In Poland, distribution of potassium-magnesium salts appears limited by the extent of the Zechstein salt formation. Together with rock salt they form two separate lithostratigraphic units – the Older and Younger Potash units of the Zechstein. The units are traceable in the Polish Lowlands where they were recorded in countless drillings as well as several salt structures in central Poland and layers in south-western part of the Fore-Sudetic Monocline.
Resources of five proven deposits of potassium-magnesium salts were estimated at 669 million tonnes. The sulfate (polyhalite) salt deposits of the Bay of Puck form the bulk of these resources. The deposits of the Bay of Puck area are of the sulfate (polyhalite) salt type, with polyhalite occurring in form of early diagenetic minerals developed in anhydrite layers which underlay and intercalate and overlay the oldest rock salt bed of the Zechstein. Polyhalite inclusions are present as irregularly disseminated nests and aggregate intergrowths in depth interval from 740 to 900 m. K2O content ranges from 7.7 to 13.7 % in that depth interval. The deposits situated along the rim of the Zatoka Pucka rock salt deposit were covered by preliminary exploration in the years 1964-1971. Their indicated resources were estimated at 597 million tonnes assuming regular distribution of polyhalite mineralization.
Small accumulations of potassium salts (72 million tonnes) were identified along eastern margin of the Kłodawa salt pillow, where salts of the potassium chloride type (carnalite and sylvine) occur in rocks of the Younger Potash unit, steeply inclined (at the angle of 70o) and folded and locally squeezed and crumple. The chloride salts are strongly contaminated with clay matter and sulfates. Mean contents of K2O and MgO are 8,5 % and 8,1 %, respectively. The potassium salt accumulations are of minimal economic interest due to high variability in thickness of the strata (from a few to 50 m) and problems in processing of the raw material. The salts were exploited seasonally till the year 2000 when 1,400 tonnes were mined. In the next years this part of the salt deposit became abandoned.
Potassium salt deposits are explored to the depth of 1,200 m. The two meters thickness is accepted as the minimum, providing that the weighted average K2O content in the deposit is not lower than 8 %.
Potassium-magnesium salts resources has not changed for couple of years, there were no new deposits documented and there was no verification connected with old deposits.
In 2010 potassium-magnesium salts prognostic resources (to the depth of 1,000 m) amounted to 719.44 million tonnes, whereas perspective resources amounted to 300 million tonnes (to the depth between 1,000-2,000 m)(1).
Potassium–magnesium salt deposits in Poland are presented on the map.
Table 1 shows resources and the current state of exploration and development of potassium-magnesium salts. The data refer to exploitable resources (that is except of those remaining in safety pillars).
Domestic demand for potassium is covered by import. In 2010, import of potassium salts, fertilizers and compounds was equal 923 thousand tonnes, increasing more than three times in relation to the previous year. Export slightly decreased (by 8 %) and amounted to 111 thousand tonnes (table 2).
- B - for solid minerals - mine in building process, for fuels - prepared for exploitation or trial period of the exploitation
- E - exploited
- G - underground natural gas storage facilities
- M - deposit crossed out of the annual report of mineral resources during analized period
- P - deposit covered by preliminary exploration (in C2+D category, for fuels – in C category)
- R - deposit covered by detailed exploration (in A+B+C1 category, for fuels – in A+B category)
- Z - abandoned deposit
- T - deposit exploited temporarily
- K - change of the raw material in deposit
Prepared by: Grzegorz Czapowski
(1) G. Czapowski, K. Bukowski 2011 - "Sól kamienna i sole potasowo-magnezowe" w "Bilans perspektywicznych zasobów kopalin Polski wg stanu na 31 XII 2009 r." pod red. S. Wołkowicz, T. Smakowski, S. Speczik. PIG-PIB Warszawa.