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Thursday, 13 December 2018


Chapter Natural Resources

Chapter Natural Resources

NATURAL RESOURCES
Rain
Rain is formed by evaporation and condensation of water through water cycle in. 
Acid Rain
Acid rain is caused by the release of the gases like SO2 (sulphur dioxide) and NO2(nitrogen dioxide) released from the emission of vehicles and combustion of fuels. These gases dissolve in rain water to form nitric acid and sulphuric acid.
Water
Water is renewable resource.
It is essential for all physiological activities of plants and animals.
Water is mainly present in two forms:
(i) Surface water
(ii) Ground water.
Water Pollution
An undesirable change in the physical, biological or chemical properties of water (due to addition for foreign organic, inorganic substances) that adversely affects the aquatic life, and makes water less fit or unfit for use, is called water pollution.
The main causes of water pollution are as follows:
(i) Addition of harmful substances like fertilisers and pesticides to water
(ii) Removal of desirable substances like oxygen from water
(iii) Change in water temperature
Soil
It is the uppermost layer of Earth’s crust, which supports terrestrial plants, animals and microorganisms.
It is formed from the weathering of rocks by physical, chemical and biological activities by the action of wind, water and sun.
It is made up mainly of mineral particles, organic materials, air, water and living organisms
Humus : The decayed living organisms present in soil is called humus.
Humus makes the soil porous and allows water and air to penetrate deep underground making the soil more fertile.
Soil pollution :
Removal of useful components from the soil and addition of other substances, which adversely affect the fertility of the soil and kill micro-organisms living in it is called soil pollution.
Fertilizers and pesticides destroy the soil structure.
Mosses or Bryophytes are indicator of soil pollution.
Soil Erosion
Removal of topmost layer of soil by wind, water or other activities is called soil erosion.
Causes of soil erosion
Main factors responsible for the soil erosion are:
Over grazing of land.
Removal of top soil by wind (storms) and water (floods).
Deforestation
Leaving land uncultivated for long time.
Effects of Soil Erosion:
Loss of fertility due to loss of topmost fertile soil which results in desertification.
Landslides in hilly areas.
Clogging of water drains and water reservoirs by the washed off soil.
Prevention of Soil Erosion:
Soil can be prevented from getting eroded by implementing the following methods:
Intensive cropping.
Terrace farming.
Aforestation
Making strong embankments along the river banks.
Chipko Movement
It was a movement started to conserve forests.
The movement was led by Shri. Sunder Lal Bahuguna in Garhwal Himalayas.



Biogeochemical cycles
A constant interaction between biotic and abiotic components of the biosphere makes a system and these flow of components form a cycle called biogeochemical cycle.
Some prominent cycles in nature are described below:
1. Water cycle
The whole process in which water evaporates and falls on the land as rain and later flows back into the sea via rivers is known as the water-cycle.
Main steps involved in water cycles are:
a. Evaporation: Water on earth changes to vapour due to sun’s heat and rises above.
b. Transpiration: Plants absorb water through the roots and then give off excess water in the form of vapor through pores in their leaves.
c. Respiration: It is a process in living organisms involving the production of energy, with the intake of oxygen and the release of carbon dioxide along with water vapour.
d. Precipitation: It is the process of condensation of water vapour in atmosphere into liduid which fall down in the form of rain, snow, sleet or hail.
e. Percolation and Absorption: Some of the precipitation soaks into the ground to reach the underground water, some on leand gets absorbed by the plants, crops and trees to grow and the rest downhill as runoff to reach the seas to complete the whole water cycle.
2. Nitrogen cycle
The sequence in which nitrogen passes from the atmosphere to the soil and organisms, and then is eventually released back into the atmosphere, is called nitrogen cycle.
Nitrogen cycle involves following processes:
a. Nitrogen Fixation
It is a processes by which atmospheric nitrogen is converted into the form which can be easily absorbed the organisms on earth.
Nitrogen Fixation is carried out by following ways:
By lightning: When lightning occurs, the high temperature and pressure convert nitrogen and water into nitrates and nitrites which get dissolved in water and are readily used by aquatic plants and animals.
By bacteria- Molecular nitrogen is converted into nitrates and nitrites by free living bacteria or the bacteria like Rhizobium present in the root nodules of legumes. Some bacteria convert the nitrogen gas (N2) to ammonia (NH3) which plants can use.
b. Nitrification: It is the process by which ammonia is converted into nitrites and nitrates.
c. Ammonification: It is the process by which soil bacteria decompose dead organic matter and release ammonia into soil.
d. Denitrification: It is the process by which nitrates are converted into atmospheric nitrogen back to complete the cycle.
3. Carbon cycle
Image result for carbon cycle
The carbon cycle is the process by which carbon moves from the atmosphere into the Earth and its organisms and then back again.
Carbon cycle involves the following processes:
 Photosynthesis : In this process plants form their food by absorbing the atmospheric carbon in the form of carbondioxide gas and release oxygen gas.
Respiration:  In this process plants and animals respire resulting in breakdown of glucose stored in the plants and animals to release CO2, water and energy.
Decomposition: In this process dead plants and animals get decomposed to release carbon into the environment.
Combustion: Burning of fossil fuels releases carbon dioxide gas into the environment as by product.
Movement of carbon from the atmosphere to the oceans: The oceans, and other water bodies, soak up about a quarter of the carbon dioxide to form carbonates.
Thus, the amount of carbon –dioxide, so formed, is almost equal to the amount of carbon dioxide consumed & hence, its concentration in air remains same.
4. Oxygen cycle
Simple diagram of the oxygen cycle
The cyclic process by which oxygen element is circulated continuously through the living and non-living components of the biosphere constitutes oxygen cycle.
Oxygen cycle involves the following processes:
a. Respiration: All living organisms take in simple sugars (glucose) and oxygen and release carbon dioxide, water and energy.
b. Combustion: During the processes of combustion (or burning), oxygen reacts with carbon to form carbon dioxide gas.
c. Photosybthesis: Carbondioxide gas from atmosphere is absorbed by green plants in the presence of sunlight to form carbohydrates and oxygen. Thus, oxygen is liberated in atmosphere.
Green House Effect
Greenhouse gases such as carbon dioxide, methane, nitrogen oxide and Chlorofuorocarbans present in atmosphere prevents the escape of heat falling on Earth’s surface rather than absorbing it. This keeps the Earth warm and the phenomenon is known greenhouse effect.
Ozone layer :
Three molecules of oxygen combine to form ozone which forms a layer in stratosphere.
It acts as a protective shield as it prevents harmful ultraviolet radiations to reach the earth.
Compounds like CFCs (Chloro fluorocarbons) reacts with ozone releasing molecular oxygen resulting in breakdown of ozone, which is termed as ozone depletion.