DOCSLIB.ORG

Annales Universitatis Paedagogicae Cracoviensis

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Annales Universitatis Paedagogicae Cracoviensis FOLIA 261 Annales Universitatis Paedagogicae Cracoviensis Studia Linguistica 13 (2018) ISSN 2083-1765 DOI 10.24917/20831765.13.1 Artykuły i rozprAwy Ewa Horyń ORCID 0000-0001-5549-5977 Uniwersytet Pedagogiczny, Kraków Interwar period records from the Archive of the Cracow Saltworks Museum in Wieliczka as a source for linguistic studies Key words: lexis from the field of salt mining, onyms, the interwar records from the Cracow Saltworks Museum in Wieliczka Słowa kluczowe: leksyka z zakresu górnictwa solnego, onimy, Akta międzywojenne Muzeum Żup Krakowskich Wieliczka The archival material gathered during the search in the Cracow Saltworks Museum Słownictwo z zakresu górnictwa solnego XVI–XVIII wieku na tle inpolszczyzny Wieliczka ogólnej, (MŻK Wieliczka), analysed by the author of the following paper in the monograph became a motivating factor to look for similar records from the interwar period. For many years, vocabulary from the field of salt mining has been a target of asstudies the first for Polishmining mining historians, dictionary, lexicographers entitled Słownik and linguists. górniczy According polsko-rosyjsko-fran to S. Gajda,- cusko-niemieckiH. Łabęcki (the author i rosyjsko-polski, of a coursebook on mining and the history of mining, as well published in 1868) „played a decisive role in the- tioningdevelopment Słownik of górniczythe official niemiecko-polski mining terminology” (Gajda 1976b: 9). AsSłownictwo for other historicalpolskie górnictwa lexicographic sources from this field, it is worth men- nary of mining law – Słownik górniczy niemiecko-polskiby H. Lichtenstein, and Spis which wyrazów was releasedgórniczych in 1871,używanych przez Czackiego, Kluka, Lindego,by S. Olszewski Łabędzkiego from i innych1886, an extensive dictio by J. Dębicki, which lexis,came wasout 13the years new Niemiecko-polskilater (Gajda 1976b: słownik 9). górniczy - Another work, which made an important contribution to recording salt mining Słownik techniczny by F. Piestrak (1913), contain ing 20 thousand mining-related words. At the same time, a German-Polish part of by K.K. PrzyczynkiStadtmüller do (1913), słownictwa was górniczegoreleased, which, according to S. Gajda, ”became Ilustrowanya tool helpful górniczy in the attempts słownik atencyklopedyczny polonizing technical terminology” (Gajda 1976b: 12). In 1934 by B. Ślawski came out, and in 1955 , by S. Gisman, was written. [4] Ewa Horyń Apart from specialized lexicographic works, including the encyclopaediaRozwój polskiej from terminologiithe field of history górniczej of material culture, the following papers proved invaluable for lary:the description Górnicze wyrobisko of salt miningZ badań lexis: anad monograph grupą leksykalno-semantyczną by S. Gajda, entitled słownictwa górniczego Analiza(1976b) leksykalno-semantyczna and his articles connected górniczej with leksyki salt mining specjalnej vocabu- (na przykładzie grup tematycznych. obudowa i transport) „Wyrazy górnicze”, czy- li dawne słownictwo (1976a), górnicze na terenie Królestwa Polskiego w XIX wieku (1977); Słownictwo górnicze w południowej części okręgu częstochowskiego(2010) by A.J. Wójcik, as well as otherO publications germanizmach concerning w języku mining mówionym lexis mieszkańcówby Polish linguists: miast G.śląskich Habrajska raz jeszcze– (na przykładzie Rybnickiego Okręgu Przemysłowego) (1983);Jeszcze o E. profesjonalizmach Rudnicka-Fira – górniczych (neosemantyzmy) Germanizmy w ślą- skim profesjolekcie górniczym (2008), (2011), (2013). Lexis from the area of salt mining has also been among my own interests for a few years, which has been mentioned in the introduction.1 My involvement in ofthe Żupy topic krakowskie has been reflected both in several papers and 2in the recently published monograph on the analysis of salt mining vocabulary from the period of prosperity – between the 16th century and 1772 , when the company was taken over by Austrian administration, which also marked the ultimate end of royal industry in Poland that had lasted for a few centuries (Keckowa 1969: 8). - The purpose of this paper is a detailed examination of other archival sources from MŻK Wieliczka, dating back to the interwar period, which have not been inves tigated so far. The research has revealed that the interwar documents constitute a valuable source for investigating the salt mining professiolect. They enrich the current know- (ledgeDzieje by żup a newkrakowskich layer of specialized vocabulary in an important period of history when „after the long period of servitude a reform of salt industry in reborn Poland” 1988: 30) took place. These records are also a material bank for comparative analyses of old and contemporary salt-related terminology. Historical data indicate that the resources include mainly typescripts of various offical documents,Leksem correspondence sól i jego derywaty related w toutrwalonych regulations, połączeniach lists, reports wyrazowych and addenda, [in:] Parémie1 národů slovanských VII Staropolska E. Horyń, leksyka z zakresu górnictwa solnego, - , ed. E. MrhačováNazwy E., miejscoweU. Kolberová, będące Ostrawa świadectwem 2014, pp. tradycji77–84; górnictwa solnego w Polsce, [in:] Dialog z tradycją. „Annales , Język Universitatis – komunikacja Paedagogicae – kultura Cra coviensis. Studia Linguistica IX”, pp. 3–16; Źródła do dziejów leksyki górnictwa solnego w Polsce, [in:] Dialog z tradycją Językowe dziedzictwoVol. 3 kultury materialnej , ed.- R. Dźwigoł, I. Steczko, Kraków 2015, pp. 293–304;Polskie nazwiska motywowane leksyką z zakresu górnictwa solnego . Vol. 5, Nazwy ulic i placów Bochni, ed. i Wieliczki E. Mły odzwierciedleniemnarczyk, E. Horyń, Krakówtradycji górnictwa2016, pp. 35–47;solnego w Małopolsce, - , „Onomastica” LX, 2016, pp.Germanizmy 163–174; w profesjolekcie górnictwa solnego (na przykładzie małopolskich baśni i legend), „Małopolska. Regiony, Regionali zmy, 2Małe ojczyzny”Słownictwo XVIII, 2016, z zakresu pp. 23–31; górnictwa solnego XVI–XVIII wieku na tle polszczyzny ogólnej „Orbis Linguarum”, Vol. 48, 2018, pp. 285–292. E. Horyń, , Kraków 2018. Interwar period records from the Archive of the Cracow Saltworks Museum in Wieliczka… [5] Dzieje żup krakowskich - - books ( 1988: 30). It should be noted that in those days finan facturingcial matters costs and ( productionDzieje żup krakowskich costs were thoroughly registered, which is demonstrat ed by numerous statements of revenue and expenditure, the company’s own manu-- 1988: 31), as well as preserved materials concerning the workforce and their living and housing matters. They comprise: sta tistical data concerning salt mine workers, notes about salary postulates, as well as resolutions relating to old-age pension of miners and commission for their families. or It should (Dzieje be added żup krakowskich that so far 3it was mostly material4 culture historians,5 such6 as: K. Bukowski7 and A. Jackiewicz , E. Windakiewicz , J. Jurkiewicz , J. Jaros K. Dziwik 1988: 32–33) who in their dissertations have paid the greatest attention to salt mines in Wieliczka and Bochnia, as well as mining technology from the beginning of the 20th century. For the purposes of this paper, various texts found in MŻK Wieliczka have been chosen for the analysis. These include: salt account books, salt sales books, salt storage books, weekly reports etc., the traffic map of Wieliczka salt mine from 1939, as well as a historical report by A. Müller, a former director of the mine, from 1932, which has only been preserved in the typescript form and stored among special- collections of the Museum. The research suggests that the interwar documents are an important contri bution in learning a new class of vocabulary from the field of salt mining. A detailed investigation of the material also points to the fact that part of vocabulary comprises units that reflect continuity of lexis. Among the terms that belong to the linguisticsolan- kaheritage of old reality connected with salt business in the region ;of sól Małopolska beczkowa there ‘less are words which belong to various sól szybikowa thematic ‘small-grainedgroups, such as white names salt, of which salt: could ‘a solution of sodium chloride8 (table; sól salt) warzonka in water’ / sól (SJPD) warzona pure salt, loaded into barrels’ ; sól zielona ‘coarse- only be accessed through a pit’ (SJPD) ‘evaporated salt obtained from saline water; thegórnik best type of edible salt’ (SJPD); grained variety ofsztygar wielicka salt, tinged with silt, which gives it a greenish ważnik colour’; ‘who names of saline workers, e.g.: ‘a mine; worker responsible for warzelniaexcavating soli or processing salt’; ‘a worker managing mine works on the site’; supervised weighing of salt in Sólthe i salinymine’ polskienames of salt companies: 3 Solnictwo. Sole kamienne, potasowe i solanki, ich własności fizjogra- ficzne,4 górnictwoK. Bukowski, i warzelnictwo A. Jackiewicz, , Warszawa 1926. Pogląd na warzelnictwo E. Windakiewicz, i przemysł solny w Polsce, „ - , vol. I–III, Kraków 1926; vol. IV, Kraków 1930; id., Sól i jej produkcja, Sprawozdania z czynności i obrad […] Izby Przemy słowo-Handlowej5 Organizacja w Krakowie władz za rok górniczych 1931”. na ziemiach polskich w latach 1918–1945, 6 J. Jurkiewicz, Stalinogród 1954. J. Jaros, Zagadnienie nierentownych salin i koncentracji produkcji soli w Polsce mię- dzywojennej,„Studia7 z Dziejów Górnictwa i Hutnictwa” V, 1960, pp. 89–146. K. Dziwik, Słownictwo8 z „Studiazakresu i Materiałygórnictwa dosolnego Dziejów XVI–XVIII Żup Solnych” wieku XI,na 1982,tle polszczyzny pp. 101–115. ogólnej,
Load more

Recommended publications
  • The Archaeology of Mining, and Quarrying, for Salt and the Evaporites (Gypsum, Anhydrite, Potash and Celestine)
    The archaeology of mining, and quarrying, for Salt and the Evaporites (Gypsum, Anhydrite, Potash and Celestine) Test drafted by Peter Claughton Rock salt, or halite (NaCl- sodium chloride), has been mined since the late 17th century, having been discovered during exploratory shaft sinking for coal at Marbury near Northwich, Cheshire, in November 1670. Prior to that the brine springs of Cheshire and those at Droitwich in Worcestershire were the source of salt produced by evaporation, along with production from a large number of coastal sites using seawater. Alabaster, fine grained gypsum (CaSO4. 2H2O - hydrated calcium sulphate), has however been quarried in the East Midlands for use in sculpture since at least the 14th century (Cheetham 1984, 11-13) and the use of gypsum for making plaster dates from about the same period. Consumption The expansion of mining and quarrying for salt and the other evaporites came in the 19th century with the development of the chemical industry. Salt (sodium chloride) was a feedstock for the production of the chlorine used in many chemical processes and in the production of caustic soda (sodium hydroxide) and soda ash (sodium carbonate). Anhydrite (anhydrous calcium sulphate) was used in the production of sulphuric acid. Salt or halite (rock salt) was first mined at Winsford in Cheshire (the site of the only remaining active rock salt mine in England) in 1844. Production expanded in the late 19th century to feed the chemical industry in north Cheshire (together with increasing brine production from the Northwich salt fields). The Lancashire salt deposits, on the Wyre estuary at Fleetwood and Preesall, not discovered until 1872 whilst boring in search of haematite (Landless 1979, 38), were a key to the development of the chemical industry in that area.
    [Show full text]
  • Salt Deposits in the UK
    CORE Metadata, citation and similar papers at core.ac.uk Provided by NERC Open Research Archive Halite karst geohazards (natural and man-made) in the United Kingdom ANTHONY H. COOPER British Geological Survey, Keyworth, Nottingham, NG12 5GG, Great Britain COPYRIGHT © BGS/NERC e-mail [email protected] +44 (-0)115 936 3393 +44 (-0)115 936 3475 COOPER, A.H. 2002. Halite karst geohazards (natural and man-made) in the United Kingdom. Environmental Geology, Vol. 42, 505-512. This work is based on a paper presented to the 8th Multidisciplinary Conference on Sinkholes and the Engineering and Environmental impact of karst, Louisville, Kentucky, April 2001. In the United Kingdom Permian and Triassic halite (rock salt) deposits have been affected by natural and artificial dissolution producing karstic landforms and subsidence. Brine springs from the Triassic salt have been exploited since Roman times, or possibly earlier, indicating prolonged natural dissolution. Medieval salt extraction in England is indicated by the of place names ending in “wich” indicating brine spring exploitation at Northwich, Middlewich, Nantwich and Droitwich. Later, Victorian brine extraction in these areas accentuated salt karst development causing severe subsidence problems that remain a legacy. The salt was also mined, but the mines flooded and consequent brine extraction caused the workings to collapse, resulting in catastrophic surface subsidence. Legislation was enacted to pay for the damage and a levy is still charged for salt extraction. Some salt mines are still collapsing and the re-establishment of the post-brine extraction hydrogeological regimes means that salt springs may again flow causing further dissolution and potential collapse.
    [Show full text]
  • An Overview of the Sodium Chloride (Salt) Market in Western Canada (V.02)
    Sodium Chloride Market: An Overview of the Sodium Chloride (Salt) Market in Western Canada (v.02) Author: WaterSMART Solutions Ltd. Date: December 21, 2012 Table of Contents Executive Summary 1 Introduction 1 Sources / Types of Salt 2 Salt Deposits 3 Extraction / Production Methods 5 Primary Uses for Salt 6 Price 6 Distribution 7 Canadian Salt Market 9 Western Canada Salt Market 9 Salt in Oil Sands Mining 12 Road Salts 14 Sodium Carbonate and Sodium Bicarbonate 17 Caustic Soda and Sodium Chloride Consumption in SAGD 18 Summary 20 Tables Table 1 - Extraction and Production Technology ______________________________________________________ 6 Table 2 - Canadian Salt Market by Form ____________________________________________________________ 7 Table 3 - Final Packaging and Price of Salt to Public Consumer __________________________________________ 7 Table 4: Western Canada Salt Market Overview _____________________________________________________ 11 Table 5 - Primary Uses for Salt in Western Canada ___________________________________________________ 12 Table 6: Chloride Based Road Salts ________________________________________________________________ 14 Table 7: Radius of Competitiveness _______________________________________________________________ 16 Figures Figure 1: Table 2.3 Survey of High-Reduction and ZLD Technologies for Municipal Utilities ____________________ 2 Figure 2: Major North American Salt Deposits ________________________________________________________ 3 Figure 3: Western Canada Salt Deposits ____________________________________________________________
    [Show full text]
  • Historic Salt Mines in Wieliczka and Bochnia Zabytkowe Kopalnie Soli W Wieliczce I Bochni
    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by AGH (Akademia Górniczo-Hutnicza) University of Science and Technology: Journals Geoturystyka 4 (18) 2008: 61-70 Historic salt mines in Wieliczka and Bochnia Zabytkowe kopalnie soli w Wieliczce i Bochni Janusz Wiewiórka1, Józef Charkot2, Krzysztof Dudek3 & Małgorzata Gonera4 1 Retired geologist of the Wieliczka and Bochnia Salt Mines, Park Kingi 5, 32-020 Wieliczka 2 Cracow Saltworks Museum Wieliczka, Zamkowa 8, 32-020 Wieliczka, e-mail: [email protected] 3 Faculty of Geology, Geophysics and Environmental Protection, AGH University of Science and Technology, Al. Mickiewicza 30, 30-059 Kraków, e-mail: [email protected] 4 Nature Conservation Institute, Polish Academy of Sciences, Al. Mickiewicza 33, 31-120 Kraków, e-mail: [email protected] Kraków – Krakowskie Żupy Solne. W XVI wieku był to największy ośrodek produkcyjny w Polsce i jeden z największych w Europie. Wydobycie soli kamiennej zakończyło się w Bochni w 1990, a w Wieliczce Warszawa Wieliczka w 1996 roku. Obydwa złoża znajdują się w utworach sfałdowanego Bochnia miocenu (baden – M4) jednostki zgłobickiej Karpat zewnętrznych. Seria solonośna składa się z formacji skawińskiej, wielickiej Dobczyce (ewaporaty) i warstw chodenickich. Złoże solne Wieliczki zbu- dowane jest z górnego złoża bryłowego i dolnego pokładowego. Kraków Myślenice Złoże bryłowe zostało utworzone w wyniku podmorskich spływów w południowej części basenu ewaporacyjnego. Obydwie części zło- Abstract: Historic salt mines in Wieliczka and Bochnia are situ- ża zostały ostatecznie uformowane w wyniku ruchów nasuwczych ated by the old trade road from Kraków to the east, in the region Karpat.
    [Show full text]
  • CANADIAN SALT PRODUCERS Explosives, Fertilizers, Glass, and Cosmetics
    Salt Michel Dumont Although dietary intake can vary for people from various countries, on average an adult’s total salt intake should be The author is with the Minerals and Metals Sector, no more than 6 g per day and a child’s no more than 4 g. Natural Resources Canada. The average person’s diet incorporates at least 9 g per day. Telephone: 613-995-2917 Dietary sodium is measured in milligrams (mg). The most E-mail: [email protected] common form of sodium used is table salt, which is 40% sodium. One teaspoon of table salt contains 2300 mg of sodium. HIGHLIGHTS The salt markets in developed regions such as North • Salt is critical to human and animal health. In insuffi- America and Western Europe are both stable and mature. cient quantities, our muscles won’t contract, our blood The main consuming regions are North America, Asia and won’t circulate, our food won’t digest, and our hearts the Middle East, and Western Europe. World salt consump- won’t beat. tion is on the rise, mainly in response to increasing demand in Southeast Asia and other developing nations. China is • Due to severe North American winter (2007-08) weather the world’s leading producer of synthetic soda ash (source: conditions, 2008 data indicate Canadian shipments of U.S. Geological Survey [USGS] 2006 salt review), which salt increased by 18.4% (or 2.2 Mt) to 14.2 Mt valued at uses large quantities of salt as feedstock, and many of $537.8 million. China’s salt operations have not been able to keep up with the strong demand created by the rise in soda ash • Preliminary 2008 Canadian data indicate total salt production.
    [Show full text]
  • Wieliczka and Bochnia Royal Salt Mines (Poland)
    drainage works, the property was removed from the List of World Heritage in Danger in 1998 (22 COM VII.2). A buffer Wieliczka and Bochnia Royal Salt zone was proposed by the State Party and accepted by Mines the World Heritage Committee in 2008 (32 COM 8B.63). (Poland) Consultations No 32ter ICOMOS consulted TICCIH and several independent experts. Technical Evaluation Mission An ICOMOS technical evaluation mission visited the Official name as proposed by the State Party property from 18 to 22 September 2012. Wieliczka and Bochnia Royal Salt Mines Additional information requested and received from Location the State Party Małopolska region, Bochnia municipality ICOMOS sent a letter to the State Party on 19 December Poland 2012, asking it to: Examine whether the property can be extended to Brief description include technical elements above ground; The rock salt mines of Wieliczka and Bochnia have been Clarify whether the Goluchowski level of the Bochnia th worked since the 13 century. They are the oldest of their mine forms part of the property or not; type in Europe. They have a number of underground Set up a common Steering Committee for the three levels, forming hundreds of kilometres of galleries with component parts of the serial property; numerous excavated rock salt chambers. The chambers Update and approve the conservation master plan have been transformed into underground chapels, for the Bochnia mine; storerooms, and diverse other rooms, in which altars and Be particularly vigilant in the control of urban statues have been sculpted from the rock salt. Above development in the buffer zone.
    [Show full text]
  • Catastrophic Failures of Underground Evaporite Mines
    Catastrophic Failures of Underground Evaporite Mines Jeff Whyatt, Mining Engineer Floyd Varley, Acting Branch Chief NIOSH - Spokane Research Laboratory Spokane, WA ABSTRACT acceleration, or at least enough energy to remove any hazard to miners. That is, the failure process will be sufficiently slow to Deformation of underground salt, trona and potash mines is give miners time to retreat. However, the economic and generally time dependent, providing for gradual adjustment of environmental consequences (inundation, sinkholes, etc.) may strata to mining induced stresses. Time dependence can allow for still be catastrophic. The alternative is sudden, brittle failure. higher extraction ratios provided eventual failure can be tolerated. However, this eventual failure can be violent if creep deformation Brittle failures of any appreciable size around working areas can shift stress and potential energy to strong, brittle geologic can be hazardous. The unexpected transition from a controlled units. The mine failure case studies reviewed here illustrate this ground failure process (that is, ductile failure and/or brittle failure process. Yield pillars and defects in bridging strata figure isolated from miners) to a brittle failure process that impacts work prominently in these cases. Yield pillars provide local and areas is a hallmark of many fatal accidents and mine disasters. At temporary support to the roof, temporarily delaying the cave; and ordinary working temperature and pressure, salt rocks allowing extraction ratios and overburden spans to increase (evaporites) are considered to be the most ductile of all rock types beyond the long term capacity of overlying strata. Defects (faults, (1). As such, mines extracting such rock might be expected to be voids, thinning) of strong overburden strata reduce the critical immune from such failures.
    [Show full text]
  • Creating Tourism Destinations of Underground Built Heritage—The Cases of Salt Mines in Poland, Portugal, and Romania
    sustainability Article Creating Tourism Destinations of Underground Built Heritage—The Cases of Salt Mines in Poland, Portugal, and Romania Kinga Kimic 1,* , Carlos Smaniotto Costa 2 and Mihaela Negulescu 3 1 Department of Landscape Architecture, Institute of Environmental Engineering, Warsaw University of Life Sciences—SGGW, Nowoursynowska Street 159, 02-776 Warsaw, Poland 2 Interdisciplinary Research Centre for Education and Development, Universidade Lusófona, 1749-024 Lisboa, Portugal; [email protected] 3 Faculty of Urban Planning, Ion Mincu University of Architecture and Urban Planning, Academiei Street 18-20, 010014 Bucharest, Romania; [email protected] * Correspondence: [email protected] Abstract: Salt mines, a significant category of local, regional, national, and/or European underground heritage, are becoming attractive tourism destinations. This paper examines three cases of salt mining in different European countries, namely Wieliczka in Poland, Campina de Cima in Portugal, and Turda in Romania. They are analyzed in the context of history, typical attributes of their attractiveness, and new uses after the salt extraction was or is going to be stopped, in order to detect their unique values as important assets for both Underground Built Heritage (UBH) and Salt Heritage Tourism (SHT). The results of their comparison show that despite a positive impact related to their protection as cultural and industrial heritage, there are also some negative aspects related to increasing costs Citation: Kimic, K.; Smaniotto Costa, C.; Negulescu, M. Creating Tourism of their maintenance and adaptation of salt mines to new functions and to meet the tourism needs. Destinations of Underground Built By putting in place measures to enhance the awareness of their values and for activating the local Heritage—The Cases of Salt Mines in community, the three mines are showcases for the economic outputs for their sites and regions, as Poland, Portugal, and Romania.
    [Show full text]
  • Trip to Salina Turda
    HEALTHY LIFESTYLE MULTICULTURAL COMENIUS PROJECT Project Coordinator: Prof. dr. Marusca Ioana-Angela The “Horizon” School Center of Inclusive Education Oradea No. 3 Traian Lalescu Street 410174 Oradea Bihor County ROMANIA Telephone: 0040259411865 E-mail: cseiorizont.oradea@yahoo Trip to Salina Turda The 20nd of May 2014 ORADEA The trip is an activity proposed calendar of activities in the second year of the Comenius Multilateral Project "Healthy Lifestyle". Themed trip to Salina Turda aimed at teaching students to keep a healthy environment, but also to use the riches of nature to keep us healthy (natural treatments performed in a saline). Since this salt has adequate facilities to carry out sports activities and recreeative, the trip was organized as an activity in the Club Sport Comenius Multilateral Project "Healthy Lifestyle". Students were impressed by what they have seen during the departure and remained with fond memories of both sights visited this occasion realizing a beautiful album of photos that have contributed and their carers. The project team SALINA TURDA Short history Roman occupation in Dacia, marks the beginning of a systematic exploitation of mining iron ore polymetallic gold, silver and salt in Transylvania. Salt exploitation in Roman times is probably ,but a clear evidence of this activity are lacking, it is conceivable that the great medieval and modern exploitation (until the first third of the twentieth century) as the vaults in the old mines collapses, followed by appearance of salt lakes to be destroyed the marks of ancient mining (galleries, shafts, gears, etc.). In 1876, the mine gallery track “Ghizela” intercepted existence of underground mining work which nothing was known in the moment when making the gallery.
    [Show full text]
  • Compass Minerals International, Inc
    COMPASS MINERALS INTERNATIONAL, INC. 2010 FORM 10-K Processing Methods Operations and Facilities Our current production capacity, including salt and other minerals United States — Our Cote Blanche, Louisiana rock salt mine purchased under contracts, is approximately 16.9 million tons of serves highway deicing customers through a series of depots salt per year. Mining, other production activities and packaging located along the Mississippi and Ohio Rivers (and their major are currently conducted at 11 of our facilities. Additionally, tributaries) and chemical customers and agricultural customers in finished product is purchased from suppliers under contracts at the Southern and Midwestern U.S. Our Central and Midwestern four facilities. The three processing methods we use to produce U.S. consumer and industrial customer base is primarily served by our mechanical evaporation plant in Lyons, Kansas. salt are described below. Additionally, we serve areas around the Great Lakes with Underground Rock Salt Mining — We use a drill and blast evaporated salt purchased from a supplier’s facility in Michigan. mining technique at our North American underground rock salt Our solar evaporation facility located in Ogden, Utah, is the mines. Mining machinery moves salt from the salt face to largest solar salt production site in North America. This facility conveyor belts, which transport the salt to the mill center where principally serves the Midwestern and Western U.S. consumer it is crushed and screened. Salt is then hoisted to the surface and industrial markets, provides salt for highway deicing and where it is loaded onto shipping vessels, railcars or trucks. At chemical applications, and produces magnesium chloride, which our Winsford, U.K., facility, we also use a continuous mining is used in deicing, dust control and soil stabilization applications.
    [Show full text]
  • Microbial Life of the Deep Saline Biosphere
    I S S N 2 3 47-6893 Volume 9 Number4 Journal of Advances in Biology Microbial life of the deep saline biosphere Weronika Goraj The John Paul II Catholic University of Lublin, Institute of Biotechnology, Department of Biochemistry and Environmental Chemistry Str. Konstantynów 1I, 20-708 Lublin, Poland [email protected] Zofia Stępniewska The John Paul II Catholic University of Lublin, Institute of Biotechnology, Department of Biochemistry and Environmental Chemistry Str. Konstantynów 1I, 20-708 Lublin, Poland [email protected] ABSTRACT Transfer microbiological studies under the surface of the Earth to exploration of deep intraterrestrial microbial life is important to allows exceeding the current framework of science. Microbial life is determined by physical, geochemical, and biological factors such as the availability of liquid water, energy, nutrients, and trace elements. Additionally, conditions including ambient temperature, pH, salinity, and pressure interact with biological systems to define the space for life. Recent studies have shown the presence and activity of cells in deep marine sediments and in the continental deep biosphere. Characterizing the bacterial community composition and recognition of diversity of microorganisms may play an important role in biogeochemical carbon cycling and potential biotechnological application of these microorganisms. Indexing terms/Keywords salinity environment, microorganisms, halophile, methanotrophs DEEP SALINE BIOSPHERE Under the earth, there are many factors limiting microbial life such as low oxygen levels, water and nutrient availability. With an increase in depth, photosynthetically derived organic carbon becomes limited and hardly accessible [49]. Extreme conditions are also associated with pressure, temperature, pH, salinity. Despite this, the deep subsurface microbial communities are very diverse, spanning all domains of life [3, 9, 10, 41].
    [Show full text]
  • An Iron Age Salt-Mining Centre in the Austrian Alps
    The Antiquaries Journal, 83, 2003, pp 123-94 THE ECONOMY OF DURRNBERG-BEI-HALLEIN: AN IRON AGE SALT-MINING CENTRE IN THE AUSTRIAN ALPS Thomas Stollner, with contributions from Horst Aspock, Nicole Boenke, Claus Dobiat, Hans-Jurgen Gawlick, Willy Groenman-van Waateringe, Walter Irlinger, Katharina von Kurzynski, Richard Lein, Wolfgang Lobisser, Klaus Locker, Vincent Megaw, FSA, Ruth Megaw, FSA, Graham Morgan, FSA, Erich Pucher and Trivun Sormaz* * Thomas Stollner, Fachbereich Montanarchdologie, Deutsches Bergbau-Museum, Hernerstrasse 45, D-44787 Bochum, Germany. E-mail: < [email protected] > . (TS) Horst Aspock, Abteilung fur Medizinische Parasitologie, Klinisches Institut fur Hygiene und Medizinische Mikrobiologie der Universitdt, Kinderspitalgasse 15, A-1095 Vienna, Austria. E-mail: <[email protected]>. (HA) Nicole Boenke, Institut der KAL, Schloss Biebrich-Ostflugel, Rheingaustrasse 140, D-65203 Wiesbaden, Germany. E-mail: < [email protected] >. (NB) Claus Dobiat, Vorgeschichtliches Seminar, Philipps-Universitdt Marburg, Biegenstrasse 11, D-35032 Marburg, Germany. E-mail: <[email protected]>. (CD) Hans-Jurgen Gawlick, Montanuniversitdt Leoben, Institut fur Geowissenschaften: Prospektion und Angewandte Sedimentologie, Peter-Tunner-Strasse 5, A-8700 Leoben, Austria. E-mail: <[email protected]>. (HG) Willy Groenman-van Waateringe, Universiteit van Amsterdam, A AC, Nieuwe Prinsengracht 130, NL-1018 VZ Amsterdam, The Netherlands. E-mail: < [email protected] >. (WG) Walter Irlinger, Bodendenkmalpflege, Referat BI, Bayerisches Landesamt fur Denkmalpflege, Hofgraben 4, D-80549 Munich, Germany. E-mail: < [email protected] >. (WI) Katharina von Kurzynski, Vorgeschichtliches Seminar, Philipps-Universitdt Marburg, Biegenstrasse 11, D-35032 Marburg, Germany. E-mail: < [email protected] >. (K v K) Richard Lein, Geozentrum, Universitdt Wien, Althanstrasse, A-lopo Vienna, Austria.
    [Show full text]