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Edelsteintage Konstanz
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Axinit, loismin, zinnwald, blackforestmining2, manfred s., limestone, Rolf
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05. Apr. - Ta­tort Franken – Das stein­erne Grab der Rie­sen­lurche
10. Apr. - Min­er­alien­börse im Lausitz-Cen­ter in Hoy­er­sw­er­da
11. Apr. - Min­er­alien­börse im Lausitz-Cen­ter in Hoy­er­sw­er­da
11. Apr. - 23. Min­er­alien-IN­FO im Ahrn­tal - Südtirol
11. Apr. - Min­er­alien.- und Fos­silien­börse Rosen­heim - Auer Fes­thalle
12. Apr. - 31. Min­er­alien- und Fos­silien­samm­ler­börse Eg­gen­burg / AT
12. Apr. - Min­er­alien­börse Her­born-Merken­bach
17. Apr. - GERA: Bild­vor­trag „Der Ein­fluss Preußens auf den Berg­bau im
19. Apr. - 25. Bay­er­wald-Min­er­alien­börse Bad Kötzt­ing, DE
26. Apr. - 34. Min­er­alien- und Fos­silien­börse Arns­berg-Müschede, DE
09. May - 77. In­ter­na­tio­nale Min­er­alien­börse in Freiberg/Sach­sen
09. May - 50. Min­er­alien- & Fos­silien­börse “MIN­ER­AN­T2026” - Gol­d­en
09. May - 43. Aschaf­fen­burg­er Min­er­alien­börse
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Mineralien Kalender
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Deutschland/Nordrhein-Westfalen/Arnsberg, Bezirk/Hochsauerlandkreis/Arnsberg/Holzen
 
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Calcit
© Millerit
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05. Apr. - Ta­tort Franken – Das stein­erne Grab der Rie­sen­lurche
10. Apr. - Min­er­alien­börse im Lausitz-Cen­ter in Hoy­er­sw­er­da
11. Apr. - Min­er­alien­börse im Lausitz-Cen­ter in Hoy­er­sw­er­da
11. Apr. - 23. Min­er­alien-IN­FO im Ahrn­tal - Südtirol
11. Apr. - Min­er­alien.- und Fos­silien­börse Rosen­heim - Auer Fes­thalle
12. Apr. - 31. Min­er­alien- und Fos­silien­samm­ler­börse Eg­gen­burg / AT
12. Apr. - Min­er­alien­börse Her­born-Merken­bach
17. Apr. - GERA: Bild­vor­trag „Der Ein­fluss Preußens auf den Berg­bau im
19. Apr. - 25. Bay­er­wald-Min­er­alien­börse Bad Kötzt­ing, DE
26. Apr. - 34. Min­er­alien- und Fos­silien­börse Arns­berg-Müschede, DE
09. May - 77. In­ter­na­tio­nale Min­er­alien­börse in Freiberg/Sach­sen
09. May - 50. Min­er­alien- & Fos­silien­börse “MIN­ER­AN­T2026” - Gol­d­en
09. May - 43. Aschaf­fen­burg­er Min­er­alien­börse
Calender
hausen - Mineraliengrosshandel.com
Mineralien Kalender
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Mineralienatlas (name for mineral atlas) is the platform for people interested in mineralogy, geology, palaeontology and mining since 2001. We operate a significant database for minerals, fossils, rocks and their localities. Mineralienatlas is not limited to a section. We bring together information and inform comprehensive.

To complete our information constantly, we need your support. With us, everyone can and should participate. Currently Mineralienatlas is used and expanded by 10530 members. Every month hundreds of thousands of visitors use our website as an information source.
 
Geolitho Foundation non-profit GmbH
Geolitho Foundation non-profit GmbH is the non-profit supporter of the Mineral Atlas (Mineralienatlas), the Lithotheque, the Geolitho Collection Management and the Marketplace and Store by collectors for collectors. The Foundation promotes public education in the field of mineralogy, geology, paleontology and mining by operating, maintaining and further expanding earth science projects.
 
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Mineralien Kalender
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Edelsteintage Konstanz
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Cop­per - one of the old­est me­t­als of mankindCopper was one of the first metals ever extracted and used by humans, and it has made vital contributions to sustaining and improving society since the dawn of civilization.
The metal and its alloys have been used for thousands of years. Copper was first used in coins and ornaments starting about 8000 B.C., and at about 5500 B.C., copper tools helped civilization emerge from the Stone Age. In the Roman era, copper was principally mined on Cyprus, hence the origin of the name of the metal as сyprium (metal of Cyprus), later shortened to сuprum.

The discovery that copper alloyed with tin produces bronze marked the beginning of the Bronze Age at about 3000 B.C.
Copper is easily stretched, molded, and shaped; is resistant to corrosion; and conducts heat and electricity efficiently. As a result, copper was important to early humans and continues to be a material of choice for a variety of domestic, industrial, and high-technology applications today.

Its compounds are commonly encountered as copper(II) salts, which often impart blue or green colors to minerals such as azurite and malachite and have been widely used historically as pigments. ... a contribution by Peter Seroka
Cop­per was one of the first me­t­als ev­er ex­tract­ed and used by hu­mans, and it has made vi­tal con­tri­bu­tions to sus­tain­ing and im­prov­ing so­ci­e­ty since the dawn of civ­i­l­iza­tion.
The me­t­al and its al­loys have been used for thou­sands of years. Cop­per was first used in coins and or­na­ments start­ing about ... moreCopper was one of the first metals ever extracted and used by humans, and it has made vital contributions to sustaining and improving society since the dawn of civilization.
The metal and its alloys have been used for thousands of years. Copper was first used in coins and ornaments starting about 8000 B.C., and at about 5500 B.C., copper tools helped civilization emerge from the Stone Age. In the Roman era, copper was principally mined on Cyprus, hence the origin of the name of the metal as сyprium (metal of Cyprus), later shortened to сuprum.

The discovery that copper alloyed with tin produces bronze marked the beginning of the Bronze Age at about 3000 B.C.
Copper is easily stretched, molded, and shaped; is resistant to corrosion; and conducts heat and electricity efficiently. As a result, copper was important to early humans and continues to be a material of choice for a variety of domestic, industrial, and high-technology applications today.

Its compounds are commonly encountered as copper(II) salts, which often impart blue or green colors to minerals such as azurite and malachite and have been widely used historically as pigments. ... a contribution by Peter Seroka
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Beryl - (Goshenite, Aqua­marine, Emer­ald, Mor­ganite, He­lio­dore ...)Because of its form, color and transparency, Beryl has always fascinated people. Emeralds, aquamarines, heliodors and morganites were and are used for the manufacture of jewelry because of their beauty. The common beryl is the main source of the metal beryllium; 80 % of beryllium ore is mined in the United States. The largest known crystal reached a length of 18 m.

This lavishly researched and very comprehensive portrait by the author Peter Seroka relates to history, name origin, causes of color, occurrences , paragenesis and the use of this mineral and its varieties. Subchapters with numerous photographs and drawings deal with the extraordinary beauty of the mineral. Each chapter itself is a separate portrait of a distinctive variety and its characteristics, occurrences, use and history.

(Full text in German)
Be­cause of its form, col­or and trans­paren­cy, Beryl has al­ways fas­ci­nat­ed peo­ple. Emer­alds, aqua­marines, he­lio­dors and mor­ganites were and are used for the man­u­fac­ture of jew­el­ry be­cause of their beau­ty. The com­mon beryl is the main source of the me­t­al beryl­li­um; 80 % of beryl­li­um ore is mined in the ... moreBecause of its form, color and transparency, Beryl has always fascinated people. Emeralds, aquamarines, heliodors and morganites were and are used for the manufacture of jewelry because of their beauty. The common beryl is the main source of the metal beryllium; 80 % of beryllium ore is mined in the United States. The largest known crystal reached a length of 18 m.

This lavishly researched and very comprehensive portrait by the author Peter Seroka relates to history, name origin, causes of color, occurrences , paragenesis and the use of this mineral and its varieties. Subchapters with numerous photographs and drawings deal with the extraordinary beauty of the mineral. Each chapter itself is a separate portrait of a distinctive variety and its characteristics, occurrences, use and history.

(Full text in German)
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Ge­o­log­ic Por­trait - Weather­ing and Ero­sionWeathering is a continous process by which rocks are broken down and decomposed by the action of humidity (rain), wind, temperature changes, chemical agents, bacteria and plants. Being an integral part of the rocks cycle, weathering is the initial stage towards denudation, which results in general lowering of the land surface. An essential feature is that it affects rocks in situ; no transportation is involved. This is the factor which dsitinguishes weathering from erosion. The two main types of weathering are mechanical and chemical. Climate plays a leading role in weathering, whereas chemical weathering is almost absent in arid regions. Effecrtive freeze-thaw cycles are confined to cold temperate and permafrost climates.

Erosion is part of the process of denudation which involves the wearing away of land surface by mechanical action of transported debris. Main cycles of erosion are glaciers, wind erosion, marine erosion.
Weather­ing is a conti­nous pro­cess by which rocks are bro­ken down and de­com­posed by the ac­tion of hu­mid­i­ty (rain), wind, tem­per­a­ture changes, chem­i­cal agents, bac­te­ria and plants. Be­ing an in­te­gral part of the rocks cy­cle, weather­ing is the ini­tial stage to­wards de­nu­da­tion, which re­sults in gen­er­al l ... moreWeathering is a continous process by which rocks are broken down and decomposed by the action of humidity (rain), wind, temperature changes, chemical agents, bacteria and plants. Being an integral part of the rocks cycle, weathering is the initial stage towards denudation, which results in general lowering of the land surface. An essential feature is that it affects rocks in situ; no transportation is involved. This is the factor which dsitinguishes weathering from erosion. The two main types of weathering are mechanical and chemical. Climate plays a leading role in weathering, whereas chemical weathering is almost absent in arid regions. Effecrtive freeze-thaw cycles are confined to cold temperate and permafrost climates.

Erosion is part of the process of denudation which involves the wearing away of land surface by mechanical action of transported debris. Main cycles of erosion are glaciers, wind erosion, marine erosion.
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Sainte-Marie-aux-Mines 2015 - Fair vis­itWho knows Tucson with its many satellite events, has already a good taste of the Sainte-Marie-aux-Mines show. Unlike in Munich where you find the stands clear and concentrated in halls, the organizers use single fenced-off parts of the city to place the stands on the streets. Public buildings such as swimming pool, school and theater are transformed into smaller exhibition halls... A small showreport by Stefan Schorn (in german)
Who knows Tuc­son with its many satel­lite events, has al­ready a good taste of the Sainte-Marie-aux-Mines show. Un­like in Mu­nich where you find the stands clear and con­cen­trat­ed in halls, the or­ganiz­ers use sin­gle fenced-off parts of the ci­ty to place the stands on the streets. Public build­ings such ... moreWho knows Tucson with its many satellite events, has already a good taste of the Sainte-Marie-aux-Mines show. Unlike in Munich where you find the stands clear and concentrated in halls, the organizers use single fenced-off parts of the city to place the stands on the streets. Public buildings such as swimming pool, school and theater are transformed into smaller exhibition halls... A small showreport by Stefan Schorn (in german)
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In­di­ca­tor stoneA Scandinavian indicator stone is a glacial erratic composed of a characteristic rock type derived from a small known source area in Scandinavia. This term not only applies to igneous and metamorphic rocks but also to some sedimentary rocks. The Jotnian Sandstone and most of the Palaeozoic limestones, and the Old Red Sandstone are not included in the definition, although the presence of these and other rocks provide some evidence about the source area(s) of erratics and should certainly not be neglected in a stone count. In all cases we recommend including the whole assemblage of erratics/stones in such account. This makes it possible to use several methods of Interpretation. However, it should be pointed out that the practise used in the past, whereby each researcher had her/his own method of interpreting stone counts, has proved to be unsatisfactory. We demonstrate on the bases of over 2000 counts of indicator stones that we have carried out on assemblages mostly from Lower Saxony and Schleswig-Holstein, but also from other N.German states and neighbouring countries, that the TGZ method (LÜTTIG 1958) yields the most reliable results. In addition to this method, the sources of individual indicator stones may be plotted on a so-called circle map and can be integrated with possible source data and the relative frequencies of other erratics in the assemblage. Some rock types are more suitable as indicator stones then others. It is unwise to use clearly unsuitable rock types; this would considerably reduce the reliability of the method and lead to erroneous results.
A Scan­di­na­vian in­di­ca­tor stone is a gla­cial er­rat­ic com­posed of a char­ac­teris­tic rock type de­rived from a small known source area in Scan­di­navia. This term not on­ly ap­plies to ig­neous and me­ta­mor­ph­ic rocks but al­so to some sed­i­men­tary rocks. The Jot­nian Sand­s­tone and most of the Palaeo­zoic lime­s­tone ... moreA Scandinavian indicator stone is a glacial erratic composed of a characteristic rock type derived from a small known source area in Scandinavia. This term not only applies to igneous and metamorphic rocks but also to some sedimentary rocks. The Jotnian Sandstone and most of the Palaeozoic limestones, and the Old Red Sandstone are not included in the definition, although the presence of these and other rocks provide some evidence about the source area(s) of erratics and should certainly not be neglected in a stone count. In all cases we recommend including the whole assemblage of erratics/stones in such account. This makes it possible to use several methods of Interpretation. However, it should be pointed out that the practise used in the past, whereby each researcher had her/his own method of interpreting stone counts, has proved to be unsatisfactory. We demonstrate on the bases of over 2000 counts of indicator stones that we have carried out on assemblages mostly from Lower Saxony and Schleswig-Holstein, but also from other N.German states and neighbouring countries, that the TGZ method (LÜTTIG 1958) yields the most reliable results. In addition to this method, the sources of individual indicator stones may be plotted on a so-called circle map and can be integrated with possible source data and the relative frequencies of other erratics in the assemblage. Some rock types are more suitable as indicator stones then others. It is unwise to use clearly unsuitable rock types; this would considerably reduce the reliability of the method and lead to erroneous results.
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Ein­steiger­guideUnser Einsteigerguide ist eine kleine Anleitung Dir selbst zu helfen oder richtig nach Hilfe zu fragen. Die passenden Informationen helfen Dir schnell eine Antwort zu erhalten und dem Fachmann Dir Auskunft zu erteilen. Nehme Dir bitte die 10 Minuten Zeit um den Guide durchzulesen. Ein lesenswerter Beitrag der Sammlergemeinschaft
Uns­er Ein­steiger­guide ist eine kleine An­lei­tung Dir selbst zu helfen oder richtig nach Hilfe zu fra­gen. Die passen­den In­for­ma­tio­nen helfen Dir sch­nell eine Ant­wort zu er­hal­ten und dem Fach­mann Dir Auskunft zu erteilen. Nehme Dir bitte die 10 Minuten Zeit um den Guide durchzule­sen. Ein le­sen­sw­ert­er B ... moreUnser Einsteigerguide ist eine kleine Anleitung Dir selbst zu helfen oder richtig nach Hilfe zu fragen. Die passenden Informationen helfen Dir schnell eine Antwort zu erhalten und dem Fachmann Dir Auskunft zu erteilen. Nehme Dir bitte die 10 Minuten Zeit um den Guide durchzulesen. Ein lesenswerter Beitrag der Sammlergemeinschaft
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Min­er­alien­por­trait Ery­thrin Erythrinkristalle waren in allen Zeiten begehrte Sammelobjekte. Schon im Jahr 1776 beschrieb der französische Mineraloge und Kristallograph Romé de L'Isle fast hundert Stufen aus der berühmten Sammlung des Peruaners Pedro Franciso Davila. Diese zu dieser Zeit noch als Kobaltbüten oder "Fleurs de Cobalt" genannten Erythrine stammten zumeist aus den Schneeberger und Annaberger Revieren im Erzgebirge, doch auch Stufen von Richelsdorf und aus Spanien waren bereits bekannt.

Der Begriff Erythrin war sehr lange mit seinem berühmtesten Fundort, dem Schneeberger Revier verbunden. Die jedoch schönsten und größten Erythrine der Welt wurden in den letzten 40 Jahren im bedeutenden Kobalterzrevier von Bou Azzer in Marokko gefunden. In den 60er - 70er und in den gerade kürzlich zurückliegenden 2000er Jahren waren Stufen mit zentimetergroßen Kristallen nicht selten. Es gab sogar Kristalle von 20-25 cm (und mehr). Vorausgesetzt, der Kobaltbergbau in Bou Azzer hält an, werden auch zukünftig wie fast jedes Jahr spektakuläre Erythrine geborgen werden können.
Ery­thrinkris­talle waren in allen Zeit­en begehrte Sam­melob­jekte. Schon im Jahr 1776 beschrieb der franzö­sische Min­er­aloge und Kris­tal­lo­graph Romé de L'Isle fast hun­dert Stufen aus der berühmten Samm­lung des Pe­ru­an­ers Pe­dro Fran­ci­so Dav­i­la. Diese zu dies­er Zeit noch als Kobalt­büten oder "Fleurs de Co ... moreErythrinkristalle waren in allen Zeiten begehrte Sammelobjekte. Schon im Jahr 1776 beschrieb der französische Mineraloge und Kristallograph Romé de L'Isle fast hundert Stufen aus der berühmten Sammlung des Peruaners Pedro Franciso Davila. Diese zu dieser Zeit noch als Kobaltbüten oder "Fleurs de Cobalt" genannten Erythrine stammten zumeist aus den Schneeberger und Annaberger Revieren im Erzgebirge, doch auch Stufen von Richelsdorf und aus Spanien waren bereits bekannt.

Der Begriff Erythrin war sehr lange mit seinem berühmtesten Fundort, dem Schneeberger Revier verbunden. Die jedoch schönsten und größten Erythrine der Welt wurden in den letzten 40 Jahren im bedeutenden Kobalterzrevier von Bou Azzer in Marokko gefunden. In den 60er - 70er und in den gerade kürzlich zurückliegenden 2000er Jahren waren Stufen mit zentimetergroßen Kristallen nicht selten. Es gab sogar Kristalle von 20-25 cm (und mehr). Vorausgesetzt, der Kobaltbergbau in Bou Azzer hält an, werden auch zukünftig wie fast jedes Jahr spektakuläre Erythrine geborgen werden können.
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hausen - Mineraliengrosshandel.com
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