The document discusses various topics related to drought management and water harvesting. It defines drought and describes four main types: meteorological, hydrological, agricultural, and socioeconomic drought. It outlines causes of drought such as precipitation deficiency and discusses drought contingency planning measures. The document also discusses techniques for augmenting water supply, conserving water, and harvesting rainwater, including roof top harvesting and surface runoff harvesting. It provides details on components, benefits, and techniques for water harvesting.
1. Name Enrollment No.
Patel Jimi 131100106029
Patel Viraj 131100106040
Patel Yash 131100106042
Shah Ashit 131100106051
DROUGHT MANAGEMENT AND WATER
HARVESTING
Guided by :- Prof. Manali Shah
Prof. Uttejana Chaudhari
2. ď CONTENT
⢠DEFINITION
⢠TYPES OF DROUGHT
⢠CAUSES OF DROUGHT
⢠DROUGHT CONTINGENCY PLANNING
⢠AUGMENTATION OF WATER
⢠MEASURES FOR WATER CONSERVATION
⢠WATER HARVESTING
3. ďź DROUGHT
⢠Drought Is Generally Defined As A Prolonged Period Of Time
During Which Precipitation Is Less Than 75 Percent Of Average For
A Given Year, Or Poor Distribution Of Precipitation In A Single Year
Or Less Than Average Precipitation In Successive Years.
4. ďź TYPES OF DROUGHT
⢠These Has A Basically Four Types, Likes..
1. Meteorological Drought
2. Agricultural Drought
3. Hydrological Drought
4. Socioeconomic Drought
5. i. METEOROLOGICAL DROUGHT
⢠âIt deacribes A situation where there is A reduction in rainfall below a specific
amount for specific period (days, months, year).â
⢠On an average India receives 118 cm annual rainfall which is considered to be
highest anywhere in the world for the country of comparable size.
⢠But the uncertain, unreliable & erratic nature of rainfall by south-west monsoon
create a Drought condition in different parts of country.
6. ii. HYDROLOGICAL DROUGHT
⢠Hydrological drought is associated with reduction of water.
⢠There are two type :-
ď Surface water Drought
o It is concerned with drying up of surface water resources such as rivers, streams, lakes,
ponds, tanks, reservoirs etc etcâŚ
ď Ground water Drought
o It is associated with the fall in the ground water table.
7. iii. AGRICULTURAL DROUGHT
⢠Agricultural drought are droughts that affect crop production or the ecology of
the rang.
⢠Agricultural drought links various characteristics of Meterological drought,
Hydrological drought to agricultural impacts.
⢠Focus on âŚ
ďźPrecipitation shortage
ďźDifference between actual & potential Evaporation
ďźSoil water deficits
ďźReduce Ground water/reservoirs levels
8. iv. SOCIOECONOMIC DROUGHT
⢠When the supply of some Good & Services such as water and
Electricity are Weather dependent then Drought may cause
shortages in supply of these economic goods.
11. o Mountains
⢠Mountains can prevent wind from blowing moisture to needy regions.
Rainy area
Area affected by Drought
Mountain
12. oErosion & Human Activities
⢠Human activities can directly trigger exacerbating factors such as..
⢠Over farming
⢠Excessive irrigation
⢠Deforestation
⢠Erosion adversely imopacts..
⢠The ability of the land to capture & hold the water.
13. oClimatic Changes
⢠Drought occur because water vapor is not brought by air current to the right
areas at the right time.
⢠Instead of blowing air from south to north, they blow east to west . when that
happen, the water vapor does not leave the Indian ocean and many people
suffer from the resulting drought.
14. o Global warmings
⢠It will result in increased world rainfall along with drought in some areas,
flooding & erosion will increase in others
15. ďź DROUGHT CONTINGENCY PLANNING
⢠To provide contingency plans to manage drought and emergency conditions.
⢠To continue to deliver a cost effective, adequate, safe and reliable supply of water.
⢠The provision of credit or cash/food for work
⢠Maintaining water supply for animals and humans
⢠Maintaining cereal availability
⢠Human and livestock health service provision
⢠Support for private sector
⢠Provide fodder for drought affected stock
⢠Flexible taxation systems for affected people
16. o DROUGHT CONTINGENCY PLANNING ALLOW FOR IMPLEMENTATION OF :
⢠Mitigation
⢠Relief
⢠Rehabilitation
17. oDROUGHT CONTINGENCY PLANNING FOR
IMPLEMENTATION:
ďOverall drought policy, setting out plans objectives of minimizing the impact of
drought
ďSet plans for specific mitigation, relief and rehabilitation measures
ďConstruction of dams and additional reservoirs for supply of water.
ďCloud seeding- artificial rain
ďDesalination of sea water for irrigation or consumption.
18. ⢠Drought monitoring by total rainfall levels and total usage levels
⢠Land use by carefully planned crop rotation
⢠Outdoor water use restriction
⢠Rainwater harvesting
⢠Recycled water
⢠Relief works
⢠Disease prevention and control
19. ⢠CONTINGENCY PLANNING DONE BY GOVT.
ď POLICY ISSUES, NATIONAL, REGIONAL AND DISTRICT LEVEL
ď RURAL DEVELOPMENT INFRASTRUCTURE
ď INPUT SUPPLY, MARKETING AND FARM ADVISORY SERVICES
⢠NON- GOVT.
ďNGOâS
ďRURAL INSTITUTIONS
ďPRIVATE SECTORS
20. ďź AUGMENTATION OF WATER
ďIt includes methods for providing an entirely new supply of fresh water and
techniques for increasing utility of available supplies of water.
ďNew supply of water include weather modification.
ďWeather modification done to increase precipitation and decrease
evapotranspiration.
ďCloud seeding done to increase precipitation.
21. AVAILABLE WATER SUPPLIES INCREASED BY
CONSERVATION OF AVAILABLE WATER SUPPLIES.
⢠Agricultural water requirements can be reduced by reducing conveyance losses, and
discouraging wasteful irrigation techniques.
⢠Technique should be developed to reduce water consumption in home and industry.
⢠Evaporation losses from small reservoirs can be reduced by providing roofs.
⢠Reclamation and reuse of waste water can be encouraged.
22. ⢠Evaporation loss in ground water is less. Use of ground water storage reservoir in
conjunction with surface storage reservoirs.
⢠Infiltration losses can be reduced by sealing the soil surface useful in arid regions.
⢠Water harvesting done by collecting from roof top, pavements, constructing small
storage.
23. ďź MEASURES FOR WATER CONSERVATION
oGOALS OF WATER CONSERVATION EFFORTS INCLUDE:
⢠SUSTAINABILITY - ENSURE AVAILABILITY FOR FUTURE GENERATIONS
⢠ENERGY CONSERVATION - WORLD 15% ENERGY PRODUCTION DEPENDENT ON
WATER MANAGEMENT.
⢠HABITAT CONSERVATION - PRESERVE FRESH WATER HABITAT, MIGRATING
WATERFOWL.
24. oBENEFITS OF WATER CONSERVATION:
⢠SAVE WATER SAVE MONEY.
⢠REDUCTION IN EXCESS WATER USE REDUCE WASTE WATER GENERATION,
REDUCE OVERFLOWING OF GUTTER.
⢠ECOSYSTEM AND HABITAT PROTECTION.
⢠HELPS IN IMPROVING QUALITY OF DRINKING WATER.
26. DOMESTIC CONSERVATION
⢠Repair all leaks quickly
⢠Turn off water when not in use
⢠Use conserving appliance which use low volume water for domestic use
⢠Local bodies should install water meter and encourage water pricing.
⢠Only flush the toilet when needed
27. INDUSTRIAL CONSERVATION
⢠Use cooling system which use less water.
⢠Reuse of cooling water for irrigation or other purposes.
⢠Install in plant treatment measures for treating the waste water or effluent.
28. ďźAGRICULTURAL (IRRIGATION) CONSERVATION
⢠Improved irrigation methods such as sprinklers or drip irrigation.
⢠Water required for agricultural considerably reduced by reducing conveyance loss.
⢠Infiltration losses reduced by sealing soil surface
⢠Use of lined canals which reduce seepage and evaporation.
29. ⢠Use of ground water storage reservoir in conjunction with modern surface storage reservoirs to
reduce evaporation loss, in arid regions.
⢠Price agricultural water to encourage conservation.
⢠Evaporation losses from small reservoirs can be reduced by providing roofs over them.
30. o For conservation of water the following structures can be constructed:
⢠Earthen bund ⢠Gully plugging
32. ďź WATER HARVESTING
⢠Collection of rain water called water harvesting.
⢠Rainwater harvesting is accumulation and storing of rainwater for reuse, before it reaches aquifer.
⢠Water collected from roofs of houses, schools, local institutions make important contribution.
⢠Water collected from ground, called storm water harvesting.
33. BENEFITS OF RAINWATER HARVESTING
⢠Increase water availability
⢠Checks declining water table
⢠Environmental friendly
⢠Improves water quality of ground water
⢠Surface water runoff conservation
⢠Prevents soil erosion and flooding in urban area
⢠Improving plant growth by using rainwater for irrigation
34. o RAINWATER HARVESTING TECHNIQUE
1. Rainwater Collection (Roof Top Rainwater Harvesting)
2. Runoff Collection (Surface Runoff Harvesting)
3. Recharge To Ground Water
4. Runoff Enhancement
35. ďź ROOF TOP RAIN WATER HARVESTING
⢠Rainwater captured from roof catchments and stored in sub surface ground water reservoir.
⢠Objective :- To make water available for future use.
⢠Useful in dry land, hilly, urban and costal areas.
36. o COMPONENTS OF ROOF TOP RAINWATER HARVESTING
1) A Collection Area
2) A Conveyance System
3) Storage Facility
4) A Delivery System
⢠Storage reservoir expensive part, careful design and construction required.
⢠First rainwater should be flushed or diverted.
37. ďź SURFACE RUNOFF HARVESTING
⢠Surface runoff harvesting is traditional technique.
⢠Small dams, ponds, tanks are used.
⢠Used for irrigation, domestic, livestock use.
38. SMALL DAMS
⢠Small dams/check dams constructed in natural channel to impound the runoff water up to certain
depth.
⢠Impounded water slowly infiltrate into soil and recharge ground water.
39. PONDS AND RESERVOIRS
⢠Impounding type and dug-cut type ponds constructed.
⢠Impounding :- a retaining wall or dam is constructed to block the flow of water in a natural storm.
⢠Dug-cut :- area is excavated to store the runoff.
⢠Reservoirs requires water storage area, spillways and earth embankment.
40. STORAGE TANK
⢠Surface or above ground tank
⢠Subsurface or underground tank
ďą Storage tanks require
⢠Solid secure cover
⢠Coarse inlet filter
⢠Overflow pipe
⢠Manhole, sump and drain to facilitate cleaning
⢠Outlet system, tap or pump
43. ďź RUNOFF ENHANCEMENT
ďCan Be Done By Increase Precipitation.
ďSeeding Generally Done To Increase Precipitation.
ďPrecipitation Can Be Increased By 10% By Cloud Seeding.
ďLumb Demonstrated That Increase In Annual Runoff (âR) Due To Small Increase In Precipitation
(âP) Is Given By
âR= âP (0.29+1.2 R/P)
where, R= Mean Runoff
P= Mean Precipitation
44. ďźMETHODS FOR RUNOFF ENHANCEMENT
⢠Cloud Seeding
⢠Enhancement By Paved Surfaces.
⢠Surface Of Drainage Basin Effect On Runoff. Bare Surface Give More Runoff.
⢠Drainage Basin Located On Windward Side Of Mountain Produce More Runoff.
45. ⢠Runoff Affected By Geology Of Drainage Basin. Pervious Soil Yield Less Runoff.
⢠Drainage Basin Has Larger No Of Natural Depressions, Which Deposited By Other Material Then
Runoff At Basin Increases.
⢠More Human Activity, More Load On Soil, Reduce Infiltration, Hence Increase Runoff.