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Details of IWRM tool, Water Resource Assessment Watch: https://www.youtube.com/watch?v=yNxYrLTNVDc

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Water Resource Assessment KISHOR KUMAR BHANDARI(07) MANOJ NEUPANE(08) SUBHASH CHHETRI(17) MSC STUDENT INFRASTRUCTURE ENGINEERING AND MANAGEMENT NAMASTE and WELCOME1
Water resources assessment (WRA) is the process of measuring, collecting and analyzing relevant parameters on the quantity and quality of water resources for the purposes of a better development and management of water resources. (HUBERT n.y.) 2
Why Water Resource Assessment?? • World’s expanding population place an increasing demand of water on drinking, food production, sanitation and other basic social and economic needs. But…. World’s water resources is finite • Human activities is leading to Depletion of resources and Pollution is increasing at alarming rate • Water related natural hazards are most destructive to human life and property. • Climate change, global warming…… 3
Why Water Resource Assessment?? 4
5 Why Water Resource Assessment??
ASPECT OF WRA 1. • WATER RESOURCE DEVELOPMENT 2. • MANAGEMENT 3. • PLANNING 6
WATER RESOURCE ASSESSMENT • Water resource assessment is a systematic study of the status of water services and resources, and of trends in accessibility and demand within a specific domain of interest. • Applicable at any relevant level, e.g. village, sub-catchment or municipality • Known under various different names, such as water accounting and water resource audits 7
WATER RESOURCE ASSESSMENT WRAs can help to clarify: • Current status of water resources at different scales, including inter-and intra- annual variability • Current water use (including variability), and the resulting societal and environmental trade-offs • Scale related externalities, especially when patterns of water use are considered over a range of temporal and spatial scales • Social and institutional factors affecting access to water and their reliability • Opportunities for saving or making more productive, efficient and/or equitable use of water; • Efficacy and transparency of existing water-related policies decision-making processes • Conflicts between existing information sets, and the overall accuracy of government (and other) statistics 8
COMPONENTS OF WRA Source: UNESCO and WMO (1997) • Collection of hydrological data - the collection of historical data on water cycle components at a number of points distributed over the assessment area such as quantity and quality of surface and groundwater. • Collection of physiographic data - obtaining data on the natural characteristics of the terrain that determine the areal and time variations of the water cycle components, such as topography, soils, surface and bed rock geology, land-use and land-cover. These characteristics are designated for brevity as physiographic characteristics. • Collection of data from basic and applied research - further research related to water resources can be essential especially when some data is missing or the available date is out of date. Furthermore, research may be needed in order to develop the required technology used for the water resources assessment. • Education and training – All the basic water resources assessment activities require skilled manpower and this in turn require training and education of the manpower need. • Techniques of areal assessment of water resources - techniques of transforming data into information and of relating the hydrological data to the physiographic data for the purpose of obtaining information on the water-resource characteristics at any point of the assessment area. 9
Illustration of main components 10 Collection of hydrological data (e.g. in data banks) (water cycle components, including quantity and quality of surface and groundwater, station information) Collection of physiographic data (e.g. in a GIS) (topographic, soils, geology, political borders, catchment borders, land use, river network) Education and training Basic and applied research Techniques of areal assessment of water resources (regionalisation techniques) Water resources information (publications, maps, etc.) Users (planning for water resources facilities) Components of a water resources assessment (WRA) program. Source: UNESCO and WMO (1997)
Content Example for a Water Resources Assessment (Adapted from US ARMY CORPS OF ENGINEERS 1999) • The following list is an example how the content of a water resources assessment could look like for your project area: • • 1. Introduction • 2. Country Profile • Geography • Population and social impacts • Economy • Flood control • Legislative framework 11
Content Example for a Water Resources Assessment (Adapted from US ARMY CORPS OF ENGINEERS 1999) • 3. Current Uses of Water Resources • A .Water supply • Domestic uses and needs • Industrial/commercial uses and needs • Agricultural uses and needs • Hydropower • Stream gauge network • Waterway transportation • 4. Surface Water Resources • Precipitation and climate • Rivers and basins • Lakes and swamps • Deforestation effects 12
Content Example for a Water Resources Assessment (Adapted from US ARMY CORPS OF ENGINEERS 1999) • 5. Ground Water Resources • Aquifer definition and characteristics • Hydrogeology • 6. Water Quality • Surface water • Ground water • Domestic waste disposal 13
Application of WRA A case study of Guatemala city (investigation done by US ARMY CORPS OF ENGINEER IN 1999 ) Statement of the problem: Guatemala has abundant water resource(+ rainfall) but:  No proper management to develop and maintain the w/s system  Uneven distribution of population(high density) in water deficit area  No public waste water treatment facilities  River are used for sewage disposal( no comprehensive water law)  Highest child mortality rate (in central American countries) due to water contamination  Surface water is not usable for w/s  Surface water has decreased to 60-70% due to deforestation and increased population  Shallow aquifer are contaminated  Hydrological data is lacking 14
Report A case study of Guatemala city (investigation done by US ARMY CORPS OF ENGINEER IN 1999 ) A. Introduction  Importance of water  Major issue: quantity and quality  Factor affecting water  Purpose of assessment B. Country profile 1. Geography • 108,890 sq. km of territory • S.E. of Mexico and N.W. And west of other • Terrain is mainly mountainous with narrow costa plains and rolling limestone plateaus • Susceptible to volcanic eruption(with earthquakes) 15
Report A case study of Guatemala city (investigation done by US ARMY CORPS OF ENGINEER IN 1999 2. POPULATION AND SOCIAL IMPACT • Present population (10,322,000 in year 1994 with increasing rate of 2.9) • Forecasted population (16 million by 2010.) • Which region is densely populated • Poverty (About 55 percent of the total population live in extreme poverty) • Population according to age (By the year 2000, it is estimated that 65 percent of the population will be under the age of 25) • Population with respect to area(average population density of the country is 94.8 people per square kilometer) 3. ECONOMY • GDP (mostly agriculture dominant(coffee, sugar, bananas), 50-60% labor force ) • Industry (20% GDP, 15% of labor force) 16
Report A case study of Guatemala city (investigation done by US ARMY CORPS OF ENGINEER IN 1999 4. Flood control • Agency responsible for conducting R&D in flood control (in Guatemala INSIVUMEH) • Affect of flood if any (flood and hurricane in 1998, loss by banana companies 130 million US dollar, 40 km of dikes, 68km of road, SL of railroad, one bridge were damaged, 60,000 inhabitants were affected) • Flood control model (develop by Danish Institute in 1998 ) 5. Legislative framework • According to the constitution, the water of the country belongs to the people. • Deforestation laws exist, but enforcement is extremely difficult. • A national water law, negotiated for the past 10 years, has not yet passed, but is expected to pass in the new government in the year 2000. 17
C. CURRENT USES OF WATER RESOURCE A. water supply 1. Domestic use and needs Demand: 12.78 cubic meter per second (1994) forecasted: 26 cubic meter per second (2010) • Surface water not usable(contaminated) • In urban areas GW is mostly used(deep wells or springs) • Each municipality is responsible for its own w/s and maintenance • w/s by municipality is of poor quality and 50% is loss in conveyance • In rural areas each community is responsible for their own w/s • 3 million people in rural areas do not have access to potable water • Most part of area has latrines but no conventional sewerage EMPAGUA, DSM-MSPYAS, INFOM, NGO……….(different agencies for water administration) 18
2. Industrial and commercial uses • Own w/s operations • Minimal data exist of industrial water use 3. Agriculture uses and needs • Bananas, sugarcane, and coffee are the main irrigated crops of the country. The private sector irrigates 80,000 hectares for bananas, sugarcane, and hay, and the government irrigates 20,000 hectares for vegetables, berries, and watermelon. • Presently, most (about 95 percent) of the water irrigation is from surface water sources, but since the quantity of surface water available for irrigation is decreasing due to deforestation, ground water is beginning to be used more. • Drip irrigation is the type of irrigation system used in the country 19
B. Hydropower and Geothermal power • INDE is responsible for the electrical energy system. Five major hydropower plants and one geothermal plant operate in the country. In Guatemala, about half of the electricity is supplied by hydropower and the other half by thermal power (other than geothermal). More geothermal power is expected to be used in the future. 20 The two most serious problems facing the hydropower projects are water contamination and deforestation, which cause erosion and sedimentation that is rapidly filling the reservoirs.
C. Stream Gage network • INSIVUMEH is the agency responsible for water data collection • No proper data exist: • Due to civil war that lasted 36 year(data recovery in process) • Budget, disrepair D. Waterway Transportation • Guatemala has an estimated 1,035 kilometers of navigable channels and 950 square kilometers of navigable lakes 34. E. Recreation • Tourism is considered as the second source of income after coffee. Most tourism deals with history and archaeology, but adventure and ecological tourism are closely related to water resources. The country possesses much natural beauty, such as mountains, valleys, volcanoes, and tropical jungles with more than 30 ecological reserves rich in flora and fauna. 35Lakes and rivers are a vital part of the landscape. 21
D. EXISTING WATER RESOURCES Surface water 22
• Ground water resource 23
E. WATER RESOURCE DEPARTMENT SUMMARY This chapter summarizes the water resources information of Guatemala, which can be useful to water planners as a countrywide overview of the available water resources. each department consists of a general and regional summary of the surface water and ground water resources (Summary is provided by 22 departments) 24
F. RECOMMENDATIONS • Integral watershed management is needed to control deforestation and the resulting erosion and sedimentation. Development of comprehensive watershed and basin management plans is needed to curb these impacts. • Plans should include (1) short-term measures (i.e., erosion stabilization, small water supply systems, hydrologic and meteorological stations, including the repair of the existing gages); (2) interim measures (i.e., sediment control programs, flood plain management, small reservoirs); and (3) long-term measures(i.e., reforestation, large impoundment for flood control, hydropower, and water supply). • In certain areas of the country, the construction of small impoundments for capturing water for water supply may be considered. • Wastewater treatment is needed to improve the quality of the surface water resources of the country, as much of the population uses surface water for their water supply needs. 25
G. Overall summary Water resources of Guatemala are a major concern. Reasons for the increased competition for limited water resources are: • Uneven rainfall distribution; • degradation of the watersheds caused by deforestation; • no single agency responsible for management of water resources; • lack of wastewater collection and treatment, and proper solid waste disposal; • poor water resources management; • lack of adequate data needed to make informed decisions; • poor irrigation supply network leading to underdevelopment of sector; • rapid growth in urban areas increasing demand beyond system capacity; • lack of a national water law to protect and preserve the resources; and • poor distribution networks. Critical issues are the lack of access to water and sanitation, the high infant mortality rate, the extensive environmental damage caused by deforestation, the lack of hydrologic data, and the lack of watershed management. The solution to these issues presents significant challenges to the managers of water resources of Guatemala. Throughout our meetings with the managers, the recognition of the task before them and willingness to address the issues were evident. The lack of a national water and sanitation commission is the main reason for the absence of minimum health conditions in the country. There are no clear strategies, policies, or investment programs. Data is dispersed and unreliable. Coverage of potable water and sanitation services is extremely low. The recommendations offered in this report present the opportunities to improve the water resources situation. If adopted, these actions can have positive long-term impacts. Many of the other issues discussed in this report will require long-term institutional commitments to affect change. Proper management of abundant water resources of Guatemala can provide adequately for the needs of the country. 26
ADVANTAGE OF WRA • Conducting a water resources assessment provides you with a comprehensive understanding of the quality and quantity of water resources in your area. • Only by having a detailed understanding of the water resources in your area, allows large-scale change in your water system. 27
DISADVANTAGE • “Classic” Water Resource Assessment focuses predominantly on water on a regional or national level and does usually not consider the nutrient cycle and sanitation. • Conducting a water resources assessment requires considerable time and resources. • Requires the training and education of manpower in order to conduct a comprehensive analysis of the water resources in your area. • Requires a network of experts who are able to conduct, analyze and share the data needed for the water resources assessment. 28
WATER RESOURCE ASSESSMENT WRA is the “determination of sources, extent, dependability and quality of water resources for their utilization and control.” (HUBERT n.y.) 29
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Water ressource assessment

  • 1. Water Resource Assessment KISHOR KUMAR BHANDARI(07) MANOJ NEUPANE(08) SUBHASH CHHETRI(17) MSC STUDENT INFRASTRUCTURE ENGINEERING AND MANAGEMENT NAMASTE and WELCOME1
  • 2. Water resources assessment (WRA) is the process of measuring, collecting and analyzing relevant parameters on the quantity and quality of water resources for the purposes of a better development and management of water resources. (HUBERT n.y.) 2
  • 3. Why Water Resource Assessment?? • World’s expanding population place an increasing demand of water on drinking, food production, sanitation and other basic social and economic needs. But…. World’s water resources is finite • Human activities is leading to Depletion of resources and Pollution is increasing at alarming rate • Water related natural hazards are most destructive to human life and property. • Climate change, global warming…… 3
  • 4. Why Water Resource Assessment?? 4
  • 5. 5 Why Water Resource Assessment??
  • 6. ASPECT OF WRA 1. • WATER RESOURCE DEVELOPMENT 2. • MANAGEMENT 3. • PLANNING 6
  • 7. WATER RESOURCE ASSESSMENT • Water resource assessment is a systematic study of the status of water services and resources, and of trends in accessibility and demand within a specific domain of interest. • Applicable at any relevant level, e.g. village, sub-catchment or municipality • Known under various different names, such as water accounting and water resource audits 7
  • 8. WATER RESOURCE ASSESSMENT WRAs can help to clarify: • Current status of water resources at different scales, including inter-and intra- annual variability • Current water use (including variability), and the resulting societal and environmental trade-offs • Scale related externalities, especially when patterns of water use are considered over a range of temporal and spatial scales • Social and institutional factors affecting access to water and their reliability • Opportunities for saving or making more productive, efficient and/or equitable use of water; • Efficacy and transparency of existing water-related policies decision-making processes • Conflicts between existing information sets, and the overall accuracy of government (and other) statistics 8
  • 9. COMPONENTS OF WRA Source: UNESCO and WMO (1997) • Collection of hydrological data - the collection of historical data on water cycle components at a number of points distributed over the assessment area such as quantity and quality of surface and groundwater. • Collection of physiographic data - obtaining data on the natural characteristics of the terrain that determine the areal and time variations of the water cycle components, such as topography, soils, surface and bed rock geology, land-use and land-cover. These characteristics are designated for brevity as physiographic characteristics. • Collection of data from basic and applied research - further research related to water resources can be essential especially when some data is missing or the available date is out of date. Furthermore, research may be needed in order to develop the required technology used for the water resources assessment. • Education and training – All the basic water resources assessment activities require skilled manpower and this in turn require training and education of the manpower need. • Techniques of areal assessment of water resources - techniques of transforming data into information and of relating the hydrological data to the physiographic data for the purpose of obtaining information on the water-resource characteristics at any point of the assessment area. 9
  • 10. Illustration of main components 10 Collection of hydrological data (e.g. in data banks) (water cycle components, including quantity and quality of surface and groundwater, station information) Collection of physiographic data (e.g. in a GIS) (topographic, soils, geology, political borders, catchment borders, land use, river network) Education and training Basic and applied research Techniques of areal assessment of water resources (regionalisation techniques) Water resources information (publications, maps, etc.) Users (planning for water resources facilities) Components of a water resources assessment (WRA) program. Source: UNESCO and WMO (1997)
  • 11. Content Example for a Water Resources Assessment (Adapted from US ARMY CORPS OF ENGINEERS 1999) • The following list is an example how the content of a water resources assessment could look like for your project area: • • 1. Introduction • 2. Country Profile • Geography • Population and social impacts • Economy • Flood control • Legislative framework 11
  • 12. Content Example for a Water Resources Assessment (Adapted from US ARMY CORPS OF ENGINEERS 1999) • 3. Current Uses of Water Resources • A .Water supply • Domestic uses and needs • Industrial/commercial uses and needs • Agricultural uses and needs • Hydropower • Stream gauge network • Waterway transportation • 4. Surface Water Resources • Precipitation and climate • Rivers and basins • Lakes and swamps • Deforestation effects 12
  • 13. Content Example for a Water Resources Assessment (Adapted from US ARMY CORPS OF ENGINEERS 1999) • 5. Ground Water Resources • Aquifer definition and characteristics • Hydrogeology • 6. Water Quality • Surface water • Ground water • Domestic waste disposal 13
  • 14. Application of WRA A case study of Guatemala city (investigation done by US ARMY CORPS OF ENGINEER IN 1999 ) Statement of the problem: Guatemala has abundant water resource(+ rainfall) but:  No proper management to develop and maintain the w/s system  Uneven distribution of population(high density) in water deficit area  No public waste water treatment facilities  River are used for sewage disposal( no comprehensive water law)  Highest child mortality rate (in central American countries) due to water contamination  Surface water is not usable for w/s  Surface water has decreased to 60-70% due to deforestation and increased population  Shallow aquifer are contaminated  Hydrological data is lacking 14
  • 15. Report A case study of Guatemala city (investigation done by US ARMY CORPS OF ENGINEER IN 1999 ) A. Introduction  Importance of water  Major issue: quantity and quality  Factor affecting water  Purpose of assessment B. Country profile 1. Geography • 108,890 sq. km of territory • S.E. of Mexico and N.W. And west of other • Terrain is mainly mountainous with narrow costa plains and rolling limestone plateaus • Susceptible to volcanic eruption(with earthquakes) 15
  • 16. Report A case study of Guatemala city (investigation done by US ARMY CORPS OF ENGINEER IN 1999 2. POPULATION AND SOCIAL IMPACT • Present population (10,322,000 in year 1994 with increasing rate of 2.9) • Forecasted population (16 million by 2010.) • Which region is densely populated • Poverty (About 55 percent of the total population live in extreme poverty) • Population according to age (By the year 2000, it is estimated that 65 percent of the population will be under the age of 25) • Population with respect to area(average population density of the country is 94.8 people per square kilometer) 3. ECONOMY • GDP (mostly agriculture dominant(coffee, sugar, bananas), 50-60% labor force ) • Industry (20% GDP, 15% of labor force) 16
  • 17. Report A case study of Guatemala city (investigation done by US ARMY CORPS OF ENGINEER IN 1999 4. Flood control • Agency responsible for conducting R&D in flood control (in Guatemala INSIVUMEH) • Affect of flood if any (flood and hurricane in 1998, loss by banana companies 130 million US dollar, 40 km of dikes, 68km of road, SL of railroad, one bridge were damaged, 60,000 inhabitants were affected) • Flood control model (develop by Danish Institute in 1998 ) 5. Legislative framework • According to the constitution, the water of the country belongs to the people. • Deforestation laws exist, but enforcement is extremely difficult. • A national water law, negotiated for the past 10 years, has not yet passed, but is expected to pass in the new government in the year 2000. 17
  • 18. C. CURRENT USES OF WATER RESOURCE A. water supply 1. Domestic use and needs Demand: 12.78 cubic meter per second (1994) forecasted: 26 cubic meter per second (2010) • Surface water not usable(contaminated) • In urban areas GW is mostly used(deep wells or springs) • Each municipality is responsible for its own w/s and maintenance • w/s by municipality is of poor quality and 50% is loss in conveyance • In rural areas each community is responsible for their own w/s • 3 million people in rural areas do not have access to potable water • Most part of area has latrines but no conventional sewerage EMPAGUA, DSM-MSPYAS, INFOM, NGO……….(different agencies for water administration) 18
  • 19. 2. Industrial and commercial uses • Own w/s operations • Minimal data exist of industrial water use 3. Agriculture uses and needs • Bananas, sugarcane, and coffee are the main irrigated crops of the country. The private sector irrigates 80,000 hectares for bananas, sugarcane, and hay, and the government irrigates 20,000 hectares for vegetables, berries, and watermelon. • Presently, most (about 95 percent) of the water irrigation is from surface water sources, but since the quantity of surface water available for irrigation is decreasing due to deforestation, ground water is beginning to be used more. • Drip irrigation is the type of irrigation system used in the country 19
  • 20. B. Hydropower and Geothermal power • INDE is responsible for the electrical energy system. Five major hydropower plants and one geothermal plant operate in the country. In Guatemala, about half of the electricity is supplied by hydropower and the other half by thermal power (other than geothermal). More geothermal power is expected to be used in the future. 20 The two most serious problems facing the hydropower projects are water contamination and deforestation, which cause erosion and sedimentation that is rapidly filling the reservoirs.
  • 21. C. Stream Gage network • INSIVUMEH is the agency responsible for water data collection • No proper data exist: • Due to civil war that lasted 36 year(data recovery in process) • Budget, disrepair D. Waterway Transportation • Guatemala has an estimated 1,035 kilometers of navigable channels and 950 square kilometers of navigable lakes 34. E. Recreation • Tourism is considered as the second source of income after coffee. Most tourism deals with history and archaeology, but adventure and ecological tourism are closely related to water resources. The country possesses much natural beauty, such as mountains, valleys, volcanoes, and tropical jungles with more than 30 ecological reserves rich in flora and fauna. 35Lakes and rivers are a vital part of the landscape. 21
  • 22. D. EXISTING WATER RESOURCES Surface water 22
  • 23. • Ground water resource 23
  • 24. E. WATER RESOURCE DEPARTMENT SUMMARY This chapter summarizes the water resources information of Guatemala, which can be useful to water planners as a countrywide overview of the available water resources. each department consists of a general and regional summary of the surface water and ground water resources (Summary is provided by 22 departments) 24
  • 25. F. RECOMMENDATIONS • Integral watershed management is needed to control deforestation and the resulting erosion and sedimentation. Development of comprehensive watershed and basin management plans is needed to curb these impacts. • Plans should include (1) short-term measures (i.e., erosion stabilization, small water supply systems, hydrologic and meteorological stations, including the repair of the existing gages); (2) interim measures (i.e., sediment control programs, flood plain management, small reservoirs); and (3) long-term measures(i.e., reforestation, large impoundment for flood control, hydropower, and water supply). • In certain areas of the country, the construction of small impoundments for capturing water for water supply may be considered. • Wastewater treatment is needed to improve the quality of the surface water resources of the country, as much of the population uses surface water for their water supply needs. 25
  • 26. G. Overall summary Water resources of Guatemala are a major concern. Reasons for the increased competition for limited water resources are: • Uneven rainfall distribution; • degradation of the watersheds caused by deforestation; • no single agency responsible for management of water resources; • lack of wastewater collection and treatment, and proper solid waste disposal; • poor water resources management; • lack of adequate data needed to make informed decisions; • poor irrigation supply network leading to underdevelopment of sector; • rapid growth in urban areas increasing demand beyond system capacity; • lack of a national water law to protect and preserve the resources; and • poor distribution networks. Critical issues are the lack of access to water and sanitation, the high infant mortality rate, the extensive environmental damage caused by deforestation, the lack of hydrologic data, and the lack of watershed management. The solution to these issues presents significant challenges to the managers of water resources of Guatemala. Throughout our meetings with the managers, the recognition of the task before them and willingness to address the issues were evident. The lack of a national water and sanitation commission is the main reason for the absence of minimum health conditions in the country. There are no clear strategies, policies, or investment programs. Data is dispersed and unreliable. Coverage of potable water and sanitation services is extremely low. The recommendations offered in this report present the opportunities to improve the water resources situation. If adopted, these actions can have positive long-term impacts. Many of the other issues discussed in this report will require long-term institutional commitments to affect change. Proper management of abundant water resources of Guatemala can provide adequately for the needs of the country. 26
  • 27. ADVANTAGE OF WRA • Conducting a water resources assessment provides you with a comprehensive understanding of the quality and quantity of water resources in your area. • Only by having a detailed understanding of the water resources in your area, allows large-scale change in your water system. 27
  • 28. DISADVANTAGE • “Classic” Water Resource Assessment focuses predominantly on water on a regional or national level and does usually not consider the nutrient cycle and sanitation. • Conducting a water resources assessment requires considerable time and resources. • Requires the training and education of manpower in order to conduct a comprehensive analysis of the water resources in your area. • Requires a network of experts who are able to conduct, analyze and share the data needed for the water resources assessment. 28
  • 29. WATER RESOURCE ASSESSMENT WRA is the “determination of sources, extent, dependability and quality of water resources for their utilization and control.” (HUBERT n.y.) 29