Doctoral studies

country
province
city
subject area
language
university type  
university status  
pl pl
Toruń, Poland
subject area: physical science, environment
pl pl
Cracow, Poland
subject area: physical science, environment
pl pl
Wrocław, Poland
subject area: physical science, environment
pl pl
Cracow, Poland
subject area: physical science, environment
pl pl
Toruń, Poland
subject area: physical science, environment
pl pl
Wrocław, Poland
subject area: physical science, environment
pl pl
Cracow, Poland
subject area: physical science, environment
pl pl
Lublin, Poland
subject area: physical science, environment
pl pl
Cracow, Poland
subject area: physical science, environment
pl pl
Gdańsk, Poland
subject area: physical science, environment
pl pl
Cracow, Poland
subject area: physical science, environment
pl pl
Wrocław, Poland
subject area: physical science, environment
pl pl
Gdańsk, Poland
subject area: physical science, environment
pl pl
Olsztyn, Poland
subject area: physical science, environment
pl pl
Warsaw, Poland
subject area: physical science, environment
pl pl
Gdańsk, Poland
subject area: physical science, environment
pl pl
Toruń, Poland
subject area: physical science, environment
pl pl
Lublin, Poland
subject area: physical science, environment
pl pl
Wrocław, Poland
subject area: physical science, environment
pl pl
Cracow, Poland
subject area: physical science, environment
pl pl
Cracow, Poland
subject area: physical science, environment
pl pl
Cracow, Poland
subject area: physical science, environment
pl pl
Zielona Góra, Poland
subject area: physical science, environment
pl pl
Warsaw, Poland
subject area: physical science, environment
pl pl
Warsaw, Poland
subject area: physical science, environment
pl pl
Warsaw, Poland
subject area: physical science, environment
pl pl
Wrocław, Poland
subject area: physical science, environment
pl pl
Gliwice, Poland
subject area: physical science, environment
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Human activities have strongly modified the biogeochemical cycles of metallic trace elements (MTEs) increasing their fluxes towards and between surface environments. New isotope data has fostered better models of MTE sources, transfer and reactivities in dynamic and multi-sources systems, as required for targeting emission controlled strategies to combat origins and consequences of metal contamination.
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