Lecture 02 - Climate Change_Summer 2024.pdf

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Arab Academy for Science, Technology, and Maritime Transport (AASTMT)
Cairo Campus
College of Computing and Information

UNR1601
Climate Change and Water Management
Ch – Climate Change

Dr. Hassan Ahmed
Construction & Building Department, College of Engineering and Technology, AASTMT, Cairo, Egypt
Climate Variability
Climate variability refers to variations in the mean state and
other statistics (such as the occurrence of extremes, etc.) of the
climate on all temporal and spatial scales beyond that of
individual weather events.

Variability may be due to natural internal processes within the
climate system (internal variability), or to variations in natural
or anthropogenic external forcing (external variability).

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What is climate change?
Climate change is a change in the pattern
of weather, and related changes in
oceans, land surfaces and ice sheets, that
have come to define Earth’s local,
regional and global climates and
occurring over time scales of decades or
longer.

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Energy Balance
The temperature of the Earth is determined by a balance of the energy
entering the Earth–atmosphere system and the energy leaving the
system.
Global energy balance (GEP):
Earth's stored energy = Energy the earth receives from the Sun -
Energy the earth releases to space.

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The greenhouse effect
Greenhouse gases in the
atmosphere, including water vapor,
carbon dioxide, methane, and
nitrous oxide, absorb heat energy
and emit it in all directions
(including downwards), keeping
Earth’s surface and lower
atmosphere warm.
Adding more greenhouse gases to
the atmosphere enhances the
effect, making Earth’s surface and
lower atmosphere even warmer.

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Climate Forcing
Any process or activity that influences the GEP either by
increasing or decreasing the earth’s stored energy contributes to
climate change and is qualified to be called a climate forcing
process.

Climate forcing as an imbalance
in energy at the top of the Earth's
atmosphere either externally or
by human activities.

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Climate Forcing
Climate forcing processes are classified as:
Internal Climate Forcing Processes - processes
operating on the GEB from within the earth.
External Climate Forcing Processes - processes
operating on the GEB from outside the earth.

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Climate Change
The internal and external climate forcing processes except the man-made
processes are grouped together as natural causes of climate change.

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Natural cause
Climate
Earth Change

Anthropogenic
causes

Global temperature

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External Climate Forcing Processes
1- Variations in the amount of energy received from the sun.
2- Variations in the earth’s orbit around the sun.

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Internal Climate Forcing Processes
1. Oceans
2. Continental Drift
3. Atmosphere
4. Water Cycle
5. Clouds
6. Ice and Snow
7. Land Surfaces
8. Volcanic Eruptions
9. Human Causes

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Internal Climate Forcing Processes
1. Oceans
Oceans are the key source of moisture in the air through interactions with
the atmosphere.
Oceans also store heat efficiently, transporting it thousands of miles thus
redistributing heat in time and space.
The oceans and marine life also consume huge amounts of carbon dioxide.
These ocean-based processes exert tremendous influence on global climate
and accounts for the variations.

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Internal Climate Forcing Processes
2. Continental Drift
Scientists believe that our earth is still slowly drifting and constantly changing.
This constant drifting is believed to have impact on the climate because it
changes the physical features of the landmass, their position and the position of
water bodies.
The separation of the landmasses changed the flow of ocean currents and
winds, which affects the climate.

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Internal Climate Forcing Processes
3. Atmosphere
The atmosphere stores a lot of heat or energy which comes from the sun.
This energy regulates the earth's climate.
The atmosphere composes of small particles and several gases out of which
are the green house gases (GHGs) that store heat. The small particles
(aerosols) tend to block sunlight reaching the earth.

4. Water Cycle
Higher air temperatures can increase water evaporation and melting of ice.
Water vapor is the most potent greenhouse gas.
Clouds also affect evaporation, creating a cooling effect.

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Internal Climate Forcing Processes
5. Clouds
Clouds reflect solar energy (cooling the earth) and thereby trapping heat
being radiated up from the surface (warming the earth).
Clouds variability contribute to climate change.

6. Ice and Snow
The whiteness of ice and snow reflects heat out, cooling the planet.
When ice melts into the sea, this drives heat from the ocean causing
variability in climate.

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Internal Climate Forcing Processes
7. Land Surfaces
Mountain ranges can block clouds, creating "dry" shadows downwind.
Sloping land allows more water runoff, leaving the land and air drier.
A tropical forest will soak up carbon dioxide, but once cleared for cattle
ranching, the same land becomes a source of methane, a greenhouse gas.
8. Volcanic Eruptions
A volcanic eruption emits large volumes of sulphur dioxide (SO2), water
vapor, dust, and ash into the atmosphere that influence climatic patterns for
years. The gases and dust particles partially block the incoming rays of the
sun, leading to cooling.

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Internal Climate Forcing Processes
9. Anthropogenic or human causes
Coal mining

Deforestation Air pollution

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Greenhouse gases Industrial processes

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Main indicators of climate change

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Evidence of Climate Change
Climate records show a warming trend.
Earth’s global average surface
temperature has risen, as
shown in this plot of combined
land and ocean measurements
from 1850 to 2019 derived from
three independent analyses of
the available data sets.
The temperature changes are
relative to the global average
surface temperature, averaged
from 1961−1990.

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Evidence of Climate Change
Climate records show a warming trend.
The climate system varies naturally from year to year and from decade to decade. To make reliable
inferences about human-induced climate change, multi-decadal and longer records are typically used.
Calculating a “running average” over these longer timescales allows one to more easily see long-term trends.
For the global average temperature for the period 1850-2019 (using the data from the UK Met Office Hadley
Centre relative to the 1961-90 average) the plots show (top) the average and range of uncertainty for
annually averaged data; (2nd plot) the annual average temperature for the ten years centered on any given
date; (3rd plot) the equivalent picture for 30-year; and (4th plot) the 60-year averages.

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Evidence of Climate Change

This warming is not caused by the
increase in solar irradiance.

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Evidence of Climate Change
Additional evidence of a warming trend can be
found in the dramatic decrease in the extent of
Arctic sea ice at its summer minimum (which
occurs in September), the decrease in June
snow cover in the Northern Hemisphere.

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Evidence of Climate Change
Observations show that the global average sea level has risen by about 16 cm since
the late 19th century.
Sea level is rising faster in recent decades; measurements from tide gauges (blue)
and satellites (red) indicate that the best estimate for the average sea level rise over
the last decade is centred on 3.6 mm per year.

The shaded area represents the sea
level uncertainty, which has
decreased as the number of gauge
sites used in calculating the global
averages and the number of data
points have increased

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Evidence of Climate Change
Measurements of atmospheric CO2 since
1958 from the Mauna Loa Observatory in
Hawaii (black) and from the South Pole (red)
show a steady annual increase in
atmospheric CO2 concentration.

The measurements are made at remote
places like these because they are not
greatly influenced by local processes, so
therefore they are representative of the
background atmosphere.

The small up-and-down saw-tooth pattern
reflects seasonal changes in the release and
uptake of CO2 by plants.

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Evidence of Climate Change
Paleoclimatology data from natural sources like ice cores, tree rings, corals,
ocean and lake sediments that have enabled scientists to extend the earth’s
climatic records back millions of years.

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Evidence of Climate Change

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Evidence of Climate Change
Ocean Acidification
As CO2 in the air has increased,
there has been an increase in
the CO2 content of the surface
ocean (upper box), and a
decrease in the seawater pH
(lower box).

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Consequences of climate change
Changes in
Glaciers and ice sheets
Sea level change
Sea ice
Heavy rainfall across the globe
Extreme Drought
Decline in Crop productivity
Changes in ecosystems
Hurricanes
Rise in temperature
Acidification of seawater
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Thank You !

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