Dr Małgorzata Stanek
Adiunkt
Zainteresowania badawcze
- Interakcje roślina-gleba.
- Wpływ roślin inwazyjnych na właściwości mikrobiologiczne i fizykochemiczne gleby.
- Roślinne metabolity wtórne.
- Wpływ zanieczyszczenia powietrza i gleby (metale ciężkie, związki organiczne) na roślinność.
- Analityka chemiczna (chromatografia gazowa i cieczowa, spektrometria mas, atomowa spektrometria absorpcyjna).
Najnowsze publikacje (wybrane)
Stanek M., Kushwaha P., Murawska-Wlodarczyk K., Stefanowicz A.M., Babst-Kostecka A. 2023. Quercus rubra invasion of temperate deciduous forest stands alters the structure and functions of the soil microbiome. Geoderma 430: 116328. DOI
Stefanowicz A.M., Kapusta P., Stanek M., Rożek K., Rola K., Zubek S. 2023. Herbaceous plant species and their combinations positively affect soil microorganisms and processes and modify soil physicochemical properties in a mesocosm experiment. Forest Ecology and Management 532: 120826. DOI
Woch M.W., Kapusta P., Stanek M., Możdżeń K., Grześ I.M., Rożej-Pabijan E., Stefanowicz A.M. 2023. Effects of invasive Rosa rugosa on Baltic coastal dune communities depend on dune age. Neobiota 82: 163–187. DOI
Rola K., Rożek K., Chowaniec K., Błaszkowski J., Gielas I., Stanek M., Wietrzyk-Pełka P., Węgrzyn M., Fałowska P., Dziurowicz P., Nicia P, Bejger R., Zadrożny P., Pliszko A., Zalewska-Gałosz J., Zubek S. 2022. Vascular plant and cryptogam abundance as well as soil chemical properties shape microbial communities in the successional gradient of glacier foreland soils. Science of The Total Environment 860: 160550. DOI
Stefanowicz A.M., Frąc M., Oszust K., Stanek M. 2022. Contrasting effects of extracts from invasive Reynoutria japonica on soil microbial biomass, activity, and community structure. Biological Invasions 24: 3233–3247. DOI
Stefanowicz A.M., Kapusta P., Stanek M., Rola K., Zubek S. 2022. Herbaceous plant species support soil microbial performance in deciduous temperate forests. Science of the Total Environment 810: 151313. DOI
Zubek S., Kapusta P., Stanek M., Woch M.W., Błaszkowski J. Stefanowicz A.M. 2022. Reynoutria japonica invasion negatively affects arbuscular mycorrhizal fungi communities regardless of the season and soil conditions. Applied Soil Ecology 169: 104152. DOI
Zubek S., Rola K., Rożek K., Błaszkowski J., Stanek M., Chmolowska D., Chowaniec K., Zalewska-Gałosz J., Stefanowicz A.M. 2022. Experimental assessment of forest floor geophyte and hemicryptophyte impact on arbuscular mycorrhizal fungi communities. Plant and Soil 480: 651–673. DOI
Skórka P., Banach A., Banasiak M., Bokalska-Rajba J., Bonk M., Czachura P., García-Rodríguez A., Gaspar G., Hordyńska N., Kaczmarczyk A., Kapłoniak K., Kociński M., Łopata B., Mazur E., Mirzaei M., Misiewicz A., Parres A., Przystałkowska A., Pustkowiak S., Raczyński M., Sadura I., Splitt A., Stanek M., Sternalski J., Wierzbicka A., Wiorek M., Zduńczyk P. 2021. Congruence between the prioritisation of conservation problems at the local and national scale: an evaluation by environmental scientists in Poland. Environmental Science and Pollution Research 28: 35317–35326. DOI
Stanek M., Zubek S., Stefanowicz A.M. 2021. Differences in phenolics produced by invasive Quercus rubra and native plant communities induced changes in soil microbial properties and enzymatic activity. Forest Ecology and Management 482: 118901. DOI
Stefanowicz A.M., Kapusta P., Stanek M., Frąc M., Oszust K., Woch M.W., Zubek S. 2021. Invasive plant Reynoutria japonica produces large amounts of phenolic compounds and reduces the biomass but not activity of soil microbial communities. Science of the Total Environment 767: 145439. DOI
Stefanowicz A.M., Rożek K., Stanek M., Rola K., Zubek S. 2021. Moderate effects of tree species identity on soil microbial communities and soil chemical properties in a common garden experiment. Forest Ecology and Management 482: 118799. DOI
Woch M.W., Kapusta P., Stanek M., Zubek S., Stefanowicz A.M. 2021. Functional traits predict resident plant response to Reynoutria japonica invasion in riparian and fallow communities in southern Poland. AoB PLANTS 13: plab035. DOI
Zubek S., Rożek K., Stefanowicz A.M., Błaszkowski J., Stanek M., Gielas I., Rola K. 2021. The impact of beech and riparian forest herbaceous plant species with contrasting traits on arbuscular mycorrhizal fungi abundance and diversity. Forest Ecology and Management 492: 119245. DOI
Stanek M., Piechnik Ł., Stefanowicz A.M. 2020. Invasive red oak (Quercus rubra L.) modifies soil physicochemical properties and forest understory vegetation. Forest Ecology and Management 472: 118253. DOI
Stefanowicz A.M., Banaś A., Stanek M., Woch M.W., Zubek S. 2020. Large differences in biomass quantity and quality between invasive Reynoutria japonica and resident vegetation are not reflected in topsoil physicochemical properties. Geoderma 368: 114307. DOI
Stefanowicz A.M., Kapusta P., Zubek S., Stanek M., Woch M.W. 2020. Soil organic matter prevails over heavy metal pollution and vegetation as a factor shaping soil microbial communities at historical Zn-Pb mining sites. Chemosphere 240: 124922. DOI
Kapusta P., Stanek M., Szarek-Łukaszewska G., Godzik B. 2019. Long-term moss monitoring of atmospheric deposition near a large steelworks reveals the growing importance of local non-industrial sources of pollution. Chemosphere 230: 29–39. DOI
Stanek M., Stefanowicz A.M. 2019. Invasive Quercus rubra negatively affected soil microbial communities relative to native Quercus robur in a semi-natural forest. Science of the Total Environment 696: 133977. DOI
Stefanowicz A.M., Stanek M., Majewska M.L., Nobis M., Zubek S. 2019. Invasive plant species identity affects soil microbial communities in a mesocosm experiment. Applied Soil Ecology 136: 168–177. DOI
Stefanowicz A.M., Zubek S., Stanek M., Grześ I.M., Rożej-Pabijan E., Błaszkowski J., Woch M.W. 2019. Invasion of Rosa rugosa induced changes in soil nutrients and microbial communities of coastal sand dunes. Science of the Total Environment 677: 340–349. DOI
Stefanowicz A.M., Majewska M.L., Stanek M., Nobis M., Zubek S. 2018. Differential influence of four invasive plant species on soil physicochemical properties in a pot experiment. Journal of Soils and Sediments 18: 1409–1423. DOI
Woch M.W., Radwańska M., Stanek M., Łopata B., Stefanowicz A.M. 2018. Relationships between waste physicochemical properties, microbial activity and vegetation at coal ash and sludge disposal sites. Science of the Total Environment 642: 264–275. DOI
Stefanowicz A.M., Stanek M., Nobis M., Zubek S. 2017. Few effects of invasive plants Reynoutria japonica, Rudbeckia laciniata and Solidago gigantea on soil physical and chemical properties. Science of the Total Environment 574: 938–946. DOI
Woch M.W., Stefanowicz A.M., Stanek M. 2017. Waste heaps left by historical Zn-Pb ore mining are hotspots of species diversity of beech forest understory vegetation. Science of the Total Environment 599–600: 32–41. DOI
Stefanowicz A.M., Stanek M., Nobis M., Zubek S. 2016. Species-specific effects of plant invasions on activity, biomass, and composition of soil microbial communities. Biology and Fertility of Soils 52: 841–852. DOI
Stefanowicz A.M., Stanek M., Woch M.W. 2016. High concentrations of heavy metals in beech forest understory plants growing on waste heaps left by Zn-Pb ore mining. Journal of Geochemical Exploration 169: 157–162. DOI