Total found: 83 records |
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Kopáček J., Kaňa J., Porcal P., Stuchlík E. (2021) Diverse effects of accelerating climate change on chemical recovery of alpine lakes from acidic deposition in soil-rich versus scree-rich catchments. Environmental Pollution
284: 117522. DOI: 10.1016/j.envpol.2021.117522 |
Schmidt S., Hejzlar J., Kopáček J., Paule-Mercado M., Porcal P., Vystavna Y. (2021) Relationships between a catchment-scale forest disturbance index, time delays, and chemical properties of surface water. Ecological Indicators
125: 107558. DOI: 10.1016/j.ecolind.2021.107558 |
Shabarova T., Salcher M., Porcal P., Znachor P., Nedoma J., Grossart H., Seďa J., Hejzlar J., Šimek K. (2021) Recovery of freshwater microbial communities after extreme rain events is mediated by cyclic succession. Nature Microbiology
6: 479–488. DOI: 10.1038/s41564-020-00852-1 |
Abdolahpur Monikh F., Arenas-Lago D., Porcal P., Grillo R., Zhang P., Guo Z., Vijver M.G., Peijnenburg W.J.G.M. (2020) Do the joint effects of size, shape and ecocorona influence the attachment and physical eco(cyto)toxicity of nanoparticles to algae? Nanotoxicology
14: 310-325. DOI: 10.1080/17435390.2019.1692381 |
Kaňa J., Porcal P., Choma M. (2020) Plešné jezero a kůrovec. [Plešné lake and bark beetle.] Book
40. |
Kopáček J., Bače R., Hejzlar J., Kaňa J., Kučera T., Matějka K., Porcal P., Turek J. (2020) Changes in microclimate and hydrology in an unmanaged mountain forest catchment after insect-induced tree dieback Science of the Total Environment
720 : 137518. DOI: 10.1016/j.scitotenv.2020.137518 |
Kopáček J., Hejzlar J., Oulehle F., Porcal P., Weyhenmeyer G., Norton S. (2020) Disruptions and re-establishment of the calcium-bicarbonate equilibrium in freshwaters Science of the Total Environment
743: 140626. DOI: doi.org/10.1016/j.scitotenv.2020.140626 |
Piwosz K., Shabarova T., Pernthaler J., Posch T., Šimek K., Porcal P., Salcher M. (2020) Bacterial and eukaryotic small-subunit amplicon data do not provide a quantitative picture of microbial communities, but they are reliable in the context of ecological interpretations mSphere
5: e00052-20. DOI: 10.1128/mSphere.00052-20 |
Porcal P., Amirbahman A., Kopáček J., Norton S. (2020) Solar Radiation as the Likely Cause of Acid-Soluble Rare-EarthElements in Sediments of Fresh Water Humic Lakes Environmental Science & Technology
54: 1545-1553. DOI: 10.1021/acs.est.9b05146 |
Kopáček J., Kaňa J., Bičárová S., Brahney J. , Navrátil T., Norton S., Porcal P., Stuchlík E. (2019) Climate change accelerates recovery of the Tatra Mountain lakes from acidification and increases their nutrient and chlorophyll a concentrations Aquatic Sciences
81: 70. DOI: 10.1007/s00027-019-0667-7 |
Kopáček J., Kaňa J., Porcal P., Vrba J., Norton S. (2019) Effects of tree dieback on lake water acidity in the unmanaged catchment of Plešné Lake, Czech Republic Limnology and Oceanography
64: 1614-1626. DOI: 10.1002/lno.11139 |
Kopáček J., Evans C., Hejzlar J., Kaňa J., Porcal P., Šantrůčková H. (2018) Factors Affecting the Leaching of Dissolved Organic Carbon after Tree Dieback in an Unmanaged European Mountain Forest Environmental Science & Technology
52: 6291-6299. DOI: 10.1021/acs.est.8b00478 |
Kopáček J., Hejzlar J., Kaňa J., Porcal P., Turek J. (2018) Fluxes of ecologically important solutes in the Čertovo catchment–lake system from 1998–2017 Silva Gabreta
24: 85-114. |
Kopáček J., Hejzlar J., Kaňa J., Porcal P., Turek J. (2018) Fluxes of ecologically important solutes in the Plešné catchment–lake system from 2000–2017 Silva Gabreta
24: 115-147. |
Porcal P., Kopáček J. (2018) Photochemical degradation of dissolved organic matter reduces the availability of phosphorus for aquatic primary producers Chemosphere
193: 1018-1026 . DOI: 10.1016/j.chemosphere.2017.11.140 |
Kopáček J., Fluksová H., Hejzlar J., Kaňa J., Porcal P., Turek J. (2017) Changes in surface water chemistry caused by natural forest dieback in an unmanaged mountain catchment. Science of the Total Environment
584–585: 971–981 . DOI: 10.1016/j.scitotenv.2017.01.148 |
Kopáček J., Hejzlar J., Porcal P., Posch M. (2017) Trends in riverine element fluxes: A chronicle of regional socio-economic changes Water Research
125: 374–383. DOI: 10.1016/j.watres.2017.08.067 |
Porcal P., Frejlachová K., Kopáček J., Nedoma J., Šavrdová T. (2017) Photochemical cleaving of allochthonous organic-metal complexes contributes to phosphorus immobilization in surface waters. Chemosphere
167: 374-381. DOI: 10.1016/j.chemosphere.2016.10.022 |
Kopáček J., Hejzlar J., Kaňa J., Porcal P., Turek J. (2016) The sensitivity of water chemistry to climate in a forested, nitrogen-saturated catchment recovering from acidification. Ecological Indicators
63 : 196–208. DOI: 10.1016/j.ecolind.2015.12.014 |
Kopáček J., Bičárová S., Hejzlar J., Hynštová M. M., Kaňa J., Mitošinková M., Porcal P., Stuchlík E., Turek J. (2015) Catchment biogeochemistry modifies long-term effects of acidic deposition on chemistry of mountain lakes. Biogeochemistry
125 : 315–335 . DOI: 10.1007/s10533-015-0127-y |