ENVIRONMENTAL SCIENCES FOR ENGINEERING UNDERGRADUATES

ENVIRONMENTAL SCIENCES FOR ENGINEERING UNDERGRADUATES

Authors: DR. SUSHMITHA BASKAR & DR. R. BASKAR

Published by: Unicorn Books (www.pustakmahal.com) With environment occupying the center stage of most newspapers and the world watching the unfolding events, a new book Environmental Sciences for Engineering Undergraduates attempts to explain all that an educated person is expected to know. Although admittedly written for graduate engineering students, topics covered will fulfil the requirements of those appearing in competitive examinations. Each chapter illustrates interesting global case studies, but with special emphasis on India. Figures have been simplified to make comprehension easy. Interesting facts and references make this book invaluable. The book has been divided into six units. The first unit covers environment, its components and an overview of the environmental problems today. Second unit introduces ecology, and the principles of environmental impact assessment. Unit three covers atmospheric composition, energy balance, climate, weather, and dispersion. The fourth unit describes hydrosphere, water pollution and its control.Next unit elaborates lithosphere, pollutants, collection and disposal of solid wastes. Various aspects regarding noise pollution, its effects and control is explained in the sixth unit. About the AuthorDr. Sushmitha Baskar earned her Masters (Gold medallist) and M.Phil in Environmental Science from Bharathiar University, Coimbatore. She obtained her PhD in 2002, from Guru Jambheshwar University, Hisar and has been awarded various national and international fellowships. She was awarded Swiss Fellowship (2002-04) to work at the Department of Earth Sciences, Swiss Federal Institute of Technology, ETH-Zurich, Switzerland. Dr. R. Baskar earned his Masters, M.Phil and Ph.D (1992), from Punjab University, Chandigarh in Geology. He has been awarded various national and international fellowships like prestigious Dr. K.S Krishnan DAE research fellowship, CSIR, UGC, and DST fellowships. He was awarded the ICSC World Laboratory scholarship to carry out research in France for a year during his doctoral programme. He has been teaching in the Department of Environmental Sciences, Guru Jambheshwar University, Hisar, since 1995. AN EXCERPT FROM THE BOOKEcology:Our planet Earth is a lovely beautiful white and blue ball when seen from space. It is the third planet from the Sun and it is the largest of the inner planets. It is the only planet known to support life and to contain liquid water at the surface. Our environment includes the biotic (living beings) and abiotic factors (like soil, water, temperature and light). The various segments of the environment consist of the atmosphere, lithosphere, biosphere and the hydrosphere. The surface of the Earth (air, water and land) is called the biosphere. It is composed of smaller units called the ecosystems. An ecosystem includes all the organisms and the non-living environment found in a particular place. They can be large or small. Our Earth hosts a variety of living organisms and the surface of the Earth, as a whole is an ecosystem. Each organism depends in some way on other living and nonliving things in its environment. The study of natural ecosystems will help us to understand the interrelations between living beings and the environment and how the impact of human beings is influencing the natural world. Ecological case studies:1. Dwindling biodiversity in the Sariska Tiger Reserve, Rajasthan:Poaching of the wild animals like leopards, tigers and other animals for skin, fur, natural resources, etc. in Sariska coupled with high amount of mining related problems, as the area is rich in dolomite, limestone, schist, marble and quartzite have led to severe ecological problems. There are over 200 mines in the protected forest area and more than 40 mines in the partly protected areas. The Sariska reserve, amidst the Aravallis, covers over 800 sq km of dry tropical forests. ‘Dhok’ is the principal tree species that covers 90% of the entire area and there are a variety of grasses and shrubs. This reserve supports over 100 species of birds and has the largest population of peafowl in the entire country. Leopards, Caracals, Sambar, Nilgai, Chital, Wild boar are found in this sanctuary. A rare feature of the fauna is the four horned antelope. Eco-development programs have just been implemented in Sariska with the formation of forest protection societies in villages and NGO’s. The future of Sariska reserve lies directly in protecting and reducing the high biotic pressure that affects this unique Aravalli habitat of the Indian tigers. 2. Declining biodiversity in the wonderful Australian Woodlands:It is predicted that over the next 50 to 100 years there will be a wave of bird extinctions paralleling the loss of many Australian mammal species witnessed earlier this century. The reason for bird species decline is due to practices such as hunting, predation or competition from introduced species and due to loss of habitat. The present case study is related to temperate woodland ecosystems and the birds dependent on them for habitat. Impacts on bird populations provide typical examples of the indirect pressures on biodiversity. Woodlands are distinguished from coastal forests and semi-arid lands by less marked seasonal variations in temperature, lower extremes of rainfall and a longer growing season. Woodland birds have evolved in response to the year-round availability of food and the variety of habitat features such as tree hollows, peeling bark, nectar and other carbohydrates provided by the predominant eucalyptus plant species. The year-round supply of food also means the forests are linked to surrounding habitats, as they are suitable for migratory birds, breeding or when food is scarce elsewhere in times of drought. More than 25% of land bird species found in woodlands are in decline or threatened. The paradise parrot and star finch are extinct. Endangered species include Regent honeyeaters, bush stone-curlew, squatter pigeon, superb parrot, swift parrot, turquoise parrot, gray-crown babbler, painted honey-eater and black-throated finch. In total, 16 woodland-dependent or woodland-associated species are threatened and many more are in decline, as concepts of conservation of ecosystems have not been scientifically followed.Components of ecology The term ecology is derived from two Greek words, oikos meaning dwelling place and logos meaning study. So ecology means the study of organisms in their home. The term ecology was termed by the German biologist Ernst Haeckel (1868). He defined ecology as the ‘surrounding outer world’, now called the environment. E.P.Odum (1969) defined the term ecology as the study of interrelationships between organisms and environment. Ecology is the study of interactions between organisms (biotic part) and their nonliving environment (abiotic factors). Ecology involves collecting information about organisms and their environment, looking for patterns, and seeking to explain these patterns. Habitat is the place a plant or animal lives, while its niche is the specific place it occupies in an ecosystem. Thus, an ecosystem is the living organisms and the chemical and physical environment and ecology is the study of ecosystems. Living things are organized in an ecosystem by how they secure their food: autotrophs or heterotrophs. A very important factor determining the number and type of organisms living in an ecosystem is the amount of energy available. The amount of energy an ecosystem receives and the amount that is transferred from organism to organism has an important effect on the ecosystem’s structure. All organisms need energy to carry out essential functions, such as growth, movement, maintenance and repair, and reproduction. Energy in an ecosystem flows from the sun to autotrophs (producers) then to organisms that eat the autotrophs, then to organisms that feed on other organisms. The primary source of energy for an ecosystem is the sun. EcosystemEcosystems are ecological units that include all the biotic factors and abiotic factors in an area. E. P. Odum defined ecosystem as the basic functional unit of organisms and their environment, interacting with each other and within their own components. Nearly all ecosystems are dependent upon the flow of solar energy and finite pools of nutrients. Carbon, hydrogen, nitrogen, oxygen, phosphorus and sulphur make up nearly all life on earth. The diversity of an ecosystem is a measure of the number of different species there, and how common each species is. Ecosystems are very complex and they can contain hundreds or even thousands of interacting species. Environment and eco-factorsThe structural and functional features, their size and composition are important characteristics of any ecosystem. The structural features include the biotic and abiotic components and the functional features include the functions performed i.e. food chains, webs, trophic levels, the flow of energy in the ecosystem, productivity, biogeochemical cycles and ecosystem regulation.

ENVIRONMENTAL STUDIES FOR UNDERGRADUATE COURSES

ENVIRONMENTAL STUDIES FOR UNDERGRADUATE COURSES
Authors: Dr. Sushmitha Baskar & Dr. R. Baskar
Published by: Unicorn Books, an imprint of Pustak Mahal (www.pustakmahal.com)

This book Environmental Studies for Undergraduate Courses follows the syllabus for undergraduate courses of higher education. The book has been divided into eight units. The first unit covers definition, scope and importance of environmental studies. Second unit explains the renewal and non-renewal resources. Next unit introduces the reader to the types of ecosystems, and food chains. Fourth unit describes biodiversity and its conservation.
The fifth unit elaborates sources of pollution, solid waste management, and disaster management. Sixth unit discusses sustainable development, urban problems, climate & global warming, and legislative environmental Acts. Human welfare and environment form the next unit. Fieldwork relating to study of simple ecosystems forms the eighth and the last unit.
The salient features of the book include a simple explanation of the subject, relevant case studies, environmental quotes and interesting facts.

About the authors:

Dr. Sushmitha Baskar is associated with the Department of Environmental Sciences and Engineering, Guru Jambheshwar University of Science and Technology. She obtained her PhD in 2002, and has been awarded various national fellowships like CSIR-SRF, RA and international fellowships. She was awarded Swiss Fellowship (2002- 04) to work at the Swiss Federal Institute of Technology, ETH - Zurich, Switzerland. Along with her husband Dr R Baskar, she has co-authored a book Environmental Sciences for Engineering Undergraduates.

Dr. R. Baskar earned his Masters, M.Phil and PhD (1992), from Punjab University, Chandigarh in Geology. He has been awarded various national and international fellowships like prestigious Dr.K.S Krishnan DAE research fellowship, CSIR, UGC, and DST fellowships. He was awarded the ICSC World Laboratory scholarship to carry out research in France for a year during his doctoral programme. He was invited as an Academic Guest (2003 -2004) in the Swiss Federal Institute of Technology (ETH), Zurich, Switzerland. At present he is a Reader in the Department of Environmental Sciences and Engineering, Hisar.

Some classic case studies:

1. Taj Mahal, Agra, India: A symbol of love affected by air pollutants

Emperor Shah Jahan constructed this historic monument in the memory of his wife Mumtaz Mahal at Agra, India in the year 1648. The innumerable industries in and around Agra released a large amount of sulphur dioxides, suspended particulate matter, smoke, soot etc causing tanning, blackening, and yellowing of the marble stone. The oxides reacting with rainwater resulted in acid precipitation and in return caused the deterioration and corrosion of the Taj Mahal. In 1984, the Supreme Court of India ordered designated polluting industries in the Taj area to be shut down and or adopt cleaner control technologies.

2.The London smog of 1952: A classic air pollution case study

During the cold month of December, the people of London burnt large amounts of coal for heating their homes, which resulted in a huge amount of smoke, soot, ash, sulphur oxides etc. generated from the chimneys. On 5 December 1952, the temperature went down to -1°C and the humidity at 80%. There was a thick fog and the air near the ground was moist.The accumulation of smoke close to the ground was so much that the sunlight was totally cut off and the air stayed cool and static. The term smog means fog that has soot in it. Average smoke measurements in London showed the PM concentration was 56 times the level normally experienced and the sulphur dioxide level increased by 7 times (700 ppb). Around 4000 people died due to the smog causing pneumonia, bronchitis, tuberculosis, heart failure, asphyxiation, chest pains, inflammation of the lungs, damage to respiratory cells, permanent lung damage, respiratory ailments, susceptibility to cancers etc. The effects on vegetation were profound due to the resulting acidic rain. Following this disastrous event, London formulated the Clean Air Act, 1956 and all the traditional coal fires were converted to heaters fueled by gas, steam, hot water, oil, smokeless coal and electricity.

3.The terrible Bhopal Gas tragedy of India, 1984

Another classic case study involving air pollution is one of World’s worst industrial disasters, which occurred on December 3, 1984 in Bhopal, Madhya Pradesh (India). The Union Carbide Company used methyl isocyanate in manufacturing Carbaryl (carbamate) pesticides. On the fatal day none of the safety devices worked and there was a functional failure of the vent scrubber outlet. There was a violent chemical reaction in the tank and the pressure built up. This popped the safety valve open. The safety valve remained open for more than two hours. As a result over 30 - 40 tons of methyl isocyanate (MIC) and 35 – 40 kg phosgene were emitted into the atmosphere. The gas spread over the entire region and city, air being the medium. Approximately 5000 people died in the disaster. More than 2,50,000 people were exposed to the gas. MIC afflicts the lungs, eyes, skin, respiratory system, gastrointestinal system etc. The clean up of the tragedy cost approximately 570 million U.S. dollars compared to the cost of the safety devices, which would have cost only 1 million U.S. dollars if it had been installed before the tragedy. The after effects of the Bhopal gas tragedy are seen even today with people and children having genetic disorders.

ENVIRONMENTAL SCIENCES FOR ENGINEERING UNDERGRADUATES

ENVIRONMENTAL SCIENCES FOR ENGINEERING UNDERGRADUATES
Authors: DR. SUSHMITHA BASKAR & DR. R. BASKAR
Published by: Unicorn Books (http://www.pustakmahal.com/)

With environment occupying the center stage of most newspapers and the world watching the unfolding events, a new book Environmental Sciences for Engineering Undergraduates attempts to explain all that an educated person is expected to know. Although admittedly written for graduate engineering students, topics covered will fulfil the requirements of those appearing in competitive examinations.

Each chapter illustrates interesting global case studies, but with special emphasis on India. Figures have been simplified to make comprehension easy. Interesting facts and references make this book invaluable.

The book has been divided into six units. The first unit covers environment, its components and an overview of the environmental problems today. Second unit introduces ecology, and the principles of environmental impact assessment. Unit three covers atmospheric composition, energy balance, climate, weather, and dispersion. The fourth unit describes hydrosphere, water pollution and its control.Next unit elaborates lithosphere, pollutants, collection and disposal of solid wastes. Various aspects regarding noise pollution, its effects and control is explained in the sixth unit.

About the Authors:
Dr. Sushmitha Baskar earned her Masters (Gold medallist) and M.Phil in Environmental Science from Bharathiar University, Coimbatore. She obtained her PhD in 2002, from Guru Jambheshwar University, Hisar and has been awarded various national and international fellowships. She was awarded Swiss Fellowship (2002-04) to work at the Department of Earth Sciences, Swiss Federal Institute of Technology, ETH-Zurich, Switzerland.
Dr. R. Baskar earned his Masters, M.Phil and Ph.D (1992), from Punjab University, Chandigarh in Geology. He has been awarded various national and international fellowships like prestigious Dr. K.S Krishnan DAE research fellowship, CSIR, UGC, and DST fellowships. He was awarded the ICSC World Laboratory scholarship to carry out research in France for a year during his doctoral programme. He has been teaching in the Department of Environmental Sciences, Guru Jambheshwar University, Hisar, since 1995.

AN EXCERPT FROM THE BOOK
Ecology:
Our planet Earth is a lovely beautiful white and blue ball when seen from space. It is the third planet from the Sun and it is the largest of the inner planets. It is the only planet known to support life and to contain liquid water at the surface. Our environment includes the biotic (living beings) and abiotic factors (like soil, water, temperature and light). The various segments of the environment consist of the atmosphere, lithosphere, biosphere and the hydrosphere. The surface of the Earth (air, water and land) is called the biosphere. It is composed of smaller units called the ecosystems. An ecosystem includes all the organisms and the non-living environment found in a particular place. They can be large or small. Our Earth hosts a variety of living organisms and the surface of the Earth, as a whole is an ecosystem. Each organism depends in some way on other living and nonliving things in its environment. The study of natural ecosystems will help us to understand the interrelations between living beings and the environment and how the impact of human beings is influencing the natural world.

Ecological case studies:
1. Dwindling biodiversity in the Sariska Tiger Reserve, Rajasthan, India:
Poaching of the wild animals like leopards, tigers and other animals for skin, fur, natural resources, etc. in Sariska coupled with high amount of mining related problems, as the area is rich in dolomite, limestone, schist, marble and quartzite have led to severe ecological problems. There are over 200 mines in the protected forest area and more than 40 mines in the partly protected areas. The Sariska reserve, amidst the Aravallis, covers over 800 sq km of dry tropical forests. ‘Dhok’ is the principal tree species that covers 90% of the entire area and there are a variety of grasses and shrubs. This reserve supports over 100 species of birds and has the largest population of peafowl in the entire country. Leopards, Caracals, Sambar, Nilgai, Chital, Wild boar are found in this sanctuary. A rare feature of the fauna is the four horned antelope. Eco-development programs have just been implemented in Sariska with the formation of forest protection societies in villages and NGO’s. The future of Sariska reserve lies directly in protecting and reducing the high biotic pressure that affects this unique Aravalli habitat of the Indian tigers.

2. Declining biodiversity in the wonderful Australian Woodlands:
It is predicted that over the next 50 to 100 years there will be a wave of bird extinctions paralleling the loss of many Australian mammal species witnessed earlier this century. The reason for bird species decline is due to practices such as hunting, predation or competition from introduced species and due to loss of habitat. The present case study is related to temperate woodland ecosystems and the birds dependent on them for habitat. Impacts on bird populations provide typical examples of the indirect pressures on biodiversity. Woodlands are distinguished from coastal forests and semi-arid lands by less marked seasonal variations in temperature, lower extremes of rainfall and a longer growing season. Woodland birds have evolved in response to the year-round availability of food and the variety of habitat features such as tree hollows, peeling bark, nectar and other carbohydrates provided by the predominant eucalyptus plant species. The year-round supply of food also means the forests are linked to surrounding habitats, as they are suitable for migratory birds, breeding or when food is scarce elsewhere in times of drought. More than 25% of land bird species found in woodlands are in decline or threatened. The paradise parrot and star finch are extinct. Endangered species include Regent honeyeaters, bush stone-curlew, squatter pigeon, superb parrot, swift parrot, turquoise parrot, gray-crown babbler, painted honey-eater and black-throated finch. In total, 16 woodland-dependent or woodland-associated species are threatened and many more are in decline, as concepts of conservation of ecosystems have not been scientifically followed.