A mining district in the European context denotes a specific geographically-defined area under the control and administration of a single mining authority. [1] This district includes the mines, [2] saltworks and smelters located within it. [3]
In the former Holy Roman Empire and in German-speaking countries today, various terms were used including Bergrevier, [4] often shortened to Revier, [1] Bergamtsrevier, [4] Bergdistrict, [2] Bergamtsbezirk, [3] or Bergwerksdistrikt. [5]
Until the Middle Ages, mining in Europe was only practised on a small scale. There were relatively few mines that were subordinated directly to their respective sovereigns. Their administration was instead carried out by an official appointed by the sovereign on his or her behalf. Mining was regulated by the applicable mining ordinances in the respective states. [6] When mining increased in scope and more and more mines were built, it was no longer possible for a single person to manage the mines. For this reason, in countries where mining was carried out, the operations were divided into several smaller mining districts. [7] Each individual district was under its own mining office, which was only responsible for its assigned mining district. [8] The head of each mining district was the Bergmeister ("Master Miner"). [9] The town which was home to the headquarters of the mining authority was the so-called Hauptbergstadt ("main mining town") of the mining area. [8] Sometimes several mining districts combined formed a major mining district, the Hauptbergwerksdistrikt [10] or Oberbergamtdistrikt, [4] which was subordinate to the Higher Mining Office (Oberbergamt). [10] The overall head of mining operations in this case was the Berghauptmann ("mining captain"). [3] In countries where there were very many mines, there were several higher mining authorities (Oberbergämter), each of which had its own district. These higher authorities were in turn subordinate to the responsible ministry of state. [11]
The size of a mining district is regulated differently depending on the country. There are countries in which the geographical location is decisive for the size of the individual mining districts. [9] In other countries, such as Austria, the size of the mining district was dependent on the number of mines and the size of their mining areas (Bergreviere). Here, the mining authority determines the number of mines per mining area in agreement with the mining operators involved. [12] The size of a mining area was not always fixed. Changes within the respective mining districts could lead to changes in the demarcations of the associated mining areas. [13] It sometimes happened that two previously independent mining districts were combined into a new, larger mining district. [14] It was also possible that parts of another mining district from another country were assigned to a particular mining district. [15]
Each mountain district is assigned a specific name. [12] As a rule, the individual districts were named after the main mining town within it. [2] For example the Bergrevier Wetzlar, [16] or the Freiberger Bergrevier . [17] However, sometimes they were named after a region such as e.g. the Ruhr mining district, which retained its name, even though the main mining activities took place north of the Emscher. [18] It was also possible for mining districts to be renamed, e.g . the Bergrevier St. Goar was renamed Bergrevier Coblenz II. [15] If districts were combined, the newly formed mining district also received a new name. This might consist of the names of the merged districts, as with the merger of the Brühl and Unkel mining districts to form the Brühl-Unkel mining district. [14]
Georg Friedrich Puchta was an important German Legal scholar.
Mining law is the branch of law relating to the legal requirements affecting minerals and mining. Mining law covers several basic topics, including the ownership of the mineral resource and who can work them. Mining is also affected by various regulations regarding the health and safety of miners, as well as the environmental impact of mining.
Ulrich Rülein von Calw (1465–1523) was a doctor, mathematician and well-known mining engineer. He was also active as a surveyor, town planner and astrologer and was the mayor of the mining town of Freiberg for five years.
A Kunstgraben is a type of man-made water channel that was once used by mines to drive the water wheels needed for power, mine drainage and a host of other purposes. The term is German. Similar ditches supplying water mills in England are called leats.
The flatrod system was an invention of the mining industry that enabled the mechanical movement generated by a water wheel to be transferred over short distances. It was invented in the 16th century and by the 18th century was being used to transmit power up to four kilometres. Flatrod systems were widely used in the Harz and Ore Mountains of Germany as well as in Cornwall, England and Bergslagen in Sweden.
A Rösche is a German mining term that refers inter alia to a gullet (Wasserseige), a trench for draining water in the lower part of a mine gallery. In order to keep the actual gallery entrance (Stollenmundloch) free and guard against backflooding the Röschen were, in many cases, extended to below the entrance or led even further away, underground, to the nearest stream or river.
The Revierwasserlaufanstalt Freiberg or RWA Freiberg, was a historical water management system that delivered driving water to the Freiberg mines in the time of the German Electorate and later Kingdom of Saxony. Today the system is used to supply drinking and industrial water and is operated by the Saxony State Reservoir Office.
The Saxon Mining Office is the executive authority for mining rights in the German state of Saxony. It is also responsible for all non-metallic mineral resources on the terrain of the former East Germany.
Glückauf is the traditional German miners' greeting. It describes the hope of the miners: "es mögen sich Erzgänge auftun" which is short for "Ich wünsche Dir Glück, tu einen neuen Gang auf", because, when mining for ore, without prospecting, no-one could predict with certainty whether the miners' work would lead to a reward. The greeting also expressed the desire that miners would return safely from the mine after their shift.
The miner's apron is part of the clothing worn, especially historically, by miners in the mining industries of German-speaking Europe. Variously called in English a miner's apron, a miner's after-apron, breech leather or miner's leather apron, it was a leather apron that served to keep the seat of the trousers from wearing out when working or moving around the mine (Fahrung) as well as keeping out the cold and moisture when sitting. It also provided protection especially when entering inclined mineshafts. Another advantage was that it stabilised the internal organs from mechanical shock and vibration by acting as a sort of kidney belt. The miner's apron was a triangular or, more rarely, semi-circular piece of leather and was supported by the body belt. In Germany the design of the modern miner's apron is governed by DIN standard 23307 Gesäßleder für den Bergbau (Arschleder).
A Steiger is the title of a mining foreman or mine manager, used in German-speaking Europe. He bears responsibility for part of the mine and the people subordinated to him. The name is derived from the former role of a Steiger, who continually had to climb into and out of the pit. The Steiger is celebrated in a very popular German mining song the so-called Steigerlied.
The Mooskappe is an old, traditional miners head covering. It was intended to protect miners when working underground from the impact of small rockfalls and from hitting their heads against the gallery roof (Firste). The term is German and this type of hat was worn especially in the Harz Mountains of Germany.
The Bergregal was the historic right of ownership of untapped mineral resources in parts of German-speaking Europe; ownership of the Bergregal meant entitlement to the rights and royalties from mining. Historically, it was one of those privileges that constituted the original sovereign rights of the king.
The Bergordnung were the mining regulations or law enacted in order to exercise the royal mining rights or Bergregal in central Europe in medieval times.
The German Mining Museum in Bochum or DBM is one of the most visited museums in Germany with around 365,700 visitors per year (2012). It is the largest mining museum in the world, and a renowned research establishment for mining history.
Pit water, mine water or mining water is water that collects in a mine and which has to be brought to the surface by water management methods in order to enable the mine to continue working.
A hewer is a miner who loosens rock and minerals in a mine. In medieval mining in Europe a Hauer was the name given to a miner who had passed his test (Hauerprüfung) as a hewer.
A Pinge or Binge ("binger") is the name given in German-speaking Europe to a wedge-, ditch- or funnel-shaped depression in the terrain caused by mining activity. This depression or sink-hole is frequently caused by the collapse of old underground mine workings that are close to the Earth's surface. Unlike natural landforms, a Pinge is a direct result of human activity. The term has no direct equivalent in English, but may be translated as "mining sink-hole", "mine slump" or, in some cases, as "glory hole".
Stolberg Zinc joint-stock company for mining and smelter operations in Aachen, or Stolberg Zinc Mines GmbH, is a metal mining concern in the Aachen region and specifically in the area of Eschweiler-Stolberg, with headquarters in Stolberg.
The area around Wiesloch, Germany, is a historical centre for mining, running between Roman times and the earlier 2000s. The area is situated on the eastern edge of the Upper Rhine Plain and contains large concentrations of carbonate-hosted lead-zinc ore deposits. Lime for cement is still actively mined in the vicinity, with most of the clay pits closed, and the last heavy metal mine operated until 1953 by Stolberger Zink. On top of the escarpment metals and lime have been mined, with clay and sand mined at the end of the valley floor where faulting has brought different layers closer to the surface.