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Ecosystem

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Ashish Mahajan

investigatory project on ecosystem

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INTRODUCTION An ecosystem is a natural unit consisting of all plants, animals and micro organisms (biotic factors) in an area functioning together with all the physical (abiotic) factors of the environment. An ecosystem is a unit of interdependent organisms which share in same habitat. Ecosystems ecosystem usually form a number of food webs which shows the interdependence of the organisms within ecosystem. Ecosystem is also known as basic functional unit of ecology. An ecosystem needs only the input of sunlight energy for its functioning. The example of ecosystem is grassland, a forest, a desert, a mountain, a pond, a lake, a river and a sea. When we say that a pond or a lake is an ecosystem, then the word pond also include all the aquatic life (plants and animals) which occurs in the pond water. This is because the living organisms are found every where. Similarly when we say that a forest is an ecosystem then it means the physical environment of the forests like soil, air and water along with all the plants and animals which occur in forest. The desert, grassland, forest, crop field and mountains represents terrestrial ecosystem, where as pond, lake, river, sea and aquarium represent aquatic ecosystem.
TYPES OF ECOSYSTEM Ecosystems are of following types- a) Permanent and natural ecosystem-These ecosystems operate under natural conditions without the interference of human beings. These are of two types-  Terrestrial ecosystem-these operate on land example forests ecosystem, grassland and desert ecosystem.  Aquatic ecosystem-These operate in water and are again of two types:-  Fresh water ecosystem-Operate in ponds, lakes, rivers etc  Marine ecosystem-Operate in sea water having high salt concentration (3.5%) example open sea, coastal and estuaries. b) Artificial or anthropogenic ecosystem-These are main made ecosystem example cropland, space ecosystem, large dams, lakes canal, etc. A balanced aquarium is also an example of artificial ecosystem. COMPONENTS OF ECOSYSTEM The entire ecosystem is made up of two main components: abiotic components and biotic components. Abiotic components mean non living components and biotic components means living components. Thus we can say that the ecosystem consist of nonliving environment and the living biological community.  Abiotic components of an ecosystem-The abiotic components of an ecosystem or non-living components of an ecosystem include the physical environment like soil, water and air along with the inorganic substances
like carbon dioxide, nitrogen, oxygen, water, phosphorus and other elements present in them. The physical factors like light, temperature, pressure and humidity are also considered as abiotic components of the ecosystem  Biotic components of an ecosystem- The biotic components of an ecosystem or living component of ecosystem is a community of organisms like plants and animals which is made up of many different interdependent populations. The biotic community of an ecosystem includes three types of organisms: a) Producer organisms (autographs) which synthesize their own food. All the green plants are producers. b) Consumer organisms (heterotrophs) which are dependent on others for food. All animals are consumers c) Decomposer organisms (saprotrophs) which consume the dead remains of other organisms. Certain bacteria and fungi are decomposers FUNCTIONING OF AN ECOSYSTEM The ecosystem has non living components like soil, water and air which contain inorganic nutrient elements, and the living components called producer, consumer decomposer organisms. All this components make the ecosystem function as follows-from the nutrient pool of earth (soil, water and air) carbon dioxide and water are absorbed by the producer organisms (green plants).with the help of sunlight energy, the producer organisms convert this inorganic substances into organic compounds like carbohydrates which acts as a food. Thus, producers trap the solar energy and then provide
the basic food or energy for all other life in the ecosystem. The consumers derive their energy needs directly or indirectly from producers. When the producers and consumers die, then the decomposer organisms act on their dead bodies to return the various elements back to the nutrient pool (soil, water and air). Thus an ecosystem involves input of energy and matter which are exchanged between living and non living components PRODUCERS, CONSUMERS AND DECOMPOSERS According to the manner in which the organisms obtain their food from the environment, all of them can be divided into three groups: - producers, consumers and decomposers. 1) Producers: - The organisms which can produce food are called producers. Producers are the organisms which can prepare their own food from simple inorganic substances like carbon dioxide and water by using sunlight energy in the presence of chlorophyll. The examples of producers are green plants and certain blue green algae. The green plants synthesize their own food during photosynthesis by taking raw materials from the earth and the energy from the sun. The green plants produce carbohydrates by photosynthesis and also synthesize fats and proteins. Thus the green plants are called producers in the living world. Producers are the autotrophic organisms in the ecosystem upon which
other organisms depend for food. Thus, producers are autotrophs 2) .Consumers:- Those organisms which consume food prepared by producers are called consumers. The consumers depend on producers for food, directly or indirectly. The consumers get their food by eating other organisms or products. All the animals are consumers. Even the microscopic lives of water called protozoa are consumers. The example of common consumers are man, goat, deer, fish, lion, cow, buffalo etc. The cow and buffalo eat green grass and other green fodder because green grass and other green plants are producers of food. The bio mass of grass and plants supplies food and energy to these animals like cow and buffalo. The consumers like animals can not prepare food from simple inorganic substances through photosynthesis. The consumers need readymade food for their survival which they get from producers directly or indirectly. If an animal eats grass and other green plants or their products itself we can say that it gets the food from producers directly. It eats grass. On the other hand, if animals eat the meat of another animal then we can say that it gets the food from the producer indirectly. For example, a lion gets food by eating goat which in turns eats grass. So in the case the lion gets its food indirectly from the producer grass (through the goat). Consumers are also called hetrotrophs. Consumers can be further divided into three groups: herbivores, carnivores and omnivores.  HERBIVORES: - Some animals eat only plants. Those animals which eat only plants are called herbivores.
The herbivores may eat grasses, leaves, grains, fruits or the bark of the trees. Some of the examples of herbivores are: Cow, Buffalo, Goat, Sheep, Horse, Deer, Camel, Monkey, Rabbit etc. Cow is a herbivore because it eats only plants as food. Herbivores are also known as herbivorous animals. The animals which get their food by eating the producers directly are called primary consumers. Since herbivores obtain their food directly from plants, therefore herbivores are primary consumers.  CARNIVORES: - Some animals only eat other animal. They do not eat plant food at all. Those animals which eat only other animals as a food are called carnivores. The carnivores eat the meat of other animals. Some of the examples of carnivores are: Lion, Tiger, Vulture, Lizard, Snake, Wolf, Hawk etc. Lion is the carnivore because it eats only the meat or flesh of other animals like deer, rabbit, goat etc. carnivores are also known as carnivorous animals. The carnivores are usually of two types: small carnivores and large carnivores. The small carnivores which feed on herbivores (primary consumers) are called secondary consumers. For example, a grasshopper, rat, seed eating bird and frog, etc are secondary consumers. The large carnivores which feed upon the small carnivores (secondary consumers) are called tertiary consumers. For example lion, tiger, birds of prey and humans are some of the tertiary consumers.  OMNIVORES: - Some animals eat both, plants as well as other animals. Those animals which eat both, plants and animals are called omnivores. Some of the
examples of omnivores are: Dog, Crow, Sparrow, Bear, Mynah, Ant etc. Man is called an omnivore because he eats both, plant food (such as grains, pulses, fruits and vegetables) as well as meat of animals (such as goat, chicken and fish). Omnivores are also called omnivorous animals. 3) Decomposers: - the non green micro-organisms like some bacteria and fungi, which are incapable of producing their food, live on dead and decaying plants and animal bodies, and are consumers of special type, called decomposers. Thus we can say that the micro-organisms which break down the complex organic compounds present in the dead organisms like dead plants and animals and their products like faeces, urine, etc into simpler substances are called decomposers. The examples of decomposers are certain bacteria and fungi. The bacteria which act as decomposers are called putrefying bacteria. The bacteria and fungi act as decomposers by the secretions of their body surfaces which decompose the organic matter present in the dead plants and animals, into simpler substances and liberate ammonia, carbon dioxide etc. they absorb some of these simpler substances for their own maintenance and release the remaining into the soil, water and air to be used by the producers again. The decomposers are also known as micro-consumers or saprotrophs. INTERACTIONS BETWEEN BIOTIC AND ABIOTIC COMPONENTS OF ECOSYSTEM
Biotic and abiotic components of the ecosystem interact with one another and are interdependent example  The amount of annual rainfall greatly affects the vegetation as well as animal population of a particular area. Example tropical areas having plenty and uniform rainfall throughout the year are with evergreen forest while the areas with scanty rainfall have deserts with xerophytes vegetation. But the amount of rainfall also depends upon the forests which also affects the temperature and soil. More rain means more trees and more trees means more rainfall.  In the ecosystem, the living components i.e. the producers (plants), consumers (animals), decomposers (bacteria and fungi) also interact with one another for their production and consumption. These are related with one another through food chains in which there is repeated eating and eaten by so to transmit the food energy. So in a food chain there is a nutritive interaction between biotic components of an ecosystem. The various steps of food chain are called tropic levels example in a grazing food chain of grass land, grasses acts as producers and are autotrophic. These synthesis their own organic food by the process of photosynthesis. The grasses are taken up by the herbivores (primary consumers) like rabbit, deer, sheep, goat etc. and then by different kinds of carnivores involving repeated eating. The plants, herbivores and carnivores undergo natural death. Their dead bodies are decomposed by decomposers (bacteria and fungi) which return the chemicals nutrient to the environment from where these are reused by producers
Thus there is a perfect interaction between abiotic and biotic components which help in energy flow and material cycling. ENERGY FLOW Energy flow is the key function of an ecosystem. It is determined by two basic laws of thermodynamics. First law of thermodynamics states that energy is neither created nor destroyed, but can be transferred from one component to another, or transformed from one state to another .Second law of thermodynamics states that energy transformation is not cent percent as at each step, there occurs dissipation of energy due to metabolic functions like respiration, locomotion, biosynthesis etc.  Energy flow in a food chain – primary source of energy is sun which produces different types of electromagnetic radiations. Only a part of these radiations reaches the earth’s atmosphere in the form of light and heat. Light falling on leaves of the plants is trapped by the producers in the presence of green pigment chlorophyll and is used in assimilating the organic food (glucose) by the process of photosynthesis. The total food manufactured by the plants during photosynthesis is called Gross primary productivity (PG). On average, it is about 1-5 percent of incident radiations. A part of it is used by the plants in the process of respiration (R) while remaining energy is used in the synthesis of plant biomass and is called Net primary productivity (PN) or apparent photosynthesis. An
average it is about 0.8 to 4 percent energy incident radiations .So it is represented as – PN = PG - R NUTRIENT CYCLING (BIOGEOCHEMICAL CYCLE) Biogeochemical cycles are the cyclic pathways through which chemical element move from environment to organisms and back to environment. Such cycling is essential as the earth and its environment, with reference to these elements, are considered as closed system and there is no inflow of such elements form outside the earth and their amounts are limited. There are two types of biogeochemical cycles- a) Gaseous cycles – eg. Carbon, nitrogen and oxygen cycles. b) Sedimentary cycles- eg. Calcium, phosphorous and sulphur.  Carbon cycle-it is an example of gaseous cycles.  Significance – carbon is the basic component of all the organic compounds like carbohydrates, proteins, lipids, enzymes and nucleic acid of the protoplasm. In atmosphere, it is present as carbon dioxide.  Carbon dioxide utilization – carbon dioxide is utilized by the photosynthetic organisms like green plants, photosynthetic bacteria, diatoms and blue green algae in the process of photosynthesis. It occurs in the presence of chlorophyll and radiant
energy of sunlight. Glucose synthesized in photosynthesis is used to synthesized other organic compounds  Carbon dioxide production-  Carbon dioxide is released during respiration of both producers and consumers.  During decomposition of organic compounds of dead bodies.  During burning of fossil flues like wood, coal, petroleum etc.  Volcanic eruptions and hot springs.  During weathering of rocks by acids produced by micro organisms and roots of higher plants.  Phosphorus cycle – It is an example of sedimentary cycles  Significance-Phosphorus is the component of energy compounds like ATP, phospholipids of cellular membranes, bones, teeth and nucleic acids.  Phosphorus utilization-Reservoir pool of phosphorus is phosphate rocks which contain phosphate in combination with calcium and iron. The chemical weathering and erosion of phosphate rocks add the phosphate compounds into the soil. The plants absorb orthophosphate from the soil through their root system and utilize them in their metabolism. But a large part of phosphorus is lost to sea through fresh water bodies where most of it is lost by physical abortion and sedimentation. But a
part of this phosphate (only 0.5%) is added to the soil mainly thorough sea birds.  Phosphorus production-  During decomposition of dead bodies of plants and animals.  Phosphate fertilizers added to the soil to increase the soil fertility.  Excreta of marine birds, called guana, contain large amount of phosphorus` . BALANCE IN NATURE The food chains, energy flow and material or nutrient cycling are continuously going on all around us. In a forest, large number of plants grows. These plants are the sources of food and shelter for animals. There live the herbivores, carnivores and omnivores in the forests. The herbivores are produced in a large numbers. The carnivores and omnivores are produced in lesser numbers. So herbivores, which are the food for the rest, survive even after they are consumed in large numbers. Thus “The Balance in Nature” remains unaffected. If a link in this food chain is broken, then all the animals will have to die. If we decide to eliminate sparrows from our area by killing them one by one. Then the result of this action will be very harmful. We know that the crops are destroyed by insects. These insects become food of sparrows. When sparrows are killed, the insects will be on the rampage and the crops will be destroyed. And so this will affect the human beings and animals and this
lead to their death. By this example we come to know that:  Destroying any part of the food chain would disturb the balance in nature.  All forms of life not only depend upon one another, but also keep a check on all others. The whole process results in a balance, which exists in nature. This is called the Balance in Nature. CAUSES OF DESTRUCTION OF ECOSYSTEM Destruction of ecosystem is caused by interplay of many contributing factors:- 1) Changing pattern of land use: - Land is the basic natural resource which provides nourishment to the entire human population. There is changing pattern of land use in both the urban and rural areas. Urban land misuse is one of today’s most severe environmental concern due to which there is urban sprawl. In this trend, major cities get surrounded by wide rings of suburb where squatter built makeshift shelters on the unused land. These suburbs generally lack the basic facilities of water supply, drainage, roads, transport, etc and generally transforms into slums. Now residential colonies are being built at the cost of agriculture in the plains and forests in hilly areas these human activities causes land-degradation and desertification. Deforestation also causes loss of habitat of various animals and unfavorable change in the climate in the climate which increases their enhance of extinction
2) Population growth:- Presently worlds human populations more than 6 billion and is increasing at the rate of 70 million per year. Such a large growth rate of human population is called population explosion. India has 15.6%of the world population through it has only 2.42%of total land area of the world. In India about 60 million people added every year. Overpopulation causes many socio-economic problem like increase unemployment, increased industrialization, decreased availability of natural resources and basic needs of life, increased unhygienic condition, eco-degradation etc. So population pressure is a trade to nations well being and to its environment 3) Urbanization: - uncontrolled rise in human population forces a large number of rural people to migrate to towns and cities, called urbanization. Main reasons for urbanization are- better facilities for employment, education and medical-aid, most important being increased chances of employment. Some of the major problems associated with urbanization are-poor sanitation, improper municipal solid waste management or garbage disposal, decreased space for parks, green belts and payments, slum development etc. Other serious psychological health problems are depression, alcohol and drugs abuse, suicide etc. . 4) Migration-It involves the movement of people from an area with scarce resources to another area with plenty of resources. It is of two types:- a. Emigration in which the people move out of an area. b. Immigration in which the people enter a new area.
Human population is called an open population in which individuals undergo both immigration and emigration. Migration decreases the population size and density in an area of emigration while increases the population size and density in the area of immigration. Due to migration, the population ratio of different countries has changed. 5) Industrialization- To meet the increasing needs of rapidly growing human population, there was rapid increase in the number of industries which started about 1600AD called industrial revolution. Though industrialization has made many positive contributions in the economic growth of a country but the industrial wastes released in the forms of gaseous or particulate form in the air or liquid effluents in the water bodies or as solid wastes in the soil are responsible for many adverse health effects. Industrial effluents are the largest sources of water pollution. The industrial air pollutants causes environmental degradation and are responsible for respiratory disease like bronchitis, emphysema, asthma etc. the solid wastes of paper, cement, sugar textile, pesticides add solid wastes in the soil and causes soil pollution. A number of industrial accidents (eg. Bhopal gas tragedy of dec 1984) and nuclear accidents killed large number of human being. 6) Shifting cultivation-it is a unique farming system followed in certain tropical area where the soil is exhausted after continued cultivation of crops. In India this practice is followed more commonly in jhum forests of north-east. In this farming system forest land is cleared by falling trees and burning of trunks and
branches. After the land is cleared crops are grown for 2-3 years then the land is abundant as their fertility of soil decreases. The farmers then move into new areas and the process is repeated. This can lead to degradation. 7) Construction of large dams:- Big river valley projects like hirakud dam (Orissa), Bhakra nagal dam(Punjab), Tehri dam (Uttaranchal), Sardar sarovar project(Gujarat) have caused large scale destruction of ecosystem and displacement of local people. It is estimated that during the last 50 years, these dams have displaced more than 20 million people similarly, construction of Aswan dam in Egypt has decreased the fish harvesting by about two thirds 8) Mining:-Mining is the process of extraction of various ores from the earth’s crust and produces large amount of debris, causes loss of habitats and causes the displacement of native people. It is so due to accidents occurring in the mined area like subsidence of land that often leads to shifting of people example jharia coal fields of Jharkhand, there is a big problem to the local residents due to underground fires which necessitates the large scale evacuation of about 0.3 million population of jharia community which would require about 18000 crores while the cost for extinguish the fire would be around 8000 crores. IMPACT OF ECOSYSTEM DESTURCTION Ecosystem destruction adversely affects the people of the developed as well as developing countries but the persons who are most seriously affected by
environmental degradation in India are the poor. They are the first victims of poor sanitation, bad air, and contaminated water and scare natural resources. Some of ill effects of environmental degradation are the following:- i. Loss of habitat:- The entire tribal population and millions of other forests dwelling people depend on the forests for their very existence. Destruction of forests for various non-forestry activities like housing, agriculture, etc has caused the social cultural and economic destruction of the tribal population in particular. The important cause of loss of habitat is environmental pollution especially green house effect due to increasing load of GHG’s environmental pollution is also responsible for increased extinction of many species of flora and fauna. Other causes of habitat destruction are construction of river projects, minig etc. which cause displacement of local community which in turn, causes loss of land, job food, increased mortality and social isolation of the tribal. ii. Stress on natural resources:- Natural resources include both renewable and non- renewable resources of nature. By the end of 19th century, about 80% of India’s natural resources were common property resources is greatest in the tribal area, less in rural area and least in urban areas. Increasing human population associated with increased human needs and human activities have exerted tremendous stress on our heading towards depletion and man may find himself incapable to find their substitute. There is
ever increasing human dependency upon the natural resources for energy, building material, water, land forests etc. there is also persistent misuse of land and water resources which has also decreased the soil rejuvenation capacity and ground water recharge capacity. Similarly there is net loss of forests cover which offers natural habitats for other biological resources and also has ecological, meteorological and environmental importance. In 1997, India’s forests cover was less than 18% then the required 30% for ecological stability. Due to land abuse, it is estimated that about 60% of the world’s agricultural land is being afflicted with desertification. According to a UN estimated, if the deforestation continued at the same pace, then by 2010, about two-thirds of landmass may be desertification. CONSERVATION OF ECOSYSTEM Ecosystem refers to both abiotic and biotic components and involves the interrelationship between air, water and land including the human beings a stable ecosystem is a necessity for the survival and maintenance of life in an area. It provides us many essential goods like energy, water air, food etc to support. Destruction of ecosystem has many adverse effects on sustainable development. So it is the fundamental duty of every citizen to converse our ecosystem so that we may enjoy our fundamental rights of healthy environment. Conservation is the management of the bio-sphere in such a way that it may field the greatest sustainable
benefit to present generation while maintaining its potential to meet the needs and aspiration of future generations. Conservation has three objectives:-  To maintain essential ecological process and life supporting system.  To pressure the biodiversity and ecological balance in the ecosystem.  To ensure continuous use of species. This can be achieved by:- 1) Population stabilization: - As the land and other non renewable resources are finite and there is an upper limit to the capacity of the landmass and resources which shrink as the population increases, so the population must be stabilized. The future population growth should be related to the resources base in order to have sustainable development. Zero population growth holds the key to well being and prosperity of nation. It can be achieved through public awareness by environmental education programmes, increasing the marriage, sincere implementation of family planning programmes, increased use of contraceptives etc. 2) Control in air pollution: - control of air pollution by using lead free and sulphur fuel in the automobiles, installation of catalytic converters in the automobiles, afforestation and reforestation programmes, increased use of non- combustible sources of energy etc. these are some of the methods to control air pollution which is causing the destruction of ecosystem.
3) Control of water pollution: - This is also another type of pollution which causes destruction of ecosystem. Control of water pollution can be done by treating the industrial and sewage waste water in effluent treatment plants (ETPS) before their discharge in water bodies, judicious use of pesticides and fertilizers etc. 4) Proper land use: - land forms a basic site of number of human activities like agriculture, forestry, grasslands, urban and industrial development, transport etc and is one of the important components of life support systems. So there is an urgent need of integrated land use planning. Present croplands and grasslands must be kept in healthy condition otherwise pressure would be built for additional croplands which will be possible only at the cost of forests or many nomadic groups in the country when their grazing land will be transformed into agricultural land. Sufficient space should provided for waste treatment plants, oxidation ponds, land fills and other means of degrading or recycling wastes and water are some of the method that will help in proper land use. 5) Conservation of natural resources: - conservation of natural resources to avoid their scarcity. Conservation involves the management in such a way that a balanced cycle is maintained between their harvest and renewal. It usually lies into mantras of 3- R approach which demands-  Reduction in the use of raw materials.  Reuse of waste material.
 Recycling of materials. CONCLUSION Ecosystem is very important in our life, without it we cannot live. Ecosystem is a natural unit which consists of many biotic and abiotic factors. Since we know that population is growing day by day so it affects the ecosystem directly or indirectly. It also gives birth to many other problems like overuse of resource that may cause the exploitation of resource, water pollution, air pollution, land degradation and many other factors that affects the ecosystem. All this affect the ecosystem and lead to the destruction of ecosystem. And so we should try to control population growth which is the root cause of these problems which will help in the conservation of the ecosystem. So conservation of ecosystem is very important because “ECOSYSTEM IS VERY IMPORTANT FACTOR IN OUR LIFE”. REFERENCE  Holy Faith Environmental Education – IX  S.Chand - X

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Ecosystem

  • 1. INTRODUCTION An ecosystem is a natural unit consisting of all plants, animals and micro organisms (biotic factors) in an area functioning together with all the physical (abiotic) factors of the environment. An ecosystem is a unit of interdependent organisms which share in same habitat. Ecosystems ecosystem usually form a number of food webs which shows the interdependence of the organisms within ecosystem. Ecosystem is also known as basic functional unit of ecology. An ecosystem needs only the input of sunlight energy for its functioning. The example of ecosystem is grassland, a forest, a desert, a mountain, a pond, a lake, a river and a sea. When we say that a pond or a lake is an ecosystem, then the word pond also include all the aquatic life (plants and animals) which occurs in the pond water. This is because the living organisms are found every where. Similarly when we say that a forest is an ecosystem then it means the physical environment of the forests like soil, air and water along with all the plants and animals which occur in forest. The desert, grassland, forest, crop field and mountains represents terrestrial ecosystem, where as pond, lake, river, sea and aquarium represent aquatic ecosystem.
  • 2. TYPES OF ECOSYSTEM Ecosystems are of following types- a) Permanent and natural ecosystem-These ecosystems operate under natural conditions without the interference of human beings. These are of two types-  Terrestrial ecosystem-these operate on land example forests ecosystem, grassland and desert ecosystem.  Aquatic ecosystem-These operate in water and are again of two types:-  Fresh water ecosystem-Operate in ponds, lakes, rivers etc  Marine ecosystem-Operate in sea water having high salt concentration (3.5%) example open sea, coastal and estuaries. b) Artificial or anthropogenic ecosystem-These are main made ecosystem example cropland, space ecosystem, large dams, lakes canal, etc. A balanced aquarium is also an example of artificial ecosystem. COMPONENTS OF ECOSYSTEM The entire ecosystem is made up of two main components: abiotic components and biotic components. Abiotic components mean non living components and biotic components means living components. Thus we can say that the ecosystem consist of nonliving environment and the living biological community.  Abiotic components of an ecosystem-The abiotic components of an ecosystem or non-living components of an ecosystem include the physical environment like soil, water and air along with the inorganic substances
  • 3. like carbon dioxide, nitrogen, oxygen, water, phosphorus and other elements present in them. The physical factors like light, temperature, pressure and humidity are also considered as abiotic components of the ecosystem  Biotic components of an ecosystem- The biotic components of an ecosystem or living component of ecosystem is a community of organisms like plants and animals which is made up of many different interdependent populations. The biotic community of an ecosystem includes three types of organisms: a) Producer organisms (autographs) which synthesize their own food. All the green plants are producers. b) Consumer organisms (heterotrophs) which are dependent on others for food. All animals are consumers c) Decomposer organisms (saprotrophs) which consume the dead remains of other organisms. Certain bacteria and fungi are decomposers FUNCTIONING OF AN ECOSYSTEM The ecosystem has non living components like soil, water and air which contain inorganic nutrient elements, and the living components called producer, consumer decomposer organisms. All this components make the ecosystem function as follows-from the nutrient pool of earth (soil, water and air) carbon dioxide and water are absorbed by the producer organisms (green plants).with the help of sunlight energy, the producer organisms convert this inorganic substances into organic compounds like carbohydrates which acts as a food. Thus, producers trap the solar energy and then provide
  • 4. the basic food or energy for all other life in the ecosystem. The consumers derive their energy needs directly or indirectly from producers. When the producers and consumers die, then the decomposer organisms act on their dead bodies to return the various elements back to the nutrient pool (soil, water and air). Thus an ecosystem involves input of energy and matter which are exchanged between living and non living components PRODUCERS, CONSUMERS AND DECOMPOSERS According to the manner in which the organisms obtain their food from the environment, all of them can be divided into three groups: - producers, consumers and decomposers. 1) Producers: - The organisms which can produce food are called producers. Producers are the organisms which can prepare their own food from simple inorganic substances like carbon dioxide and water by using sunlight energy in the presence of chlorophyll. The examples of producers are green plants and certain blue green algae. The green plants synthesize their own food during photosynthesis by taking raw materials from the earth and the energy from the sun. The green plants produce carbohydrates by photosynthesis and also synthesize fats and proteins. Thus the green plants are called producers in the living world. Producers are the autotrophic organisms in the ecosystem upon which
  • 5. other organisms depend for food. Thus, producers are autotrophs 2) .Consumers:- Those organisms which consume food prepared by producers are called consumers. The consumers depend on producers for food, directly or indirectly. The consumers get their food by eating other organisms or products. All the animals are consumers. Even the microscopic lives of water called protozoa are consumers. The example of common consumers are man, goat, deer, fish, lion, cow, buffalo etc. The cow and buffalo eat green grass and other green fodder because green grass and other green plants are producers of food. The bio mass of grass and plants supplies food and energy to these animals like cow and buffalo. The consumers like animals can not prepare food from simple inorganic substances through photosynthesis. The consumers need readymade food for their survival which they get from producers directly or indirectly. If an animal eats grass and other green plants or their products itself we can say that it gets the food from producers directly. It eats grass. On the other hand, if animals eat the meat of another animal then we can say that it gets the food from the producer indirectly. For example, a lion gets food by eating goat which in turns eats grass. So in the case the lion gets its food indirectly from the producer grass (through the goat). Consumers are also called hetrotrophs. Consumers can be further divided into three groups: herbivores, carnivores and omnivores.  HERBIVORES: - Some animals eat only plants. Those animals which eat only plants are called herbivores.
  • 6. The herbivores may eat grasses, leaves, grains, fruits or the bark of the trees. Some of the examples of herbivores are: Cow, Buffalo, Goat, Sheep, Horse, Deer, Camel, Monkey, Rabbit etc. Cow is a herbivore because it eats only plants as food. Herbivores are also known as herbivorous animals. The animals which get their food by eating the producers directly are called primary consumers. Since herbivores obtain their food directly from plants, therefore herbivores are primary consumers.  CARNIVORES: - Some animals only eat other animal. They do not eat plant food at all. Those animals which eat only other animals as a food are called carnivores. The carnivores eat the meat of other animals. Some of the examples of carnivores are: Lion, Tiger, Vulture, Lizard, Snake, Wolf, Hawk etc. Lion is the carnivore because it eats only the meat or flesh of other animals like deer, rabbit, goat etc. carnivores are also known as carnivorous animals. The carnivores are usually of two types: small carnivores and large carnivores. The small carnivores which feed on herbivores (primary consumers) are called secondary consumers. For example, a grasshopper, rat, seed eating bird and frog, etc are secondary consumers. The large carnivores which feed upon the small carnivores (secondary consumers) are called tertiary consumers. For example lion, tiger, birds of prey and humans are some of the tertiary consumers.  OMNIVORES: - Some animals eat both, plants as well as other animals. Those animals which eat both, plants and animals are called omnivores. Some of the
  • 7. examples of omnivores are: Dog, Crow, Sparrow, Bear, Mynah, Ant etc. Man is called an omnivore because he eats both, plant food (such as grains, pulses, fruits and vegetables) as well as meat of animals (such as goat, chicken and fish). Omnivores are also called omnivorous animals. 3) Decomposers: - the non green micro-organisms like some bacteria and fungi, which are incapable of producing their food, live on dead and decaying plants and animal bodies, and are consumers of special type, called decomposers. Thus we can say that the micro-organisms which break down the complex organic compounds present in the dead organisms like dead plants and animals and their products like faeces, urine, etc into simpler substances are called decomposers. The examples of decomposers are certain bacteria and fungi. The bacteria which act as decomposers are called putrefying bacteria. The bacteria and fungi act as decomposers by the secretions of their body surfaces which decompose the organic matter present in the dead plants and animals, into simpler substances and liberate ammonia, carbon dioxide etc. they absorb some of these simpler substances for their own maintenance and release the remaining into the soil, water and air to be used by the producers again. The decomposers are also known as micro-consumers or saprotrophs. INTERACTIONS BETWEEN BIOTIC AND ABIOTIC COMPONENTS OF ECOSYSTEM
  • 8. Biotic and abiotic components of the ecosystem interact with one another and are interdependent example  The amount of annual rainfall greatly affects the vegetation as well as animal population of a particular area. Example tropical areas having plenty and uniform rainfall throughout the year are with evergreen forest while the areas with scanty rainfall have deserts with xerophytes vegetation. But the amount of rainfall also depends upon the forests which also affects the temperature and soil. More rain means more trees and more trees means more rainfall.  In the ecosystem, the living components i.e. the producers (plants), consumers (animals), decomposers (bacteria and fungi) also interact with one another for their production and consumption. These are related with one another through food chains in which there is repeated eating and eaten by so to transmit the food energy. So in a food chain there is a nutritive interaction between biotic components of an ecosystem. The various steps of food chain are called tropic levels example in a grazing food chain of grass land, grasses acts as producers and are autotrophic. These synthesis their own organic food by the process of photosynthesis. The grasses are taken up by the herbivores (primary consumers) like rabbit, deer, sheep, goat etc. and then by different kinds of carnivores involving repeated eating. The plants, herbivores and carnivores undergo natural death. Their dead bodies are decomposed by decomposers (bacteria and fungi) which return the chemicals nutrient to the environment from where these are reused by producers
  • 9. Thus there is a perfect interaction between abiotic and biotic components which help in energy flow and material cycling. ENERGY FLOW Energy flow is the key function of an ecosystem. It is determined by two basic laws of thermodynamics. First law of thermodynamics states that energy is neither created nor destroyed, but can be transferred from one component to another, or transformed from one state to another .Second law of thermodynamics states that energy transformation is not cent percent as at each step, there occurs dissipation of energy due to metabolic functions like respiration, locomotion, biosynthesis etc.  Energy flow in a food chain – primary source of energy is sun which produces different types of electromagnetic radiations. Only a part of these radiations reaches the earth’s atmosphere in the form of light and heat. Light falling on leaves of the plants is trapped by the producers in the presence of green pigment chlorophyll and is used in assimilating the organic food (glucose) by the process of photosynthesis. The total food manufactured by the plants during photosynthesis is called Gross primary productivity (PG). On average, it is about 1-5 percent of incident radiations. A part of it is used by the plants in the process of respiration (R) while remaining energy is used in the synthesis of plant biomass and is called Net primary productivity (PN) or apparent photosynthesis. An
  • 10. average it is about 0.8 to 4 percent energy incident radiations .So it is represented as – PN = PG - R NUTRIENT CYCLING (BIOGEOCHEMICAL CYCLE) Biogeochemical cycles are the cyclic pathways through which chemical element move from environment to organisms and back to environment. Such cycling is essential as the earth and its environment, with reference to these elements, are considered as closed system and there is no inflow of such elements form outside the earth and their amounts are limited. There are two types of biogeochemical cycles- a) Gaseous cycles – eg. Carbon, nitrogen and oxygen cycles. b) Sedimentary cycles- eg. Calcium, phosphorous and sulphur.  Carbon cycle-it is an example of gaseous cycles.  Significance – carbon is the basic component of all the organic compounds like carbohydrates, proteins, lipids, enzymes and nucleic acid of the protoplasm. In atmosphere, it is present as carbon dioxide.  Carbon dioxide utilization – carbon dioxide is utilized by the photosynthetic organisms like green plants, photosynthetic bacteria, diatoms and blue green algae in the process of photosynthesis. It occurs in the presence of chlorophyll and radiant
  • 11. energy of sunlight. Glucose synthesized in photosynthesis is used to synthesized other organic compounds  Carbon dioxide production-  Carbon dioxide is released during respiration of both producers and consumers.  During decomposition of organic compounds of dead bodies.  During burning of fossil flues like wood, coal, petroleum etc.  Volcanic eruptions and hot springs.  During weathering of rocks by acids produced by micro organisms and roots of higher plants.  Phosphorus cycle – It is an example of sedimentary cycles  Significance-Phosphorus is the component of energy compounds like ATP, phospholipids of cellular membranes, bones, teeth and nucleic acids.  Phosphorus utilization-Reservoir pool of phosphorus is phosphate rocks which contain phosphate in combination with calcium and iron. The chemical weathering and erosion of phosphate rocks add the phosphate compounds into the soil. The plants absorb orthophosphate from the soil through their root system and utilize them in their metabolism. But a large part of phosphorus is lost to sea through fresh water bodies where most of it is lost by physical abortion and sedimentation. But a
  • 12. part of this phosphate (only 0.5%) is added to the soil mainly thorough sea birds.  Phosphorus production-  During decomposition of dead bodies of plants and animals.  Phosphate fertilizers added to the soil to increase the soil fertility.  Excreta of marine birds, called guana, contain large amount of phosphorus` . BALANCE IN NATURE The food chains, energy flow and material or nutrient cycling are continuously going on all around us. In a forest, large number of plants grows. These plants are the sources of food and shelter for animals. There live the herbivores, carnivores and omnivores in the forests. The herbivores are produced in a large numbers. The carnivores and omnivores are produced in lesser numbers. So herbivores, which are the food for the rest, survive even after they are consumed in large numbers. Thus “The Balance in Nature” remains unaffected. If a link in this food chain is broken, then all the animals will have to die. If we decide to eliminate sparrows from our area by killing them one by one. Then the result of this action will be very harmful. We know that the crops are destroyed by insects. These insects become food of sparrows. When sparrows are killed, the insects will be on the rampage and the crops will be destroyed. And so this will affect the human beings and animals and this
  • 13. lead to their death. By this example we come to know that:  Destroying any part of the food chain would disturb the balance in nature.  All forms of life not only depend upon one another, but also keep a check on all others. The whole process results in a balance, which exists in nature. This is called the Balance in Nature. CAUSES OF DESTRUCTION OF ECOSYSTEM Destruction of ecosystem is caused by interplay of many contributing factors:- 1) Changing pattern of land use: - Land is the basic natural resource which provides nourishment to the entire human population. There is changing pattern of land use in both the urban and rural areas. Urban land misuse is one of today’s most severe environmental concern due to which there is urban sprawl. In this trend, major cities get surrounded by wide rings of suburb where squatter built makeshift shelters on the unused land. These suburbs generally lack the basic facilities of water supply, drainage, roads, transport, etc and generally transforms into slums. Now residential colonies are being built at the cost of agriculture in the plains and forests in hilly areas these human activities causes land-degradation and desertification. Deforestation also causes loss of habitat of various animals and unfavorable change in the climate in the climate which increases their enhance of extinction
  • 14. 2) Population growth:- Presently worlds human populations more than 6 billion and is increasing at the rate of 70 million per year. Such a large growth rate of human population is called population explosion. India has 15.6%of the world population through it has only 2.42%of total land area of the world. In India about 60 million people added every year. Overpopulation causes many socio-economic problem like increase unemployment, increased industrialization, decreased availability of natural resources and basic needs of life, increased unhygienic condition, eco-degradation etc. So population pressure is a trade to nations well being and to its environment 3) Urbanization: - uncontrolled rise in human population forces a large number of rural people to migrate to towns and cities, called urbanization. Main reasons for urbanization are- better facilities for employment, education and medical-aid, most important being increased chances of employment. Some of the major problems associated with urbanization are-poor sanitation, improper municipal solid waste management or garbage disposal, decreased space for parks, green belts and payments, slum development etc. Other serious psychological health problems are depression, alcohol and drugs abuse, suicide etc. . 4) Migration-It involves the movement of people from an area with scarce resources to another area with plenty of resources. It is of two types:- a. Emigration in which the people move out of an area. b. Immigration in which the people enter a new area.
  • 15. Human population is called an open population in which individuals undergo both immigration and emigration. Migration decreases the population size and density in an area of emigration while increases the population size and density in the area of immigration. Due to migration, the population ratio of different countries has changed. 5) Industrialization- To meet the increasing needs of rapidly growing human population, there was rapid increase in the number of industries which started about 1600AD called industrial revolution. Though industrialization has made many positive contributions in the economic growth of a country but the industrial wastes released in the forms of gaseous or particulate form in the air or liquid effluents in the water bodies or as solid wastes in the soil are responsible for many adverse health effects. Industrial effluents are the largest sources of water pollution. The industrial air pollutants causes environmental degradation and are responsible for respiratory disease like bronchitis, emphysema, asthma etc. the solid wastes of paper, cement, sugar textile, pesticides add solid wastes in the soil and causes soil pollution. A number of industrial accidents (eg. Bhopal gas tragedy of dec 1984) and nuclear accidents killed large number of human being. 6) Shifting cultivation-it is a unique farming system followed in certain tropical area where the soil is exhausted after continued cultivation of crops. In India this practice is followed more commonly in jhum forests of north-east. In this farming system forest land is cleared by falling trees and burning of trunks and
  • 16. branches. After the land is cleared crops are grown for 2-3 years then the land is abundant as their fertility of soil decreases. The farmers then move into new areas and the process is repeated. This can lead to degradation. 7) Construction of large dams:- Big river valley projects like hirakud dam (Orissa), Bhakra nagal dam(Punjab), Tehri dam (Uttaranchal), Sardar sarovar project(Gujarat) have caused large scale destruction of ecosystem and displacement of local people. It is estimated that during the last 50 years, these dams have displaced more than 20 million people similarly, construction of Aswan dam in Egypt has decreased the fish harvesting by about two thirds 8) Mining:-Mining is the process of extraction of various ores from the earth’s crust and produces large amount of debris, causes loss of habitats and causes the displacement of native people. It is so due to accidents occurring in the mined area like subsidence of land that often leads to shifting of people example jharia coal fields of Jharkhand, there is a big problem to the local residents due to underground fires which necessitates the large scale evacuation of about 0.3 million population of jharia community which would require about 18000 crores while the cost for extinguish the fire would be around 8000 crores. IMPACT OF ECOSYSTEM DESTURCTION Ecosystem destruction adversely affects the people of the developed as well as developing countries but the persons who are most seriously affected by
  • 17. environmental degradation in India are the poor. They are the first victims of poor sanitation, bad air, and contaminated water and scare natural resources. Some of ill effects of environmental degradation are the following:- i. Loss of habitat:- The entire tribal population and millions of other forests dwelling people depend on the forests for their very existence. Destruction of forests for various non-forestry activities like housing, agriculture, etc has caused the social cultural and economic destruction of the tribal population in particular. The important cause of loss of habitat is environmental pollution especially green house effect due to increasing load of GHG’s environmental pollution is also responsible for increased extinction of many species of flora and fauna. Other causes of habitat destruction are construction of river projects, minig etc. which cause displacement of local community which in turn, causes loss of land, job food, increased mortality and social isolation of the tribal. ii. Stress on natural resources:- Natural resources include both renewable and non- renewable resources of nature. By the end of 19th century, about 80% of India’s natural resources were common property resources is greatest in the tribal area, less in rural area and least in urban areas. Increasing human population associated with increased human needs and human activities have exerted tremendous stress on our heading towards depletion and man may find himself incapable to find their substitute. There is
  • 18. ever increasing human dependency upon the natural resources for energy, building material, water, land forests etc. there is also persistent misuse of land and water resources which has also decreased the soil rejuvenation capacity and ground water recharge capacity. Similarly there is net loss of forests cover which offers natural habitats for other biological resources and also has ecological, meteorological and environmental importance. In 1997, India’s forests cover was less than 18% then the required 30% for ecological stability. Due to land abuse, it is estimated that about 60% of the world’s agricultural land is being afflicted with desertification. According to a UN estimated, if the deforestation continued at the same pace, then by 2010, about two-thirds of landmass may be desertification. CONSERVATION OF ECOSYSTEM Ecosystem refers to both abiotic and biotic components and involves the interrelationship between air, water and land including the human beings a stable ecosystem is a necessity for the survival and maintenance of life in an area. It provides us many essential goods like energy, water air, food etc to support. Destruction of ecosystem has many adverse effects on sustainable development. So it is the fundamental duty of every citizen to converse our ecosystem so that we may enjoy our fundamental rights of healthy environment. Conservation is the management of the bio-sphere in such a way that it may field the greatest sustainable
  • 19. benefit to present generation while maintaining its potential to meet the needs and aspiration of future generations. Conservation has three objectives:-  To maintain essential ecological process and life supporting system.  To pressure the biodiversity and ecological balance in the ecosystem.  To ensure continuous use of species. This can be achieved by:- 1) Population stabilization: - As the land and other non renewable resources are finite and there is an upper limit to the capacity of the landmass and resources which shrink as the population increases, so the population must be stabilized. The future population growth should be related to the resources base in order to have sustainable development. Zero population growth holds the key to well being and prosperity of nation. It can be achieved through public awareness by environmental education programmes, increasing the marriage, sincere implementation of family planning programmes, increased use of contraceptives etc. 2) Control in air pollution: - control of air pollution by using lead free and sulphur fuel in the automobiles, installation of catalytic converters in the automobiles, afforestation and reforestation programmes, increased use of non- combustible sources of energy etc. these are some of the methods to control air pollution which is causing the destruction of ecosystem.
  • 20. 3) Control of water pollution: - This is also another type of pollution which causes destruction of ecosystem. Control of water pollution can be done by treating the industrial and sewage waste water in effluent treatment plants (ETPS) before their discharge in water bodies, judicious use of pesticides and fertilizers etc. 4) Proper land use: - land forms a basic site of number of human activities like agriculture, forestry, grasslands, urban and industrial development, transport etc and is one of the important components of life support systems. So there is an urgent need of integrated land use planning. Present croplands and grasslands must be kept in healthy condition otherwise pressure would be built for additional croplands which will be possible only at the cost of forests or many nomadic groups in the country when their grazing land will be transformed into agricultural land. Sufficient space should provided for waste treatment plants, oxidation ponds, land fills and other means of degrading or recycling wastes and water are some of the method that will help in proper land use. 5) Conservation of natural resources: - conservation of natural resources to avoid their scarcity. Conservation involves the management in such a way that a balanced cycle is maintained between their harvest and renewal. It usually lies into mantras of 3- R approach which demands-  Reduction in the use of raw materials.  Reuse of waste material.
  • 21.  Recycling of materials. CONCLUSION Ecosystem is very important in our life, without it we cannot live. Ecosystem is a natural unit which consists of many biotic and abiotic factors. Since we know that population is growing day by day so it affects the ecosystem directly or indirectly. It also gives birth to many other problems like overuse of resource that may cause the exploitation of resource, water pollution, air pollution, land degradation and many other factors that affects the ecosystem. All this affect the ecosystem and lead to the destruction of ecosystem. And so we should try to control population growth which is the root cause of these problems which will help in the conservation of the ecosystem. So conservation of ecosystem is very important because “ECOSYSTEM IS VERY IMPORTANT FACTOR IN OUR LIFE”. REFERENCE  Holy Faith Environmental Education – IX  S.Chand - X