| Body na spoluautora | Body za publikaci pro MU | Odkaz ISVaV | | 0,00 | 0,00 | Natural enrichment of arsenic in groundwaters of Brahmanbaria district, Bangladesh: geochemistry, speciation modeling and multivariate statistics
|
| 2,26 | 2,26 | Removal of Halogenated Hydrocarbons from Water by Zero-Valent Iron
|
| 0,00 | 0,00 | Redox control of natural attenuation of chlorinated solvents
|
| 0,00 | 0,00 | High arsenic concentrations in mining waters at Kaňk, Czech Republic
|
| 8,23 | 8,23 | Comparison of methods for the estimation of pyrite oxidation rate in a waste rock pile at Mine Doyon, Quebec, Canada
|
| 132,89 | 132,89 | Geochemistry and geochemical modeling of unsaturated zone in a tropical region in Urania, Sao Paulo state, Brazil
|
| 45,35 | 45,35 | Distribution and mobility of arsenic in the Río Dulce alluvial aquifers in Santiago del Estero Province, Argentina
|
| 1,43 | 1,43 | Mobility of As in groundwater in part of Brahmanbaria district, NE Bangladesh
|
| 28,43 | 28,43 | Arsenic in shallow groundwater of Bangladesh: investigations from three different physiographic settings
|
| 12,39 | 37,16 | Geochemical behaviour and mineralogical transformations during spontaneous combustion of a coal waste pile in Oslavany, Czech Republic
|
| 11,78 | 11,78 | Factors affecting arsenic concentration in groundwater from Northwestern Chaco-Pampean Plain, Argentina
|
| 92,33 | 92,33 | Modelling of iron cycling and its impact on the electron balance at a petroleum hydrocarbon contaminated site in Hnevice, Czech Republic
|
| 5,89 | 11,78 | Natural attenuation of chlorinated solvents: a comparative study
|
| 12,56 | 12,56 | Odstraňování chlorderivátů ethenu z podzemní vody využitím podpovrchových reakčních bariér tvořených granulovaným železem (Fe0)
|
| 7,42 | 7,42 | Removal of chlorinated solvents from carbonate-buffered water by zero-valent iron
|
| 45,35 | 45,35 | Targeting low-arsenic aquifers in Matlab Upazila, Southeastern Bangladesh
|
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(c) Michal Bulant, 2011