Presentation is loading. Please wait.

Presentation is loading. Please wait.

In arid and semi-arid regions, agriculture is limited by the availibility of suitable irrigation water. Groundwater is the main source of irrigation and.

Published byPhebe McCormick Modified over 9 years ago

Similar presentations

Presentation on theme: "In arid and semi-arid regions, agriculture is limited by the availibility of suitable irrigation water. Groundwater is the main source of irrigation and."— Presentation transcript:

1

2 In arid and semi-arid regions, agriculture is limited by the availibility of suitable irrigation water. Groundwater is the main source of irrigation and drinking in these areas.

3 Climate of study area is semi-arid. The area is characterized by predominance of metamorphic rocks (sedimentary rocks) Groundwater has been used for drinking, agricultural and domestic purposes. Hydrogeochemical investigation was carried out in Alisadr area to identify groundwater geochemistry and its suitability for irrigation purposes.

4

5

6 World Health Organization Standards Based on WHO’s drinking water standards, limit for No3 in drinking water is 50 mg/l. Concentration of No3 in 15% of the samples were above the standards. High values of NO3 are results of agricultural activities.

7 Hard water is the water that contains high levels of dissolved calcium, magnesium. Hardness = 2.5(mg Ca/L) + 4.1(mg Mg/L) The greater the amount of dissolved minerals in the water, the harder it is. mg/L Degree of Hardness. 0 - 75 Soft, 75 - 150 Moderately Hard, 150 - 300 Hard, 300 and up Very Hard

8 Ways in which total hardness and water quality are connected are : Household plumbing. Decrease in cleaning ability. Water heaters can become less efficient. Most of the water samples were in the categoray of hard and very hardwater.

9 The sodicity hazard of water is described by Sodium Adsorption Ratio ( SAR). High concentrations of Na+ are undesirable in water because Na+ is adsorbed in to the soil cation exchange sites, causing soil accumulations to disperse, reducing its permeability.

10 SAR=[Na]/([Ca+mg]/2)^0.5 Areas with high SAR, special management with salinity control may be required, only plants with good salt tolerance should be selected.

11 Compositional relations among dissolved species can reveal the origin of species and the process that generated the observed water compositions. Possitive correlations indicates common resource.

12 Negative correlation between Ca and HCO3 shows that Calcite (CaCO3) can not be the source of Ca. Calcium and So4 ions in groundwater are provided mostly by the dissolution of Gypsum(CaSO4:2H2O) There is a strong correlation between Na and Cl that may explain the dissolution of halite(NaCl) in water can be the source. Dissolution of Anorthite (CaAl2Si2O8) also can contribute to Ca ions in groundwater.

13

14 Inverse modeling is used to estimate sets of minerals and gases that account for the differences in composition between the solutions. At least two solution is needed, but we can add as many as we want. Inverse modeling can be used to predict the changes that may occur in concentration of elements in the flowpath, by indicating whether a mineral will disolve or precipitate.

15 Hypothesis: In this study correlation ratios were used to demonstrate possible origin of species, can inverse modeling provide the same results?

16 5 water solution were chosen. Water solutions show increase in concentration of elements, with emphasizes on elements that cause quality problems for water.

17 INVERSE_MODELING 1 -solutions 1 5 -uncertainty 0.5 0.5 -phases Gypsum Calcite Anorthite Halite -balances pH 0.2 0.2 -tolerance 1e-010 -mineral_water true

18 Positive mole transfers show dissolution of a mineral, and negative mole transfers shows precipitation of a mineral

19 1. Phase Mole Transfers Minimum Maximum Gypsum 9.770e-004 0.000e+000 0.000e+000 CaSO4:2H2O Calcite -3.565e-004 0.000e+000 0.000e+000 CaCO3 Anorthite 3.840e-005 0.000e+000 0.000e+000 CaAl2Si2O8 Halite 1.797e-003 0.000e+000 0.000e+000 NaCl 2. Phase Mole Transfers Minimum Maximum Calcite -3.565e-004 0.000e+000 0.000e+000 CaCO3 Anorthite 3.840e-005 0.000e+000 0.000e+000 CaAl2Si2O8 Halite 1.796e-003 0.000e+000 0.000e+000 NaCl 3. Phase Mole Transfers Minimum Maximum Gypsum 9.770e-004 0.000e+000 0.000e+000 CaSO4:2H2O Anorthite 1.336e-005 0.000e+000 0.000e+000 CaAl2Si2O8 Halite 1.797e-003 0.000e+000 0.000e+000 NaC 4. Phase Mole Transfers Minimum Maximum Anorthite 1.336e-005 0.000e+000 0.000e+000 CaAl2Si2O8 Halite 1.796e-003 0.000e+000 0.000e+000 NaCl

20 Results indicates the dissolution of gypsum, anorthite and halite and precipitation od calcite. Based on the results origin of species are found, and they support the results in the article.

21

Download ppt "In arid and semi-arid regions, agriculture is limited by the availibility of suitable irrigation water. Groundwater is the main source of irrigation and."

Similar presentations

Oak Hill Case Soil Chemical Problems. SALT - RELATED PROBLEMS Ion Toxicities Ion Imbalances Soil Permeability Water Deficits.

Oak Hill Case Soil Chemical Problems. SALT - RELATED PROBLEMS Ion Toxicities Ion Imbalances Soil Permeability Water Deficits.
Solubility Product The solubility of a mineral is governed by the solubility product, the equilibrium constant for a reaction such as: CaSO 4 (anhydrite)

Solubility Product The solubility of a mineral is governed by the solubility product, the equilibrium constant for a reaction such as: CaSO 4 (anhydrite)
Chapter 19 - Neutralization

Chapter 19 - Neutralization
Soil Salinity/Sodicity/Alkalinity and Nutrients

Soil Salinity/Sodicity/Alkalinity and Nutrients
AP Environmental Science Edinburg North High School.

AP Environmental Science Edinburg North High School.
Gregg Carlson, David Clay, Doug Malo, Sharon Clay, and Cheryl Reese.

Gregg Carlson, David Clay, Doug Malo, Sharon Clay, and Cheryl Reese.
Irrigation and Water Quality Section F SWES 316.

Irrigation and Water Quality Section F SWES 316.
Soil Structure: The Roles of Sodium and Salts

Soil Structure: The Roles of Sodium and Salts
Class evaluations.

Class evaluations.
The Punic Wars –Case for Salt in Soils “After the third punic war, the Romans stormed the town and the army went from house to house slaughtering the inhabitants.

The Punic Wars –Case for Salt in Soils “After the third punic war, the Romans stormed the town and the army went from house to house slaughtering the inhabitants.
Introduction to Groundwater Chemistry October 04, 2010.

Introduction to Groundwater Chemistry October 04, 2010.
Lecture 2 - Major Ions in Sea Water Why do we care about the major ions? What is the composition of seawater? What defines Major Ions? What are their concentrations?

Lecture 2 - Major Ions in Sea Water Why do we care about the major ions? What is the composition of seawater? What defines Major Ions? What are their concentrations?
Soil and Water Salinity Dissolved salts decrease the osmotic potential of soil water (which lowers the Total Soil Water Potential) a decrease in soil solution.

Soil and Water Salinity Dissolved salts decrease the osmotic potential of soil water (which lowers the Total Soil Water Potential) a decrease in soil solution.
Hardness CE 370 - Lab. Definition Hardness of water is a measure of its capacity to precipitate soap and is caused mainly by the presence of divalent.

Hardness CE Lab. Definition Hardness of water is a measure of its capacity to precipitate soap and is caused mainly by the presence of divalent.
Chemical Equilibrium A condition in which the system is at its minimum attainable chemical energy level and hence has no tendency to undergo chemical change.

Chemical Equilibrium A condition in which the system is at its minimum attainable chemical energy level and hence has no tendency to undergo chemical change.
Soil Science and Management, 4E

Soil Science and Management, 4E
SOIL CHEMISTRY SOIL pH A measure of the degree to which the soil is Acidic or Basic; also known as... Soil Reaction.

SOIL CHEMISTRY SOIL pH A measure of the degree to which the soil is Acidic or Basic; also known as... Soil Reaction.
Inverse Mass-Balance Modeling versus “Forward Modeling” How much calcite precipitates? 2% CO 2 atm CO 2 Forward Approach What is the strategy? What data.

Inverse Mass-Balance Modeling versus “Forward Modeling” How much calcite precipitates? 2% CO 2 atm CO 2 Forward Approach What is the strategy? What data.
Factors Affecting Water Quality Chapter 6. Introduction  Many types of pollutants and many factors affecting the toxic effect of those pollutants  Factors.

Factors Affecting Water Quality Chapter 6. Introduction  Many types of pollutants and many factors affecting the toxic effect of those pollutants  Factors.
Inverse Geochemical modeling of groundwater with special emphasis on arsenic Sharanya Shanbhogue Geochemistry 428/628 12/09/2010.

Inverse Geochemical modeling of groundwater with special emphasis on arsenic Sharanya Shanbhogue Geochemistry 428/628 12/09/2010.

Similar presentations

Ads by Google