Science-Resource-Guide-(P) Section 3.pdf

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Section III
Pollution, Sustainability,
& Climate Change
Human actions have a tremendous impact on Earth’s of global climate change: the large-scale physical and
biosphere and the global climate, and their effects are biogeochemical changes that have been taking place
becoming more apparent by the year. In this first part on Earth at an accelerating rate over the past several
of Section III, we will focus on air and water pollution, decades.
particularly pollution that results from conventional
energy production (e.g., emissions from power plants). WATER POLLUTION
We will then examine human energy consumption: Throughout the world, many people routinely consume
the types of renewable and non-renewable energy water from surface water such as rivers and streams
sources, as well as their advantages and disadvantages. and from dug wells. Sometimes the same body of water
Finally, we will discuss the nature, causes, and effects serves as the supply for drinking, bathing, washing,

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FIGURE 32

Point-source and non-point source water pollution.
Source: Mississippi Department of Environmental Quality

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cooking, and the disposal of human and other waste.
Such a body of water can easily become polluted and a
source of infectious diseases. Between 1 billion and 2
billion people on Earth, most of them in the developing
world, do not have access to safe drinking water. In
addition, bodies of water have been degraded in ways
that cause significant damage to the environment.
The two main categories of water pollution are:

6 Point-source pollution is released from
distinct, confined locations, such as a particular
factory or the pipe leading from a sewage
treatment plant.
6 Non-point source pollution is contamination If too much nitrogen and phosphorus are present, they can
that collects from large areas, such as an overfeed a body of water, leading to eutrophication, the
entire farm or a farming region, a suburban excessive growth of algae due to an oversupply of nutrients.
community with many lawns and septic By Felix Andrews (Floybix) - Own work, CC BY-SA 3.0, https://commons.
systems, or runoff from parking lots. wikimedia.org/w/index.php?curid=1092921

It is important to differentiate the type of source material will decompose, and bacteria will grow on

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because it can help in controlling pollutant inputs it, using oxygen to survive and thereby depleting
to waterways. For example, if a municipality can available oxygen. Food scraps, human waste, and
determine that the bulk of waterway pollution is animal waste are all oxygen-demanding waste that can
coming from one or two point sources, it can target the enter the water supply.
owners of those specific point sources. It is much more
difficult to control pollution from non-point sources. Inorganic Compounds
Inorganic compounds are chemical compounds that
Types of Water Pollutants don’t come from animals or plants. Perhaps the most
Pathogens important are the two elements most likely to limit
Pathogens—parasites, bacteria, viruses—are growth in the receiving lake or stream are nitrogen and
responsible for a number of diseases that can be phosphorus. If too much nitrogen and phosphorus are
contracted by humans or other organisms who come in present, they can overfeed the body of water, leading to
contact with or ingest the water containing them. Large- eutrophication, the excessive growth of algae due to
scale disease outbreaks from municipal water systems an oversupply of nutrients. Eventually the algae die and
are relatively rare in the United States, but they do decompose, oxygen is depleted from the water, and the
occur occasionally. Disease outbreaks from municipal fish population declines. The major terrestrial sources
water systems are, however, relatively common in many of nitrogen are farm runoff, sewage treatment plants,
parts of the developing world. Pathogens can enter the and acid precipitation; and the sources of phosphorus
water supply from both point and non-point sources. A are naturally occurring rocks and minerals, fertilizer
malfunctioning sewage treatment plant or septic system runoff, and, in the past, detergents.
can be point sources of pathogens entering into rivers
or lakes. Wildlife can also contaminate reservoirs with Other inorganic pollutants can come from non-point
disease-causing organisms. Worldwide, the major water- sources such as acid precipitation (nitrate and sulfate)
borne diseases are cholera and hepatitis. or point sources such as by-products of sewage
treatment (chloride) or industrial plants (metals).
Oxygen-demanding Waste Metals such as lead, copper, arsenic, and mercury are
Oxygen-demanding waste is material that contains among the most toxic water pollutants. In the early
organic matter, such as leaves and twigs that get 2000s, mercury received a great deal of attention as an
washed into a body of water during a rainstorm. The inorganic water contaminant of global proportions.

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Organic Pollutants
Persistent Organic Pollutants (POP) are toxic chemicals
created by humans for industrial purposes that persist
in the environment for decades or longer and can
accumulate in organisms, including humans, through
food webs. One group of organic compounds that is
causing many problems is polychlorinated biphenyls, or
PCBs, which are highly toxic and carcinogenic. PCBs
were used in manufacturing plastics and insulating
electrical transformers until 1979. Although they are
no longer manufactured or used in the United States,
because of their persistence, they are still present in the
environment.
A pelican is coated in oil following the Deepwater Horizon oil
spill in 2010
Sediments
By Louisiana GOHSEP - Flickr: Oiled Pelicans, CC BY-SA 2.0, https://
Sediments include nonchemical pollutants such as commons.wikimedia.org/w/index.php?curid=30525946
sand, silt, and clay that become mobilized when soil is
disturbed. Housing and shopping center development Perhaps the greatest culprits are crude oil and other
and road construction, along with agriculture, are petroleum products, which are highly toxic to many
major sources of sediment. When a dam is constructed, marine organisms, including birds, mammals, and

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sediments settle out of the unmoving water. If the fish, as well as the algae and microorganisms that form
water is later remobilized, a great deal of sediment will the base of the aquatic food chain. Oil is a persistent
end up in downstream water. Sediment can clog fish substance that can spread across the water for
gills and otherwise hinder fish from obtaining oxygen, hundreds of miles and leave a thick, viscous covering
particularly bottom dwellers such as oysters or clams. on land that is extremely difficult to remove.
In addition, increased sediment in the water column
reduces the infiltration of sunlight, which can reduce Oil and other petroleum products enter the oceans
the productivity of aquatic plants. through multiple sources, most notably from spills
from off-shore drilling and oil tankers. Perhaps the
Thermal Pollution most notorious recent spill was the Deepwater Horizon
Any time human beings alter water flow so that the oil spill of 2010 in the Gulf of Mexico. In that case,
water moves more slowly, receives more sunlight, 210 million gallons of oil covered miles of ocean and
or enters a shallower waterway, the temperature of coastline and dramatically impacted one of the most
the water is likely to increase. Water is also heated productive marine ecosystems on Earth. Cleanup
when it is used for cooling in industrial processes efforts continue to the present day. Cleanup includes
and electricity generation (e.g., fossil fuel-fired and physical methods such as floating booms to keep a
nuclear power plants). The result is thermal pollution. spill from spreading, followed by skimming oil from
Increasing water temperature reduces the amount of the water’s surface. It also includes the use of chemical
oxygen that can be dissolved in the water. At the same dispersants that break down the oil into particles small
time, in warmer waters organisms normally increase enough to be broken down by sunlight and bacteria.
their respiration rate, which means they will use more
oxygen and further reduce the dissolved oxygen in the Solid Waste Pollution
water. Increased respiration rate is a stress that can Though the dumping of solid waste in open waters
make organisms more susceptible to disease. Increased has been reduced since the early 1980s, it is hard to
water temperature may also affect reproduction. walk along a beach without finding at least a few
bottles, cigarette butts, or food packages. Various
Ocean and Shoreline Pollution forms of solid waste can be dropped on beaches by
Although our major focus in this section has been on negligent people or washed into the ocean from open
fresh water, pollution of Earth’s oceans and shorelines landfills and travel long distances before they are
is an environmental problem of major proportions. washed up on another beach far from where they

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started. Not only is such beach garbage unsightly, oxygen-demanding food components or inorganic
it can be dangerous to both marine organisms and contaminants from soaps and detergents, is much less
people. Toxic medical waste poses a threat to people on harmful to the environment. Wastewater from sources
the beach, particularly children, and plastic holders for other than toilets, called gray water, is sometimes
beverage six-packs and plastic bags, for instance, are reintroduced into the environment without treatment
known to strangle many animals. And the extent and for purposes such as watering lawns.
dangers of plastic pollution goes far beyond just this.
Plastic debris in landfills or waterbodies can degrade Human sewage is an oxygen-demanding material that
over time into microplastics, particles smaller than may contain pathogenic organisms and high levels of
5 mm, or nanoplastics, particles smaller than 0.0001 phosphate, nitrate, and other compounds. Whether raw
mm. Microplastics have been found to be a potential sewage is dumped into a free-flowing river or stream
health risk in both animals and humans, which can and “treated” naturally or passed through a human-
intake them via eating contaminated seafood, as well made system, such as a sewage treatment plant, septic
as from multiple other sources.12 system, or solar aquatic system, the basic processes are
the same: bacteria break down the organic matter into
Wastewater Treatment carbon dioxide and inorganic compounds like nitrate
The term wastewater refers to all water from houses and phosphate; dissolved oxygen levels in the water are
and buildings that is destined for a sewage treatment reduced; and eventually BOD goes down; and oxygen
plant or septic system. In fact, wastewater is highly levels recover. Wastewater treatment facilities replicate
varied. Obviously, wastewater from toilets contains this natural process to varying degrees, usually more
material that is harmful and must be treated before quickly. In addition, decomposing the sewage in a

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it can be returned to the environment. But water treatment plant prevents polluting a natural body of
from sinks and showers, while possibly containing water.

FIGURE 33

Wastewater treatment process.
Source: Encyclopedia Britannica

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In a traditional sewage treatment plant, which might can be produced by natural sources, such as volcanoes
be used in most municipalities in developed countries, and fires, or by human sources such as automobiles,
wastewater treatment is accomplished in two phases, power plants, and factories. Air pollution usually refers
primary and secondary treatment. Primary treatment to pollution in the troposphere, roughly the first ten
removes 40 to 50 percent of the solid waste material. kilometers (six miles) of the atmosphere above Earth’s
Solid material that settles out during the process is surface. Tropospheric pollution is sometimes called
eventually dried and classified as sludge. Sludge usually ground-level pollution. Other layers of the Earth’s
contains significant amounts of metals, particularly if atmosphere also contain pollution, but for now we will
the effluent comes from a municipality that includes focus on the troposphere.
industrial businesses. After removal of the sludge, the
water undergoes secondary treatment, which effectively Major Air Pollutants
accelerates the breakdown of organic matter that would The atmosphere, like most of the oceans, is considered
occur if the sewage were left to decompose naturally. a global commons that is protected by governments
At the end of secondary treatment, roughly 85 to 90 that regulate the activities producing air pollutants.
percent of the original pollutants in the water have been Environmental science was used in the development
removed. The water is disinfected to kill pathogens and of these regulations, including the U.S. Clean Air
then returned to the river or lake it originally came from Act (CAA) of 1970. As part of the development of the
and is once more part of the water cycle. CAA, scientists identified the six most common and
widely harmful air pollutants, and these pollutants
Improvements in U.S. Water Quality remain a primary focus of air pollution regulation and
Water quality in the United States has improved in are the criteria by which the air in cities, regions, and

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most categories over the past few decades. Forty to states is judged to be significantly polluted. These six
fifty years ago, many harbors and waterways were criteria pollutants are sulfur dioxide, nitrogen oxides,
badly polluted. The Clean Water Act, passed in 1972 carbon monoxide, lead, particulate matter, and ground-
and amended a number of times since then, the Safe level ozone.
Drinking Water Act of 1986, and the Water Resources
Development Acts (1986−92) have worked in concert Sulfur Dioxide
to protect surface water by managing the water supply, Sulfur dioxide (SO2) is a gas released in nature by
wastewater, flood control, navigation on waterways, volcanic eruptions and by humans, primarily through
and hydroelectric power. The Clean Water Act also the burning of fossil fuels such as coal and oil. All
requires the establishment of Water Quality Standards living things contain various amounts of sulfur, and
that place an upper limit on the concentration of thus fossil fuels formed from long-ago plants and
specific pollutants in major water bodies. To achieve animals. This sulfur is released when fossil fuels are
these standards, the Clean Water Act also requires the burned. SO2 harms mammalian respiratory systems,
establishment of a Total Maximum Daily Load for including reducing lung function. While this is
each pollutant—the maximum amount of a pollutant particularly harmful for people with asthma or other
that is allowed to enter a waterbody—that is based on respiratory illnesses, it can irritate the lungs of anyone.
the total amount of the pollutant discharged from point Sulfur dioxide can also harm plants, as SO2 in the
sources (factories, wastewater treatment facilities, etc.) atmosphere can undergo a chemical reaction to form
and non-point sources (atmospheric deposition, farms, sulfuric acid, one of the main components of acid rain.
and other runoff from the land).
Nitrogen Oxides
The atmosphere is 78 percent nitrogen gas (N2), and all
AIR POLLUTION AND THE combustion in the atmosphere leads to the formation of
ATMOSPHERE a wide variety of nitrogen oxides (NOX). Atmospheric
Air pollution is the emission of compounds into the NOX gases can be harmful themselves, but they also
atmosphere at levels high enough to harm plants, play a role in forming ozone and other common
animals (including humans), and buildings (and/or components of urban air pollution. Like SO2, NOX can
other nonliving materials) as well as adversely impact undergo chemical reactions in the atmosphere to form
the structure and function of ecosystems. Air pollution nitric acid, which also is harmful to ecosystems.

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Carbon Monoxide
Carbon monoxide (CO) is a colorless, odorless gas
that is formed during incomplete combustion of most
organic matter, such as gasoline, which makes it a major
part of automobile emissions. Carbon monoxide binds
with hemoglobin (an oxygen transporting protein in
the mammalian body) and interferes with the transport
of oxygen, which—if exposure is high enough—can
lead to health impacts such as dizziness, headaches,
confusion, loss of consciousness, and even death.

Lead
Lead (Pb) is a naturally occurring element that is part
of the Earth’s crust and can be found in air, water, and
soil. Airborne lead, such as when lead was used as an Air pollution has a significant impact on human health.
additive in gasoline and emitted from tailpipes, is only Particulate matter is suspected of causing lung cancer and
one of the ways that lead may impact humans. The other lung ailments.
use of leaded gasoline ended in the U.S. in the 1970s
and globally in 2021 when the final stocks of leaded Ground-Level Ozone
gas were used up in Algeria. Lead can also be found Photochemical air pollutants (e.g., ozone) are a

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in lead-based paint and lead plumbing, both of which class of air pollutants that are formed as a result of
can still be found in some homes and communities. action by the Sun on compounds that are oxides, such
Lead, regardless of the source, can adversely impact an as nitrogen oxide and sulfur oxide. Photochemical
animal’s blood production, producing anemia but, even pollutants are among the compounds that comprise
more critically, it has been found to have a wide range photochemical smog, a comprehensive term that
of adverse neurological impacts, particularly on young refers to the haze that appears over cities, particularly
children. cities like Los Angeles where surrounding mountains
will trap the smog. There are many photochemical
Particulate Matter pollutants, but ozone (O3)—three oxygen molecules
Particulate matter refers to solid or liquid particles bound together—is the most important for its
suspended in air. Particulates come from most positive and negative impacts. Ozone forms in the
combustion products, including wood, coal, oil, and stratosphere, where it absorbs ultraviolet light and
gasoline. They are most commonly known as a class of thereby removes harmful ultraviolet radiation, keeping
pollutants resulting from “dirty burning” fuels such as it from reaching the Earth. In the troposphere (closer
coal and oil or low-efficiency wood stoves (which are to the Earth’s surface), ozone is an oxidant harmful to
a major source of air pollution in many northern states plants and animals.
and countries). Forest fires and volcanoes are two
natural sources of particulates. While criteria pollutants are common air pollutants
with known adverse health impacts and are regulated
Particulates range in size from 0.01 microns to 100 under their own part of the Clean Air Act—the
microns in diameter, which is approximately the National Ambient Air Quality Standards—there are
thickness of the average human hair. Particulates of many other air pollutants, such as mercury (primarily
various sizes are suspected of causing lung cancer produced through the burning of coal for energy),
and other lung ailments in humans. Particulates also that adversely impact human health and ecosystems.
block sunlight. If the atmospheric concentration Many of these pollutants are regulated under different
of particulates is high enough, as it is immediately parts of the Clean Air Act, such as the Hazardous Air
following a large forest fire or a volcanic eruption, Pollutant section. Regardless of the regulatory method,
photosynthesis in the region can even be reduced. the initial step is for scientists to set standards for how
much of a certain pollutant should be allowed in the

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atmosphere (e.g., the ambient air) or can be emitted by human activity—and most of it usually is—a
from a source (e.g., a car or a power plant). significant percentage of air pollution comes from
natural sources. Volcanoes, forest and grassland fires,
Secondary Pollutants living plants, and dead plants all release compounds
Most of the criteria pollutants are classified as primary that can be classified as pollutants. Volcanoes release
pollutants because they remain in the form that they SO2, particulates, CO, and NOX. Forest fires release
are emitted from the power plant, factory, car, or particulates, CO, and NOX. The summer of 2023
other source. However, some pollutants, such as smog provided a critical example of how wildfires can
and acid rain, result from chemical reactions in the impact air quality as wildfires in the Pacific Northwest
atmosphere in which primary pollutants are transformed and, in particular, northern Canada produced high
into secondary pollutants. Solar energy powers some levels of particulate matter and other pollutants,
of these reactions, such as the formation of smog, causing extremely unhealthy air quality in much
and they rely on atmospheric water and the higher of North America and even impacting Europe. In
temperatures found near the Earth’s surface. Smog is addition, the 2023 Canadian wildfires more than
a secondary pollutant—smog is not emitted from a doubled the previous annual high for Canada’s level of
smokestack or tailpipe. Instead, like sulfuric acid and carbon dioxide emissions. While we can classify the
nitric acid, it is created by chemical reactions in the pollutants produced from these wildfires as “naturally
atmosphere. produced,” a 2023 study concluded that climate
change—mainly due to human-caused greenhouse gas
Natural Sources of Air Pollution emissions—more than doubled the likelihood of the
Though we tend to think of air pollution as caused

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extreme weather conditions in eastern Canada.13

FIGURE 34

The formation of smog.
Source: University of Calgary: Energy Education

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 FIGURE 35

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Causes of air pollution.
Source: NPS

Atmospheric (Thermal) Inversion later—are primary energy sources. However, the
Atmospheric temperature contributes to the formation electricity that we use to power our lights, electric
of smog. Normally, temperature decreases with vehicles, electronics, and much of our modern society
increasing altitude. But when a warm layer of air is a secondary energy source that is converted from
at mid-altitude blankets a cooler layer below it, a primary source. Electricity-generating powerplants
an atmospheric inversion occurs, and pollutants convert the chemical potential energy of a number of
released at ground level—whether natural or fuels into electrical potential energy (electricity). The
anthropogenic—accumulate in the troposphere, basic process is the same, regardless of the fuel. Non-
often causing a severe pollution event. Atmospheric renewable energy source-powered plants use coal, oil,
inversions are particularly common in cities where natural gas, or radioactive fuel rods to produce steam,
high concentrations of vehicle exhaust and industrial which turns a turbine, which turns a generator. The
emissions are easily trapped by an inversion layer. electricity generated is then transported along power
lines and converted to heat energy for cooking, kinetic
ENERGY USE AND SOURCES energy for running motors, and radiant energy for
powering lights. As we will see later, renewable energy
Generating Electricity
sources—such as wind and the flow of water in a
The non-renewable energy sources discussed above—
hydroelectric dam—can also be used to drive a turbine.
and the renewable energy sources we will discuss

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 FIGURE 36

Electricity generation from an electric turbine
Source: EIA

Nonrenewable Energy Sources pressure and temperature and eons of time compacted
the organic matter into the dense, energy-rich carbon

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Coal
Between 160 million and 400 million years ago, material that we know as coal. Because of this origin,
tropical plants growing in swamps and marshes coal is called a fossil fuel. There are several different
were covered by sediments. Because the rich organic kinds of coal, representing the different amounts of
matter was buried, decomposition was limited. High time and pressure needed for formation; classified

FIGURE 37

Environmental impacts of coal mining.

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from lesser to greater energy content, they are peat, carbon into the atmosphere when burned, although
lignite, bituminous coal, and anthracite. only 85 percent as much as coal when producing the
equivalent amount of energy. Oil spills of all sizes are
Because coal is very energy dense and plentiful, it is also a significant source of water pollution.
ideal for the generation of electricity and for industrial
processes such as making steel. Coal is mined in Natural Gas
two general ways: deep shaft mining and surface Natural gas, which is 80 to 95 percent methane
mining. In deep-shaft mining, tunnels are dug into (CH4), occurs with oil in the ground. Because it is
the Earth, perhaps as deep as 2,000 feet, and people less dense than oil, it lies above it in the rock strata.
descend into the shafts, dislodge the coal, and bring it Relative to coal and oil, natural gas contains fewer
to the surface. Surface mining comes in many forms, impurities and therefore gives rise to virtually no SO2
from digging a pit to removing a mountaintop. Coal and particulates during combustion. However, CH4
extraction can result in major adverse environmental is a potent greenhouse gas (twenty-five times more
impacts, including the emissions of several harmful efficient at trapping heat from the Earth than CO2).
air pollutants, including sulfur dioxides, particulate The leaking of natural gas during extraction is a major
matter, and mercury, and mining degrades water cause of CH4 pollution. However, natural gas only
quality of nearby streams, creating an environmental produces 60 percent as much CO2 as coal for the same
problem called acid mine drainage. amount of energy produced, making it, overall, a lower
contributor to greenhouse gas emissions.
Petroleum
Petroleum—the mixture of hydrocarbons, water and, Hydraulic Fracturing

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usually, sulfur that occurs in underground deposits—is Hydraulic fracturing extracts previously untapped
also a fossil fuel. In contrast to coal, petroleum formed oil and natural gas reserves. Hydraulic fracturing (or
from the remains of ocean-dwelling plankton that fracking) involves injecting high-pressure streams
were preserved roughly 65 to 250 million years ago. of water, sand, and chemicals into bedrock to create
It occurs in certain locations with porous rocks, such fractures in the rock formation to extract trapped oil and
as sandstone, that are capped by nonporous rock. The gas. This technique, coupled with horizontal drilling,
petroleum filled the pore spaces in the rock, geologic has allowed previously unreachable reservoirs of oil and
events deformed the rock layers so that they formed natural gas to be tapped. Fracking has been the major
a trap, and after millions of years, the petroleum reason that natural gas has overtaken coal as the second
migrated upward toward the highest point in the rock. most used energy source in the U.S., behind petroleum.
Petroleum must be extracted with wells, drilled on There are several environmental and human health
land and under water, and pumped from the ground, concerns related to fracking. The fluid used to “frack”
except in specific locations where it flows out under the bedrock contains chemicals such as methanol,
pressure from drilling. Petroleum contains natural ethylene glycol, and propargyl alcohol that are
gas as well as oil; when the gas is separated out, the hazardous to human health.14 The extent to which these
remaining product is known as liquid petroleum or chemicals are impacting water resources is uncertain.
crude oil. Crude oil is further refined into a variety of However, it is known that large-scale fracking
compounds that are separated by weight, including, operations use a tremendous amount of water—about
among others, gasoline, diesel fuel, and kerosene. 1.5 trillion gallons of water since 2011—and fracking a
single well can use 40 million gallons of water or more.15
Oil Large-scale fracking projects can dramatically lower
Petroleum is currently the greatest energy source in key aquifers. And much of this large-scale fracking, and
the United States, although natural gas has closed the massive use of water, is taking place in areas like Texas,
gap. It is extremely convenient, relatively energy dense, where droughts are becoming more common.
and clean burning compared to coal. Sulfur and other
impurities can be removed from oil before combustion, Nuclear Power
although the lower-sulfur-content oils are generally Nuclear power is a relatively clean means of
more expensive to manufacture and thus more expensive electricity generation but produces radioactive waste.
to purchase. Since it is a fossil fuel, oil will release

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 FIGURE 38

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The fracking process.
Source: NRDC

Nuclear power does not directly provide energy for extremely rapid radioactive decay, or the splitting of
consumers but is used to generate electricity. The the uranium atoms into more atoms.
fuel itself is uranium, a natural element that occurs
in relatively small concentrations in a wide variety Each time an atom splits (a fission reaction), a small
of rocks, including shale and sandstone. As much as amount of heat is given off. When a number of pellets
two thousand pounds of uranium must be mined to representing trillions of uranium atoms are bundled
produce seven pounds of uranium oxide for nuclear together into fuel rods, a great deal of heat is released.
fuel. Surface mining removes large amounts of the In the reactor, the heat warms water, which eventually
host rock. The uranium is extracted from the rock and becomes steam, which turns a turbine just as in any
concentrated, and the remaining material is left in slag other electricity generating station.
piles. The western U.S. and parts of Canada are two Uranium is the most concentrated of all the energy
locations where commercial operations mine uranium sources we have considered. A pound of enriched
for nuclear fuel. uranium, which is smaller than a baseball, has the
After extraction, the uranium ore is enriched, a energy content of a million gallons of gasoline. Ten tons
process that includes, among other things, the removal of enriched uranium oxide contain roughly the same
of naturally occurring impurities so that the ore might energy as 260,000 tons of coal. We can say that there is
contain 2−3 percent uranium oxide. The enriched 26,000 times more energy in uranium than in coal.
uranium is processed into pellets, which are then put Nuclear power plants do not produce any air pollution
into hollow fuel rods approximately six feet high. A when they are operating, so proponents of nuclear
typical nuclear reactor might contain 75 to 100 bundles power consider it “clean” energy. However, fossil
of fuel rods. A pellet of uranium oxide undergoes fuels are used during other parts of nuclear power

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 FIGURE 39

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Diagram of a nuclear reactor.
Source: World Nuclear Association

generation, which does produce air pollution— have contributed to the extensive protests against
for example when the power plant is constructed, nuclear power in the United States:
when uranium ore is mined and processed, when
used fuel rods are transported from the plant to 6 On March 28, 1979, at the Three Mile Island
their ultimate storage location, and when the plant plant in Pennsylvania, human error caused a
is decommissioned. (Nuclear power plants have a cooling water valve to be closed, which led
life of approximately fifty years before the level of to a loss of coolant around the nuclear core.
radioactivity in the plant and obsolescence of the The core overheated and suffered damage,
structure require them to be shut down.) Nevertheless, and a small amount of radiation was released
even with all these releases taken into account, from the plant. This event, compounded by
emissions of carbon dioxide per kilowatt-hour of the coincidental release of the film The China
electricity generated are at most 60 grams for a nuclear Syndrome, in which a nuclear plant suffered a
power plant, compared to 800 to 1,100 grams for a major “meltdown,” led to widespread public
modern coal-burning power plant. fear and anger. One result was a huge amount
of scrutiny given to the safety of nuclear power
Three accidents in widely separated parts of the world plants and some of the early assumptions

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 that had been made about the relative risks of
operating them.
6 An even more serious accident occurred on
April 26, 1986, at the nuclear power plant in
Chernobyl, Ukraine. An explosion and fire
exposed the core of one of the reactors, and at
least thirty-one plant workers and firefighters
died immediately of acute radiation exposure—
with many hundreds, and perhaps thousands,
dying over a longer period of time from the
radiation exposure. The Chernobyl accident
has been intensively studied and has been
characterized as a “runaway” reactor incident.
The accident occurred during a special test of
the plant when, in violation of safety regulations,
operators deliberately disconnected emergency
cooling systems and removed the control
rods. With no control rods and no coolant, the
nuclear reactions went out of control, and the
plant overheated. Shortly afterward, the plant

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exploded, and fires began to burn. Because the A clean-up crew works to remove radioactive contamination
control rods were made of flammable graphite, at Three Mile Island after the accident there in 1979.
the fire was worse than it would have been in a
plant with water control rods. In 1978, the U.S. Department of Energy began
In March 2011, a major earthquake occurred examining a site at Yucca Mountain, Nevada, about a
6
off the coast of Japan that resulted in a tsunami hundred miles northwest of Las Vegas, as a possible
hitting the main island of Honshu, killing over long-term repository for the country’s spent nuclear
18,000 people and flooding the reactors of the fuel and other high-level radioactive waste. In the early
Fukushima nuclear power plant. This caused 2000s, it seemed almost certain that the repository
radioactive leakage that forced more than would be constructed; however, that has not happened.
150,000 people to evacuate. The area around Political pressure from Nevada, protests from the
the nuclear plant remains off limits, and it is Western Shoshone people living in the area (who
estimated that it will take up to forty years to also identify Yucca Mountain as a sacred site), and
finish the decontamination work.16 some scientific uncertainty over whether the site was
geologically stable enough to house the waste for
While nuclear power does not produce fossil-fuel thousands of years has, as of 2023, seemingly put an
emissions, it does produce extremely dangerous end to that plan. If and where radioactive waste will
radioactive waste that requires special and secure be consolidated into a few or one single storage site is
storage. After a period of time, nuclear fuel rods become currently uncertain.
“spent,” meaning they do not have enough fuel left to
produce enough heat to effectively generate electricity. Renewable Energy
The rods still contain highly radioactive fission From the system analysis perspective introduced in
fragments and will remain a threat to humans and other Section I, fossil fuels are a resource pool with many
organisms for tens of thousands of years. At present, outputs (human energy use), but no real inputs (any
nuclear power plants are required to store spent fuel “new” coal, oil, or natural gas will not be available
rods at the plant itself, in pools of water at least twenty to use for many millions of years). So, like a lake that
feet deep that act as a shield from the radiation. From is being drained, but not being replenished, the use
the spent fuel pools, rods are moved to onsite cement of fossil fuels is not sustainable. Instead, sustainable
storage canisters (called dry cask storage), which can fit energy use is based on the use of renewable energy
two to six dozen spent fuel rod assemblies each. sources—sources like the Sun and the wind—that

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cannot be depleted (at least as long as our Sun and Earth power. And because the Sun heats the Earth unevenly,
survive). Other energy sources, such as biofuels like causing air to move from one location to another, it
wood, are potentially renewable if they are managed is responsible for generating wind. Water- and wind-
so that their use is balanced by the creation of new based energy sources can therefore be considered
resources, e.g., balancing the logging and regrowth forms of indirect solar energy.
of a forest. And the sustainability of energy use, in
general, can be improved by using less energy through The only significant sources of energy that are not
improving energy efficiency and energy conservation. solar based are nuclear, geothermal, and tidal. Energy
from the Sun also comes to us directly. Every day,
Direct and Indirect Solar Energy the Earth is bathed with solar energy. The amount
Almost all energy on Earth, both conventional and reaching the top of the Earth’s atmosphere—roughly
alternative, derives from the Sun. Fossil fuels are 1,370 watts per square meter each day—is called the
the product of plants and animals that were buried solar constant. Because the atmosphere reflects and
millions of years ago. The energy stored in these absorbs a good fraction of this energy, only about 200
organisms was gained either directly or indirectly watts arrive at the Earth’s surface near the equator,
through photosynthesis. The Sun is also responsible though this amount may vary between 50 and 300
for evaporating water, which is an essential aspect of watts, depending on the location and the time of year.
the hydrologic cycle. In the hydrologic cycle, water This is the energy that is potentially available for use
moves from the oceans to the land, where it falls to the by people; it is known as the solar potential. Of course,
ground as precipitation. This precipitation is the source solar energy is not available in every location every
of all rivers and streams, which provide hydrologic day. On cloudy days, there is much less solar input to

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FIGURE 40

Average annual solar radiation in the U.S. (kilowatt-hours per square meter per day).
Source: NREL

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 where it circulates in copper tubing. Painted black
and sometimes put behind glass, the tubing absorbs
energy from the Sun and transfers it to the water. The
water then returns to the building, where it enters the
hot water heater tank and is heated further or, if it is
already hot enough, is available for use.
Energy from the Sun can be converted directly to
electrical energy with a photovoltaic solar cell. A
photovoltaic solar cell makes use of the fact that
very thin, ultra-clean layers of silicon dioxide (SiO2)
generate an electrical current when they are exposed
The Andasol solar power station in Spain. to direct sunlight. Contemporary photovoltaic cells
are made of SiO2 combined with a very small amount
the surface of the Earth than on sunny days; at night of a metal, such as arsenic or antimony, to increase
solar input is zero. And different regions of the world the voltage of the output. An individual photovoltaic
have different solar potential. In the United States, the cell will produce about one or two watts. Normally
Southwest has the greatest solar potential, with solar twenty-four or more cells are joined together and often
energy available at least 90 percent of the time. mounted on the rooftops of buildings.

Passive Solar Energy The electricity from photovoltaic cells can run directly

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Passive solar refers to the collection of solar to an appliance through wires from the roof or can be
energy directly from the rays of the Sun without an stored in batteries that are then used for power. The
intermediate technology such as a pump or blower. electricity can also be converted to the voltage of the
Passive solar energy has been harnessed for thousands power grid and exported to the grid.
of years for purposes ranging from home heating to
Wind Energy
cooking. Positioning a house so that it absorbs the most
A wind turbine is a device that converts the kinetic
energy and using dark materials on the roof or walls of
energy of wind to the potential energy of electricity.
a building so that more solar energy is absorbed than
A contemporary wind turbine may be as tall as ~100
reflected are passive solar techniques. In the Northern
meters, with blades 40 to 75 meters long. The average
Hemisphere, constructing a house with windows along a
turbine will generate over 843,000 kWh per month,
south-facing wall will allow the Sun’s rays that are close
which is enough energy for over 940 average U.S.
to the horizon for much of the day during the winter
homes.17 The most rapidly growing sites for wind-
months to penetrate and warm the house. Sometimes it
generated electricity are offshore wind parks that are
is advantageous to install construction material with a
clusters of windmills within a few miles of the coastline.
great deal of thermal inertia—in other words, material
that once heated, remains hot, and once cooled, remains
cool. Stone and concrete have thermal inertia; wood and
glass do not. A southern exposure room with stone walls
and a stone floor will heat up on sunny winter days and
retain that heat long after the Sun has set.

Active Solar Energy
Systems that utilize energy from the Sun with the
assistance of fans, blowers, and pumps are active
solar systems. Active solar energy is used primarily
for two main applications: heating hot water and
generating electricity. In a house with an active solar A windfarm near Palm Springs, California.
water heater, before cold water enters the water heater, By Conn, Kit at the English-language Wikipedia, CC BY-SA 3.0, https://
a small electric pump pushes water onto the roof, commons.wikimedia.org/w/index.php?curid=5395739

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 FIGURE 41

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Average annual solar radiation in the U.S. (kilowatt-hours per square meter per day).
Source: NREL

There are at least forty offshore wind farms in operation at the time the energy is harnessed. Solar and wind
in Northern Europe, with over two thousand total wind energy can also provide electricity in remote locations
turbines. However, there are only two offshore wind where there are no transmission lines. A correctly
farms in the U.S. although more have been proposed or constructed and positioned house can take advantage
are in the permitting or construction process. of passive solar energy to produce energy savings
and offset pollution and carbon dioxide for decades
Advantages and Disadvantages of Solar without any additional energy input. And large wind
and Wind Energy turbines—especially in agricultural areas—have been
The use of solar and wind energy has the potential found to be compatible with other land uses, such as
to provide heat and/or electricity without producing farming and animal grazing.
any air or water pollution or fossil carbon dioxide

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 FIGURE 42

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Environmental impacts of solar and wind energy.

Nevertheless, there are disadvantages to both. The Sun disadvantage—many people do not like living in a
doesn’t shine, and the wind doesn’t blow all the time. place where they can see or hear the turbines.
That means that some of the energy that is produced
when conditions are good will need to be stored for One environmental objection to wind power has
when conditions are not ideal. Storage requires large- come from the fact that an estimated 10,000 to 40,000
scale battery production, which remains difficult and birds die each year in collisions with windmills in the
expensive. Also, as we have discussed previously, United States. New designs and the purposeful location
energy is lost with each new step added to an energy of towers away from migration paths have reduced
system—including the storage of energy in a battery bird deaths, but some bird deaths are an inevitable
and use of the energy from a battery. The batteries by-product of wind power. For comparison, many
used to store the energy are similar to the batteries millions of birds die in collisions with communication
in smart phones, computers, and electric cars—they towers, buildings, and windows in both commercial
require lithium, cobalt, and other minerals that buildings and residences. The number of bird deaths
require mining, which leads to environmental harm from collisions with wind towers is relatively small.
and environmental health and justice issues for those That said, newer objections have been raised about the
workers mining the materials. possibility of off-shore wind farms harming migratory
and endangered whales off the New England coast.
Once wind turbines are manufactured and installed,
the only energy input to them comes from the wind, Hydroelectric Power
a sustainable, renewable, and free resource. Some The kinetic energy of water can be used to generate
energy is required to maintain the windmill (travel to electricity. Hydroelectric power, or hydropower,
the wind park and service of the moving parts), but the use of river water to generate electricity, is one of
relative to the energy generated, these energy costs two renewable energy sources that are widely used in
are minimal. However, wind farms have an aesthetic the United States today. (The other is the combustion
of biomass.) Hydropower currently accounts for

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approximately 28.7 percent of the total renewable river hydro plants are mostly small scale, generating
electricity, and 6.2 percent of the total electricity around one megawatt at peak capacity, enough to
generated in the U.S. supply electricity to about a thousand homes. Because
the water is not stored in a reservoir, run-of-the-river
As water falls over a vertical distance, the potential electricity generation is dependent on natural water
energy stored is released as kinetic energy. A flow, which means that supply is variable during the
hydroelectric power plant captures this kinetic energy year, limiting its usefulness during the dry summer
and uses it to turn a turbine, just as the kinetic energy months, when electricity demands are at their highest.
of steam turns a turbine in a coal-fired electricity
generating plant. The turbine transforms the kinetic Although run-of-the river hydro has much less impact
energy into electrical energy. The amount of electricity on aquatic plants and animals than water impoundment
that can be generated at a particular power plant because natural high- and low-flow periods continue,
depends on both the vertical distance through which species that swim upstream will find at least part of
the water falls and the flow rate, or amount of water their path impeded by the presence of even a run-of-
that flows past a certain point per unit of time. There the-river electricity generation facility. Fish ladders,
are two main types of hydroelectric generation: run-of- a series of pools and pipes designed like ascending
the-river and water impoundment. steps that allow fish to travel upstream around a hydro
dam are sometimes installed, but some species find it
In run-of-the-river hydro generation, water is diverted difficult to utilize them, and some predatory species
from a river, passed through a narrow channel, and have learned to watch the fish ladders for prey. In
directed toward a turbine. After the water goes through addition, the water intake for any dam, run-of-the-

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the turbine, it is returned to the river. Run-of-the-

FIGURE 43

Water impoundment hydroelectric dam.
Source: U.S. Department of Energy

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river, or water impoundment is a potentially dangerous
place for any number of species, including humans.
A more reliable source of water for hydropower is
water impoundment, or storing water in a reservoir
behind a dam. The basic principle of dammed
hydropower is similar to that of run-of-the-river, but
the flow of water is controlled. Water impoundment
is more common than run-of-the-river hydro because
it allows for electricity generation on demand, rather
than only during periods of heavy rainfall and water
flow. In addition, it can produce more power than
run-of-the-river generation; the large series of Hydro
Quebec dams near James Bay, Canada, for example,
can generate 7,300 MW at peak, far more than any Roughly two-thirds of the biomass energy used in the U.S.
run-of-the-river station could produce. comes from wood and wood products.

Nevertheless, water impoundment has many negative plants, animals, and other organisms, and their
environmental effects. First, when water that was waste products—contains a great deal of energy that
formerly free flowing in a river is stored, an area of originally derived from the Sun and was concentrated
land is flooded. This may entail the loss of hundreds in what we know as biomass. The potential energy

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of square miles of forest, rich bottom land ideal for remaining when these organisms die and decompose,
agriculture, canyons that have great aesthetic or or in their waste products, is available to do useful
archeological value, or wild river recreation. Ecological work. Wood—including charcoal—animal dung, plant
communities are lost, and people are often displaced remains, and any decomposition products from plants,
from their homes, communities, and livelihoods. such as ethanol, are all sources of biomass energy.
Hydro dams can also create the conditions for the Municipal solid waste (MSW) incineration—burned
mercury to be converted from elemental mercury, in waste-to-energy facilities—is also a source of
which is relatively harmless in ecosystems, to energy. Together, the variety of biomass products
methyl mercury, which concentrates in fatty tissue accounts for roughly 37 percent of all renewable
and bioaccumulates in fish and ultimately humans, energy consumed in the U.S.
potentially causing serious health problems.
Biomass is burned as wood, charcoal, or dung to heat
Even without the problems noted above, large-scale homes or water or to cook food; combusted in wood-
hydro dam projects alter the ecology of the water fired power plants to produce electricity; and, after
and land areas both upstream from the dam, where being fermented to ethanol (from corn) and mixed with
large areas of a former river have been flooded, and gasoline, used to power vehicles. Roughly two-thirds
downstream. For example, certain species, such as of the biomass energy used in the U.S. comes from
salmon, steelhead trout, and freshwater clams and wood and wood products. Almost one-quarter comes
mussels, have life cycles that depend on seasonal from MSW. Agricultural wastes and methane collected
variations in water flow. Some plant species, such as the from MSW landfills each comprise 5 percent of
cottonwood tree, depend on sand bars created by natural biomass energy. In many parts of the world, especially
flooding to carry out the reproductive phases of their developing countries, animal dung is the most common
life cycles. Researchers have documented changes in source of biomass energy.
the abundance of such species that have resulted from
interrupted flow, lack of flooding downstream, and other Modern Carbon vs Fossil Carbon
conditions stemming from the creation of a dam. Biomass is organic matter, and thus it contains a great
deal of carbon. You might think, therefore, that burning
Biomass Around the World it would contribute to pollution and global warming in
Biomass energy is the potential energy contained the same way that burning fossil fuel does. However, the
in organic matter. The Earth’s organic matter— age of the carbon in biomass makes its effects different.

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The carbon in biomass was in the atmosphere until
fairly recently (months ago for products like corn, a few
hundred years ago for a large tree). This carbon is called
modern carbon, in contrast to the carbon in fossil fuels,
which is called fossil carbon.
Although all carbon is chemically the same and can
combine with oxygen to form carbon dioxide, the use
of fossil carbon is more deleterious to the environment
because its use adds to the amount of carbon in the
atmosphere. Modern carbon, on the other hand, was
already in the atmosphere until it was removed by plants
relatively recently. Moreover, if new vegetation regrows A geothermal power plant in Iceland. Twenty-seven percent of
where crops or trees were cut down, the new vegetation Iceland’s energy comes from geothermal sources.
will take up a good deal of the carbon dioxide during
photosynthesis. (Some older forests actually remove importance. Geothermal energy is the heat produced
very little carbon from the atmosphere because their from the radioactive decay of elements deep in the
primary productivity is not much greater than their Earth. Geothermal energy will not deplete for as long
respiration.) As long as the amount of biomass removed as there is an Earth, and it is relatively inexpensive
is replaced by new growth, there is no net effect on the to tap. The energy can also be used directly to heat
carbon cycle or global CO2 concentrations from burning water, or it can be used as the primary energy source to

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biomass. In contrast, any time fossil carbon is burned, produce electricity by creating steam to power turbines,
there is a net increase in global CO2 concentrations. without the greenhouse gases or other pollutants that are
produced by burning fossil fuels. However, it can emit
Ethanol other localized dangerous gases, and most importantly,
Ethanol is the most common biomass fuel, or biofuel. it is geographically limited to those areas that are
It is made by fermentation, the decomposition of the geologically active. Iceland, a country known for its
sugars and starches in biomass by yeasts, bacteria, and active volcanoes, gets 100 percent of its electricity from
molds that results in the production of alcohol. More renewable energy sources: 73 percent hydroelectric and
than 1.8 billion gallons of ethanol are made and used 27 percent geothermal.18
in the U.S. each year. Of that, 92 percent is derived
from corn and corn by-products. Ethanol is mixed Tidal generation plants are operating in areas of Maine
with gasoline, usually at a ratio of 1:10. It boosts the and Washington state; Brittany, France; Nova Scotia,
octane of the gasoline and helps oxygenate it, which Canada; and other locations. However, tidal energy
reduces certain air pollutants. In addition, it has other is not currently a major energy source. One reason
beneficial effects, such as absorbing moisture in the is that, in most areas, the difference in water level
gasoline to prevent freezing. Finally, it reduces the between high and low tides is not great enough to
amount of gasoline used and replaces fossil carbon provide enough kinetic energy to generate a sufficient
with modern carbon that was removed from the amount of electricity. In addition, to harness tidal
atmosphere the year the corn was harvested. Some energy and convert it to electricity, power stations
opponents of using ethanol in automobile fuel point must be built directly on the coastline, for example,
out that a 90 percent gasoline/10 percent ethanol mix in an estuary, which has a disruptive effect on the
is two to three percent less efficient than 100 percent ecology of coastal, shoreline, and ocean organisms.
gasoline fuel. Furthermore, growing corn specifically Areas used for tidal generating stations are unavailable
for fuel and converting it to ethanol uses fossil fuel for recreational and commercial use and contribute to
energy and reduces the amount of agricultural land for the aesthetic deterioration of the coastline, all of which
producing food crops. tend to generate opposition among nearby residents.

Geothermal and Tidal Energy Conservation and Efficiency
Besides the major renewable energy sources discussed Energy efficiency is a measure of how effective we are
above, other types are of regional and potential at getting usable work from a given input of energy

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 FIGURE 44

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Sources of U.S. electricity generation, 2022.
Source: EIA

(i.e., the amount of energy or work output—in the for coal-fired systems but are not commercially
desired form—divided by the total energy input). feasible at present. An improvement in gas-combustion
No energy source is ever 100 percent efficient; some technology has led to the combined cycle natural gas-
energy is always lost at each conversion, usually as fired power plant, which can achieve efficiencies of 60
heat leaving the system. At each step in the process, percent, making this system highly desirable. Overall,
some energy is lost. And the more steps there are in the United Nations Development Program World
the process of turning an energy source into work, the Energy Assessment (2015) estimates that global energy
more opportunities there are for a loss of energy and efficiency is about 37 percent.
the more inefficient the system is.
The goals for energy use in a sustainable society are to
Most older, conventional electricity-generating plants increase efficiency while reducing costs and pollutants.
have an efficiency of about 36 percent. Newer coal- Because we use energy in a variety of ways and for
burning plants may have efficiencies of up to 42 a variety of purposes, it’s a challenge to evaluate
percent. Efficiencies of over 50 percent are possible how well we achieve different tasks. By quantifying

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energy conversions from one form to another, and
by quantifying how efficiently we use the converted
energy, we can get an appreciation for how effectively
we use energy, including the efficiency, financial cost,
and the amount of pollution produced for a given task.
So far, we have talked about sustainable energy in terms
of particular sources or technologies. It may be years
before many of these are available or affordable, and
often they have disadvantages of their own. Therefore,
energy sustainability relies as much on reducing the
amount of energy that individuals or nations use as Uniti, a two-seater micro electric vehicle. Smaller, lighter cars
on new sources or technologies for providing energy. are more energy efficient.
Conservation and increased efficiency are necessary Photo: Uniti
aspects of energy sustainability.
Reducing Peak Demand
Conservation is a consumer-based approach that
There are certain times when demand for electricity
focuses on reducing energy use by changing users’
is greatest—in the middle of a hot summer day, when
habits and actions. Conservation measures can be
people are using more air conditioning than normal;
everyday actions as simple as turning off lights when
or in the middle of a cold winter night in a region
they’re not needed, choosing to drive less, combining
where homes have electric heat. In order to meet peak

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trips so that overall mileage driven is reduced, wearing
demand—the greatest quantity of electricity that will
warmer clothes rather than turning up a thermostat in
be needed at any one time—utilities usually build new
winter, taking a shorter shower, and many, many more.
power plants. However, some utilities have come up
This approach is available to anyone; its only drawback
with creative ways to reduce peak demand.
is the need to change long-standing habits.
One way is to encourage consumers and businesses
More complex is increasing energy efficiency, or using
to conduct optional activities that demand electricity
less energy to do the same work. We have previously
at non-peak times. Usage is monitored by having two
discussed the concept of energy efficiency and how it
electric meters at each location, one recording the
is derived; here, let’s consider it from the perspective
electricity used during the peak demand period—
of sustainability. Energy is the ability to do work—say,
usually 8 am through 8 pm and the other recording
getting from Point A to Point B, one hundred miles
the usage during non-peak periods. Peak-demand
down the road. The quantity of usable work (getting
electricity is billed at a higher rate, so a business or
you there) is the same, regardless of the weight of
consumer might choose to wait until after 8 pm to
the vehicle in which you travel. In terms of physics,
conduct certain high-electricity-demand activities.
however, traveling in a two-ton car takes more work
For example, a homeowner might choose to run
than traveling in a one-ton car, and therefore uses more
the dishwasher and electric clothes dryer at 9 pm; a
energy. If you can get there in a smaller, lighter car,
business might use a timer to run energy intensive
you consume less gasoline in the process and therefore
applications at night or create a second shift for certain
increase energy efficiency.
activities. If this is done throughout a utility district,
Creating more energy-efficient machines is within the it can greatly decrease the peak electrical demand and
ability of—and some would say is the responsibility thereby reduce the need for new power plants.
of—the manufacturers of vehicles and appliances.
The Environmental Protection Agency’s Energy Star
However, we can increase energy efficiency individually
Program designates as Energy Star compliant certain
through the choices we make. Buying a small car rather
appliances that do their job at a specified level of
than a large car or an SUV, insulating a home so that
efficiency. For example, an air conditioner that removes
less fuel is required to heat it, using compact fluorescent
10,000 Btus of heat per hour while using less than
light bulbs, purchasing EnergyStar appliances, and
1,000 watts will receive an Energy Star designation.
traveling less all contribute to energy sustainability.
A non-Energy Star compliant air conditioner might

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use 1,200 watts to do the same job. The difference of of years. Global change incorporates all the previous
200 watts for an hour in one household doesn’t seem topics that we have dealt with—the interconnectedness
like much; it might be 2 cents worth of electricity. But of Earth’s systems, the current and future status of
if 100,000 households in a large city had Energy Star Earth and the environmental indicators that enable us to
compliant air conditioners, the peak demand during a evaluate it, and the interaction of environmental science
mid-afternoon summer heat wave could be reduced by and policy.
20 megawatts, or 4 percent of a typical power plant’s
output. If both residential and business customers used The terms global change, climate change, and
a variety of Energy Star appliances regularly, it could global warming are often used synonymously,
make a significant difference in the number of new particularly in the popular press, but they should
power plants needed. not be. Climate change is variation in the average
weather—temperature, precipitation, storm frequency
GLOBAL CLIMATE CHANGE and strength, etc.—over years and decades. Global
The Intergovernmental Panel on Climate Change warming deals with the fact that the Earth’s global
(IPCC) was established by the United Nations surface temperature has been increasing relative to
Environment Programme and the World Meteorological pre-industrial temperatures. Global change includes
Organization in 1988 for the purpose of preparing those issues, as well as the other environmental changes
reviews of the state of knowledge on climate change, that have been largely caused by human activity.
including climate change science and climate change This includes large-scale deforestation and other land
impacts today and in the future. From 2021 to 2023, the conversions and the correlated loss of biodiversity,
non-greenhouse gas pollution and its impact on human

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IPCC published its sixth multi-volume assessment of the
changing knowledge regarding climate change. During health, and other large-scale changes.
each assessment, the IPCC has improved and increased
The Greenhouse Effect
the amount of global climate change data it analyzes
If you have entered an automobile that has been parked
and the models it uses to make projections. This has
in the sun with its windows closed on a relatively
enabled the IPCC to decrease the amount of scientific
cool day, you have experienced the greenhouse effect.
uncertainty in its estimates to the point that, in the latest
Though the outside temperature may be 10°C (50°F),
assessment, it could state that, “It is unequivocal that
the inside of the car might be 30°C (86°F). On a day
human influence has warmed the atmosphere, ocean and
when the outside temperature is 30°C, the inside of
land. Widespread and rapid changes in the atmosphere,
the car might be 38°C (100°F) or even higher. These
ocean, cryosphere and biosphere have occurred.”19
striking temperature differentials can be explained by
The melting of Arctic and Antarctic ice that shows the greenhouse effect, a natural process that leads to
up in the news with increasing frequency is only one the warming of an area that is underneath something
example of physical and biogeochemical change taking that traps heat—in the case of a greenhouse or the car,
place on Earth. Increasing atmospheric concentrations the glass of the windows. Most incoming solar energy
of CO2 and other atmospheric chemicals, such as passes through the windows without being absorbed
compounds of nitrogen and sulfur, and the increase in by the glass, which is transparent to solar radiation
mercury in fish and mammals are some other significant in the visible range. The solar energy is absorbed
biogeochemical changes that have occurred over the by the upholstery, the dashboard, and the steering
past fifty years and more. Change that occurs in the wheel, which experience an increase in temperature
chemistry, biology, and physical properties of worldwide and then begin to radiate energy outward. Though
systems is referred to as global change. Many of these the windows of the car allowed solar radiation to pass
types of changes have occurred over geologic time; for through, they do not allow passage of very much of
example, concentrations of CO2 in the atmosphere have the outgoing “car” radiation, which is in the infrared
ranged from 180 parts per million (ppm) to almost 280 range. This energy is absorbed and reradiated back
ppm over the last 800,000 years. However, not only has into the car. The inflow of energy into the car is greater
the pace of change increased dramatically because of than the outflow of energy, so there is a positive net
recent human activity, but the CO2 concentrations we flux of energy into the car, causing the car to become
see today are the highest they have been for millions increasingly warmer, even on a relatively cool day.

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A very similar process takes place at the surface of major outputs—reflection of solar energy from the
Earth. As energy from the Sun travels toward Earth, atmosphere or from the surface of the Earth and
it is absorbed by the atmosphere or is reflected and infrared radiation of Earth energy. Over the long
scattered back into space. Almost half of this solar term, the net flux of heat is zero; inputs of heat to
energy passes through Earth’s atmosphere, much like Earth equal outputs from Earth, and the system is in
the solar energy passed through the car windows, and a steady state. However, the input can be greater than
is absorbed by objects at the surface of Earth, such the outputs because of an increase in incoming solar
as water, land, vegetation, rocks, and human-made radiation (from sunspots, for example) or because of
structures, and radiated back out. Since objects at a decrease in outgoing reflected solar radiation either
the surface of Earth are roughly the temperature of from a change in materials covering the surface of the
Earth (15°C), they emit infrared radiation. Like the car Earth or from an increase in heat-trapping greenhouse
windows, heat-trapping gases make the atmosphere gases. If solar radiation is greater than the sum of
almost opaque to outgoing infrared radiation. reflected solar energy and radiating infrared Earth
energy, Earth becomes warmer in response to the input
In the Sun–Earth heating system, there is one of additional heat energy. If solar radiation is less than
major energy input—solar radiation—and two the other two fluxes, Earth becomes cooler. This is

FIGURE 45

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The Sun–Earth heating system.
Source: NASA

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where the greenhouse effect becomes important. GHGs, making for a hotter greenhouse.

Greenhouse Gases While the temperature of Earth has fluctuated over
The relatively hospitable temperatures on Earth are geologic time, most of the temperature changes have
largely a function of the heat-trapping gases that been very slow, and in any given decade, century,
are present in the atmosphere, commonly called and sometimes millennium, the Earth’s temperature
greenhouse gases (GHGs). We discussed the generation has been relatively constant. Our system analysis
of GHGs when discussing pollution and energy makes clear that in order for Earth to stay at a constant
production. Nevertheless, you may be surprised to temperature, the energy inputs must equal the energy
learn that the most common GHG is water: water vapor outputs. However, a variety of natural processes
(H2O gas) absorbs infrared energy radiating from and human activities may increase or decrease the
the Earth. The major, but not the only, heat-trapping concentration of GHGs, and the extent of absorption
gases added to the atmosphere by human activities, and radiation of energy will increase or decrease
such as the combustion of fossil fuels and clearing of accordingly, resulting in variations in the greenhouse
land, are carbon dioxide (CO2), methane (CH4), nitrous effect.
oxide (N2O), and chlorofluorocarbons (CFCs). In the
absence of GHGs, the temperature on Earth would be Evidence of Temperature Change over
approximately negative 18°C (0°F). Thus, although we Time
commonly think of GHGs—and the global greenhouse Global warming refers to the increased warming of
effect—as a negative, it is actually necessary for human Earth’s atmosphere and surface due to an increase in
life on Earth. The problem arises when the natural gases that trap heat and, in particular, warming caused

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greenhouse effect is increased by the human addition of by human activity. As previously mentioned, global

FIGURE 46

Global surface temperature measurements. Lowess smoothing is a method of fitting a smooth curve (the black line in the figure)
to data points, such as the yearly temperature variation in the figure.
Source: NASA

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warming is one component of the broader phenomenon
of global change. One of the greatest difficulties in
determining if global warming is occurring is the
difficulty of establishing what, if any, temperature
change has occurred in recent decades. Though
indirect measurements have made it clear that global
temperatures have fluctuated over geologic time, what is
needed is precise, widespread measures of temperature
from locations around the globe for hundreds
and thousands of years. Earth surface and ocean
temperatures have been measured directly only since
about 1880, with varying, though increasing, degrees
of confidence. There is a high degree of confidence in
at least one global temperature data set maintained by Corals can serve as an indicator of climate change, as they
can record temperatures for tens and sometimes hundreds of
James Hansen at the NASA Institute for Space Studies years.
in New York City. Hansen and his colleagues have
By Holobionics - Own work, CC BY-SA 4.0, https://commons.wikimedia.
generated a graph of global temperature change that is org/w/index.php?curid=49070224
updated monthly and posted on NASA’s website (Figure
46). This graph, which is comprised of thousands of temperatures for tens and sometimes hundreds of years.
measurements from around the world, clearly shows
Effects of Global Warming

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a steady increase in global temperatures from 1880
through 2020 (although there are yearly variations). Global warming is already contributing to overall
Measurements for 2023 are not yet complete; however, global change. Atmospheric CO2 has increased 50
we can note that June, July, August, and September percent since 175020, and global average temperature
of 2023 were the hottest for those months on record. has increased by about 2°F since 1880. Although a
Historical evidence and scientific models suggest that temperature increase of 2 degrees may seem small,
Earth is becoming warmer. it is enough to affect global processes significantly,
as suggested by many environmental indicators,
Indicators of Climate Change including the amount of arctic ice. Snow cover has
Indirect measurements that can be obtained through decreased by at least 10 percent since observations
biological and physical parameters suggest that current were first conducted in the 1960s. Permafrost has
global temperatures are higher than at any time in at thawed, warmed, and degraded in polar, sub-polar, and
least the last 150,000 years. Trees can provide indirect some mountainous regions. The growing season has
records of temperatures for decades and centuries lengthened by one to four days per decade since the
and on rare occasions for more than a thousand 1960s in the Northern Hemisphere.
years. Each year, most trees add layers of wood from
millimeters to centimeters thick. In middle and high The geographic range for many plants, insects,
latitudes, these annual rings are quite distinct and allow and birds has shifted northward in the Northern
careful measurement of tree growth and a subsequent Hemisphere and on some occasions has moved up
estimate of temperature. Wider rings correspond in altitude on mountains. In some cases, species that
with better temperatures for growth (if there is also have increased the northern extent of their range in the
enough moisture), which usually means warmer and/ Northern Hemisphere have constricted their southern
or wetter conditions in the year when—or the year range because conditions are less favorable for them
before—the rings were added to the tree. Corals are further south. Flowering plants have been blooming
another surrogate indicator. In relatively clean ocean earlier, birds arrive earlier at their spring nesting
waters in and near the tropics, marine corals add annual grounds, and insects are emerging earlier in the
bands of calcium carbonate. A number of geochemical Northern Hemisphere.
signals in the calcium carbonate allow researchers to “The tip of the iceberg” is an almost literal
reconstruct the approximate temperature of the water in description of the changes that have already occurred.
which the corals have been growing. Corals can record Environmental scientists foresee extensive changes

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throughout all of Earth’s systems in the future. human development, will change. Anticipated
changes in ecosystems in the northeastern
Predicted Future Effects of Global and north-central U.S., for instance, suggest
Warming that spruce-fir, aspen-birch, and maple-beech-
A number of global changes have been predicted to birch stands of forest will move significantly
occur by the end of the twenty-first century as a result northward, greatly decreasing their abundance
of global warming, a few of which we have already in existing locations. This change in the makeup
mentioned. Here we outline some other projections of vegetation will have profound impacts on the
based on available data and the models we described wildlife that depends on these particular types
earlier. Though these occurrences represent moderate of trees. Many other species may be threatened
to worst-case scenarios, many of them are nevertheless by extinction, as rapid temperature change does
considered likely. not allow every population of organisms time to
adapt.
6 Continental glaciers and the Greenland ice
sheet are expected to continue to retreat. 6 Global warming and the resulting changes
Global mean sea level, in part as a result of the will dramatically affect human populations.
melting of glaciers, is expected to rise by 0.1 to As sea levels rise, coastal communities
0.9 meters by 2100. and certain open ocean islands will be
threatened by inundation and, even before
6 Maximum temperatures will be higher, and that, contamination of their drinking water
more heat waves will occur across virtually and erosion of their coastal areas. In the South

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all land areas. There will be a