Ecosystems and the Physical Environment
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Transcript of Ecosystems and the Physical Environment
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Ecosystems and the Physical
Environment
Chapter 5
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Cycling of Materials within Ecosystems
Basics of biogeochemical cycling
Energy flows one way through ecosystems
Matter cycles continuously through biotic and abiotic components.
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MATERIAL CYCLES• Carbon Cycle
– Begins with intake of CO2 during photosynthesis. Carbon atoms are incorporated into glucose and then:• Remain in plant material until death.
– Eaten by predator– Respiration– Excretion
» Death (Decomposers)
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Cycling of Materials within Ecosystems
Carbon cycle:
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Carbon Cycle
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Nitrogen Cycle
• Plants uptake inorganic nitrogen from the environment and build protein molecules which are later eaten by consumers.– Nitrogen-fixing bacteria change nitrogen to a
less mobile, more useful form by combining it with hydrogen to make ammonia - used to build amino acids.
• Members of bean family (legumes) have nitrogen-fixing bacteria living in their root tissue.
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Nitrogen Cycle– Nitrogen re-enters the environment:
• Death of organisms• Excrement and urinary wastes
– Nitrogen re-enters atmosphere when denitrifying bacteria break down nitrates into N2 and nitrous oxide (N2O)gases.
• Humans have profoundly altered nitrogen cycle via use of synthetic fertilizers, nitrogen-fixing crops, and burning fossil fuels.
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Cycling of Materials within Ecosystems
Nitrogen cycle:Atmospheric nitrogen (N2)
Nitrogen fixation by humans
Biological nitrogen fixation
Nitrification
NH3 & NH4
-
NO3-
Assimilation
Denitrification
Plant & animal proteins
Decomposition
Internal cycling
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Nitrogen Cycle
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Phosphorous Cycle
• Phosphorous compounds are leached from rocks and minerals and usually transported in aqueous form.– Taken in and incorporated by producers.
• Passed on to consumers.– Returned to environment by decomposition.
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Cycling of Materials within Ecosystems
Phosphorus cycle:
Phosphate rocksPhosphate mining Fertilizer
containing phosphates
Animals, crops
Soil phosphates
Internal cycling
Erosion
Erosion
Dissolved phosphates
Marine organisms
Excretion / decomposition
Internal cycling
Marine sediments
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Phosphorous Cycle
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Sulfur Cycle
• Most sulfur tied up in underground rocks and minerals. Inorganic sulfur released into air by weathering and volcanic eruptions.– Cycle is complicated by large number of
oxidation states the element can assume.– Human activities release large amounts of
sulfur, primarily by burning fossil fuels.• Important determinant in rainfall acidity.
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Cycling of Materials within Ecosystems
Sulfur cycle:
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Hydrologic Cycle
• Describes the circulation of water as it:– Evaporates from land, water, and organisms.
(Transpires from plants)• Enters the atmosphere.
–Condenses and precipitates back to the earth’s surfaces.
»Moves underground by infiltration or overland runoff into rivers, lakes and seas.
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Cycling of Materials within Ecosystems
Hydrologic cycle:
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Hydrologic Cycle
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Hydrologic Cycle
• Solar energy drives the hydrologic cycle by evaporating surface water.– Evaporation - Changing liquid to a vapor below
its boiling point.– Sublimation - Changing water between solid
and gaseous states without ever becoming liquid.
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Solar Radiation• Visible light passes through atmosphere
undiminished.• Ultraviolet light is absorbed by ozone in
the stratosphere.• Infrared radiation is absorbed by carbon
dioxide and water in the troposphere.– Albedo - Reflectivity
• Fresh clean snow 90%• Dark soil 3%• Net average of earth 30%
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Solar Radiation
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Solar Radiation
– Solar energy is unevenly distributed.• Sun strikes the equator directly all year.• Earth’s axis is tilted.
– Also rays of light entering the atmosphere at the poles must pass through a deeper envelope of air than light entering at the equator.
– This causes the sun’s energy to be scattered at the pole, producing lower temperature.
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Solar Radiation
Temperature Changes with Latitude
Like equator Like at poles
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Solar Radiation
Temperature Changes with Season
•Seasons are a result of the tilt of the earth.
•During half of the year, the northern hemisphere tilts towards the sun, and during the other half away from the sun.
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The Atmosphere
Composition
Nitrogen 78%
Oxygen 21%
Carbon dioxideArgonWater vaporPollutantsHeliumEtc.
1%
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The Atmosphere
Troposphere•Ranges in depth from 12.5 km over the equator to 8.0 km over the poles.
•All weather occurs here.•Composition is relatively uniform.•Air temperature drops rapidly with increasing altitude.
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The Atmosphere
• Stratosphere– Extends from troposphere to about 45 km.
• Air temperature is stable • -45deg C to -75 degC (part closest to Earth)• Fraction ozone is 1000x more than in the
troposphere.• Absorbs UV
• Steady wind• Relatively calm
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The Atmosphere
• Mesosphere– Middle Layer.
• Minimum temperature is about - 138o C.• Thermosphere
– Extends from 80-500 km.• Ionized and thin air
–Ionosphere - Lower Thermosphere»Aurora borealis (northern lights)
• high temperatures. (-1000 deg C+)• Absorbs UV and X-ray
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The Atmosphere
Atmospheric Circulation
Circulation spawned by heating / cooling
Prevailing winds
Generated by pressure differences and Coriolis effect
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The Atmosphere
The Coriolis Effect The influence of Earth’s rotation which tends to turn fluids towards the right in the Northern Hemisphere and towards the left in the Southern Hemisphere.
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Coriolis effect
How does the airplane fly?
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Coriolis effect
• Deflects air in North hemisphere to right
• Deflects air in South hemisphere to left
• Currents flow clockwise in the North and counter-clockwise in the South.
• Most noticed in higher latitudes.
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Other Winds
• Prevaling winds
• Polar easterlies
• Westerlies
• Trade
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The Global Ocean
Patterns of Circulation in the Ocean•Surface winds cause ocean currents (gyres).
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The Global Ocean
Patterns of Circulation in the Ocean
Influenced by:
1) Coriolis Effect
2) Land Masses (freer to move in the S. Hemisphere)
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The Global Ocean
Vertical Mixing of Ocean Water
•Cold salty water is more dense that warmer water.
•As a result, warm less salty water floats above the colder water.
Ocean Conveyor Belt
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El Nino Southern Oscillation (ENSO)
• Large pool of warm surface water in Pacific Ocean moves back and forth between Indonesia and South America.
– Most years, the pool is held in western Pacific by steady equatorial trade winds.
• Every three-five years the Indonesian low collapses and the mass of warm surface water surges back east.
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The Global Ocean
Ocean Interactions with the AtmosphereENSO alters the climate in many areas remote from the Pacific Ocean.
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The Global Ocean
Ocean Interactions with the AtmosphereCoastal Upwelling – deep waters come to the surface due to strong trade winds bringing nutrients.
This decreases during El Niño
Increases during La Niña
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El Nino Southern Oscillation
– Weak trade winds, expand warm mass of water, currents slow, prevents upwells
– Devastates S. Hemi fishing industry– Nutrient poor waters– Some species thrive, ie shrimp and scallops
– During an El Nino year, the northern jet stream pulls moist air from the Pacific over the US.
• Intense storms and heavy rains.– During intervening La Nina years, hot, dry weather is often
present.
– Pacific Decadal Oscillation - Very large pool of warm water moving back and forth across the North Pacific every 30 years.
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Weather and Climate• Weather - A description of physical
conditions of the atmosphere.
• Climate - A description of the long-term weather pattern in a particular area.– Weather and climate are primary
determinants of biomes and ecosystem distribution.
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Weather and Climate
Precipitation: any form of water that falls from the atmosphere
• Driest place on earth– Atacama Desert in Chile = 0.05 cm / year
• Wettest place on earth– Mount Waialeale in Hawaii = 1200 cm / year
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Weather and Climate
Rain shadowsMountains cause air to rise . As the air rises it takes moisture with it, which
forms a cloud when temperatures decreases (with greater elevation), and precipitation occurs. As the air moves down the other side of the mountain it is warmed. This decreases the chance of precipitation.
Insert Fig 5.19 b
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Weather and Climate
Severe weather events:
1) Tornados: form when a mass of cool dry air collides with
warm moist air
Source: University of Wyoming, Department of Atmospheric Science
Frequency of tornados annually per 100,000 km2
Tornado Alley (US) 40
Sydney, Australia 8
United Kingdom 1
Bangledesh 0.6
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Weather and Climate
Severe weather events:
2) Tropical cyclones
Atlantic Ocean = hurricanes
Pacific Ocean = typhoons
Indian Ocean = cyclones
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Weather and Climate
But, all are the same severe weather event:
• hurricane
• typhoon
• cyclone
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Internal Planetary ProcessesPlate tectonics: study of the movements of plates
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Internal Planetary Processes
Plate boundaries
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Internal Planetary Processes
Plate boundaries
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Internal Planetary Processes
Volcanoes
Most volcanoes occur along subduction zones
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Internal Planetary Processes
Volcanoes
Some occur along spreading zones
Few, such as Hawaiian Islands, not associated with plates.
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Internal Planetary Processes
Earthquakes
• caused by release of built up stress, typically along faults
• movement releases seismic waves
Typical side effects include:
1) Landslides
2) Tsunamis