ENVIRONMENTAL SCIENCE

1. ENVIRONMENTAL SCIENCE Chapter 5 How Ecosystems Work 5.2 The Cycling of Materials

2. 5.2 The Cycling of MaterialsObjectives • List the three stages of the carbon cycle. • Describe where fossil fuels are located. • Identify one way that humans are affecting the carbon cycle. • List the three stages of the nitrogen cycle. • Describe the role that nitrogen-fixing bacteria play in the nitrogen cycle. • Explain how the excess use of fertilizer can affect the nitrogen and phosphorus cycles.

3. The Carbon Cycle • The carbon cycle is the movement of carbon from the nonliving environment into living things and back. • Carbon is an essential component in the four major molecule types that make up living things – carbohydrates, lipids, proteins, and nucleic acids. • Carbon is cycled between land, air, atmosphere, and living things. • Carbon may enter into a short-term cycle or a long-term cycle. • A “sink” is a reservoir where something may be stored for some time.

4. The Carbon Cycle • Producers convert atmospheric carbon dioxide into carbohydrates during photosynthesis. • Consumers contain carbon from the carbohydrates in the producers they eat. • During cellular respiration, some of the carbon is released back into the atmosphere as carbon dioxide. • Some carbon is stored in limestone – one of the largest carbon sinks on Earth.

5. The Carbon Cycle • Carbon may also be released into the soil as organisms die and decompose. • The carbon and hydrogen from the remains of buried organisms can form coal, oil, or natural gas – fossil fuels. • Fossil fuels store the hydrocarbons left over from the remains of organisms that died millions of years ago.

6. The Carbon Cycle • When we burn fossil fuels, carbon is released back into the atmosphere – mostly as carbon dioxide. • In 2000, one third of all the carbon dioxide emitted in the U.S. came from motor vehicles. • When the carbon emitted from the burning of fossil fuels is added to the carbon emitted from other sources, the amount of atmospheric carbon increases. • Carbon dioxide is a greenhouse gas and may contribute to global warming – an overall increase in average temperatures around the world.

7. http://www.ei.lehigh.edu/learners/cc/carbon/carbon3.html

8. http://whyfiles.org/211warm_arctic/

10. The Nitrogen Cycle • The nitrogen cycle is the process in which nitrogen circulates among the air, soil, water, and organisms in an ecosystem. • All organisms need nitrogen for building proteins – the building blocks of cells. • Nitrogen makes up 78% of gases in the atmosphere. • Nitrogen must be “fixed” before it can be used by organisms.

11. The Nitrogen Cycle • Only a few species of bacteria – nitrogen-fixing bacteria – can convert atmospheric nitrogen (N2) into a more useable form (such as ammonia – NH3). • Nitrogen-fixing bacteria live within the roots of legumes such as beans, peas, and clover. • The bacteria use sugar provided by the legumes to produce nitrogen containing compounds like nitrates (NO3-). • Excess nitrogen fixed by the bacteria is released into the soil.

12. The Nitrogen Cycle • Nitrogen stored within organisms is returned to the nitrogen cycle as decomposition occurs. • After decomposers return nitrogen to the soil, bacteria transform a small amount of the nitrogen into nitrogen gas, which then returns to the atmosphere.

13. http://www.waikato.ac.nz/wfass/subjects/geography/people/max/ConceptDiagrams.shtmlhttp://www.waikato.ac.nz/wfass/subjects/geography/people/max/ConceptDiagrams.shtml

14. The Phosphorus Cycle • The phosphorus cycle is the movement of phosphorus in different chemical forms from the environment to organisms and then back to the environment. • Phosphorus is an essential component of nucleic acids as well as many other important molecules to organisms. • Plants get phosphorus from the soil and water. • Animals get their phosphorus by eating plants or animals that have eaten plants.

15. The Phosphorus Cycle • Phosphorus may enter soil and water when rocks erode and may even move into the soil in small amounts in the form of phosphate (PO4)3-. • Plants absorb phosphates in the soil through their roots. • Some phosphorus washes off the land and ends up in the ocean. • Phosphate salts are not soluble in water and will sometimes sink to the bottom and accumulate as sediment.

16. The Phosphorus Cycle • Fertilizers used to stimulate and maximize plant growth contain nitrogen and phosphorus. • Excessive amounts of fertilizer can enter terrestrial, marine, and aquatic ecosystems through runoff. • Excess nitrogen and phosphorus can cause rapid algae growth – an algal bloom. • As massive amounts of rapidly produced algae begin to die off and settle, oxygen depletion becomes a problem for any organism relying on oxygen.

17. http://oceanclassrooms.com/ms101_u3_c1_sc_1

18. http://www.toxipedia.org/display/toxipedia/Algal+Bloom

19. Acid Precipitation • When fuel is burned, large amounts of nitric oxide is released into the atmosphere. • In the air, nitric oxide can combine with oxygen and water vapor to form nitric acid. • Nitric acid then falls as acid precipitation.

20. http://per-storemyr.net/2011/01/10/cleopatras-needle-egyptian-concern-about-the-nyc-obelisk/http://per-storemyr.net/2011/01/10/cleopatras-needle-egyptian-concern-about-the-nyc-obelisk/