In our last blog, we have covered the difference between Internal Water Sources and External Water Sources.
In our Agriculture for Everybody blog series, we will do a deeper analysis and understand the different Internal Water Sources and their advantages and disavantages.
Borewells
Open Wells
Calculating Water Holding Capacity of an Open Well
Volume of Pond in Litres = 3.142 X Diameter/2 X Diameter/2 X Average Depth X 1000
For eg., a pond with 2.5 metres diameter and 5 metres avg depth will have
3.142 X 2.5/2 X 2.5/2 X depth X 1000 = 24547 Litres
Ponds
Calculating Water Holding Capacity of a Pond
Square or Rectangular Pond
Volume of Pond in Litres = Length (in metres) x Width (in metres) x Average Depth (in metres) x 1000
For eg., a pond with 25 metres length and 10 metres width and 5 metres depth will have
25 m (Length) X 15 m (Width) X 5 m (Avg Depth) X 1000 = 1875000 Litres
Round Pond
Volume of Pond in Litres = 3.142 X Diameter/2 X Diameter/2 X Average Depth X 1000
For eg., a pond with 2.5 metres diameter and 5 metres avg depth will have
3.142 X 2.5/2 X 2.5/2 X depth X 1000 = 24547 Litres
In our Agriculture for Everybody blog series, we will do a deeper analysis and understand the different Internal Water Sources and their advantages and disavantages.
Borewells
| Advantages | Disadvantages |
|---|---|
| 1. Occupies very less space 2. Digging of borewell is quite fast 3. No evaporation of water at all | 1. Need power for lifting water 2. Identifying the water point is not fool proof 3. How much water available cannot be established? |
Open Wells
| Advantages | Disadvantages |
|---|---|
| 1. Occupies a little more space 2. Takes more time to dig an Open Well 3. Can measure the amount of water available and plan crops accordingly 4. Can be utilized to store water harvested 5. Recharge of groundwater happens automatically 6. Water can also be lifted by mechanical power | 1. Need power for lifting water 2. Little bit of evaporation takes place 3. Mosquito menace can be a problem for humans and livestock |
Calculating Water Holding Capacity of an Open Well
Volume of Pond in Litres = 3.142 X Diameter/2 X Diameter/2 X Average Depth X 1000
For eg., a pond with 2.5 metres diameter and 5 metres avg depth will have
3.142 X 2.5/2 X 2.5/2 X depth X 1000 = 24547 Litres
Ponds
- Allocate 10% of the farmland for ponds if you wish to utilize the pond for growing fish and have only 3 to 5 feet of water for better maintenance
- Allocate atleast 1% of the farmland for ponds if you need just water and increase the depth of the pond according to your needs
- Confirm whether the water will be held in the pond without too much seeping
- Identify the lowest point of the farm where the water rushes to during rain and create the pond there for easy collection of water and better maintenance
| Advantages | Disadvantages |
|---|---|
| 1. Occupies a huge space 2. Takes a little more time to do construction of the pond 3. Can measure the amount of water available and plan crops accordingly 4. Can utilize the pond for growing fish, ducks etc 5. Can be utilized to store water harvested 6. Recharge of groundwater happens automatically 7. Water can also be lifted by mechanical power | 1. Need power for lifting water 2. More evaporation takes place 3. Filling of pond takes time 4. Mosquito menace can be a problem for humans and livestock |
Calculating Water Holding Capacity of a Pond
Square or Rectangular Pond
Volume of Pond in Litres = Length (in metres) x Width (in metres) x Average Depth (in metres) x 1000
For eg., a pond with 25 metres length and 10 metres width and 5 metres depth will have
25 m (Length) X 15 m (Width) X 5 m (Avg Depth) X 1000 = 1875000 Litres
Round Pond
Volume of Pond in Litres = 3.142 X Diameter/2 X Diameter/2 X Average Depth X 1000
For eg., a pond with 2.5 metres diameter and 5 metres avg depth will have
3.142 X 2.5/2 X 2.5/2 X depth X 1000 = 24547 Litres
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