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CHEMISTRY 406
UNIT 14
ENVIRONMENTAL CHEMISTRY
After studying this unit, you will be
able to
• • • • • understand the  meaning of
environmental chemistry;
•• •• • define atmospheric pollution, list
reasons for global warming. green
house effect and acid rain;
•• •• • identify causes for ozone layer
depletion and its effects;
•• •• • give reasons for water pollution
and know about international
standards for drinking water;
•• •• • describe causes of soil pollution;
•• •• • suggest and adopt strategies
for control of environmental
pollution;
•• •• • appreciate the importance of green
chemistry in day to day life.
You have already studied about environment in your earlier
classes. Environmental studies deal with the sum of all
social, economical, biological, physical and chemical
interrelations with our surroundings. In this unit the focus
will be on environmental chemistry. Environmental
chemistry deals with the study of the origin, transport,
reactions, effects and fates of chemical species in the
environment. Let us discuss some important aspects of
environmental chemistry.
14.1 ENVIRONMENTAL POLLUTION
Environmental pollution is the effect of undesirable changes
in our surroundings that have harmful effects on plants,
animals and human beings. A substance, which causes
pollution, is known as pollutant. Pollutants can be solid,
liquid or gaseous substances present in greater
concentration than in natural  abundance and are
produced due to human activities or due to natural
happenings. Do you know, an average human being
requires nearly 12-15 times more air than the food. So,
even small amounts of pollutants in the air become
significant compared to similar levels present in the food.
Pollutants can be degradable, like discarded vegetables
which rapidly break down by natural processes. On the
other hand, pollutants which are slowly degradable, remain
in the environment in an unchanged form for many
decades. For example, substances such as dichlorodi-
phenyltrichloroethane (DDT), plastic materials, heavy
metals, many chemicals, nuclear wastes etc., once released
into the environment are difficult to remove. These
The world has achieved brilliance without wisdom, power
without conscience. Ours is a world of nuclear giants and
ethical infants.
2019-20
PDF Compressor Free Version 
Page 2


CHEMISTRY 406
UNIT 14
ENVIRONMENTAL CHEMISTRY
After studying this unit, you will be
able to
• • • • • understand the  meaning of
environmental chemistry;
•• •• • define atmospheric pollution, list
reasons for global warming. green
house effect and acid rain;
•• •• • identify causes for ozone layer
depletion and its effects;
•• •• • give reasons for water pollution
and know about international
standards for drinking water;
•• •• • describe causes of soil pollution;
•• •• • suggest and adopt strategies
for control of environmental
pollution;
•• •• • appreciate the importance of green
chemistry in day to day life.
You have already studied about environment in your earlier
classes. Environmental studies deal with the sum of all
social, economical, biological, physical and chemical
interrelations with our surroundings. In this unit the focus
will be on environmental chemistry. Environmental
chemistry deals with the study of the origin, transport,
reactions, effects and fates of chemical species in the
environment. Let us discuss some important aspects of
environmental chemistry.
14.1 ENVIRONMENTAL POLLUTION
Environmental pollution is the effect of undesirable changes
in our surroundings that have harmful effects on plants,
animals and human beings. A substance, which causes
pollution, is known as pollutant. Pollutants can be solid,
liquid or gaseous substances present in greater
concentration than in natural  abundance and are
produced due to human activities or due to natural
happenings. Do you know, an average human being
requires nearly 12-15 times more air than the food. So,
even small amounts of pollutants in the air become
significant compared to similar levels present in the food.
Pollutants can be degradable, like discarded vegetables
which rapidly break down by natural processes. On the
other hand, pollutants which are slowly degradable, remain
in the environment in an unchanged form for many
decades. For example, substances such as dichlorodi-
phenyltrichloroethane (DDT), plastic materials, heavy
metals, many chemicals, nuclear wastes etc., once released
into the environment are difficult to remove. These
The world has achieved brilliance without wisdom, power
without conscience. Ours is a world of nuclear giants and
ethical infants.
2019-20
PDF Compressor Free Version 
ENVIRONMENTAL CHEMISTRY 407
pollutants cannot be degraded by natural
processes and are harmful to living organisms.
In the process of environmental pollution,
pollutants originate from a source and get
transported by air or water or are dumped into
the soil by human beings.
14.2 ATMOSPHERIC POLLUTION
The atmosphere that surrounds the earth is
not of the same thickness at all heights.  There
are concentric layers of air or regions and each
layer has different density.  The lowest region
of atmosphere in which the human beings
along with other organisms live is called
troposphere. It extends up to the height of
~ 10 km from sea level.  Above the troposphere,
between 10 and 50 km above sea level lies
stratosphere. Troposphere is a turbulent,
dusty zone containing air, much water vapour
and clouds. This is the region of strong air
movement and cloud formation. The
stratosphere, on the other hand, contains
dinitrogen, dioxygen, ozone and little water
vapour.
Atmospheric pollution is generally studied
as tropospheric and stratospheric pollution.
The presence of ozone in the stratosphere
prevents about 99.5 per cent of the sun’s
harmful ultraviolet (UV) radiations from
reaching the earth’s surface and thereby
protecting humans and other animals from its
effect.
14.2.1 Tropospheric Pollution
Tropospheric pollution occurs due to the
presence of undesirable solid or gaseous
particles in the air. The following are the major
gaseous and particulate pollutants present in
the troposphere:
1. Gaseous air pollutants: These are oxides
of sulphur, nitrogen and carbon, hydrogen
sulphide, hydrocarbons, ozone  and other
oxidants.
2. Particulate pollutants: These are dust,
mist, fumes, smoke, smog etc.
1. Gaseous air pollutants
(a) Oxides of Sulphur: Oxides of sulphur
are produced when sulphur containing fossil
fuel is burnt. The most common species,
sulphur dioxide, is a gas that is poisonous to
both animals and plants. It has been reported
that even a low concentration of sulphur
dioxide causes respiratory diseases e.g.,
asthma, bronchitis, emphysema in human
beings. Sulphur dioxide causes irritation to
the eyes, resulting in tears and redness. High
concentration of SO
2
 leads to stiffness of flower
buds which eventually fall off from plants.
Uncatalysed oxidation of sulphur dioxide is
slow. However, the presence of particulate
matter in polluted air catalyses the oxidation
of sulphur dioxide to sulphur trioxide.
2SO
2
 (g) +O
2
 (g) ? 2SO
3
(g)
The reaction can also be promoted by
ozone and hydrogen peroxide.
SO
2
 (g) +O
3
 (g) ? SO
3
(g) + O
2
 (g)
SO
2
(g)  + H
2
O
2
(l) ? H
2
SO
4
(aq)
(b) Oxides of Nitrogen: Dinitrogen and
dioxygen are the main constituents of air.
These gases do not react with each other at a
normal temperature. At high altitudes when
lightning strikes, they combine to form oxides
of nitrogen. NO
2 
is oxidised to nitrate ion, 
3
NO
-
which is washed into soil, where it serves as a
fertilizer. In an automobile engine, (at high
temperature) when fossil fuel is burnt,
dinitrogen and dioxygen combine to yield
significant quantities of nitric oxide (NO) and
nitrogen dioxide ( NO
2 
) as given below:
N
2 
(g) +  O
2
 (g)     
1483K
???? ?
    2NO(g)
NO reacts instantly with oxygen to give NO
2
2NO (g) +  O
2
 (g) ? 2NO
2
 (g)
Rate of production of NO
2
 is faster when
nitric oxide reacts with ozone in the
stratosphere.
NO (g) +  O
3
 (g) ? NO
2
 (g) + O
2
 (g)
The irritant red haze in the traffic and
congested places is due to oxides of nitrogen.
Higher concentrations of NO
2
 damage the
leaves of plants and retard the rate of
photosynthesis.  Nitrogen dioxide is a lung
irritant that can lead to an acute respiratory
disease in children. It is toxic to living tissues
also. Nitrogen dioxide is also harmful to
various textile fibres and metals.
2019-20
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Page 3


CHEMISTRY 406
UNIT 14
ENVIRONMENTAL CHEMISTRY
After studying this unit, you will be
able to
• • • • • understand the  meaning of
environmental chemistry;
•• •• • define atmospheric pollution, list
reasons for global warming. green
house effect and acid rain;
•• •• • identify causes for ozone layer
depletion and its effects;
•• •• • give reasons for water pollution
and know about international
standards for drinking water;
•• •• • describe causes of soil pollution;
•• •• • suggest and adopt strategies
for control of environmental
pollution;
•• •• • appreciate the importance of green
chemistry in day to day life.
You have already studied about environment in your earlier
classes. Environmental studies deal with the sum of all
social, economical, biological, physical and chemical
interrelations with our surroundings. In this unit the focus
will be on environmental chemistry. Environmental
chemistry deals with the study of the origin, transport,
reactions, effects and fates of chemical species in the
environment. Let us discuss some important aspects of
environmental chemistry.
14.1 ENVIRONMENTAL POLLUTION
Environmental pollution is the effect of undesirable changes
in our surroundings that have harmful effects on plants,
animals and human beings. A substance, which causes
pollution, is known as pollutant. Pollutants can be solid,
liquid or gaseous substances present in greater
concentration than in natural  abundance and are
produced due to human activities or due to natural
happenings. Do you know, an average human being
requires nearly 12-15 times more air than the food. So,
even small amounts of pollutants in the air become
significant compared to similar levels present in the food.
Pollutants can be degradable, like discarded vegetables
which rapidly break down by natural processes. On the
other hand, pollutants which are slowly degradable, remain
in the environment in an unchanged form for many
decades. For example, substances such as dichlorodi-
phenyltrichloroethane (DDT), plastic materials, heavy
metals, many chemicals, nuclear wastes etc., once released
into the environment are difficult to remove. These
The world has achieved brilliance without wisdom, power
without conscience. Ours is a world of nuclear giants and
ethical infants.
2019-20
PDF Compressor Free Version 
ENVIRONMENTAL CHEMISTRY 407
pollutants cannot be degraded by natural
processes and are harmful to living organisms.
In the process of environmental pollution,
pollutants originate from a source and get
transported by air or water or are dumped into
the soil by human beings.
14.2 ATMOSPHERIC POLLUTION
The atmosphere that surrounds the earth is
not of the same thickness at all heights.  There
are concentric layers of air or regions and each
layer has different density.  The lowest region
of atmosphere in which the human beings
along with other organisms live is called
troposphere. It extends up to the height of
~ 10 km from sea level.  Above the troposphere,
between 10 and 50 km above sea level lies
stratosphere. Troposphere is a turbulent,
dusty zone containing air, much water vapour
and clouds. This is the region of strong air
movement and cloud formation. The
stratosphere, on the other hand, contains
dinitrogen, dioxygen, ozone and little water
vapour.
Atmospheric pollution is generally studied
as tropospheric and stratospheric pollution.
The presence of ozone in the stratosphere
prevents about 99.5 per cent of the sun’s
harmful ultraviolet (UV) radiations from
reaching the earth’s surface and thereby
protecting humans and other animals from its
effect.
14.2.1 Tropospheric Pollution
Tropospheric pollution occurs due to the
presence of undesirable solid or gaseous
particles in the air. The following are the major
gaseous and particulate pollutants present in
the troposphere:
1. Gaseous air pollutants: These are oxides
of sulphur, nitrogen and carbon, hydrogen
sulphide, hydrocarbons, ozone  and other
oxidants.
2. Particulate pollutants: These are dust,
mist, fumes, smoke, smog etc.
1. Gaseous air pollutants
(a) Oxides of Sulphur: Oxides of sulphur
are produced when sulphur containing fossil
fuel is burnt. The most common species,
sulphur dioxide, is a gas that is poisonous to
both animals and plants. It has been reported
that even a low concentration of sulphur
dioxide causes respiratory diseases e.g.,
asthma, bronchitis, emphysema in human
beings. Sulphur dioxide causes irritation to
the eyes, resulting in tears and redness. High
concentration of SO
2
 leads to stiffness of flower
buds which eventually fall off from plants.
Uncatalysed oxidation of sulphur dioxide is
slow. However, the presence of particulate
matter in polluted air catalyses the oxidation
of sulphur dioxide to sulphur trioxide.
2SO
2
 (g) +O
2
 (g) ? 2SO
3
(g)
The reaction can also be promoted by
ozone and hydrogen peroxide.
SO
2
 (g) +O
3
 (g) ? SO
3
(g) + O
2
 (g)
SO
2
(g)  + H
2
O
2
(l) ? H
2
SO
4
(aq)
(b) Oxides of Nitrogen: Dinitrogen and
dioxygen are the main constituents of air.
These gases do not react with each other at a
normal temperature. At high altitudes when
lightning strikes, they combine to form oxides
of nitrogen. NO
2 
is oxidised to nitrate ion, 
3
NO
-
which is washed into soil, where it serves as a
fertilizer. In an automobile engine, (at high
temperature) when fossil fuel is burnt,
dinitrogen and dioxygen combine to yield
significant quantities of nitric oxide (NO) and
nitrogen dioxide ( NO
2 
) as given below:
N
2 
(g) +  O
2
 (g)     
1483K
???? ?
    2NO(g)
NO reacts instantly with oxygen to give NO
2
2NO (g) +  O
2
 (g) ? 2NO
2
 (g)
Rate of production of NO
2
 is faster when
nitric oxide reacts with ozone in the
stratosphere.
NO (g) +  O
3
 (g) ? NO
2
 (g) + O
2
 (g)
The irritant red haze in the traffic and
congested places is due to oxides of nitrogen.
Higher concentrations of NO
2
 damage the
leaves of plants and retard the rate of
photosynthesis.  Nitrogen dioxide is a lung
irritant that can lead to an acute respiratory
disease in children. It is toxic to living tissues
also. Nitrogen dioxide is also harmful to
various textile fibres and metals.
2019-20
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CHEMISTRY 408
(c) Hydrocarbons: Hydrocarbons are
composed of hydrogen and carbon only and
are formed by incomplete combustion of fuel
used in automobiles. Hydrocarbons are
carcinogenic, i.e., they cause cancer. They
harm plants by causing ageing, breakdown of
tissues and shedding of leaves, flowers and
twigs.
(d)  Oxides of Carbon
(i ) Carbon monoxide: Carbon monoxide (CO)
is one of the most serious air pollutants. It is a
colourless and odourless gas, highly
poisonous to living beings because of its ability
to block the delivery of oxygen to the organs
and tissues. It is produced as a result of
incomplete combustion of carbon.  Carbon
monoxide is mainly released into the air by
automobile exhaust.  Other sources, which
produce CO, involve incomplete combustion
of coal, firewood, petrol, etc. The number of
vehicles has been increasing over the years all
over the world. Many vehicles are poorly
maintained and several have inadequate
pollution control equipments resulting in the
release of greater amount of carbon monoxide
and other polluting gases.  Do you know why
carbon monoxide is poisonous?  It binds to
haemoglobin to form carboxyhaemoglobin,
which is about 300 times more stable than the
oxygen-haemoglobin complex. In blood, when
the concentration of carboxyhaemoglobin
reaches about 3–4 per cent, the oxygen
carrying capacity of blood is greatly
reduced. This oxygen deficiency, results into
headache, weak eyesight, nervousness and
cardiovascular disorder. This is the reason why
people are advised not to smoke. In pregnant
women who have the habit of smoking the
increased CO level in blood may induce
premature birth, spontaneous abortions and
deformed babies.
(ii) Carbon dioxide: Carbon dioxide (CO
2
) is
released into the atmosphere by respiration,
burning of fossil fuels for energy, and by
decomposition of limestone during the
manufacture of cement. It is also emitted
during volcanic eruptions. Carbon dioxide gas
is confined to troposphere only. Normally it
forms about 0.03 per cent by volume of the
atmosphere. With the increased use of fossil
fuels, a large amount of carbon dioxide gets
released into the atmosphere. Excess of CO
2
in the air is removed by green plants and this
maintains an appropriate level of CO
2
 in the
atmosphere. Green plants require CO
2
 for
photosynthesis and they, in turn, emit oxygen,
thus maintaining the delicate balance. As you
know, deforestation and burning of fossil fuel
increases the CO
2
 level and disturb the balance
in the atmosphere. The increased amount of
CO
2
 in the air is mainly responsible for global
warming.
Global Warming and Greenhouse Effect
About 75 %  of the solar energy reaching the
earth is absorbed by the earth’s surface, which
increases its temperature. The rest of the heat
radiates back to the atmosphere. Some of the
heat is trapped by gases such as carbon
dioxide, methane, ozone, chlorofluorocarbon
compounds (CFCs) and water vapour in the
atmosphere. Thus, they add to the heating of
the atmosphere. This causes global warming.
We all know that in cold places flowers,
vegetables and fruits are grown in glass
covered areas called greenhouse. Do you
know that we humans also live in a
greenhouse? Of course, we are not surrounded
by glass but a blanket of air called the
atmosphere, which has kept the temperature
on earth constant for centuries. But it is now
undergoing change, though slowly. Just as
the glass in a greenhouse holds the sun’s
warmth inside,  atmosphere traps the sun’s
heat near the earth’s surface and keeps it
warm. This is called natural greenhouse
effect because it maintains the temperature
and makes the earth perfect for life. In a
greenhouse, solar radiations pass through
the transparent glass and heat up the soil
and the plants. The warm soil and plants emit
infrared radiations. Since glass is opaque to
infrared radiations (thermal region), it partly
reflects and partly absorbs these radiations.
This mechanism keeps the energy of the
sun trapped in the greenhouse. Similarly,
carbon dioxide molecules also trap heat as
they are transparent to sunlight but not
to the heat radiation. If the amount of
2019-20
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Page 4


CHEMISTRY 406
UNIT 14
ENVIRONMENTAL CHEMISTRY
After studying this unit, you will be
able to
• • • • • understand the  meaning of
environmental chemistry;
•• •• • define atmospheric pollution, list
reasons for global warming. green
house effect and acid rain;
•• •• • identify causes for ozone layer
depletion and its effects;
•• •• • give reasons for water pollution
and know about international
standards for drinking water;
•• •• • describe causes of soil pollution;
•• •• • suggest and adopt strategies
for control of environmental
pollution;
•• •• • appreciate the importance of green
chemistry in day to day life.
You have already studied about environment in your earlier
classes. Environmental studies deal with the sum of all
social, economical, biological, physical and chemical
interrelations with our surroundings. In this unit the focus
will be on environmental chemistry. Environmental
chemistry deals with the study of the origin, transport,
reactions, effects and fates of chemical species in the
environment. Let us discuss some important aspects of
environmental chemistry.
14.1 ENVIRONMENTAL POLLUTION
Environmental pollution is the effect of undesirable changes
in our surroundings that have harmful effects on plants,
animals and human beings. A substance, which causes
pollution, is known as pollutant. Pollutants can be solid,
liquid or gaseous substances present in greater
concentration than in natural  abundance and are
produced due to human activities or due to natural
happenings. Do you know, an average human being
requires nearly 12-15 times more air than the food. So,
even small amounts of pollutants in the air become
significant compared to similar levels present in the food.
Pollutants can be degradable, like discarded vegetables
which rapidly break down by natural processes. On the
other hand, pollutants which are slowly degradable, remain
in the environment in an unchanged form for many
decades. For example, substances such as dichlorodi-
phenyltrichloroethane (DDT), plastic materials, heavy
metals, many chemicals, nuclear wastes etc., once released
into the environment are difficult to remove. These
The world has achieved brilliance without wisdom, power
without conscience. Ours is a world of nuclear giants and
ethical infants.
2019-20
PDF Compressor Free Version 
ENVIRONMENTAL CHEMISTRY 407
pollutants cannot be degraded by natural
processes and are harmful to living organisms.
In the process of environmental pollution,
pollutants originate from a source and get
transported by air or water or are dumped into
the soil by human beings.
14.2 ATMOSPHERIC POLLUTION
The atmosphere that surrounds the earth is
not of the same thickness at all heights.  There
are concentric layers of air or regions and each
layer has different density.  The lowest region
of atmosphere in which the human beings
along with other organisms live is called
troposphere. It extends up to the height of
~ 10 km from sea level.  Above the troposphere,
between 10 and 50 km above sea level lies
stratosphere. Troposphere is a turbulent,
dusty zone containing air, much water vapour
and clouds. This is the region of strong air
movement and cloud formation. The
stratosphere, on the other hand, contains
dinitrogen, dioxygen, ozone and little water
vapour.
Atmospheric pollution is generally studied
as tropospheric and stratospheric pollution.
The presence of ozone in the stratosphere
prevents about 99.5 per cent of the sun’s
harmful ultraviolet (UV) radiations from
reaching the earth’s surface and thereby
protecting humans and other animals from its
effect.
14.2.1 Tropospheric Pollution
Tropospheric pollution occurs due to the
presence of undesirable solid or gaseous
particles in the air. The following are the major
gaseous and particulate pollutants present in
the troposphere:
1. Gaseous air pollutants: These are oxides
of sulphur, nitrogen and carbon, hydrogen
sulphide, hydrocarbons, ozone  and other
oxidants.
2. Particulate pollutants: These are dust,
mist, fumes, smoke, smog etc.
1. Gaseous air pollutants
(a) Oxides of Sulphur: Oxides of sulphur
are produced when sulphur containing fossil
fuel is burnt. The most common species,
sulphur dioxide, is a gas that is poisonous to
both animals and plants. It has been reported
that even a low concentration of sulphur
dioxide causes respiratory diseases e.g.,
asthma, bronchitis, emphysema in human
beings. Sulphur dioxide causes irritation to
the eyes, resulting in tears and redness. High
concentration of SO
2
 leads to stiffness of flower
buds which eventually fall off from plants.
Uncatalysed oxidation of sulphur dioxide is
slow. However, the presence of particulate
matter in polluted air catalyses the oxidation
of sulphur dioxide to sulphur trioxide.
2SO
2
 (g) +O
2
 (g) ? 2SO
3
(g)
The reaction can also be promoted by
ozone and hydrogen peroxide.
SO
2
 (g) +O
3
 (g) ? SO
3
(g) + O
2
 (g)
SO
2
(g)  + H
2
O
2
(l) ? H
2
SO
4
(aq)
(b) Oxides of Nitrogen: Dinitrogen and
dioxygen are the main constituents of air.
These gases do not react with each other at a
normal temperature. At high altitudes when
lightning strikes, they combine to form oxides
of nitrogen. NO
2 
is oxidised to nitrate ion, 
3
NO
-
which is washed into soil, where it serves as a
fertilizer. In an automobile engine, (at high
temperature) when fossil fuel is burnt,
dinitrogen and dioxygen combine to yield
significant quantities of nitric oxide (NO) and
nitrogen dioxide ( NO
2 
) as given below:
N
2 
(g) +  O
2
 (g)     
1483K
???? ?
    2NO(g)
NO reacts instantly with oxygen to give NO
2
2NO (g) +  O
2
 (g) ? 2NO
2
 (g)
Rate of production of NO
2
 is faster when
nitric oxide reacts with ozone in the
stratosphere.
NO (g) +  O
3
 (g) ? NO
2
 (g) + O
2
 (g)
The irritant red haze in the traffic and
congested places is due to oxides of nitrogen.
Higher concentrations of NO
2
 damage the
leaves of plants and retard the rate of
photosynthesis.  Nitrogen dioxide is a lung
irritant that can lead to an acute respiratory
disease in children. It is toxic to living tissues
also. Nitrogen dioxide is also harmful to
various textile fibres and metals.
2019-20
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CHEMISTRY 408
(c) Hydrocarbons: Hydrocarbons are
composed of hydrogen and carbon only and
are formed by incomplete combustion of fuel
used in automobiles. Hydrocarbons are
carcinogenic, i.e., they cause cancer. They
harm plants by causing ageing, breakdown of
tissues and shedding of leaves, flowers and
twigs.
(d)  Oxides of Carbon
(i ) Carbon monoxide: Carbon monoxide (CO)
is one of the most serious air pollutants. It is a
colourless and odourless gas, highly
poisonous to living beings because of its ability
to block the delivery of oxygen to the organs
and tissues. It is produced as a result of
incomplete combustion of carbon.  Carbon
monoxide is mainly released into the air by
automobile exhaust.  Other sources, which
produce CO, involve incomplete combustion
of coal, firewood, petrol, etc. The number of
vehicles has been increasing over the years all
over the world. Many vehicles are poorly
maintained and several have inadequate
pollution control equipments resulting in the
release of greater amount of carbon monoxide
and other polluting gases.  Do you know why
carbon monoxide is poisonous?  It binds to
haemoglobin to form carboxyhaemoglobin,
which is about 300 times more stable than the
oxygen-haemoglobin complex. In blood, when
the concentration of carboxyhaemoglobin
reaches about 3–4 per cent, the oxygen
carrying capacity of blood is greatly
reduced. This oxygen deficiency, results into
headache, weak eyesight, nervousness and
cardiovascular disorder. This is the reason why
people are advised not to smoke. In pregnant
women who have the habit of smoking the
increased CO level in blood may induce
premature birth, spontaneous abortions and
deformed babies.
(ii) Carbon dioxide: Carbon dioxide (CO
2
) is
released into the atmosphere by respiration,
burning of fossil fuels for energy, and by
decomposition of limestone during the
manufacture of cement. It is also emitted
during volcanic eruptions. Carbon dioxide gas
is confined to troposphere only. Normally it
forms about 0.03 per cent by volume of the
atmosphere. With the increased use of fossil
fuels, a large amount of carbon dioxide gets
released into the atmosphere. Excess of CO
2
in the air is removed by green plants and this
maintains an appropriate level of CO
2
 in the
atmosphere. Green plants require CO
2
 for
photosynthesis and they, in turn, emit oxygen,
thus maintaining the delicate balance. As you
know, deforestation and burning of fossil fuel
increases the CO
2
 level and disturb the balance
in the atmosphere. The increased amount of
CO
2
 in the air is mainly responsible for global
warming.
Global Warming and Greenhouse Effect
About 75 %  of the solar energy reaching the
earth is absorbed by the earth’s surface, which
increases its temperature. The rest of the heat
radiates back to the atmosphere. Some of the
heat is trapped by gases such as carbon
dioxide, methane, ozone, chlorofluorocarbon
compounds (CFCs) and water vapour in the
atmosphere. Thus, they add to the heating of
the atmosphere. This causes global warming.
We all know that in cold places flowers,
vegetables and fruits are grown in glass
covered areas called greenhouse. Do you
know that we humans also live in a
greenhouse? Of course, we are not surrounded
by glass but a blanket of air called the
atmosphere, which has kept the temperature
on earth constant for centuries. But it is now
undergoing change, though slowly. Just as
the glass in a greenhouse holds the sun’s
warmth inside,  atmosphere traps the sun’s
heat near the earth’s surface and keeps it
warm. This is called natural greenhouse
effect because it maintains the temperature
and makes the earth perfect for life. In a
greenhouse, solar radiations pass through
the transparent glass and heat up the soil
and the plants. The warm soil and plants emit
infrared radiations. Since glass is opaque to
infrared radiations (thermal region), it partly
reflects and partly absorbs these radiations.
This mechanism keeps the energy of the
sun trapped in the greenhouse. Similarly,
carbon dioxide molecules also trap heat as
they are transparent to sunlight but not
to the heat radiation. If the amount of
2019-20
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ENVIRONMENTAL CHEMISTRY 409
carbon dioxide crosses the delicate proportion
of 0.03 per cent, the natural greenhouse
balance may get disturbed. Carbon dioxide is
the major contributor to global warming.
Besides carbon dioxide, other greenhouse
gases are methane, water vapour, nitrous
oxide, CFCs and ozone. Methane is produced
naturally when vegetation is burnt, digested
or rotted in the absence of oxygen. Large
amounts of methane are released in paddy
fields, coal mines, from rotting garbage dumps
and by fossil fuels. Chlorofluorocarbons (CFCs)
are man-made industrial chemicals used in
air conditioning etc. CFCs are also damaging
the ozone layer (Section 14.2.2). Nitrous oxide
occurs naturally in the environment. In recent
years, their quantities have increased
significantly due to the use of chemical
fertilizers and the burning of fossil fuels. If
these trends continue, the average global
temperature will increase to a level which may
lead to melting of polar ice caps and flooding
of low lying areas all over the earth. Increase
in the global temperature increases the
incidence of infectious diseases like dengue,
malaria, yellow fever, sleeping sickness etc.
Acid rain
We are aware that normally rain water has a
pH of 5.6 due to the presence of H
+
 ions formed
by the reaction of rain water with carbon
Fig. 14.1  Acid deposition
Think it Over
What can we do to reduce the rate of global
warming?
If burning of fossil fuels, cutting down
forests and trees add to greenhouse gases
in the atmosphere, we must find ways to
use these just efficiently and judiciously.
One of the simple things which we can do
to reduce global warming is to minimise the
use of automobiles. Depending upon the
situation, one can use bicycle, public
transport system, or go for carpool. We
should plant more trees to increase the
green cover. Avoid burning of dry leaves,
wood etc.  It is illegal to smoke in public
places and work places, because it is
harmful not only for the one who is smoking
but also for others, and therefore, we should
avoid it. Many people do not understand
the greenhouse effect and the global
warming. We can help them by sharing the
information that we have.
2019-20
PDF Compressor Free Version 
Page 5


CHEMISTRY 406
UNIT 14
ENVIRONMENTAL CHEMISTRY
After studying this unit, you will be
able to
• • • • • understand the  meaning of
environmental chemistry;
•• •• • define atmospheric pollution, list
reasons for global warming. green
house effect and acid rain;
•• •• • identify causes for ozone layer
depletion and its effects;
•• •• • give reasons for water pollution
and know about international
standards for drinking water;
•• •• • describe causes of soil pollution;
•• •• • suggest and adopt strategies
for control of environmental
pollution;
•• •• • appreciate the importance of green
chemistry in day to day life.
You have already studied about environment in your earlier
classes. Environmental studies deal with the sum of all
social, economical, biological, physical and chemical
interrelations with our surroundings. In this unit the focus
will be on environmental chemistry. Environmental
chemistry deals with the study of the origin, transport,
reactions, effects and fates of chemical species in the
environment. Let us discuss some important aspects of
environmental chemistry.
14.1 ENVIRONMENTAL POLLUTION
Environmental pollution is the effect of undesirable changes
in our surroundings that have harmful effects on plants,
animals and human beings. A substance, which causes
pollution, is known as pollutant. Pollutants can be solid,
liquid or gaseous substances present in greater
concentration than in natural  abundance and are
produced due to human activities or due to natural
happenings. Do you know, an average human being
requires nearly 12-15 times more air than the food. So,
even small amounts of pollutants in the air become
significant compared to similar levels present in the food.
Pollutants can be degradable, like discarded vegetables
which rapidly break down by natural processes. On the
other hand, pollutants which are slowly degradable, remain
in the environment in an unchanged form for many
decades. For example, substances such as dichlorodi-
phenyltrichloroethane (DDT), plastic materials, heavy
metals, many chemicals, nuclear wastes etc., once released
into the environment are difficult to remove. These
The world has achieved brilliance without wisdom, power
without conscience. Ours is a world of nuclear giants and
ethical infants.
2019-20
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ENVIRONMENTAL CHEMISTRY 407
pollutants cannot be degraded by natural
processes and are harmful to living organisms.
In the process of environmental pollution,
pollutants originate from a source and get
transported by air or water or are dumped into
the soil by human beings.
14.2 ATMOSPHERIC POLLUTION
The atmosphere that surrounds the earth is
not of the same thickness at all heights.  There
are concentric layers of air or regions and each
layer has different density.  The lowest region
of atmosphere in which the human beings
along with other organisms live is called
troposphere. It extends up to the height of
~ 10 km from sea level.  Above the troposphere,
between 10 and 50 km above sea level lies
stratosphere. Troposphere is a turbulent,
dusty zone containing air, much water vapour
and clouds. This is the region of strong air
movement and cloud formation. The
stratosphere, on the other hand, contains
dinitrogen, dioxygen, ozone and little water
vapour.
Atmospheric pollution is generally studied
as tropospheric and stratospheric pollution.
The presence of ozone in the stratosphere
prevents about 99.5 per cent of the sun’s
harmful ultraviolet (UV) radiations from
reaching the earth’s surface and thereby
protecting humans and other animals from its
effect.
14.2.1 Tropospheric Pollution
Tropospheric pollution occurs due to the
presence of undesirable solid or gaseous
particles in the air. The following are the major
gaseous and particulate pollutants present in
the troposphere:
1. Gaseous air pollutants: These are oxides
of sulphur, nitrogen and carbon, hydrogen
sulphide, hydrocarbons, ozone  and other
oxidants.
2. Particulate pollutants: These are dust,
mist, fumes, smoke, smog etc.
1. Gaseous air pollutants
(a) Oxides of Sulphur: Oxides of sulphur
are produced when sulphur containing fossil
fuel is burnt. The most common species,
sulphur dioxide, is a gas that is poisonous to
both animals and plants. It has been reported
that even a low concentration of sulphur
dioxide causes respiratory diseases e.g.,
asthma, bronchitis, emphysema in human
beings. Sulphur dioxide causes irritation to
the eyes, resulting in tears and redness. High
concentration of SO
2
 leads to stiffness of flower
buds which eventually fall off from plants.
Uncatalysed oxidation of sulphur dioxide is
slow. However, the presence of particulate
matter in polluted air catalyses the oxidation
of sulphur dioxide to sulphur trioxide.
2SO
2
 (g) +O
2
 (g) ? 2SO
3
(g)
The reaction can also be promoted by
ozone and hydrogen peroxide.
SO
2
 (g) +O
3
 (g) ? SO
3
(g) + O
2
 (g)
SO
2
(g)  + H
2
O
2
(l) ? H
2
SO
4
(aq)
(b) Oxides of Nitrogen: Dinitrogen and
dioxygen are the main constituents of air.
These gases do not react with each other at a
normal temperature. At high altitudes when
lightning strikes, they combine to form oxides
of nitrogen. NO
2 
is oxidised to nitrate ion, 
3
NO
-
which is washed into soil, where it serves as a
fertilizer. In an automobile engine, (at high
temperature) when fossil fuel is burnt,
dinitrogen and dioxygen combine to yield
significant quantities of nitric oxide (NO) and
nitrogen dioxide ( NO
2 
) as given below:
N
2 
(g) +  O
2
 (g)     
1483K
???? ?
    2NO(g)
NO reacts instantly with oxygen to give NO
2
2NO (g) +  O
2
 (g) ? 2NO
2
 (g)
Rate of production of NO
2
 is faster when
nitric oxide reacts with ozone in the
stratosphere.
NO (g) +  O
3
 (g) ? NO
2
 (g) + O
2
 (g)
The irritant red haze in the traffic and
congested places is due to oxides of nitrogen.
Higher concentrations of NO
2
 damage the
leaves of plants and retard the rate of
photosynthesis.  Nitrogen dioxide is a lung
irritant that can lead to an acute respiratory
disease in children. It is toxic to living tissues
also. Nitrogen dioxide is also harmful to
various textile fibres and metals.
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CHEMISTRY 408
(c) Hydrocarbons: Hydrocarbons are
composed of hydrogen and carbon only and
are formed by incomplete combustion of fuel
used in automobiles. Hydrocarbons are
carcinogenic, i.e., they cause cancer. They
harm plants by causing ageing, breakdown of
tissues and shedding of leaves, flowers and
twigs.
(d)  Oxides of Carbon
(i ) Carbon monoxide: Carbon monoxide (CO)
is one of the most serious air pollutants. It is a
colourless and odourless gas, highly
poisonous to living beings because of its ability
to block the delivery of oxygen to the organs
and tissues. It is produced as a result of
incomplete combustion of carbon.  Carbon
monoxide is mainly released into the air by
automobile exhaust.  Other sources, which
produce CO, involve incomplete combustion
of coal, firewood, petrol, etc. The number of
vehicles has been increasing over the years all
over the world. Many vehicles are poorly
maintained and several have inadequate
pollution control equipments resulting in the
release of greater amount of carbon monoxide
and other polluting gases.  Do you know why
carbon monoxide is poisonous?  It binds to
haemoglobin to form carboxyhaemoglobin,
which is about 300 times more stable than the
oxygen-haemoglobin complex. In blood, when
the concentration of carboxyhaemoglobin
reaches about 3–4 per cent, the oxygen
carrying capacity of blood is greatly
reduced. This oxygen deficiency, results into
headache, weak eyesight, nervousness and
cardiovascular disorder. This is the reason why
people are advised not to smoke. In pregnant
women who have the habit of smoking the
increased CO level in blood may induce
premature birth, spontaneous abortions and
deformed babies.
(ii) Carbon dioxide: Carbon dioxide (CO
2
) is
released into the atmosphere by respiration,
burning of fossil fuels for energy, and by
decomposition of limestone during the
manufacture of cement. It is also emitted
during volcanic eruptions. Carbon dioxide gas
is confined to troposphere only. Normally it
forms about 0.03 per cent by volume of the
atmosphere. With the increased use of fossil
fuels, a large amount of carbon dioxide gets
released into the atmosphere. Excess of CO
2
in the air is removed by green plants and this
maintains an appropriate level of CO
2
 in the
atmosphere. Green plants require CO
2
 for
photosynthesis and they, in turn, emit oxygen,
thus maintaining the delicate balance. As you
know, deforestation and burning of fossil fuel
increases the CO
2
 level and disturb the balance
in the atmosphere. The increased amount of
CO
2
 in the air is mainly responsible for global
warming.
Global Warming and Greenhouse Effect
About 75 %  of the solar energy reaching the
earth is absorbed by the earth’s surface, which
increases its temperature. The rest of the heat
radiates back to the atmosphere. Some of the
heat is trapped by gases such as carbon
dioxide, methane, ozone, chlorofluorocarbon
compounds (CFCs) and water vapour in the
atmosphere. Thus, they add to the heating of
the atmosphere. This causes global warming.
We all know that in cold places flowers,
vegetables and fruits are grown in glass
covered areas called greenhouse. Do you
know that we humans also live in a
greenhouse? Of course, we are not surrounded
by glass but a blanket of air called the
atmosphere, which has kept the temperature
on earth constant for centuries. But it is now
undergoing change, though slowly. Just as
the glass in a greenhouse holds the sun’s
warmth inside,  atmosphere traps the sun’s
heat near the earth’s surface and keeps it
warm. This is called natural greenhouse
effect because it maintains the temperature
and makes the earth perfect for life. In a
greenhouse, solar radiations pass through
the transparent glass and heat up the soil
and the plants. The warm soil and plants emit
infrared radiations. Since glass is opaque to
infrared radiations (thermal region), it partly
reflects and partly absorbs these radiations.
This mechanism keeps the energy of the
sun trapped in the greenhouse. Similarly,
carbon dioxide molecules also trap heat as
they are transparent to sunlight but not
to the heat radiation. If the amount of
2019-20
PDF Compressor Free Version 
ENVIRONMENTAL CHEMISTRY 409
carbon dioxide crosses the delicate proportion
of 0.03 per cent, the natural greenhouse
balance may get disturbed. Carbon dioxide is
the major contributor to global warming.
Besides carbon dioxide, other greenhouse
gases are methane, water vapour, nitrous
oxide, CFCs and ozone. Methane is produced
naturally when vegetation is burnt, digested
or rotted in the absence of oxygen. Large
amounts of methane are released in paddy
fields, coal mines, from rotting garbage dumps
and by fossil fuels. Chlorofluorocarbons (CFCs)
are man-made industrial chemicals used in
air conditioning etc. CFCs are also damaging
the ozone layer (Section 14.2.2). Nitrous oxide
occurs naturally in the environment. In recent
years, their quantities have increased
significantly due to the use of chemical
fertilizers and the burning of fossil fuels. If
these trends continue, the average global
temperature will increase to a level which may
lead to melting of polar ice caps and flooding
of low lying areas all over the earth. Increase
in the global temperature increases the
incidence of infectious diseases like dengue,
malaria, yellow fever, sleeping sickness etc.
Acid rain
We are aware that normally rain water has a
pH of 5.6 due to the presence of H
+
 ions formed
by the reaction of rain water with carbon
Fig. 14.1  Acid deposition
Think it Over
What can we do to reduce the rate of global
warming?
If burning of fossil fuels, cutting down
forests and trees add to greenhouse gases
in the atmosphere, we must find ways to
use these just efficiently and judiciously.
One of the simple things which we can do
to reduce global warming is to minimise the
use of automobiles. Depending upon the
situation, one can use bicycle, public
transport system, or go for carpool. We
should plant more trees to increase the
green cover. Avoid burning of dry leaves,
wood etc.  It is illegal to smoke in public
places and work places, because it is
harmful not only for the one who is smoking
but also for others, and therefore, we should
avoid it. Many people do not understand
the greenhouse effect and the global
warming. We can help them by sharing the
information that we have.
2019-20
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CHEMISTRY 410
dioxide present in the atmosphere.
H
2
O (l) +  CO
2
 (g)   ?   H
2
CO
3
 
(aq)
H
2
CO
3
 
(aq) ? H 
+
(aq) + HCO
3
–
(aq)
When the pH of the rain water drops below
5.6, it is called acid rain.
Acid rain refers to the ways in which acid
from the atmosphere is deposited on the
earth’s surface. Oxides of nitrogen and
sulphur which are acidic in nature can be
blown by wind along with solid particles in the
atmosphere and finally settle down either on
the ground as dry deposition or in water, fog
and snow as wet deposition. (Fig. 14.1)
Acid rain is a byproduct of a variety of
human activities that emit the oxides of
sulphur and nitrogen in the atmosphere. As
mentioned earlier, burning of fossil fuels (which
contain sulphur and nitrogenous matter) such
as coal and oil in power stations and furnaces
or petrol and diesel in motor engines produce
sulphur dioxide and nitrogen oxides. SO
2
 and
NO
2
 after oxidation and reaction with water
are major contributors to acid rain, because
polluted air usually contains particulate
matter that catalyse the oxidation.
2SO
2
 (g) + O
2 
(g) + 2H
2
O (l) ? 2H
2
SO
4
 (aq)
4NO
2
 (g) + O
2
 (g)+ 2H
2
O (l) ? 4HNO
3  
(aq)
Ammonium salts are also formed and can
be seen as an atmospheric haze (aerosol of fine
particles). Aerosol particles of oxides or
ammonium salts in rain drops result in wet-
deposition. SO
2
 is also absorbed directly on
both solid and liquid ground surfaces and is
thus deposited as dry-deposition.
 Acid rain is harmful for agriculture, trees
and plants as it dissolves and washes away
nutrients needed for their growth. It causes
respiratory ailments in human beings and
animals. When acid rain falls and flows as
ground water to reach rivers, lakes etc. it affects
plants and animal life in aquatic ecosystem. It
corrodes water pipes resulting in the leaching
of heavy metals such as iron, lead and copper
into the drinking water. Acid rain damages
buildings and other structures made of stone
or metal. The Taj Mahal in India has been
affected by acid rain.
Activity 1
You can collect samples of water from
nearby places and record their pH values.
Discuss your results in the class. Let us
discuss how we can help to reduce the
formation of acid rain.
This can be done by reducing the
emission of sulphur dioxide and nitrogen
dioxide in the atmosphere. We should use
less vehicles driven by fossil fuels; use less
sulphur content fossil fuels for  power
plants and industries. We should use
natural gas which is a better fuel than coal
or use coal with less sulphur content.
Catalytic converters must be used in cars
to reduce the effect of exhaust fumes on
the atmosphere. The main component of
the converter is a ceramic honeycomb
coated with precious metals — Pd, Pt and
Rh. The exhaust gases containing unburnt
fuel, CO and NO
x
, when pass through the
converter at 573 K, are converted into CO
2
and N
2
. We can also reduce the acidity of
the soil by adding powdered limestone to
neutralise the acidity of the soil. Many
people do not know of acid rain and its
harmful effects. We can make them aware
by passing on this information and save
the Nature.
Taj Mahal and Acid Rain
The air around the city of Agra, where the
Taj Mahal is located, contains fairly high
levels of sulphur and nitrogen oxides. It is
mainly due to a large number of industries
and power plants around the area. Use of
poor quality of coal, kerosene and firewood
as fuel for domestic purposes add up to
this problem.  The resulting acid rain
reacts with marble, CaCO
3
 of Taj Mahal
(CaCO
3
 +H
2
SO
4  
? CaSO
4
 + H
2
O+ CO
2
)
causing damage to this wonderful
monument that has attracted people from
around the world. As a result, the
monument is being slowly disfigured and
the marble is getting discoloured and
lustreless. The Government of India
announced an action plan in early 1995
to prevent the disfiguring of this historical
monument. Mathura refinery has already
taken suitable measures to check the
emission of toxic gases.
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FAQs on NCERT Textbook - Environmental Chemistry (Old NCERT) - NCERT Textbook for NEET

1. What is environmental chemistry and why is it important?
Ans. Environmental chemistry is the study of chemical processes occurring in the environment, including the air, water, and soil. It helps in understanding how pollutants interact with the environment and their impact on living organisms. Environmental chemistry is important as it helps in developing strategies to prevent pollution, assess the quality of natural resources, and design effective waste management systems.
2. What are the major sources of air pollution?
Ans. The major sources of air pollution are industrial emissions, vehicle exhaust, burning of fossil fuels, agricultural activities, and household activities such as cooking with solid fuels. These sources release pollutants like carbon monoxide, nitrogen oxides, sulfur oxides, particulate matter, and volatile organic compounds, which contribute to air pollution and pose a threat to human health and the environment.
3. How does water pollution occur and what are its consequences?
Ans. Water pollution occurs due to the discharge of harmful substances into water bodies, such as rivers, lakes, and oceans. Industrial waste, sewage, agricultural runoff, and oil spills are common sources of water pollution. The consequences of water pollution include the degradation of aquatic ecosystems, loss of biodiversity, contamination of drinking water sources, and health problems when polluted water is consumed or used for bathing.
4. What are the greenhouse gases and their role in climate change?
Ans. Greenhouse gases, such as carbon dioxide, methane, nitrous oxide, and fluorinated gases, trap heat in the Earth's atmosphere, leading to the greenhouse effect and climate change. These gases are released primarily from human activities, including the burning of fossil fuels, deforestation, and industrial processes. The accumulation of greenhouse gases in the atmosphere contributes to global warming, rising sea levels, extreme weather events, and disruptions in ecosystems.
5. How does environmental chemistry contribute to sustainable development?
Ans. Environmental chemistry plays a crucial role in achieving sustainable development by providing scientific knowledge for the development of environmentally friendly technologies and practices. It helps in identifying and monitoring pollutants, assessing their environmental impact, and developing strategies to mitigate pollution. By understanding the chemistry of pollutants and their interactions in the environment, environmental chemists contribute to the conservation of natural resources, protection of ecosystems, and promotion of a healthier and sustainable future.
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