Karst, karstic relief or shaped karstic, designates an area generally rich in limestone rocks dug by infiltration water. There are many underground galleries, caves and chasms. The word "karst" comes from the Kras or Karst region in Slovenia. It is there that the first karst phenomena were described scientifically.

The Jurassic is a geological period that lasted from 201 million to 145 million years ago. By way of comparison, our planet is 4.57 billion years old, and it has undergone a series of upheavals that shaped landscapes and the species we know today. The first fossil traces of life date back 3.5 billion years, whereas modern human beings, Homo sapiens, appear to have emerged about 300,000 years ago. The Jurassic is mainly known due to the presence of characteristic fauna: the dinosaurs.

Chemical origin: the minerals present in seawater can be precipitated directly in the form of small calcite particles. Very often, small marbles called ooliths are formed. The Gouffre can be seen to contain several layers of oolithic limestone.

Biological origin: the fragments of shells and of the skeletons of sea animals, mainly made up of calcite, accumulate on the ocean floor. Some fossils can be observed in the Gouffre de Padirac, but they are few in number..

Continental origin: rivers, wind or glaciers transport previously eroded rock fragments from the continent to a deposition area (lake or sea). Certain layers of limestone observable in the Gouffre are rich in clay.

Fissure: there are two main types of fissure, called joints and faults. Joints are just spaces between two boulders, whereas in faults, the boulders move relative to one another.

Quaternary: the Quaternary is a geological period that has lasted from 2.6 million years ago until the present day. As a reminder, the Earth was formed 4.57 billion years ago. Condensing the entire history of our planet into a 24-hour period, the galleries of the Gouffre de Padirac were formed at 11:59 p.m, which is very recent on a geological scale.

Chemical erosion: chemical erosion is the dissolution of calcareous rock by acidic water. Water is the "vehicle" that allows erosion to occur; in reality, it is the carbon dioxide dissolved in water that makes the water acidic, which means that carbon dioxide is the real agent in the reaction. Each raindrop that falls on the Causses is enriched with carbon dioxide and is acidified (the formation of carbonic acid). Carbon dioxide comes from biological activity in the soil, more specifically in the humus layer, in which plants decompose. Carbonic acid can then dissolve limestone.

Mechanical erosion: mechanical erosion (related to the strength of the current) sculpts the rock, but it mainly allows debris from upstream to be leached away and channelled.

Climate archive: concretions are fantastic scientific tools, and they are regularly used by geologists to trace back our planet's past climate. Before arriving underground, the drop of water forms a record of various soil and atmospheric properties. It then arrives in the underground network and deposits its calcite. All the information recorded on the surface is conserved underground in the concretion. By analysing stalagmites, stalactites, and other draperies, it is possible to trace back temperatures, amounts of precipitation, type of vegetation, etc., over time. Because of that, concretions are some of the history books of our planet.