Mineral Deposits of Finland - Raimo Lahtinen, Wolfgang Derek Maier, Hugh O'Brien

Mineral Deposits of Finland (eBook)

Raimo Lahtinen, Wolfgang Derek Maier, Hugh O'Brien (Autoren)

eBook Download: PDF | EPUB

2015 | 1. Auflage
802 Seiten
Elsevier Science (Verlag)
978-0-12-410476-1 (ISBN)

Mineral Deposits of Finland is the only up-to-date and inclusive reference available that fully captures the scope of Finland's mineral deposits and their economic potential. Finland hosts Europe's most mature rocks and large cratonic blocks, analogous to western Australia and Southern Africa, which are the most mineralized terrains on Earth.Authored by the world's premier experts on Finnish mineral exploration and mining, Mineral Deposits of Finland offers a thorough summary of the mineral deposits and their petrogenesis, helping readers to map, explore, and identify Finland's renewed potential for mineral exploration and extraction. - Presents a thoroughly inclusive catalogue of Finland's mineral deposits and their economic potential - Features full-color figures, illustrations, working examples and photographs to aid the reader in retaining key concepts to underscore major advances in the exploration of Finland's mineral resources - Offers concise chapter summaries authored by leaders in geological research, which provide accessible overviews of deposit classes

Wolfgang D. Maier is Professor of Economic Geology at Cardiff University, Wales, UK. He has more than 25 years of experience in the field conducting research on magmatic ore deposits. He has authored more than 100 journal papers and has been a contributing author or editor of several books, monographs, and geological maps.

Mineral Deposits of Finland is the only up-to-date and inclusive reference available that fully captures the scope of Finland's mineral deposits and their economic potential. Finland hosts Europe's most mature rocks and large cratonic blocks, analogous to western Australia and Southern Africa, which are the most mineralized terrains on Earth.Authored by the world's premier experts on Finnish mineral exploration and mining, Mineral Deposits of Finland offers a thorough summary of the mineral deposits and their petrogenesis, helping readers to map, explore, and identify Finland's renewed potential for mineral exploration and extraction. - Presents a thoroughly inclusive catalogue of Finland's mineral deposits and their economic potential- Features full-color figures, illustrations, working examples and photographs to aid the reader in retaining key concepts to underscore major advances in the exploration of Finland's mineral resources- Offers concise chapter summaries authored by leaders in geological research, which provide accessible overviews of deposit classes

Chapter 1

A History of Exploration for and Discovery of Finland’s Ore Deposits

I. Haapala, and H. Papunen

Abstract

Historically documented mining in Finland started in the 1530s when the area formed part of Sweden. The post of commissioner of mines was founded in 1638. The Swedish government activated mineral exploration in Finland in the seventeenth century and, during the Age of Utility, in the eighteenth century. Numerous small iron, copper, and lead occurrences were found, as well as the larger Orijärvi copper deposit. During 1809-1917 when Finland was a Grand Duchy within the Russian Empire, exploration was reorganized and strengthened. New, generally small iron deposits were discovered to supply iron works. Deposits found in the Pitkäranta area were mined for copper, tin, zinc, and iron. The Geological Survey of Finland was established in 1885. The large and rich Outokumpu copper deposit was discovered in 1910 as a result of scientific exploration by Otto Trüstedt of the Geological Survey. Since then, boulder tracing (later also till geochemistry), geophysical measurements, and diamond drilling have been the standard exploration methods. After Finland declared independence in 1917, mineral exploration was considered important for the development of domestic industry. In 1921 the Geological Survey discovered the nickel–copper ore field of Petsamo, and by the end of the 1930s, several other deposits, including the Otanmäki iron–titanium–vanadium deposit, were discovered. After the Second World War, the Geological Survey was reorganized and strengthened, and in the following decades it discovered numerous important ore deposits, including the Vihanti zinc–copper deposit (1951) and the Kemi chromium deposit (1960). The state-owned mining companies Outokumpu Oy and Rautaruukki Oy established their own exploration departments in the 1950s. Outokumpu Oy discovered the Kotalahti (1956), Vammala, and Kylmäkoski nickel–copper deposits, the Pyhäsalmi copper-zinc deposit (1958), the Vuonos (1965) and Kylylahti (1984) Outokumpu-type deposits, and several gold deposits. Otanmäki Oy/Rautaruukki Oy discovered several iron deposits in Lapland, as well as the large apatite-rich Sokli carbonatite complex. Rautaruukki Oy terminated their exploration activities in 1985 and Outokumpu Oy in 2003. Finnish private companies also carried out successful mineral exploration. After becoming a member of the European Union in 1995, the role of international mining and exploration companies has strongly increased in Finland, the main interest being in precious metal deposits.

Keywords

exploration; Finland; history; ore deposits; Geological Survey of Finland; Outokumpu Oy; Rautaruukki Oy

Introduction

The activity and success of exploration for mineral deposits in Finland has, over the centuries, varied markedly depending on the political, cultural, and economic situation, as well as on the more or less fortuitous availability of persons capable to plan, lead, and carry out prospecting and exploitation of deposits. A major historical background is provided by the changes in the form of government. The eastern part of Norden (or geographic Fennoscandia) now known as Finland was gradually incorporated into the kingdom of Sweden during the twelfth and thirteenth centuries. Over the subsequent five centuries, the eastern border of Sweden shifted several times as a result of wars between Sweden and Novgorod/Russia, until 1809 when Finland was ceded to Russia. Since December 1917 Finland has been an independent state.

Several extensive volumes have been published on the history of the mining industry and exploration in Finland. The first that should be mentioned is the work of Tekla Hultin, which deals with the evolution of the mining industry and exploration during the time of Swedish rule (Hultin, 1896, 1897). The exploration and mining industry during the period of the Russian rule has been documented in detail by Dr. Eevert Laine (e.g., Laine, 1950, 1952). A comprehensive account of the mining industry in Finland from 1530–2001 was recently published by Kauko Puustinen (1997, 2003). Hyvärinen and Eskola (1986) published a chapter on mineral exploration in Finland, including selected case histories of discoveries. A shorter article, “One hundred years of ore exploration in Finland,” by one of the current authors (Papunen, 1986), has been an important source, for the present review.

Time of Swedish Rule

The skill to collect limonitic bog and lake iron ore nodules and produce iron from it in simple furnaces was known in Finnish villages in ancient times, and such iron occurrences were still harvested in small quantities at the end of the nineteenth century. Some lake ore deposits south of Iisalmi in eastern Finland were still studied as possible manganese ores in 1940s and 1950s.

During the reign of King Gustaf I Vasa (1496–1560), the crown supported exploration and mining in the eastern part of Sweden as well. The first clearly documented mine in Finland was the Ojamo skarn-type iron deposit in Karjaa, southern Finland. The deposit was mined in the 1530s by Erik Fleming, the councilor of southern Finland, although it was not until 1542 that King Gustaf I awarded him the formal privilege to exploit the deposits (Puustinen, 1997, 2010). The ore was first worked up in Siuntio, and later in the nearby Mustio ironworks. After Fleming’s time mining slowed down. Under the reign of Gustaf I some other minor deposits (e.g., copper ore of Remojärvi in Juva in eastern Finland and iron ore in Siuntio) were exploited. How the deposits were discovered is not known.

In the seventeenth century, under the reign of Gustaf II Adolf Vasa (1594–1632) the mining industry rose to a new level, driven by mercantilism and wars in central Europe, especially the Thirty Years’ War in 1618–1648. One reason for the success of the Swedish army in this war was the large and rich Dannemora iron and the Falun copper mines. Gustaf II Adolf had a keen interest in ores and mining. As the crown prince, he had stayed in Finland in 1611 and collected ore specimens that he brought to Stockholm for closer studies (Salokorpi, 1999). As king he traveled in Finland during 1614–1616 and gave personal orders to open or reopen mines and to establish new ironworks (Hultin, 1896, 1897). He had an optimistic view of Finland’s ore potential. After his death in the battle of Lützen in 1632 mining policies were continued by his successors. The Board of Mines was established in Stockholm in 1637, and Finland received a permanent post of commissioner of mines in 1638. Finland’s first university, Academia Aboensis (Academy of Turku), was founded in 1640 in Turku.

The mining and manufacturing of the large ore deposits in central Sweden seriously depleted Swedish forests. As Finland contained huge tracts of virgin forest that could be exploited for the production of charcoal, as well as rivers for transport and rapids to run furnaces and hammers, experts were sent to Finland to explore for ore deposits and set up metal works in suitable places. Clergymen and other officials were urged to assist in these efforts. The Ojamo mine was reopened and several new ironworks were established: Mustio or Svartå in Karjaa (1550–1901); Antskog (1630–1880), Billnäs (1641–1905), and Fiskars (1649–1904) in Pohja; Fagervik in Inkoo (1646–1904); Orisberg in Isokyrö (1676–1900); Skogby in Tammisaari (1682–1908); and Tykö in Perniö (1686–1908). As raw material, these ironworks mainly used ore or raw iron from the Utö deposits in the Stockholm archipelago. If possible, hard-rock iron deposits from Finland were used, including Ojamo (exploited periodically in 1533–1863), Vittinki in Ylistaro (1563–1920), Sådö (1610–1863) and Långvik (1662–1863) in Inkoo, Juvakaisenmaa in Kolari (1662–1917), Morbacka in Lohja (1668–1873), Malmberg in Kisko (1670–1866), Vihiniemi in Perniö (1690–1865), and Kelkkala in Tammisaari (1690–1900), as well as many other relatively small deposits. In some cases, Finnish lake and bog iron ores were used. The copper and lead occurrences found in the seventeenth century were generally relatively small (Puustinen, 2003).

The beginning of the eighteenth century was overshadowed by the Great Nordic War (1702–1721) as a result of which Sweden lost parts of eastern Finland to Russia. In order to strengthen the Swedish and Finnish mining industry after the war, a royal statute of 1723 promised significant rewards for discovery of ore deposits and benefits for their exploitation.

The Board of Mines sent geological experts to work in Finland, including Daniel Tilas (1712–1772) and Magnus Linder (1709–1799). In the report of his travel to Finland in 1737–1738, Tilas described the bedrock and mineral occurrences of southern Finland. His visits to larger villages were announced in churches, and people were urged to report their findings. Tilas himself carried out exploration for ore deposits at several sites, including the newly discovered Ansomäki iron deposit near Haveri in Viljakkala (Puustinen, 2006). In Tammela he visited a site where in 1733 a farmer had found a large boulder containing high-grade copper ore. Tilas had recognized that erratic boulders are generally situated southeast of their sources, which enabled him to find chalcopyrite-bearing veins in outcrops at Hopiavuori (later known as Tilasinvuori). The deposit was mined in 1740–1749 (Puustinen, 2014). This is the first time that “boulder tracing” was successfully applied to the exploration of...

Erscheint lt. Verlag	23.5.2015
Sprache	englisch
Themenwelt	Naturwissenschaften ► Chemie
	Naturwissenschaften ► Geowissenschaften ► Geologie
	Naturwissenschaften ► Geowissenschaften ► Mineralogie / Paläontologie
	Technik
ISBN-10	0-12-410476-2 / 0124104762
ISBN-13	978-0-12-410476-1 / 9780124104761

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