ASSIGNMENT ON
WATER RESOURCES OF INDIA
SUBMITTED TO:
Dr. N. PANDEY
professor
Deptt. Of Agronomy
PRESENTED BY:
ANJALI PATEL
PhD (Previous year)
Deptt. Of Agronomy
COLLEGE OF AGRICULTURE
INDIRA GANDHI KRISHI VISHWAVIDYALAYA, RAIPUR
CONTENT
Introduction
Water resources of India
Water budget
Surface water resources
Ground water resources
Utilization of water
Problems of water resources in India
Water resources to meet the future needs
INTRODUCTION
• Water is a cyclic resource with abundant supplies on the globe.
• Approximately, 71 per cent of the earth’s surface is covered with it
but fresh water constitutes only about 3 per cent of the total
water.
• The availability of fresh water varies over space and time.
• India accounts for about 2.45 per cent of world’s surface area, 4 per
cent of the world’s water, resources and about 16 per cent of
world’s population.
• The source of water is precipitation.
• India receives annual precipitation of about 4000 km3 (400 M ha
m, 4000 billion cubic meters- BCM) including snowfall.
• Out of this, monsoon rainfall is of the order of 3000 km3.
• Rainfall in the country is highly variable and irregular.
• Its special distribution varies from less than 100 mm per annum
in Rajasthan to about 11000 mm per annum in Cherrapunji of
Meghalaya.
• The total utilizable water resources of the country are assessed
as 1086 km3.
WATER RESOURCES OF INDIA
• Rainfall is the only natural source of water.
• All the natural resources like stream, river, and underground
water are the manifestations of rainfall.
• Although water is a renewable resource and reused only when
resources are charged with water from natural rainfall.
• Water resources can be classified into:
a) Surface water resources
b) Underground resources
Cont…
Fig.1 Water resources of India
• There are four major sources of surface water.
• These are rivers, lakes, ponds, and tanks.
• India has a large and intricate network of river systems.
• In the country, there are about 10,360 rivers.
• For the purpose of efficient water management, the Central
Water Commission has divided India into 20 river basins,
comprising 12 major basins, each with a catchment area
exceeding 20000 km2 and 8 composite river basins combining
all other medium and small river systems.
SURFACE WATER RESOURCES
Name of the river Origin Length of river
(km)
Catchment area
(M ha)
Indus Mansarovar (Tibet) 1114 (2880) 32.12 (116.55)
Ganga Gangotri(Uttar Kashi) 2525 86.15 (108.60)
Brahmaputra Kailash Range (Tibet) 916 (2900) 19.44 (58.00)
Mahi Dhar (M.P.) 583 3.48
Narmada
Amar Kantak (MP) 1312 9.88
Tapti
Betul (MP) 724 6.51
Brahmani Ranchi (Bihar) 799 3.00
Mahanadi Nazri (MP) 851 14.16
Godavari
Nasik (Maharastra) 1465 31.28
Krishna Mahabaleswar
(Maharastra)
1401 25.99
Pennar Kolar (Karnataka) 597 5.52
Cauvery Coorg (Karnataka) 800 8.12
Table 1. Origin, length and catchment
areas of major river basins in India
• Annual precipitation including snowfall is estimated as 4,000
km3.
• Average annual potential flow in the rivers is about 1869 BCM.
• Due to various constrains of topography, uneven distribution
of resource over space and time, it has been estimated that
only about 1112 BCM of total potential of 1869 BCM can be put
to beneficial use, 690 BCM being due to surface water
resources and 432 BCM due to ground water.
• Water flow in a river depends on size of its catchment area or
river basin and rainfall within its catchment area.
Cont…
• Groundwater is the water located beneath the earth’s surface
in soil pore spaces and in the fractures of rock formations.
• India is blessed with a comparatively large resource of ground
water.
• Groundwater is the most preferred source of water in various
user sectors in India on account of its near universal availability,
dependability and low capital cost.
• The annual potential natural groundwater recharge from
rainfall in India is about 342.43 km3, which is 8.56% of total
annual rainfall of the country.
• The annual potential groundwater recharge augmentation from
canal irrigation system is about 89.46 km3.
GROUND WATER RESOURCES
S No particulars Quantity (km3 yr-1)
1 Total replenishable groundwater resource 432
2 Provision for domestic, industrial and other uses 71
3 Available groundwater resource for irrigation 361
4 Utilizable groundwater resource for irrigation (90 % of S No
3)
325
5 Total utilizable groundwater resource (sum of S No 2 and 4) 396
Sources: Central Ground Water Board (2002)
Table 2. Groundwater resources of India
(in km3/year)
• The availability and development potential of groundwater in
India on the basis of the geological consideration can be
described under the following three broad categories:
i. Unconsolidated rocks
ii. Semi-consolidated rocks
iii. Consolidated rocks
Ground water regions of India
 Table 3. percentage of rainfall infiltration to ground water
body in different rock types and formations
Rainfall contribution to Ground Water
S No Rock type /formation Percentage rainfall infiltrating
to ground water body
1 Hard rock formations and Deccan traps 10
2 Consolidated rocks (sandstone) 5-10
3 River alluvia 15-20
4 Indo-Gangatic alluvium 20
5 Coastal alluvia 10-15
6 Western Rajsthan dune sand 2
7 Intermontane valleys 15-20
Raghava Rao, et al. (1969)
UTILIZATION OF WATER
• Spatial and temporal distribution
• Conflicting objectives of Water Resources Development
• Increasing sectorial competition between sectors
• Pollution of Surface and Groundwater Resources
• Rising and falling water table
PROBLEMS OF WATER RESOURCES IN
INDIA
• Irrigation Improvement
• Dew as water resource
• Reuse of drainage water
• Conjunctive use of Sodic and Canal waters
• Multi use of water
• Separation of Grey/ Black waters
• Technology upgradation in Agriculture
WATER RESOURCES TO MEET THE
FUTURE NEEDS
• Central Ground Water Board (2002), Master Plan for Artificial Recharge to
Groundwater in India. New Delhi.
• Dwivedi, S.K., Nandeha, K.L. and Guru R.K. Water Management. Department of
Agronomy. College of Agriculture, IGKV, Raipur (Chhattisgarh).
• Earth Trend 2001, World Resource Institute, as given in Govt. Of India (2002) Report.
• Jha, B.M. and Sinha, S.K. Towards Better Management of Ground Water Resources in
India. Faridabad- 121 001, Haryana, India.
• http://www.google.com/url?sa=t&source=web&rct=j&url=https://ncert.nic.in/ncerts/l/l
egy206.pdf&ved=2ahUKEwjh2cyi_PDtAhUhyjgGHW9BCpkQFjAMegQIHBAB&usg=AO
vVaw3Ju-vgiLu5RTaTCvEcfYxA&cshid=1609208890076
• Michael, A.M. 1978. Irrigation Theory and Practice. Vikash Publishing House PVT LTD.
Pp. 1-61.
• Reddy, S.R. 2011. Principles of Agronomy. Kalyani Publishers, Ludhiana. pp. 392-395.
• Raghava Rao, K.V., Raju, T.S. and Ramesham, V. 1969. An estimate of ground water
potential of India-first approximations. Proc. ICAR Symposium in soil and water
management- Hissar, March 1969.
• Rao, V.P., Suneetha, K.B. and Hemalatha, S. 2010. Irrigation water management.
Department of Agronomy, College of Agriculture, Rajendranagar, Hyderabad.
REFERENCES
water Resources of India - By Anjali Patel mam (IGKV Raipur, C.G)

water Resources of India - By Anjali Patel mam (IGKV Raipur, C.G)

  • 1.
    ASSIGNMENT ON WATER RESOURCESOF INDIA SUBMITTED TO: Dr. N. PANDEY professor Deptt. Of Agronomy PRESENTED BY: ANJALI PATEL PhD (Previous year) Deptt. Of Agronomy COLLEGE OF AGRICULTURE INDIRA GANDHI KRISHI VISHWAVIDYALAYA, RAIPUR
  • 2.
    CONTENT Introduction Water resources ofIndia Water budget Surface water resources Ground water resources Utilization of water Problems of water resources in India Water resources to meet the future needs
  • 3.
    INTRODUCTION • Water isa cyclic resource with abundant supplies on the globe. • Approximately, 71 per cent of the earth’s surface is covered with it but fresh water constitutes only about 3 per cent of the total water. • The availability of fresh water varies over space and time. • India accounts for about 2.45 per cent of world’s surface area, 4 per cent of the world’s water, resources and about 16 per cent of world’s population.
  • 4.
    • The sourceof water is precipitation. • India receives annual precipitation of about 4000 km3 (400 M ha m, 4000 billion cubic meters- BCM) including snowfall. • Out of this, monsoon rainfall is of the order of 3000 km3. • Rainfall in the country is highly variable and irregular. • Its special distribution varies from less than 100 mm per annum in Rajasthan to about 11000 mm per annum in Cherrapunji of Meghalaya. • The total utilizable water resources of the country are assessed as 1086 km3. WATER RESOURCES OF INDIA
  • 5.
    • Rainfall isthe only natural source of water. • All the natural resources like stream, river, and underground water are the manifestations of rainfall. • Although water is a renewable resource and reused only when resources are charged with water from natural rainfall. • Water resources can be classified into: a) Surface water resources b) Underground resources Cont…
  • 6.
  • 7.
    • There arefour major sources of surface water. • These are rivers, lakes, ponds, and tanks. • India has a large and intricate network of river systems. • In the country, there are about 10,360 rivers. • For the purpose of efficient water management, the Central Water Commission has divided India into 20 river basins, comprising 12 major basins, each with a catchment area exceeding 20000 km2 and 8 composite river basins combining all other medium and small river systems. SURFACE WATER RESOURCES
  • 8.
    Name of theriver Origin Length of river (km) Catchment area (M ha) Indus Mansarovar (Tibet) 1114 (2880) 32.12 (116.55) Ganga Gangotri(Uttar Kashi) 2525 86.15 (108.60) Brahmaputra Kailash Range (Tibet) 916 (2900) 19.44 (58.00) Mahi Dhar (M.P.) 583 3.48 Narmada Amar Kantak (MP) 1312 9.88 Tapti Betul (MP) 724 6.51 Brahmani Ranchi (Bihar) 799 3.00 Mahanadi Nazri (MP) 851 14.16 Godavari Nasik (Maharastra) 1465 31.28 Krishna Mahabaleswar (Maharastra) 1401 25.99 Pennar Kolar (Karnataka) 597 5.52 Cauvery Coorg (Karnataka) 800 8.12 Table 1. Origin, length and catchment areas of major river basins in India
  • 9.
    • Annual precipitationincluding snowfall is estimated as 4,000 km3. • Average annual potential flow in the rivers is about 1869 BCM. • Due to various constrains of topography, uneven distribution of resource over space and time, it has been estimated that only about 1112 BCM of total potential of 1869 BCM can be put to beneficial use, 690 BCM being due to surface water resources and 432 BCM due to ground water. • Water flow in a river depends on size of its catchment area or river basin and rainfall within its catchment area. Cont…
  • 10.
    • Groundwater isthe water located beneath the earth’s surface in soil pore spaces and in the fractures of rock formations. • India is blessed with a comparatively large resource of ground water. • Groundwater is the most preferred source of water in various user sectors in India on account of its near universal availability, dependability and low capital cost. • The annual potential natural groundwater recharge from rainfall in India is about 342.43 km3, which is 8.56% of total annual rainfall of the country. • The annual potential groundwater recharge augmentation from canal irrigation system is about 89.46 km3. GROUND WATER RESOURCES
  • 11.
    S No particularsQuantity (km3 yr-1) 1 Total replenishable groundwater resource 432 2 Provision for domestic, industrial and other uses 71 3 Available groundwater resource for irrigation 361 4 Utilizable groundwater resource for irrigation (90 % of S No 3) 325 5 Total utilizable groundwater resource (sum of S No 2 and 4) 396 Sources: Central Ground Water Board (2002) Table 2. Groundwater resources of India (in km3/year)
  • 12.
    • The availabilityand development potential of groundwater in India on the basis of the geological consideration can be described under the following three broad categories: i. Unconsolidated rocks ii. Semi-consolidated rocks iii. Consolidated rocks Ground water regions of India
  • 13.
     Table 3.percentage of rainfall infiltration to ground water body in different rock types and formations Rainfall contribution to Ground Water S No Rock type /formation Percentage rainfall infiltrating to ground water body 1 Hard rock formations and Deccan traps 10 2 Consolidated rocks (sandstone) 5-10 3 River alluvia 15-20 4 Indo-Gangatic alluvium 20 5 Coastal alluvia 10-15 6 Western Rajsthan dune sand 2 7 Intermontane valleys 15-20 Raghava Rao, et al. (1969)
  • 14.
  • 15.
    • Spatial andtemporal distribution • Conflicting objectives of Water Resources Development • Increasing sectorial competition between sectors • Pollution of Surface and Groundwater Resources • Rising and falling water table PROBLEMS OF WATER RESOURCES IN INDIA
  • 16.
    • Irrigation Improvement •Dew as water resource • Reuse of drainage water • Conjunctive use of Sodic and Canal waters • Multi use of water • Separation of Grey/ Black waters • Technology upgradation in Agriculture WATER RESOURCES TO MEET THE FUTURE NEEDS
  • 17.
    • Central GroundWater Board (2002), Master Plan for Artificial Recharge to Groundwater in India. New Delhi. • Dwivedi, S.K., Nandeha, K.L. and Guru R.K. Water Management. Department of Agronomy. College of Agriculture, IGKV, Raipur (Chhattisgarh). • Earth Trend 2001, World Resource Institute, as given in Govt. Of India (2002) Report. • Jha, B.M. and Sinha, S.K. Towards Better Management of Ground Water Resources in India. Faridabad- 121 001, Haryana, India. • http://www.google.com/url?sa=t&source=web&rct=j&url=https://ncert.nic.in/ncerts/l/l egy206.pdf&ved=2ahUKEwjh2cyi_PDtAhUhyjgGHW9BCpkQFjAMegQIHBAB&usg=AO vVaw3Ju-vgiLu5RTaTCvEcfYxA&cshid=1609208890076 • Michael, A.M. 1978. Irrigation Theory and Practice. Vikash Publishing House PVT LTD. Pp. 1-61. • Reddy, S.R. 2011. Principles of Agronomy. Kalyani Publishers, Ludhiana. pp. 392-395. • Raghava Rao, K.V., Raju, T.S. and Ramesham, V. 1969. An estimate of ground water potential of India-first approximations. Proc. ICAR Symposium in soil and water management- Hissar, March 1969. • Rao, V.P., Suneetha, K.B. and Hemalatha, S. 2010. Irrigation water management. Department of Agronomy, College of Agriculture, Rajendranagar, Hyderabad. REFERENCES