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OUR Ecological Footprint 1. Live near work; ride bike; minimize car use.2. Buy energy-efficient furnace.3. Programmable thermostat: 50 winter/ 80 summer4.Turn off lights when leave room; unplug appliance5. Eat low on food chain.6. Buy food locally; eliminate transportation energy.7. Buy hybrid car - reduce gas consumption by 1/28. Get ‘on demand’ water heater.9. Winterize house.10. Recycle; pay tax for it.11. Reduce paper/plastic (and ALL) consumption.12. Reuse (and repair) items; don’t use ‘throw- aways’13. Restore: Buy C offset for travel--> plant trees.
…For Tuesday Go to website for Lecture Outline Read 10 sections in text about ‘Global Change Biology’ Pay particular attention to Figures Be ready to explain topic/figures to group/class
Our ‘stuff’… or“how humansalter nutrientcycles and deplete naturalresources…”
OBJECTIVES Human Activities Alter Nutrient Cycles Relates to Intersystem Cycles: Pools/Fluxes altered Inputs/Outputs disrupted-->consequences Water Carbon Nitrogen Phosphorus Sulfur Ozone
Ecosystem 2 Intersystemcycling: Nutrients gained (input) and lost (output) by an ecosystem Ecosystem 1 Ecosystem 1 2 Input Output Input output
Ecosystems modeled as linked compartments (box = pool; arrow = flux). Figure 2
Nutrient inputs on land from: • Lithosphere (weathering of bedrock and soil) • Atmosphere • Wetfall (in precipitation) • Dryfall (particles) • Hydrosphere • Human Activities
Nutrient losses (output) on land to: • Atmosphere • Streams and groundwater • Human activities • How do human activities alter output?
Plowing of prairies contributed to the creation of the Midwest’s Dust Bowl (1930s).
Soil erosion on plowed farmland…about 1% of topsoil is lost each year.
Over-grazing leads to loss of vegetation and leads to soil erosion.
WATER *
Water use greatly exceeds water supplies in many parts of our West.
But…accumulation of salts in soil that accompanies irrigation can damage crops.
50% of water in the Amazon Basin is internally recycled. Predict how deforestation there might be affecting the local hydrologic (water) cycle and the forest.
How are humans altering water cycle? • Depletion from overuse • Fossilized vs. re-chargeable aquifers • Overpopulation--> insufficient local water • Used to produce crops to produce meat • Irrigation --> salt problems • Land-use changes lower local cycling-> drought • Links to other cycles: • Water carries solutes (e.g. N,P,K, H+) • C cycle - link to global warming --> • precipitation changes worldwide • glacial melt --> loss of water source
Human production of CO2 by burning of fossil fuels has increased greatly.
Greenhouse gases and other human inputs add to the heat budget of the atmosphere =(radiative forcing)
snow intact snow removed
intact removed
Forest fires increase CO2 emissions. Fires are increasing in frequency/severity.
NITROGEN 4 -3 NH4 1 3b 3a 2a i 2b 5 +3
How are humans altering the N cycle? • Nitrogen-fixing crops • Invasive species fix N2 • Fossil fuel burning--> nitrous oxide (N2O) • Nitrogen fertilizer • Animal feed lots + manure
Inputs of N into rivers (and then oceans) has increased greatly since 1960.
Consequences: • produce greenhouse gas (N2O) • N2O + O2 --> NO3- + H2O --> nitric acid (rain) • increase nitrogen saturation of soils/forests • --> change soil chemistry --> leach nitrates • increase runoff into aquatic systems + water • supply; causes eutrophication • alter biodiversity and species mix
How are humans altering P cycle? Mining for P to add to fertilizer for crops Consequences: Run-off into aquatic communities --> increases algal abundance--> eutrophication Lowers water quality Moves P to water sediments --> moves to geological time scale; not available
Phosphorus concentration controls the trophic structure and productivity of lakes. CNP CN
How do humanactivities affect input from land to water? • runoff/seepage • agriculture land, especially NPK • animal feedlots, especially N • sewage input, C, N • -->into groundwater/aquifers/streams/oceans
Oyxgen depletion by great bacterial response to input of organic waste--> anoxic conditions for fish that die
‘Dead zones’ from eutrophication Correlate with human footprint Exponential increase since 1960s
Human eutrophication (overproduction of organic matter in aquatic systems) is harmful. Added nutrients stimulate algal GPP, BUT Too much overwhelms intrasystem regeneration Increase in dead organic matter Energy flows to bacteria, not higher trophic level Increase in decomposition + respiration ---> depletes oxygen (hypoxia + anoxia) ---> kills aerobes, including fish
Consequences for aquatic systems create ‘dead zones’ in oceans nitrates lower quality of drinking water “blue baby” alert change freshwater aquatic communities
SULFUR -2 4 5 2 3 1 +6
pH profoundly affects ecosystems, especially aquatic systems. ****
Acid rain from coal-burning industries affects forest growth. Slow recovery from its effects…
Effects of acid rain on a forest.Why is damage greater on 1 side of mt.?Why haven’t forests recovered when acid rain was lessened?
How do humans affect S cycle? • Burning of fossil fuels containing H2S puts S into the atmosphere--> • SO4 reacts with H20 to form sulfuric acid --> acid rain. • How did S get incorporated into coal? Non-decomposed plants got buried in swamps, allowing anaerobic processes to proceed --> H2S in coal. • Consequences of S presence in coal? Strip-mine - sulfuric acid directly into streams--> lowers pH-->disrupts aquatic community Acid rain Lowers Ca++ in soils-->lowers forest productivity. Lowers pH in lakes--> disrupts aquatic community.
Ozone (O3) + UV radiation 1. at surface N2O from burning gas in cars (GH gas) O2 with N2O with light --> O3 Consequences: Smog + health problems Ozone = oxidant of organic molecules SOYFACE: elevated O3 lowers crop productivity
