In some parts of our planet, we can see a type of surface topography that is covered by silt deposits that have been carried by the wind. This is called loess reservoir. For this type of topography to form, periods of thousands of years have probably had to pass, in which continuous dust storms have deposited this material.
In this article we are going to reveal the importance of the Loess tank and its main characteristics.
Loess reservoir and its formation
As we have mentioned before, it takes a period of thousands of years for the wind to form these deposits little by little. In some parts of the world we find this type of training and it is a marvel. When the Loess reservoir is traversed by streams of water or cut to make roads, it normally maintains a vertical structure. This is where you do not have visible layers as naturally.
The distribution of the Loess deposit indicates that there are several main sources of sediments for this formation: the first is the desert deposits that accumulate with the force of the wind, and the second is the floodplains of the glaciers. These two sources of training are responsible for the Loess.
The thickest and most extensive Loess deposits on Earth are those we can see in western and northern China. These deposits have been formed by wind transport from the extensive desert basins of Central Asia. Some of these formations are accumulations of 30 meters and it is a common thing to see. The average thickness has been established at 100 meters. This sediment accumulates and, for example, is what gives the Yellow River its color.
On the other hand, in the United States, Loess deposits are more significant in many areas where sediment transport exists over long distances. For example, in South Dakota, Nebraska, Missouri and Illinois, they are areas where we can find these structures. They can also be seen on some of the Columbia Plains in the northwest Pacific.
Origin
There is a correlation between the distribution of the Loess with the major agricultural regions of the Midwest and the state of Washington. This is not a coincidence at all, but it has a lot to do with it. It is because the soils derived from this sediment that is deposited by the wind are among the most fertile in the world. Thanks to the accumulation of materials, the nutrients also accumulate. It becomes a very fertile area for agriculture.
Unlike the deposits in China, which originated in the desert, those in the United States and Europe are an indirect product of glaciations. Freezing and thawing over thousands of years give rise to sediment formations and deposits that increase soil fertility. In contrast, those deposits formed by sandy sediments are not at all fertile. They only create structures with attractive landscapes but with low fertility.
The origin of the Loess deposits in the United States and Europe are stratified glacial debris. When glaciers begin to retreat due to rising temperatures, many river valleys have been blocked by sediment deposited by meltwater. In this case, the agent transporting the sediment is not the wind, but meltwater. The wind has also played a role, blowing westward, sweeping and transporting much of the sediment found on the floodplains.
The sediments were transported from the finest to the thickest. In their movement, they have dropped like a blanket on the eastern slopes of the valleys. The origin of these formations can be confirmed by the fact that the Loess deposits are more pronounced in the leeward areas where the main glacier drainage areas are found. For example, it is most appreciated in the areas of the Mississippi and Illinois rivers and they become thinner as the distance from the valley continues to increase.
Another proof of this origin are the angular grains that can be seen weathered and that make up the Loess. It can be seen that they are the same as those that we can find in the rock soil that has been produced in the grinding of glaciers.
Physical characteristics of the Loess tank
These deposits constitute 10% of all soils in the world. The word Loess means that the soil is loose and composed of 50% silt and another 50% clay. As the distances from the emission source increase, the amounts of deposited grains decrease and, therefore, the deposits decrease in thickness and length.
Sources can be local or distant. Hence there are different types of Loess. For example, lime or carbonate are some of the characteristic components that we find in Loess. The type and amount of carbonate that we have depends on the formation process before and after the deposition of the silt and the rain that compacts them.
Being loose, the floors are not too strong. They are firmer when dry, but can still crumble easily when soaked in water. The soil can contain between 10 and 15% water with a porosity that varies between 34 and 60%. These variables change depending on the amounts of clay or sand we have.
As we mentioned before, these are highly sought-after reservoirs for intensive agriculture, and this makes cultivation operations easier, ensuring adequate aeration so the soil has optimal properties that favor crop root growth.