Climate Change Only (1).ppt

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Scott Brennan Jay Withgott

8 Global climate change

PowerPoint® Lecture prepared by Jay Withgott
Copyright © 2005 Pearson Education, Inc., publishing as Benjamin Cummings
Weather and climate

Weather = local physical properties of the troposphere,
including temperature, pressure, humidity, cloudiness, wind

Climate = pattern of atmospheric conditions across large
geographic regions over long periods of time (seasons,
years, millennia)

“Climate is what we expect; weather is what we get.” –Mark Twain

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Radiation, atmosphere, and temperature

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Figure 12.1
Studying climate change: Direct sampling

Scientists have recorded
carbon dioxide levels in
the atmosphere directly
since 1958

Went from 315 to 373
ppm.

(The up and down zigzags
are from regular winter-
summer fluctuations.)

Figure 12.6
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Carbon dioxide increase

Due to:

Burning of fossil fuels: We remove carbon-rich fuels
from the ground where they have been stored for millions of
years, and combust them in an instant, sending CO2 into the
atmosphere.

Deforestation: Cutting down trees, removing
vegetation from the land, decreases the sink for carbon.
Some of the C in plants becomes CO2 sent into the
atmosphere.

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Earth’s Orbit
These 3 types of cycles also affect climate in the long term.

Variation of
Earth’s tilt

Variation of
Earth’s orbit
Wobble of
Earth’s axis

Figure 12.3
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El Niño and La Niña
The best-known interactions between oceans and climate
are El Niño and La Niña events.
In normal
conditions, winds
push warm waters
(red) to the western
Pacific Ocean.

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From The Science behind the Stories
El Niño and La Niña
Normal In an El Niño event, winds
conditions weaken, warm water sloshes
to the east, and prevents the
cold upwelling.

La Niña is the opposite:
Cold water spreads west.
From The Science behind the Stories
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El Niño and La Niña

El Niño and La Niña events influence rainfall and
temperature globally, especially on each side of the Pacific.

They cause droughts, floods, etc.

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Studying climate change

How do scientists know all these things about what climate
was like in the past, before we were here?

A number of methods have been developed…

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Studying climate change: Ice cores

They contain bubbles of gas
preserved from the time when
each layer formed.

Figure 12.5
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Studying climate change: Pollen analysis

Scientists also drill cores
into the sediments of
ancient lake beds.

From The Science behind the Stories
Copyright © 2005 Pearson Education, Inc., publishing as Benjamin Cummings
Climate change and the IPCC report

In 2001, the world’s climate scientists combined to produce
the single most comprehensive and authoritative research
summary on climate change:

The Third Assessment Report
of the
Intergovernmental Panel on Climate Change (IPCC)

The IPCC report summarized all scientific data on climate
change, future predictions, and possible impacts.

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Climate change and the IPCC report
First, the IPCC report established that global temperature is
rising.

Direct measurements from thermometers since 1860
demonstrate this.

Figure 12.9a
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Climate change and the IPCC report
Proxy indicators of temperature (from pollen, ice cores,
etc.) were reviewed to establish ancient temperatures.

These data (BLUE) overlapped with the direct temperature
measurements (RED). (Gray shows statistical uncertainty.)

Figure 12.9b
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The IPCC report

Some key findings on temperature:
Average temperature rose 1.0°F during the 20th
century
1990s = warmest decade in past 1,000 years
Northern hemisphere increase in 1900s = most in
1,000 years
Droughts increased in frequency and severity
Precipitation increased in north, but varied elsewhere

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The IPCC report

The IPCC also reported findings on physical changes:
Average sea level increased 4–8 inches during 20th
century
2 weeks less ice cover on northern lakes and rivers
Arctic sea ice thinned 10–40% in recent decades
Mountain glaciers melted back worldwide
Snow cover decreased 10% since satellite
observations began
Growing season lengthened 1–4 days each decade
over the past 40 years

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The IPCC report

Biological changes were also found by the IPCC:

Geographic ranges of many species have shifted
toward the poles and up in elevation.

In spring, plants are flowering earlier, birds
migrating earlier, animals breeding earlier, and insects
emerging earlier.

Coral reefs are “bleaching” more frequently due to
ocean acidity.

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The IPCC report: Causes of climate change

The IPCC report reflected the predominant view of climate
scientists:

Human activities (especially fossil fuel use leading to
rising greenhouse gas levels) are the main cause of
climate change.

However, the ways anthropogenic factors and natural
factors interact is complex and not fully understood, so
predicting the future is uncertain.

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Climate change predictions: Impacts
The IPCC and other groups have predicted future impacts
of climate change. Predictions for the U.S. include:
Temperature will rise 5–9°F.

Droughts, floods, snowpack will decline, and water
shortages will create diverse problems.

Temperature extremes will cause health problems;
tropical diseases will move north into the U.S.

Sea level rise will flood coastal wetlands, real estate.

Ecosystems will be altered; some will disappear.

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Sea level rise
Just as sea level rise
could devastate the
Maldives…

… it could also inflict
damage on the U.S.’s
coastal economies and
ecosystems.

A 20-inch sea level rise
would flood wetlands
and drylands on all U.S.
coasts.

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Figure 12.21
Predicted U.S. impacts: Sea level rises

All areas of the U.S. coast
would suffer erosion.

Figure 12.11b,c
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Central Case: Rising temperatures and seas
may take the Maldives

80% of this island nation’s land is