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How groundwater is formed

Groundwater is those that are below the earth’s surface. The waters of the subsoil are a part of the total fresh water on the planet. They account for 21% of the total fresh water on Earth and also twenty times more of the water on the surface. If you want to know how groundwater is formed , then keep reading this article because in AgroCorrn we discover the answer, as well as details such as its location and classification, its importance and also the reason why, in turn, they are part of a big environmental problem.

You may also be interested in: What are groundwater

How groundwater is formed – definition and its origin

The water from the rain can go to different destinations. It can either flow through the surface forming rivers, streams or other forms of runoff, be absorbed by organisms, or the water can seep into the ground and form groundwater .

As a definition of groundwater we can say that these include all kinds of water found in the subsoil . For water to enter the soil, it must have a series of characteristics. There are permeable soils, which let water through, such as sands and stones, and impermeable soils such as volcanic and metamorphic rocks.

The water, once it reaches the subsoil, can accumulate in different ways and at different depths and even erode the rock creating an underground landscape. In addition, they have great ecological and economic importance for human beings, and precisely because of this they are also suffering the negative consequences of human action. All of this is explained in more detail below.

Where is groundwater found?

One type of groundwater is gravitational water . Gravitational water is the water found in the pores of the earth. Sandy and stony soils contain more pores due to the large size of the grain they have and leave holes with air that, when it rains, fill with water by infiltration into the ground and remain stored.

If more water accumulates we can differentiate 3 types of water reservoirs : aquiccludes, aquitards and aquifers. Acuícludos are deposits of silt and clay that contain water, but due to its low permeability it cannot be moved or extracted. Aquitards are geological formations, generally made of clayey sands, sandstones or slightly fractured and compressed rocks that contain much water, which can circulate, but slowly. And finally, aquifers are geological formations of sand, gravel or other fragmented or fissured rocks that contain a large amount of water that can move freely.

Generally, 3 types of aquifers are distinguished :

  • Free aquifers: are those whose water level is in contact with the atmosphere and at the same pressure. The unsaturated zone is distinguished, which is an area of ​​the land that does not have water but could be filled, and the water table, which is the area of ​​the land to which the water contained in the aquifer reaches. The unsaturated zone is between the earth’s surface and the water table.
  • Confined aquifers: are those that are found between impermeable rocks, filling all the pores and cracks with water. In these aquifers there is no non-saturation zone. In them, the pressure exerted by the rocks is greater than the atmospheric pressure and, therefore, if the water were extracted, the land could collapse and cause the earth’s surface to sink.
  • Semi-confined aquifers: are those that are found between semi-permeable rocks, such as aquitards, and impermeable rocks.

Groundwater comes to the surface through springs or lakes due to infiltration on the ground surface. In these cases the groundwater flows into the lakes by springs below the lake surface. It may be that the lakes originate from their bottom when the groundwater emerges, or that the aquifer is recharged by the movement of rain and meltwater, accumulated in the lakes, towards the interior of the earth, and also maintains the lake because the water table of the aquifer is above the ground surface. Fossil water is that found in aquifers that have not been recharged for a long time.

Groundwater has different characteristics from rivers, lakes and ponds , wetlands, estuaries, and other types of surface water. They do not usually contain dissolved gases, are under pressure and normally move slowly between rocks, although the fractures between them often provide channels through which water flows at high speed.

Importance of groundwater

When groundwater runs through soils formed by limestone rock, it dissolves the material and forms the karst landscape . Some typical formations are caves, stalactites, stalagmites, chasms and galleries among others. They provide shelter for animals, such as bats or many invertebrates, which in turn are food for other animals. These spaces are also used by man to practice sports such as caving or adventure tourism.

In addition, groundwater when circulating in caves or through sands and gravels can carry living material such as bacteria, and animals such as small crustaceans and insects that feed on the bacteria.

Groundwater represents one of the most important water supplies for the population. Groundwater is a source of drinking water. It is often obtained from springs and wells, natural or man-made. About 50% of the human population is supplied by groundwater and is used both for human consumption and for livestock and agriculture. It is so important that, for example, in the United States, 95% of the rural population depends on them.

Environmental problems of groundwater

Groundwater can be easily polluted due to its slow movement as it is out of sight.

Also, the water tends not to mix, so feathers from salty or polluted water can move long distances. The volatile pollutants contained in them cannot evaporate.

Water pollution can occur naturally, since the water moving through the rocks can carry the toxic substances they contain, such as some metals. But the most common form of contamination is anthropic, that is, by humans. It may be due to the use of pesticides and fertilizers in agricultural areas, wastewater and raw water in urban and industrial areas, and increased nitrate levels. The latter is one of the most worrying because once it reaches the subsoil it is transformed into other compounds that can cause health problems and diseases, such as cancer when this water is ingested.

One of the big problems is the overexploitation of groundwater . It occurs when water is withdrawn at a faster rate than it is replenished. Overexploitation of an aquifer can mean:

  • The reduction of the pressure that the masses of groundwater are supporting and therefore will decrease their pressure (artesian pressure) of extraction.
  • It can cause subsidence of the terrain.
  • It causes water intrusions, either from other nearby aquifers or from the ocean if they are close to the coast, therefore, the quality of the waters is reduced.
  • Contributes to desertification. The amount of water outcrops on the earth’s surface and the water table decreases.

Now that you know well what groundwater is, how it is formed and its importance, as well as the environmental problems that are related to it, you may also be interested in knowing the information in this other AgroCorrn article on Why water is a resource renewable but limited .

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