Proxy Climate Data - The Department of Geological Sciences
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Transcript Proxy Climate Data - The Department of Geological Sciences
Lecture 31: Historical Climate: Volcanoes
and Sunspots
Ch. 16
Historical Climate: Volcanoes and Sunspots
Ch. 16, p. 352-381; p. 381
• How do volcanoes affect climate?
• Name two important volcanic eruptions in the past one hundred years.
• How do sunspots affect climate?
• In what way do sunspot cycles before the 20th century imply a Sunclimate connections?
•Did volcanic eruptions and El Nino events affect the gradual trend of
global temperature over the last century?
Climate Change Since the Last Glacial Maximum
About 1000 y.a., the N.H.
was cooler than now (e.g.,
1961-1990 average). Certain
regions were warmer than
others.
The Earth’s Climate History
1.
Over the last century, the earth’s surface temperature has increased by
about 0.75°C (about 1.35°F).
2.
Little Ice Age = Cooling during 1,400 A.D. – 1,900 A.D. (N.H. temperature was
lower by 0.5°C, alpine glaciers increased; few sunspots, low solar output)
3.
Medieval Climate Optimum (Warm Period) = Warming during 1,000 A.D. – 1,300
A.D. in Europe and the high-latitudes of North Atlantic (N.H. warm and dry,
Nordic people or Vikings colonized Iceland & Greenland)
4.
Holocene Maximum = 5,000-6,000 ybp (1°C warmer than now, warmest of the
current interglacial period)
5.
Younger-Dryas Event = 12,000 ybp (sudden drop in temperature and portions of
N.H. reverted back to glacial conditions)
6.
Last Glacial Maximum = 21,000 ybp (maximum North American continental
glaciers, lower sea level exposed Bering land bridge allowing human migration
from Asia to North America)
7.
We are presently living in a long-term Icehouse climate period, which is
comprised of shorter-term glacial (e.g., 21,000 ybp) and interglacial (e.g., today)
periods. There were four periods of Icehouse prior to the current one.
8.
For most of the earth’s history, the climate was much warmer than today.
Tropospheric & Stratospheric Aerosols
Auto emissions and wild land fires are 2 sources that emit aerosols
into the troposphere that reduce incoming radiation and have a net
cooling effect on earth's surface.
Volcanic eruptions push aerosols into the stratosphere.
Large eruptions, such as Mt. Pinatubo, have been linked to
significant cooling episodes.
Mt. Pinatubo Eruption & Impact
Three months after the June 1991 eruption of this Philippine
volcano, much of the 20 million tons of ejected sulfur dioxide had
been directed by zonal stratospheric winds and girdled the
equator.
Recorded changes in air temperature indicates the volcanic
impact on climate.
Brief Episodes of Volcanic Cooling and El Nino Warming
Climate Change and Variations in Solar Output
More sunspots,
stronger solar
emissions from the
Sun’s polar regions
and from the bright
margins of sunspots.
Sunspot History from Telescopes
The telescope records
show:
11-year sunspot cycle,
The Maunder
minimum.