat
Tropic of Capricorn
23.5°S
Sunlight
Atmosphere
Arctic circle
66.5°S
Sunlight
Earth’s surface
90°S South Pole

9. Climate Change http://www. epa
Scientists know with virtual certainty that:
Human activities are changing the composition of Earth's atmosphere. Increasing levels of greenhouse gases like carbon dioxide (CO2) in the atmosphere since pre-industrial times are well-documented and understood.
The atmospheric buildup of CO2 and other greenhouse gases is largely the result of human activities such as the burning of fossil fuels.
An “unequivocal” warming trend of about 1.0 to 1.7°F occurred from Warming occurred in both the Northern and Southern Hemispheres, and over the oceans (IPCC, 2007).
The major greenhouse gases emitted by human activities remain in the atmosphere for periods ranging from decades to centuries. It is therefore virtually certain that atmospheric concentrations of greenhouse gases will continue to rise over the next few decades.
Increasing greenhouse gas concentrations tend to warm the planet.

10. Climate Change http://www. epa
What's Very Likely?
The Intergovernmental Panel on Climate Change (IPCC) has stated "Most of the observed increase in global average temperatures since the mid-20th century is very likely due to the observed increase in anthropogenic greenhouse gas concentrations" (IPCC, 2007). In short, a growing number of scientific analyses indicate, but cannot prove, that rising levels of greenhouse gases in the atmosphere are contributing to climate change (as theory predicts). In the coming decades, scientists anticipate that as atmospheric concentrations of greenhouse gases continue to rise, average global temperatures and sea levels will continue to rise as a result and precipitation patterns will change.

11. Climate Change http://www. epa
What's Not Certain?
Important scientific questions remain about how much warming will occur, how fast it will occur, and how the warming will affect the rest of the climate system including precipitation patterns and storms. Answering these questions will require advances in scientific knowledge in a number of areas:
Improving understanding of natural climatic variations, changes in the sun's energy, land-use changes, the warming or cooling effects of pollutant aerosols, and the impacts of changing humidity and cloud cover.
Determining the relative contribution to climate change of human activities and natural causes.
Projecting future greenhouse emissions and how the climate system will respond within a narrow range.
Improving understanding of the potential for rapid or abrupt climate change.
Addressing these and other areas of scientific uncertainty is a major priority of the U.S. Climate Change Science Program (CCSP). The CCSP is developing twenty-one Synthesis and Assessment products to advance scientific understanding of these uncertainty areas by the end of More information.

12. 3. THE NITROGEN CYCLE
-Nitrogen is needed to MAKE AMINO ACIDS AND PROTEIN
78% of Earth’s atmosphere is Nitrogen (N2) Gas
Most organisms cannot use gaseous nitrogen
PLANTS TAKE NITROGEN FROM NITRATES IN SOIL
ANIMALS MUST EAT THEIR NITROGEN

13. 3. The Nitrogen Cycle Nitrogen Cycling
NITROGEN FIXING Bacteria convert N2 (nitrogen gas) to NH3 (ammonia) in a process called NITROGEN FIXATION
Often these bacteria live on plant roots creating a mutually beneficial relationship between plant and bacteria
Decomposers break down dead organisms and return nitrogen to the environment in the form of Ammonia: this is called AMMONIFICATION
Soil bacteria turn the ammonia into usable NO2- and NO3- (nitrites and nitrates) in a process called NITRIFICATION

14. 3. The Nitrogen Cycle
Finally, anaerobic bacteria will break unused nitrates back into N2 gas in a process called DENITRIFICATION
Additional nitrogen fixation may occur when LIGHTNING strikes the earth
Accounts for 5 – 8% of usable nitrogen on the planet
Energy from lightning splits N2 molecules and allows free Nitrogen atoms to combine with Oxygen in the air thus creating usable NO2 and NO3

15. The Nitrogen Cycle
N2 in Atmosphere
NO3-
and NO2-
NH3