Lecture 1: Global Environmental Change PDF

Summary

This lecture introduces the concept of Global Environmental Change, covering topics such as the origins of environmental problems, air pollution, land use, oceans, ozone depletion, and climate change. A quiz on iClickers is featured at the end. It's helpful in covering fundamental information on the earth system.

Full Transcript

Lecture 1

Global
Environmental
Change
 Today’s Lecture – Global Environmental Change

1. Origins – who we are
2. Air Pollution – burning fossil fuels produces smog
3. Land Use – deforestation and monoculture
4. Oceans – overfishing, depletion of coral- reefs
5. Ozone – CFCs producing ozone hole
6. Climate Change – increase CO2
5. The Ozone Hole
 Ozone

Found in troposphere (e.g., Ozone = O3
pollution in cities) and
stratosphere (natural).

Tropospheric ozone is toxic.

Stratospheric ozone protects us
from UV radiation.
O3 -> O2+O

Ozone in the stratosphere is
depleted by chlorofluorocarbons
(CFCs).

CFCs were produced as
propellants in spray cans and
refrigerants.

more info at: https://ozonewatch.gsfc.nasa.gov/facts/SH.html
 Ozone hole

September 1979 September 2023

https://ozonewatch.gsfc.nasa.gov

Because of peculiar meteorological conditions, ozone destruction is
particularly severe over Antarctica, giving rise to an “ozone hole.”
(Dobson unit = 0.01 mm of ozone at standard temperature and pressure)
 Ozone Hole “healing” (area through time)

large

hole growth healing trend?

small

Dots show observations, colored lines reconstructions with different methods
Since the 2000s a trend of “healing” has started to emerge
However, the ozone hole will persist for decades
Solomon et al., 2016, Science
Earth
Systems
1 Atmosphere
2 Hydrosphere
3 Lithosphere
4 Biosphere
5* Cryosphere

*All part of our
climate and
weather systems
 Example quiz

We will now test iClickers

https://join.iclicker.com/GQXS

GQXS
Information for getting started:
https://coe.bruinlearn.ucla.edu/academic-tech-to
ols/iclicker-cloud
 Weather vs. Climate iCl
WHAT IS THE DIFFERENCE? ick
Tim er
Read the following definitions: e!

1) atmospheric conditions that occur locally over short
periods of time—from minutes to hours or days (e.g.,
rain, snow, clouds, winds, floods, or thunderstorms)

2) long-term (usually at least 30 years) regional or even
global average of temperature, humidity, and rainfall
patterns over seasons, years, or decades

a) 1 represents climate and 2 represents weather
b) 1 represents weather and 2 represents climate
c) I am not sure
 iCl
Weather vs. Climate ick
Tim er
WHAT IS THE DIFFERENCE? e!

Test your understanding: Which ones represent
climate, which ones represent weather?
1) The temperature at noon was 73 F
2) The all-time record high temperature is 108 F
3) This winter was wetter than last winter
4) Yesterday, the relative humidity was 90%

A B C
1) Climate 1) Weather 1) Weather
2) Weather 2) Climate 2) Climate
3) Weather 3) Weather 3) Climate
4) Climate 4) Climate 4) Weather
 What is Climate change?
Long-term change in the average weather patterns that
have come to define Earth’s local, regional and global
climates, caused by natural or anthropogenic (human-
made) processes

Natural processes, which have been overwhelmed by
human activities, can also contribute to climate change,
including internal variability (e.g., cyclical ocean patterns
like El Niño, La Niña and the Pacific Decadal Oscillation)
and external forcings (e.g., volcanic activity), change in
sun’s energy output

Changes observed in Earth’s climate since the mid-20th
century are driven by human activities, particularly fossil
fuel burning, which increases heat-trapping greenhouse
gas levels in Earth’s atmosphere, raising Earth’s average
surface temperature, leading to sea-level rise, melting
 Global warming?
Global warming is the long-term heating of Earth’s
surface observed since the pre-industrial period
(between 1850 and 1900) due to human activities,
primarily fossil fuel burning, which increases heat-
trapping greenhouse gas levels in Earth’s atmosphere.
This term is not interchangeable with the term "climate
change."
 Fossil Fuels?
Fossil fuels are formed from the
remains of (decomposing)
ancient plants and animals
o Coal: material usually found in sedimentary rock deposits where
rock and dead plant and animal matter are piled up in layers
o Oil: found as a solid material between layers of sedimentary rock
(mud + clay = shale). This material is heated in order to produce the
thick oil that can be used to make gasoline
o Natural gas: usually found in pockets above oil deposits. It can
also be found in sedimentary rock layers that don’t contain oil.
Natural gas is primarily made up of methane
The burning of fossil fuels generates energy,
electricity, and power
6. Climate Change
 Atmospheric CO2 and the “Keeling Curve”

Latest reading 418.06 ppm

The reading was 397 ppm
when I first taught this class
on September 22, 2015!

Data from Scripps CO2 Program
(https://scripps.ucsd.edu/programs/keelingcurve/)
 Data source: NOAA, measured at
the Mauna Loa Observatory,
Hawaii

CLICK HERE FOR MORE! CLICK HERE FOR MORE!
 This graph shows atmospheric carbon dioxide from Antarctic ice cores for the past 800,000 years,
combined with the Mauna Loa data after 1958.
Clearly, today’s atmospheric CO2 concentrations are unprecedented for at least the last million of
years!
The increase in carbon dioxide coincides with the invention of the internal combustion engine and
industrialization, and corresponds to the amount of fossil fuel burned.
 Consequences

The increase in carbon dioxide is global and has been traced
unequivocally to the burning of fossil fuels.

Carbon dioxide is not a toxic gas (at atmospheric concentrations). It
is critical to plant life and occurs naturally in the atmosphere.

But carbon dioxide plays an important role in regulating earth’s
climate.

As we’ll see, it’s a “greenhouse gas” whose levels control the
planet’s temperature

Yielding multiple changes in the Earth system including changes to
the water cycle and frequency of extreme events.
 Conclusion

Local effects of human natural resource
exploitation have become “super-sized”
by industrialization, so that they are
now global.

A by-product of industrialized
exploitation is a global increase in CO2 --
a gas fundamental to the planet’s
environmental state.

Human effects are strong enough to say
we’ve entered the Anthropocene, a
new geologic era.
Summary
Humans have always affected their environment, surviving by exploiting a variety of resources.
The human footprint on planet Earth increased with human population, and exploded after the
industrial revolution, catalyzed by several technological innovations.
All aspects of the Earth System (atmosphere, land, ocean) are affected by human activities. Today,
impacts are global, and include:
 Air and water pollution, resource depletion, deforestation, overfishing, loss of biodiversity, changes
in the chemical composition of the atmosphere, global warming, etc.
Emissions of man-made chemicals (CFCs) to the atmosphere caused a reduction of ozone (O 3) in the
stratosphere, and an expansion of the ozone hole around Antarctica, with human health consequences.
Following the Montreal protocol, ozone-depleting substances were banned, reducing their concentration
in the atmosphere and driving ozone recovery (“healing” of the ozone hole).
The success of this international treaty relied on sound scientific information and mobilization of the
public opinion.
CO2 is also increasing in the atmosphere, to levels that are unprecedented in human history, as shown by
direct and indirect measurements. This is at the root of current climate change.
Essential skills:
Familiarize with the broad aspects of human impacts on the various components of the Earth System.
Discuss examples of these impacts, their causes and consequences, and the scientific evidence
supporting them.
Read and interpret scientific graphics, such as maps and time-series (e.g., ozone and CO2 measurements
in the atmosphere, ozone hole maps, etc.). Interpret statistically significant “trends”, and underlying
variability (the “wiggles” in the time series).