Fundamentals Atmosphere Climate Variation Greenhouse Effect Climate Drivers Carbon Cycle Energy Balance System Inertia Geologic time Causes of Climate Change
Earth’s Atmospheric Composition, Temperatures and Pressure CompositionPercent Nitrogen (N 2 )78 Oxygen (O 2 )21 Argon (Ar)0.93 Carbon Dioxide (CO 2 )0.038 Water Vapor (H 2 O)0-4 Sea level Surface Pressure (Bars)1 Extreme Surface Temperatures (°C) 60 to −130 (Global Mean = 14.6)
Atmospheric Abundance of CO 2 and Global Temperatures CO 2 Percent Average Global Temperature (°C) Event Last Ice Age Maximum Interglacial Period (Holocene) Today Critical for Humans and Other Species Catastrophic for Humans and Other Species ~0.1525Hot House Maximum Venus Surface
Climate Shift and Temperature
Natural Variations of Climate during Warming
One Way of Causing Short-term Climate Variations
The Greenhouse Effect
Small changes in the global average temperature result in large climate changes A 5° C drop in the global average temperature places us in the depths of an Ice Age. An 8° C rise in the global average temperature places us near the top of a Hot House.
Greenhouse Gases and Percent Warming Carbon Dioxide - CO 2 (56%) Methane - CH 4 (16%) Tropospheric Ozone - O 3 (12%) Halocarbons (11%) Nitrous Oxide - N 2 O (5%)
Climate Drivers
Change in Temperature with Height for 2 Amounts of CO 2
Continental Absorption of CO 2
Energy Balance of the Earth
INERTIA General Physics…the resistance to change in some physical property of a body or system. Global Warming…the resistance to change in direction of various elements of the climate system, such as rising atmospheric CO 2, rising temperatures and melting ice.
Inertia in Action CFCs have decreased dramatically during the past 20 years. The ozone hole in 2006 was as large as ever because of the long lifetime of CFCs in the stratosphere and continuing emissions. It will take about 70 years for the ozone hole to disappear.
Other Climate Basics Feedbacks can cause the climate to move in one direction or the other independent of the original cause. Abrupt climate changes can drive the climate very rapidly; up to 8° C in 10 years or less. Uncertainties
Natural Causes of Climate Change and Geologic Time
Geologic Timescale Red and blue areas indicate hot (Hot House) and cold (Ice House) periods
The Geologic Time Scale Relative to One Year Eon or Era Absolute TimeRelative to a year Duration (million years) Percent Geologic time Starting timeDuration Precambrian3, January 110 mo. 17 d Paleozoic November days Mesozoic December days Cenozoic651.4 December 26 5 days
Major Human Events Relative to One Year Major Event Years before present December 31 Starting timeDuration* Human development begins ~7 million10:30 a.m.13 hr., 30 min. Homo species begins 2.3 million7:34 p.m.4 hr., 26 min. Early Homo Sapiens 400,00011:14 p.m.46 min. Homo Sapiens Sapiens (us) 125,00011:46 p.m.14 min. Civilization begins (Agriculture) 12,00011:58:21 p.m.1 min., 21 sec. Bonze Age begins :59:34 p.m.35 sec. Early writing :59:32 p.m.28 sec. Industrial Revolution (technology) 25011:59:58.3 p.m.1.7 sec. Average human lifetime 7511:59:59.4 p.m.0.6 sec. Current rapid climate warming 2511:59:59.9 p.m.0.1 sec. *Starting time to the present.
The Anthopocene Epoch The Anthopocene is a new Epoch characterized by human-caused major global changes that have altered the Earth in fundamental ways. It starts near the beginning of the Industrial Revolution in We are no longer in the Holocene.
Some Major Changes to Earth by Humans Changed Carbon Cycle Climate Change Ocean Acidification Urbanization and Habitat Encroachment Deforestation Major Depletion of Marine Food Fish Major Disruption of Land Surfaces
Beginning of the Anthropocene The diagram shows some of the criteria that defines the Anthropocene. The effects of these changes will leave a distinct stratigraphic marker.
Mass Extinctions The K/T extinction was probably due to a large impact that radically changed the climate. The other extinctions appear to be due to natural climate changes. The greatest mass extinction (P/T) was due to a climate change from an Ice House to a Hot House.
Causes of Climate Change Abundance of Greenhouse Gases Major Volcanic Eruptions Large Asteroid or Comet Impact Change in Sun’s Irradiance Change in Ocean Circulation Continental Drift Change in Earth’s Motions Red = main cause of current global warming
Past Oxygen and CO 2 Abundances
Major Volcanic Eruptions Large volcanic eruptions can cool the climate for a few years by injecting ash into the stratosphere to reflect the Sun’s radiation back to space. Enormous eruptions over long periods can emit large amounts of CO 2 to warm the climate.
Mt. Pinatubo eruption lowered the global average temperature between 0.2 and 0.6° C from mid-June 1991 and about 1995
Large Asteroid or Comet Impacts Large impacts cool the climate by injecting dust into the stratosphere to reflect sunlight back to space. If the impact is in limestone a large impact will first cool the climate and then heat it up by releasing large amount of CO 2 from the limestone.
Changes in the Ocean’s Thermohaline Circulation Can Change the Climate
Continental Drift due to Plate Tectonics can Change Climate over Millions of Years
Changes in Earth’s Motions can Change the Climate
Variations in the Earth’s Insolation with Time
Changes in the Sun’s Irradiance
Soar irradiance through September Reference: Fröhlich, C. and J. Lean, Astron. Astrophys. Rev., 12, pp ,
Solar Irradiance Does Not Correlate with Human-caused Temperature Increase
Measurements of Surface Temperature and Sun’s Energy
Solar Irradiance, Temperature, and Atmospheric CO 2
Solar Irradiance, Temperature, and Human-Caused CO 2 Emissions
Conclusions Only two causes can operate on time scales short enough to account for today’s rapid warming: 1) increase in solar irradiance, or 2) increase in greenhouse gases. The increase in solar irradiance is not enough to account for the present warming, and does not correlate with its rapid rise. The increase in greenhouse gases must be the primary cause of global warming. This is consistent with the observed rapid rise in both greenhouse gases and their emission by human activities.