Everest continues to grow: This is how a river influences its height!

Everest continues to grow: This is how a river influences its height!

The majestic presence of Mount Everest , which with its over 8,848 meters is the highest survey of the earth, fascinates not only climbers and adventurers, but also scientists who deal with the dynamics of geological processes. A study by University College London (UCL) recently published surprising findings about the continuous increase in altitude of this impressive natural wonder. The Everest grows annually by about 2 millimeters , and the reasons for this are as fascinating as it is complex.

The researchers found that the erosion through the nearby arun flow , which arises about 75 kilometers away, plays a crucial role. The river regularly carries large quantities of rock and sediment, which reduces the mass of the surrounding country. This change is reminiscent of the behavior of a ship that becomes easier when throwing heavy loads and therefore increases. This basis is the explanation for a geological process, which is known as Rebote Isostático and includes the rise not only of Everest, but also other peaks in Himalaya , such as the lhotse and makalu .

detailed analysis of the ascent

The scientists analyzed how the erosion of the Arun affects the gravitational forces and the pressure below the surface of the earth. Adam Smith, a co -author of the study, compares the process with a ship that gains altitude by throwing ballast. The process of redemption of the arun is particularly dynamic, since this river, which arises in tibet and flows according to nepal , through its steep mountain slopes and the rapid pace with which it transports water and sediment, a significant erosion force.

The exact height measurement of the Everest is carried out using the latest GPS technology . But what exactly does that mean for fashion in geological research? A central point of the discussion among the geologists who are not involved in the UCL studies is the question of the intensity and about what erosion comes about. Prof. Hugh Sinclair from the University of Edinburgh is expressed in the way that, although the mechanism of the isostatic rebound is understandable, many parameters are still unclear and precise measurements represent great challenges.

Another aspect addressed in the study concerns the period and distance, through which erosion influences the amount of a mountain. Various geological factors and tectonics play a role in this, so that the exact prognosis of changes is complex. This underlines the likelihood that the increase in altitude of Everest, even if it appears slightly, indicate an important and continuous geological process.

In addition, the investigation shows that this growth is a slower and balanced process that shows how nature constantly forms the Himalayan region. While the summit lhotse (8,516 meters) and makalu (8,485 meters) increase at a comparable pace like Everest, research raises questions about the exact relationship between erosion and the resulting elevation.

The static perception of the mountains is in blatant contrast to its actual dynamic nature. The eternal influence of water and the forces of the ground makes it clear that the Everest, although it appears stable for the human eye, is constantly changing. The evolution of the height is not only a geological phenomenon, but also a metaphor for the inconsistency of changes on our planet.

The research has already found some support, even if there are still open questions. The constant dialogue of geologists about the mechanisms that lead to the constant transformation is obvious and shows the complexity of these processes. According to the study authors, it remains exceptionally challenging to understand all aspects of erosion and their effects. They are calling for further investigations to gain a clearer view of the interactions between the geological forces in this fascinating region.

The changing land form of Everest and the emerging geological changes underline the essence of geosciences: The Therma that no geographical property, as Monumental may be, remains the same for all times. These findings described in the current article are an indication of the dynamics of the earth itself and open up numerous opportunities for future research.

summarized Mount Everest, as the highest mountains in the world, more than just a goal for adventurers; It is a lively example of the complex and constant changes that shape the earth's surface. The more we learn about such phenomena, the more we appreciate the fascinating and often unexpected processes that shape our world, such as "https://www.infobae.com/america/ciencia-america/2024/02/Bor-que-el-everest-2-milimetros-al-ano/" target = "_ blank" rel = "nofollow noopener noreferer"> www.infobae.com describes.