24 Global Ecology. Global Biogeochemical Cycles Atmospheric CO 2 affects pH of the oceans by...
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Transcript of 24 Global Ecology. Global Biogeochemical Cycles Atmospheric CO 2 affects pH of the oceans by...
Global Biogeochemical Cycles
Atmospheric CO2 affects pH of the oceans by diffusing in and forming carbonic acid.
2333222 COH 2HCOHCOHOHCO
Global Biogeochemical Cycles
Concentration of CO2 and CH4 can be measured in tiny bubbles preserved in polar ice.
The concentrations are correlated with glacial–interglacial cycles.
Lowest concentrations correlate with glacial periods.
Global Climate Change
Climate change refers to directional change in climate over a period of several decades.
Average global surface temperature increased 0.6°C (± 0.2°C) during the 20th century.
Concept 24.2: Earth is warming at an unprecedented rate due to anthropogenic emissions of greenhouse gases.
Global Climate Change
Weather is the current state of the atmosphere.
Climate is the long term description of weather, including average conditions and the full range of variation.
Climatic variation occurs at a multitude of time scales—from daily and seasonal to decadal.
Global Climate Change
Greenhouse effect—warming of Earth by atmospheric absorption and reradiation of infrared radiation emitted by Earth’s surface.
This is due to greenhouse gases in the atmosphere, primarily water vapor, CO2, CH4, and N2O.
Global Climate Change
The Intergovernmental Panel on Climate Change (IPCC) was established in 1988.
Experts in atmospheric science and economics from around the world.
Global Climate Change
IPCC’s models project a1.8°C to 4.0°C increase in temps over this century.
Future rates of emissions (and thus temps) depend on economic development.
Global Climate Change
What does a 1.8°C–4.0°C change mean for biological communities?
Similar to elevational climate variation.
The median value of change (2.9°C) = 500 m shift in elevation.
Acid and Nitrogen Deposition
Sulfuric acid (H2SO4) originates from SO2
Nitric acid (HNO3) from NOx.
Carbonic acid (CO3) from H2CO3.
Concept 24.3: Anthropogenic emissions of sulfur and nitrogen cause acid deposition, alter soil chemistry, and affect the health of ecosystems.
Acid and Nitrogen Deposition
These acids can fall to Earth with precipitation (wet deposition) or with dust or aerosols (dry deposition).
Natural precipitation has a pH of 5.0 to 5.6.
Acid precipitation has a pH range from 5.0 to 2.0.
Acid and Nitrogen Deposition
Other problems with N deposition:
• Higher levels of NH4+ and NO3
– in soils lead to higher rates of microbial processes (nitrification and denitrification) that release N2O, a potent greenhouse gas.
Acid and Nitrogen Deposition
• N export to marine ecosystems can contribute to eutrophication and oxygen depletion.
Anoxic conditions over large areas are called “dead zones.”
Atmospheric Ozone
In the upper atmosphere (stratosphere), ozone provides a shield that protects Earth from harmful radiation.
In the lower atmosphere (troposphere), ozone can harm organisms.
Concept 24.4: Losses of ozone in the stratosphere and increases in ozone in the troposphere each pose risks to organisms.
Atmospheric Ozone
An ozone hole is not really a hole, but an area with low ozone concentrations.
In the Arctic, the decreases have not been as great (the Arctic ozone dent).
Atmospheric Ozone
The Montreal Protocol has been signed by more than 150 countries, and went into effect in 1989.
Concentrations of most CFCs have decreased, or remained the same.
Recovery of the ozone layer is expected to take decades due to the long life of CFCs, and slow mixing of the troposphere and stratosphere.