Download
1 / 93
E N D
MODULE 2: NATURAL RESOURCES Natural resources are natural assets (raw materials) occurring in nature that can be used for economic production or consumption. Water, air, soil, minerals, forest, wildlife are all example of natural resources. Natural resources are divided into two broad category: Renewable resources: These resources have the capacity to regenerate themselves within a given span of time. For example plant and animal species have the capacity of reproduce so any loss due to natural or artificial causes can be replaced with the new one. Example of renewable resources are: Forest, wildlife, wind energy, tidal energy, solar energy, water energy etc. Non-renewable resources: For these resources generation time is too long, for example production of coal, mineral oil, mineral ores takes several thousand years, so if they exploited on large scale its not easy to replace them. Example of non-renewable resources are: coal, petroleum, minerals etc. However renewable resources can also turn into non-renewable resources if the rate of exploitation or consumption exceeds their rate of regeneration. Examples: ground water depletion, extinction of plants and animals, fertile soil , forest.
Problem associated with natural resource: Overexploitation: leads to depletion and degradation of natural resources. Example: fish catch, ground water, forest Pollution: due to pollution resource usefulness reduces. Example: fresh water, soil Major Natural resource: Forest resource Water resource Mineral resource Food resource Energy resource Land resource
Forest resources: Are most important resource in term of providing material goods along with ecological services. Definitions: The Food and Agriculture Organization of the United Nations (FAO): forest which includes a minimum threshold for the height of trees (5 m), at least 10 per cent crown cover (canopy density deter mined by estimating the area of ground shaded by the crown of the trees) and a minimum forest area size (0.5 hectares). The United Nations Framework Convention on Climate Change (UNFCCC): 0.01-1.0 hectares for minimum area, 2-5 meters for minimum tree height and 10-30 per cent for minimum crown cover. MOEF: Forest cover in India is defined as all lands, more than one hectare in area with a tree canopy density of more than 10%.
How Are Forests Classified Climate: Temperature (e.g. boreal, temperate, subtropical, tropical) Moisture (rain forest, monsoon forests, dry forests) Seasonality: Deciduous vs. Evergreen Leafing Strategy: Broadleaved vs. Needle-leaved In total 28 type of forest class are present in the world. Tropical forest : Asia, Australia, South America, Africa, Pacific Caribbean Temperate: North America, Western and Central Europe, NE Asia Boreal: Eurasia, Siberia,
Forest cover in India: The total forest cover of the country (2007 assessment) is 690,899 km2 and this constitutes 21.02 percent of the geographic area of the country. Very Dense Forest (tree cover of canopy density of 70% and above), Moderately Dense Forest (tree cover of canopy density between 40% to 70%), Open forest (tree cover of canopy density between 10% to 40%), Scrub (tree cover of canopy less than 10%)
Uses of Forest Resource: Forest resources are useful in term of goods (commercial and consumptive) and environmental services: Consumptive and commercial use: • Timber Extraction: Used for the construction, industrial uses, paper and pulp industry etc. Japan is the largest timber importer in the world and is responsible for the deforestation in tropical and temperate forest.
Fuel wood and charcoal for heating and cooking purpose: Fuel wood still support the need of energy in rural part of India. • Fodder for cattle: India has the largest livestock population in the world, with 485 million head of livestock, many of them raised by small and marginal farmers who depend on grazing land to meet the fodder requirements of their animals.
Minor forest produce (NTFPs): Forest are also an important source of NTFPs which play an important role in the livelihoods and resilience of rural communities and in some of India’s poorest regions, NTFPs contribute up to 60 percent of household income.” NTFP included variety of items—animal products like hides, horns, silk cocoons, ivory; bamboo and about 3000 plant species even by official definition, including canes, drugs, spices, fibers, flosses, grasses, gums, resins and oleoresins, lac, tans, dyes, vegetable oils and oil seeds, leaves, minor minerals like mica, lime, shells etc., and edible items . Environmental Services provided by Forest: • Production of oxygen: called as earth’s lungs. Produce oxygen during the photosynthesis process, which is vital for life on this earth. • Reducing global warming: green house gas CO2 is absorbed by forest as a raw material for the photosynthesis. • Wildlife habitat : Homes of million of wild animal and plant. Tropical forest alone host 7 million species.
Watershed Protection: reduce the rate of surface run-off of water, so prevent the flash flood and soil erosion and also ensure prolonged run-off so maintaining the water flow in streams and river. • Soil conservation: due to dense root mat in the forest system soil are strongly bind thus prevent their erosion due to wind or rain. In the costal areas mangroves protect land form erosion due to strong ocean current. • Pollution moderator: Forest have the capacity of absorbing toxic gases mainly VOCs and also can also absorb noise thus help in preventing air and noise pollution. • Aesthetic importance: Its lush green and pollution free environment make them a perfect tourist destination. Forests are now generating large amounts of revenue in various countries across the globe in response to the development of tourist industry. • Cultural and religious importance: Many of the tribal consider forests and its trees as abode of deities known as Sacred Grooves. They also worship trees and animals of forests. Thus, they are dependent on forests not only for their food and energy demands but also for the sustenance of their diverse cultural and religious beliefs. Example: Gumpa Forests in Sikkim and Arunachal Pradesh.
Problem associated with the forest resource: Over exploitation of forest resources: • Forest resource in India are over exploited due to which total forest cover area in India is lower than the required forest cover of 33%. • Very little Indian forest are pristine due to large scale human exploitation. Due to this exploitation tropical evergreen forest cover is now only reduced to Coastal western Ghat and Northeast India. Major causes: Increase in population: The population of India has grown from 361 million in 1951 to 846 million in 1991 and crossed the one billion mark on 11th May, 2000 and would grow further to 1.7 billion by 2050 as per the UN's long -range projections for India.
DECLINING PER CAPITA AVAILABILITY OF FOREST AREA IN INDIA: As the per capita area of forest decrease it deplete resource much faster
Increase in urban and metropolis areas: As the number of city increase it increase the demand for the timber for construction and industrial purpose resulting into degradation of forest resource. • Increase pace of developmental project: After independence development projects such as road construction, Mining activity, thermal power plant were sanction in large number which also resulted into depletion of forest resource. Deforestation: Definition: United Nations Framework Convention on Climate Change2001 defined as the direct human-induced conversion of forested land to non-forested land Food and Agriculture Organization2001 The conversion of forest to another land use or the long-term reduction of the tree canopy cover below the minimum 10 percent threshold.
Causes of deforestation: • Shifting cultivation: Shifting cultivation, also referred to as forest agrarian system, has been widely practiced by hill communities in Asia, Africa, and Latin America since the Neolithic period (13,000 to 3,000 BC). The practice is characterized by a cultivationphase, which involves clearing of primary or secondary forest and crop cultivation for one to three years, followed by a fallow phase, during which cultivation is suspended to allow recovery of soil fertility. In India this practice is common in North-east, Andhra Pradesh, Bihar and Madhya Pradesh. • Growing Food needs: Conversion of forest land to agricultural land is major cause of deforestation in developing country. • Raw material for industrial use: with the increase in population demand for wood for making boxes, furniture, railway-sleeper, plywood, match-boxes, pulp for paper industry has increased. Overgrazing: illegal grazing and overgrazing in forest tracks has also been primarily responsible for forest degradation in India. India's livestock population has increased from 228 million in 1951 to 336 million in 1992 and is projected to cross 500 million by the end of 2000.
Development projects: Massive destruction of forest occurs for various development projects such as hydroelectric projects, big dams, road construction and mining.
Major consequences of Deforestation: • Biodiversity loss: forest host large number of plant and animal and deforestation leads to their extinction due to habitat loss. • Loss of CO2 sink: due to deforestation the stored carbon in the forest released into atmosphere which further enhance the global warming problem. • Watershed depletion: due to loss of forest area, risk of flash flood increases, it also reduces the amount of ground water recharge their by reducing the amount of fresh water. • Problem of soil erosion and loss of soil fertility increases due to loss of forest area. Case studies: Desertification in Hilly regions of the Himalayas Disappearing tea garden in Chhota Nagpur Waning rainfall in Udhagamandalam (Ooty)
Forest (conservation) Act,1980 This act was formulated to check indiscriminate dereservation and diversion of forest land to non- forest purpose. The main point in this act: • Prior permission from central government before any forest land is diverted to non-forest purpose. • If diversion is permitted, compensatory afforestation is insisted upon. If non-forest land is available then afforestation be raised over equivalent area of non forest land. In case of non-aviability of non-forest land plantation will be done degraded forest twice in extent of diverted land. Amendment in 1988 for including stricter panel provision against violators Joint Forest Management (JFM): National forest policy of 1988 formulated the JFM, where local village community and the forest department work in co-ordination to protect and conserve forest resource. In the guideline issued in 2000 by MOEF, at least 25% of income from the area must go to the community . Until 2002, there were 63,618 JFM committees managing over 140,953sq km of forest in 27 state in India.
Social forestry: It includes • Creation of woodlots in the village common land, government waste land and panchayat land (estimated at least 12 mha) • Planting trees on the side of roads, canals and railways (1mha) • Afforestation of degraded government forest in close proximity to village (10mha) • Planting of trees on and around agricultural boundaries and on marginal, private lands, constituting farm forestry, or agro-forestry(143 mha).
Water resources: Water is an indispensable natural resource on which all life depend, about 70% of earth surface is covered with water and most of the animal and plants have 60-65% water in their body. Distribution of water on earth surface:
Water: a unique resource Water is characterize by certain features which make it a marvelous resource: exist as a liquid over a wide range of temperature i.e. from 0°C to 100°C. High specific heat, due to which it warms up and cool down slowly without causing shocks of temperature jerks to the aquatic life. Water is called the "universal solvent" because it dissolves more substances than any other liquid. It can serve as a very good carrier of nutrient which are essential for the aquatic biota. Due to high surface tension and cohesion , it has the capillary effect which help it in the movement through great heights through the trunk of the tree. As it freezes, its density become lower. Being lighter ice keeps floating , whereas the bottom water remains at a higher temperature and therefore, can sustain aquatic organism even in extreme cold.
Hydrological Cycle: Earth's water is always in movement, and the natural water cycle, also known as the hydrologic cycle, describes the continuous movement of water on, above, and below the surface of the Earth.
Water Uses: Water is used for drinking, irrigation, transportation, washing and waste disposal and as coolant for thermal power plant and other industries. India water use World water use
Type of water resource: Ground water: Groundwater is the major source of fresh water and usually considered as more clean than the surface water however in recent decade fertilizer and pesticide originating from the agricultural lands and heavy metal from landfill sites are major ground water pollutant. Ground water are mainly withdraw from aquifers. Aquifers: derive from Latin words, "Aqua" (water), and "fer" (to carry). An aquifer is a sub-surface geologic formations (solid rock and/or unconsolidated sediments) that contains ground water in sufficient quantities to be used, or have the potential to be used, for drinking water supply or for commercial, industrial or agricultural purposes. Three type of aquifers are their: Unconfined aquifer: Overlaid by permeable earth materials and they can be recharged by water seeping down from above in the form of rainfall or snow melt. Confined aquifer: are confined between two impermeable layers of rock or sediment and are recharged only in the those areas where the aquifer intersect the land surface. Perched aquifer: water get trapped between impermeable structure, no recharge takes place in these aquifer.
Effects of overexploitation of Ground water: Subsidence: When the rate of withdrawal is more than its recharge rate, the sediment in the aquifer get compacted and results into the ground subsidence. Examples: The north china plains, Farrukhabad district , U.P. Lowering of water table: Lowering of water table in semi-arid and arid region due to overexploitation and lower recharge rate is very common phenomenon. Example: Delhi and Punjab region showed lowering of ground water level. Sea water intrusion: especially occurs in costal areas, where salt water front move further in land due to excess pumping of ground water. Costal area of Gujarat and Tamil Nadu faces this problem. Low supply to river and wetlands: Ground water is important source of water to the perennial rivers especially in the non-monsoon season, overexploitation results into lowering of water table thus reducing the supply of water to river or wetland areas. Water logging and salinity: common problem in intensive agricultural areas, where farmer applied excess water on the land results into raising of water table and subsequently water logging and increase salinity. Occurs in Punjab regions.
Surface water: The part of precipitation which does not percolate down or get evaporated to atmosphere forms the surface water mainly in the form of stream, lake, ponds, wetlands or artificial reservoir. It serves multiple purpose such as provide water for domestic, industrial and irrigation purpose, navigation and electricity generation, provide habitat for aquatic species. Availability of surface water resources depends upon two precipitation phenomenon: Floods: Most of the rainfall is concentrated into 4 months of monsoon season characterize by heavy rainfall resulting into increased river discharge sometime exceeding the capacity of river channel to hold such amount of water which cause the flooding of floodplain and nearby areas. As per the Geological Survey of India (GSI), the major flood prone areas of India cover almost 12.5% area of the country. In India major flood prone area are categories into: Ganga Basin: West Bengal, Bihar and Uttar Pradesh are mainly prone to flood every year. Main river basins are: Ganga, Rapti, Gandak, Ghagra, Mahananda, Bhagirathi, Damodar, Bagmati, Gandak, Kamla etc. Brahmaputra and Barak Basins: West Bengal, Assam and Sikkim. Main river basins are Brahmaputra, Barak, Jaldakha, Teesta and Torsa river etc.
Central India and Deccan Rivers Basin: Andhra Pradesh, Odisha and Tamil Nadu. Main river basins are: Narmada, Godavari, Tapi, Krishna and Mahanadi. Flood Prevention Non Structural Measures: Flood Plain Zoning: Flood Forecasting and warning Structural Measures: 1) Construction of Embankments and levees. Watershed Management Artificial reservoir through dam construction
Droughts: Drought may be defined as an extended period – a season, a year or more – of deficient rainfall relative to the statistical multi-year average for a region. Type of Drought: Metrological drought: According to the India Meteorological Department (IMD), meteorological drought occurs when the seasonal rainfall received over an area is less than 75% of its long-term average value. Agricultural drought: insufficient soil moisture to meet the needs of a particular crop at a particular point in time. Hydrological drought: deficiency in surface and sub-surface water supply. It is measured as stream flows and also as lake, reservoir and groundwater levels. Causes of Drought: 1) Erratic rainfall during monsoon: The southwest monsoon denotes the rainfall received between the months of June and September and accounts for around 74% of the country's rainfall. 2) Reckless over-exploitation of surface and groundwater: for agricultural areas results into drought like situation. Selection of high water requiring plants such as sugarcane also resulted into drought into many part of Maharashtra.
3) Deforestation: Deforestation leads to drought as forest protect the watershed thus ensures greater availability of water, less soil erosion, more rainfall, flood and landslide control, etc. 4) Climate change: Climate change also aggravate the problem of drought due to increases uncertainty in the monsoon pattern due to frequent occurrence of El Nino events. Consequences of Drought: Impact on crop production: Drought has detrimental effect on the crop production. Food grain production dipped by 29 million tonnes to 183 million tonnes in 2002.(212 million tonnes in 2001). Impact on water resources: In nine of the 10 drought-affected states, over 50% of wells experienced a drop in groundwater levels. It also affects the water availability in the surface reservoir for useful purpose. Impact on cattle and fodder: Water and fodder shortages during a drought situation cause considerable stress to small and marginal farmers, as they own a bulk of the bovine population. Impact on the power situation: Hydroelectric power stations contribute 25% of the total power generated in the country (2001), a fall from 41% in 1961. Any stress on the water situation, as in a drought, can have serious consequences, especially in states already battling a power deficiency.
Mitigation measures for droughts: 1) Development of early warning and expert systems: By using modeling to predict monsoon behavior and also to measure available water resource in a particular area. 2) Integrated watershed management rainwater harvesting: for proper management of water resource and to increase available pool of water for useful purpose. 3) Soil and crop management approaches: proper soil conservation methods to stop soil erosion and nutrient management with suitable agricultural and irrigational practice such as crop rotation, drip irrigation methods. Some examples: Ralegan Siddhi: villagers built check dams and tanks. To conserve soil they planted trees. The result: from 80 acres of irrigated area two decades ago, Ralegan Siddhi has a massive area of 1300 acres under irrigation. 2) Tarun Bharat Sangh: The work of Tarun Bharat Sangh, and it's founder Rajendra Singh in the districts of Rajasthan can easily be over-simplified as water-shed management whereas, it is in fact a revolution in regenerating life and society in denuded and deserted lands.
Water resource dispute: Water resource especially surface water sources such as rivers often cross more than one nations or states giving rise to dispute related to its distribution. Some of the major disputes are: Water conflict in the Middle east: Mainly related to the distribution of three major river basins, name Jordan, Tigris-Euphrates and Nile between different middle east countries. The Indus water treaty: In 1960, sharing of water from Indus river basin between India and Pakistan, where Indus, the Jhelum and the Chenab were allocated to Pakistan and Satluj, the Ravi and the Beas were allocated to India. India-Bangladesh water disputes: Construction of Farakka Barrage in 1974 over Bhagirathi river causes dispute between India and Bangladesh over sharing of Ganga water. Cauvery water dispute: dispute between state of Karnataka and Tamil Nadu over sharing of Cauvery water resulted into formation of Cauvery water Dispute tribunal in 1990. The Satluj-Yamuna Link canal Dispute: Between Punjab and Haryana for sharing the Ravi-Beas waters, and case is now in Supreme court. Mullaperiyar Dam: recent controversies between state of Kerala and Tamil Nadu over Mullaperiyar Dam over Periyar river.
Traditional water Management System: Neerkatti: In South India, they manage the water system my using tradition tank system. They are the people responsible for the distribution of water to the agricultural land. Havaldars or Jaghyas: In Maharashtra, they manage and resolve involving conflicts by overseeing the water channels from main canal to the distributory canal. Churpan: water manager in the Ladakh region have the power to allocate available water resources. irrigation of rice terraces with bamboo pipes: water is transported through an intricate system of Bamboo pipes to agriculture fields in the Arunachal Pradesh. DAMS (Benefits and Problem): Described as 'New Temple of Resurgent India' by Jawaharlal Nehru Dams are usually considered to play a key role in development process due to their multiple uses, however Dams are also associated with the multiple environmental and social problems:
Benefits of Big Dams: Increase availability of water for domestic and irrigational purpose especially in the regions of water deficits. Example: Irrigated land increased from 22.6 million hectares (ha) in 1951 to about 89.6 million ha by 1997, marking a fourfold growth over a period of 50 years. Electricity generation: Hydroelectricity account for 25% of total electricity generated in India. Dams store water during peak discharge period and release it during the low flow period thereby mitigating the risk of floods and drought. Construction of dams facilitate in-land navigation by maintaining river flow. Employment generation for the local population during the construction and maintenance of dam. Site for recreational activity and tourist spot for examples Bhakra Dam, Tehri Dams are major sites for tourist attraction.
Problem associated with Dams: 1) Biodiversity loss: submergence of large areas of land due to construction of reservoir leads to loss of forest, flora and fauna of the area. 2) Displacement of tribal and local area: Dams construction results into displacement of local population residing in that area, and resettlement of these displaced people are one of the major problem. In India approx. 16 to 38 million people displaced due to construction of large Dams. 3) Fragmentation and physical transformation of river system. 4) Change in the migratory route of Fish thereby reducing the total fish population in the river system. 5) Capturing of the silt and sediment on the upstream side of dams results into fertility loss in the flood plain in the down stream areas. Example: Aswan dam on Nile river. 6) Increase risk of seismicity associated with the dam construction. Example: Koyna Dam in Mahrastra. 7) Risk of flash flood due to bursting or leakage of dams. Example Panshet dam burst near Puna.
Case studies: 1) Sardar Sarovar Project: This dam is constructed on Narmada River, in Gujarat.
Mineral resources Any mineral, element, and rock that can be extracted from the ground and it has a potential value. "Minerals are naturally-occurring inorganic substances with a definite and predictable chemical composition and physical properties." (O'Donoghue, 1990). Usefulness of mining resources: Building Materials: sand, gravel, stone, cement, steel, aluminum, asphalt, glass. 2) Plumbing and Wiring: iron and steel, copper, brass, lead, cement, asbestos 3) Appliances: iron, copper, many rare metals 4) Defense equipments 5) Agricultural: fertilizers, machinery 6) Transportation means 7) Jewelry: gold, silver, platinum, diamond etc.
Type of Mineral resources: Non- metallic minerals: e.g. graphite, diamond, quartz, feldspar Metallic minerals: bauxite, laterite, haematite etc. Fossil fuels (also known as mineral fuels): the organic mineral substances that can be utilized as fuels, such as coal, petroleum, natural gas etc. The minerals and their ores need to be extracted from the earth’s interior and the process of mineral extraction is known as mining process. The mining process involves following stages: Prospecting: This is done for the searching of minerals. The searching methods includes direct analysis of minerals outcrops combined with the aerial photography, geologic maps, and structural assessment of an area. In case of indirect analysis use of geophysical methods such as gravitational, seismic, magnetic, electrical, electromagnetic, and radiometric variables of the earth. 2) Exploration: determines as accurately as possible the size and value of a mineral deposit, utilizing techniques similar to but more refined than those used in prospecting.
3) Development: It involves work of preparing access to the deposit so that the minerals can be extracted. This process involves acquiring water and mineral rights, buying surface lands, arranging for financing, and preparing permit applications and an environmental impact statement (EIS). 4) Exploitation: It involves actual extraction of minerals from the mines. 5) Reclamation: the process of closing a mine and recontouring, revegetating, and restoring the water and land values. Depending upon the ways of exploitation mines are divided into two parts: Surface mining: Open pit or open cast mining is usually employed to exploit a near-surface deposit ore. . It often necessitates a large capital investment but generally results in high productivity, low operating cost, and good safety conditions. 2) Sub-surface mining: mainly involves unsupported, supported, and caving type of mine used for mining deep minerals deposits. It is most destructive, dangerous, expensive including risks of occupational hazards and accidents.
Ore processing: Ore processing is a set of operations used to separate the mineral phases containing the useful substances from the waste gangue; the product of the plant, enriched with useful materials, is called the "concentrate". This processing can be physical and physicochemical methods such as gravity separation and flotation. It can be biological such as bioleaching or chemical such as cyaniding( addition of sodium cyanide solution to extract gold from ore) in gold ore processing. Waste generated during ore processing are known as tailings (processing waste); which can include: Aqueous solutions from cyaniding. Slurries of finely ground particles that have undergone one or more types of physical or chemical treatment, and which frequently contain one or more industrial additives that have participated in the conversion process (xanthates, salts, starch, etc.). These tailings are normally dumped in a sort of lagoon or settling basin within an embankment at the exit of the mill. Atmospheric releases from sulphide roasting including sulfur dioxide gas which is a agent for acid rain.
Indian mineral resources: India has rich mineral resource especially for metallic minerals such as iron ores, manganese, chromite and titanium. It has world largest reserves of mica and bauxite. India is the producer of 84 minerals the annual value of which is about 50,000crore. Some of the major mineral resource are: Energy generating minerals Coal and Lignite: West Bengal, Jharkhand, Odisha, Madhya Pradesh, Andhra Pradesh. Uranium: Jharkhand, Andhra Pradesh, Meghalaya, Rajashthan Other commercial used minerals Aluminum (Bauxite ore): Jharkhand, West Bengal, Maharashtra, Madhya Pradesh,Tamil Nadu Iron (hematite and magnetite ore): Jharkhand, Odisha, MP, AP, TN, Karnataka Copper (Copper pyrites) : Rajasthan, Bihar, Jharkhand, MP, WB, AP and Uttarakhand
Some of the major mines in India and associated problem: 1) Jaduguda uranium mine, Jharkhand: Operation started in 1968 and the present capacity of mine is to extract and process 2090 metric tonnes per day (MTPD) capacity. It exposing local population of 50,000 to the risk of radioactive hazards. 2) Jharia coal mine, Jharkhand: Total area of 450 sq km out of which 4% of area is affected by underground fire which leads to land subsidence and displacement of people. 3) Sukinda chromite mines, Odisha: Total area of 200 sq. km., these mines provides 97% of total chromite ore reserve of country. Presence of hexavalent chromium ion in mine drainage waterseverly affect the aquatic ecosystem of the mining areas.It is cytotoxic, mutagenic and carcinogenic. 4) Kudremukh iron ore mine, Karnataka: The operation of Kudremukh iron ore company limited in western Ghat mountain range have caused large scale destruction of hill, pollution of surface and ground water and severely affected the kudremukh national park. 5) North-Eastern Coal fields, Assam: Mining for the coal started in 1882. The ground water and surface water sources are affected by acid mine drainage and high sulphur contamination.
Environmental problem associated with Mining: Devegetation and defacing of landscape: Top soil along with vegetation has to be removed for reaching to the mineral resource, this results into removal of forest and vegetation present in the area also results into loss of biodiversity. Subsidence of land: mainly related to the underground mining often leading to destruction of property and displacement of local habitants. Watershed disturbance: Mining activity disturb the natural hydrological process and pollute the ground water due to leaching of heavy metals and acids. Acid-mine drainage: Acid mine drainage is most serious problem associated with the mining sectors. This is normally associated with the metal ore mines and coal mines having high concentration of sulphides in ores which react with air and water to produce acidity. Air Pollution: Mining activity is also a major source of SPM, some of the coal mines release methane through cracks and opening. Mine fire also results into formation of NOx and SOx and some secondary pollutant such as ozone. Noise pollution: Mining activity involves lot of heavy machinery related to extraction and transportation of mineral ores resulting into increase noise level in the mining zones.
7) Displacement of tribal and local population: Mining activity in forested and hilly region mostly resulted into the displacement of tribal and marginalized population resulted into their rehabilitation issue. 8) Occupational hazards: Mining activity especially underground mining is associated with greater risk for the worker due to occurring of mine accidents involving collapse of mine wall, flooding of mines or mine blast associated with methane. Beside accidents longs working in the mine environment results into diseases such as asbestosis, silicosis, black lung disease etc. Case studies: Mining in Sariska Tiger Reserve in Aravallis.
Food Resources • Food is a critical need for survival of living being and is required for growth, physical and mental ability and good health. Any substance containing nutrients, such as carbohydrates, proteins and fats that can be ingested by a living organism and metabolised into energy and body tissue. • Different sources of food resource: • Plant food: It includes cereal grains, vegetables, fruits, nuts, sugar, fats and oils. Among cereal grain rice, wheat and maize are the major grains. Rice and wheat are the staple food for the 4 billion people in the developing countries. • Animal food: The most preferred animal food by humans is mutton, beef, pork and poultry as well as their by-products (milk and eggs). • Fish and sea foods: It supports 70 million metric tons of high quality protein to the world diet. Requirement of food resource: Average minimum Calories intake on global scale = 2500 calorie/days < 90% of this value = undernourished < 80% of this value = serious undernourished
World Food Problem: Every year 40 million people (50% of which are young children in the age group of 1 to 5 years) die of undernourishment and malnutrition. (13.6% of world population)
Indian Scenario: The Indian economy is predominantly agrarian. Agriculture constitutes 33% of our GDP, supports 64% of work force and earns 19% of our exports. India is the world’s second largest producer of food, next to China and has the potential of being the biggest in the world.
However 300 million Indians are still undernourished. India is home to 40 percent of the world’s malnourished children and 35 percent of the developing world’s low-birth-weight infants. Reason behind such scenario: Wastage of food grains: A Food Ministry report reveals that India wastes food worth over Rs 500,000 million in a year, even as one fifth of its population is underfed.
