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Transcript
Lecture 1
Global
Environmental
Change
GEOLOGIC TIME
The earth is approximately 4.6 billion years
old and has undergone large changes
throughout its lifetime. The earliest forms
of life may have appeared as early as
about 4 billion years ago, with bacteria and
algae-like creatures appearing about 2.5
billion years ago. Evidence has emerged
recently that about 600-700 million years
ago, the earth was probably completely icecovered more than once (snowball earth).
Then, about 540 million years ago, the
Cambrian Explosion occurred. This
marks the first appearance of creatures
with hard skeletons and is associated with
a striking increase in biological diversity.
The period since the Cambrian
explosion is known as the
Phanerozoic and is divided
into three eras: the Paleozoic,
the Mesozoic, and the
Cenozoic. These eras are
further subdivided based on
discontinuities in the fossil
record (i.e. extinctions). In
class today, we will examine
the most recent mass
extinction event, which marks
the boundary between the
Mesozoic and Cenozoic
periods.
The earth and its climate toward the end
of the reign of the dinosaurs.
Earth’s most recent major ecological catastrophe...
...occurred 65 million years ago.
The fossil record changes abruptly before and after this
moment. It indicates that the dinosaurs disappeared at
this time. In addition, the majority of other ocean and
land animals went extinct.
What happened? The evidence supports the idea that
the earth was struck by an asteroid. Asteroids are
constantly colliding with planetary bodies, as evidenced
by craters on their surfaces.
Other heavenly bodies are
bombarded by asteroids:
Phobus, moon of Mars
Crater in the Yucatan peninsula is
about 300 km (200 miles) across
Sedimentary rock 65 million years ago contains
unusually high amounts of IRIDIUM, which has higher
concentrations in extraterrestrial matter.
Since the beginning
of the Cenozoic era,
the climate has
cooled. The
Antarctic ice sheet
developed. Ice
sheets grew and
decayed
intermittently in the
northern
hemisphere as well
during the last two
million years (a
period known as the
Pleistocene). The
periods of northern
hemisphere
glaciation are known
as the ice ages.
Anatomically modern humans emerged about 200,000 years ago. Human
populations remained tiny relative to current levels until a few thousand years
ago. In the last thousand years, global human population has begun to exhibit
exponential growth, setting the stage for a massive global impact of humans on
the natural environment.
Contemporary Global Change:
The Human Impact
•Ecosystem Destruction
•Ozone Destruction
•Climate Change
Human impact on forest distribution as of the year 2000
Facts about DEFORESTATION
Deforestation occurs at a rate of 150,000 square km per year
worldwide (every 2.5 years, an area equivalent to the state of
California disappears).
Tropical forests once occupied 16 million square kilometers of the
earth's surface, but now cover only 9 million.
It is estimated that Latin America and Asia have already lost 40%
of their original forest; Africa a little more than half.
In many countries the rate of deforestation is accelerating. For
example, most of the forested areas of Bangladesh, India, the
Philippines, Sri Lanka and parts of Brazil's rain forest could be
gone by the end of the century.
Only in the Congo Basin and some of the more isolated areas of
the Amazon Basin does the forest remain largely intact.
Implications of DEFORESTATION
Species loss The majority of earth’s species live in
the tropics. The majority of the species in the tropics
have very limited ranges, increasing the importance of
small patches of land for overall biodiversity.
Global carbon cycle The burning of the forests
releases carbon dioxide into the atmosphere,
contributing to the increase in greenhouse gas
concentrations.
Local climate change The loss of rain forest alters
precipitation and cloud patterns.
Annual fish catch (millions of tons)
compiled from Fishstat 2001
Ocean ecosystems are also coming under increasing stress due to
human activity. Evidence comes from records of total fish catch in the
oceans surrounding North America, shown above. Fish catch rose until
the late 80s, then has declined precipitously. This has been attributed to
overfishing. Fisheries around the world have behaved similarly.
Examples of drastically declining fish populations
New England groundfish and flounder
Southeast Spiny Lobster
Atlantic Bluefin Tuna and Swordfish
Main Hawaiian Island Bottomfish
Large Coastal Sharks
Gulf of Mexico King Mackerel and Pink Shrimp
Atlantic/Gulf of Mexico/Caribbean Reef Fish Complex
Pacific Ocean Perch
North Pacific Albacore
Oysters, Hard Clams, and Abalones
OZONE is a 3-atom oxygen form of oxygen
found in both the troposphere and the
stratosphere. Ozone in the stratosphere occurs
naturally and shields the earth’s surface from
harmful ultraviolet radiation. Ozone in the
troposphere is a pollutant associated with
automobile exhaust.
Ozone can be destroyed in the stratosphere by
CFCs, a chemical used in air conditioners, and
aerosol spray cans.
Because of peculiar meteorological
conditions, ozone destruction is
particularly severe over Antarctica,
giving rise to an “Ozone Hole”
The Ozone Hole
CLIMATE CHANGE
The Keeling Curve
Note the seasonal oscillation and the steady upward trend
Carbon dioxide record in the Greenland Ice Core
The global temperature
rise over the course of
the instrumental record
According
to
actual
measurements
from
thermometers distributed
around
the
globle,
temperatures
appeared
stable until about 1900,
when they began to rise.
They cooled a bit from
1940
to
1970,
then
resumed
their
upward
trend. This is the case for
both the northern and
southern hemispheres.
Northern Hemisphere Temperature Reconstruction
All of these environmental changes stem in part from an explosion in human
population, now growing exponentially. Accelerating economic growth and hence
increased resource consumption by individuals also plays a large role.
The Anthropocene:
A New Geologic Era?