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Publikacje

2022

2021

  • J. Proch, P. Niedzielski, 2021: Multi–mode Sample Introduction System (MSIS) as an interface in the hyphenated system 2 HPLC–MSIS–ICP–OES in simultaneous determination of metals and metalloids species. Analytica Chimica Acta, 1147, 1–14. DOI: 10.1016/j.aca.2020.12.047
  • J. Proch, P. Niedzielski, 2021: Iron species determination by high performance liquid chromatography with plasma based optical emission detectors: HPLC–MIP OES and HPLC–ICP OES. Talanta, 231, 122403. DOI: 10.1016/j.talanta.2021.122403
  • L. Kozak, J. Souza, A. Nawrot, J. Proch, M. Kaźmierski, A. Zawieja, P. Niedzielski, 2021: Handheld ED–XRF spectrometers in geochemical investigation: Comparative studies for glacial deposits from Spitsbergen, Polish Polar Research, 42(3), 163–172. DOI: 10.24425/ppr.2021.137141
  • M. Kugiejko, 2021: Increase of tourist traffic on Spitsbergen: An environmental challenge or chance for progress in the region? Polish Polar Research, 42(2), 139–159. DOI: 10.24425/ppr.2021.136601

2020

  • Borysiak J., Pleskot K., Rachlewicz G., 2020: Dryas aeolian landforms in Arctic deflationary tundra, central Spitsbergen. Polish Polar Research, 41, 1, 41-68.
  • Ewertowski MW., Tomczyk AM., 2020. Reactivation of temporarily stabilized ice-cored moraines in front of polythermal glaciers: Gravitational mass movements as the most important geomorphological agents for the redistribution of sediments (a case study from Ebbabreen and Ragnarbreen, Svalbard). Geomorphology, 350: 106952, DOI: https://doi.org/10.1016/j.geomorph.2019.106952
  • Le Moullec M., Sandal L., Grøtan V., Buchwal A., Hansen B.B. (2020) Climate synchronizes shrub growth across a high-arctic archipelago: contrasting implications of summer and winter warming. Oikos 129(7): 1012-1027. DOI: 10.1111/oik.07059
  • Schuler Thomas V., Kohler Jack, Elagina Nelly, Hagen Jon Ove M., Hodson Andrew J., Jania Jacek A., Kääb Andreas M., Luks Bartłomiej, Małecki Jakub, Moholdt Geir, Pohjola Veijo A., Sobota Ireneusz, Van Pelt Ward J. J. (2020) Reconciling Svalbard Glacier Mass Balance. Frontiers in Earth Science, 8, DOI:10.3389/feart.2020.00156
  • Storrar RD., Ewertowski M., Tomczyk AM., Barr ID., Livingstone SJ., Ruffell A., Stoker BJ., Evans DJA. 2020. Equifinality and preservation potential of complex eskers. Boreas 49(1):211-231, DOI: https://doi.org/10.1111/bor.12414
  • Thomas H.J.D., (…), Buchwal A., (…) (2020) Global plant trait relationships extend to the climatic extremes of the tundra biome. Nature Communications 11, 1351. doi: 10.1038/s41467-020-15014-4
  • Thomas V Schuler, Andrey Glazovsky, Jon Ove Hagen, Andrew Hodson, Jacek Jania, Andreas Kääb, Jack Kohler, Bartłomiej Luks, Jakub Malecki, Geir Moholdt, Veijo Pohjola, Ward Van Pelt (2020) New data, new techniques and newchallenges for updating the state of Svalbard glaciers (SvalGlac). SESS Report 2019 – The State of Environmental Science in Svalbard.

2019

  • Buchwal A., Weijers S., Blok D., Elberling B., 2019: Temperature sensitivity of willow dwarf shrub growth from two distinct High Arctic sites. International Journal of Biometeorology, 63(2), 167-181; doi: 10.1007/s00484-018-1648-6
  • Ewertowski M. W., Evans D. J. A., Roberts D. H., Tomczyk A. M., Pleskot K., Ewertowski W., 2019: Quantification of historical landscape change on the foreland of a receding polythermal glacier, Hørbyebreen, Svalbard. Geomorphology, 325, 50-54; doi:10.1016/j.geomorph.2018.09.027
  • Ewertowski M. W., Tomczyk A. M., Evans D. J. A, Roberts D. H, Ewertowski W., 2019: Operational framework for rapid, very-high resolution mapping of glacial geomorphology using low-cost Unmanned Aerial Vehicles and Structure-from-Motion approach. Remote Sensing 11, 65; doi: 10.3390/rs11010065
  • Ewertowski M. W., Tomczyk A. M., 2020: Reactivation of temporarily stabilized ice-cored moraines in front of polythermal glaciers: Gravitational mass movements as the most important geomorphological agents for the redistribution of sediments (a case study from Ebbabreen and Ragnarbreen, Svalbard). Geomorphology, 350, 106952; doi: https://doi.org/10.1016/j.geomorph.2019.106952
  • Małecki J., 2019: Meteorology and summer net radiation of an Arctic alpine glacier: Svenbreen, Svalbard. International Journal of Climatology, 39, 10, 4107-4124; doi: 10.1002/joc.6062
  • Przybylak R., Araźny A., Miętus M., Migała K., Niedźwiedź T., Rachlewicz G., Siwek K., Ustrnul Z., 2019: Polskie badania polarne z zakresu meteorologii i klimatologii. Przegląd Geofizyczny, LXIV, 1-2, 3-33
  • Thomas H.J.D., Myers-Smith I.H., Bjorkman A.D., Elmendorf S.C., Blok D., Cornelissen J.H.C., Forbes B.C., Hollister R., Normand S., Prevey J.S., Rixen C., Schaepman-Strub G., Wilmking M., Wipf S., Cornwell W., Kattge J., Goetz S., Guay K., Alatalo J., Anadon Rosell A., Angers-Blondin S., Berner L.T., Björk R.G., Buchwal A., Buras A., Carbognani M., Christie K., Collier L.S., Cooper E.J., Eskelinen A., Frei E.R., Grau O., Grogan P., Hallinger M., Heijman M.M.P.D., Hermanutz L., Hudson J.M.G., Hülber K., Iturrate-Garcia M., Iversen C.M., Jaroszynska F., Johnstone J., Kaarlejarvi E., Kulonen A., Lamarque L., Levesque E., Little C.J., Michelsen A., Milbau A., Nabe-Nielsen J., Nielsen S.S., Ninot J.M., Oberbauer S., Olofsson J., Onipchenko V., Petraglia A., Rumpf S.B., Semenchuk P.R., Soudzilovskaia N., Spasojevic M., Speed J.D.M., Tape K., Te Beest M., Tomaselli M., Trant A., Treier U., Venn S., Vowles T., Weijers S., Zamin T., Atkin O., Bahn M., Blonder B., Campetella G., Cerabolini B.E.L., Chapin F.S., Dainese M., De Vries F.T., Diaz S., Green W., Jackson R., Manning P., Niinemets Ü., Ozinga W.A., Penuelas J., Reich P., Schamp B., Sheremetev S., van Bodegom P.M., 2019: Traditional plant functional groups explain variation in economic but not size-related traits across the tundra biome. Global Ecology and Biogeography, 28, 78-95; doi.org/10.1111/geb.12783
  • Tomczyk A. M., Ewertowski M. W., Stawska M., Rachlewicz G., 2019 – Detailed alluvial fan geomorphology in a high-arctic periglacial environment, Svalbard: application of unmanned aerial vehicle (UAV) surveys. Journal of Maps, 15,2, 460-473; doi: 10.1080/17445647.2019.1611498
  • Zawierucha K., Baccolo G., Di Mauro B., Nawrot A., Szczucinski W., Kalinska E., 2019: Micromorphological features of mineral matter from cryoconite holes on Arctic (Svalbard) and alpine (the Alps, the Caucasus) glaciers. Polar Science, in press; doi.org/10.1016/j.polar.2019.100482

2018

  • Bjorkman A. D., Myers-Smith I. H., Elmendorf S. C., Normand S., Rüger N., Beck P. S. A., Blach-Overgaard A., Blok D., Cornelissen J. H. C., Forbes B. C., Georges D., Goetz S. J., Guay K. C., Henry G. H. R., HilleRisLambers J., Hollister R. D., Karger D. N., Kattge J., Manning P., Prevéy J. S., Rixen C., Schaepman-Strub G., Thomas H. J. D., Vellend M., Wilmking M., Wipf S., Carbognani M., Hermanutz L., Lévesque E., Molau U., Petraglia A., Soudzilovskaia N. A., Spasojevic M. J., Tomaselli M., Vowles T., Alatalo J. M., Alexander H. D., Anadon-Rosell A., Angers-Blondin S., te Beest M., Berner L., Björk R. G., Buchwał A., Buras A., Christie K., Cooper E. J., Dullinger S., Elberling B., Eskelinen A., Frei E. R., Grau O., Grogan P., Hallinger M., Harper K. A., Heijmans M. M. P. D., Hudson J., Hülber K., Iturrate-Garcia M., Iversen C. M., Jaroszynska F., Johnstone J. F., Jørgensen R. H., Kaarlejärvi E., Klady R., Kuleza S., Kulonen A., Lamarque L. J., Lantz T., Little C. J., Speed J. D. M., Michelsen A., Milbau A., Nabe-Nielsen J., Nielsen S. S., Ninot J. M., Oberbauer S. F., Olofsson J., Onipchenko V. G., Rumpf S. B., Semenchuk P., Shetti R., Siegwart Collier L., Street L. E., Suding K. N., Tape K. D., Trant A., Treier U. A., Tremblay J. P., Tremblay M., Venn S., Weijers S., Zamin T., Boulanger-Lapointe N., Gould W. A., Hik D. S., Hofgaard A., Jónsdóttir I. S., Jorgenson J., Klein J., Magnusson B., Tweedie C., Wookey P. A., Bahn M., Blonder B., van Bodegom P. M., Bond-Lamberty B., Campetella G., Cerabolini B. E. L., Chapin III F. S., Cornwell W. K., Craine J., Dainese M., de Vries F. T., Díaz S., Enquist B. J., Green W., Milla R., Niinemets Ü., Onoda Y., Ordoñez J. C., Ozinga W. A., Penuelas J., Poorter H., Poschlod P., Reich P. B., Sandel B., Schamp B., Sheremetev S., Weiher E., 2018: Plant functional traits change across a warming tundra biome. Nature 562, 57-62. https://www.nature.com/articles/s41586-018-0563-7
  • Bjorkman A. D., Myers-Smith I. H., Elmendorf S. C., Normand S., Thomas H. J. D., Alatalo J. M., Alexander H., Anadon Rosell A., Angers-Blondin S., Bai Y., Baruah G., te Beest M., Berner L., Björk R. G., Blok D., Bruelheide H., Buchwał A., Buras A., Carbognani M., Christie K., Collier L. S., Cooper E. J., Cornelissen J. H. C., Dickinson K. J. M., Dullinger S., Elberling B., Eskelinen A., Forbes B. C., Frei E. R., Iturrate-Garcia M., Good M. K., Grau O., Green P., Greve M., Grogan P., Haider S., Hajek T., Hallinger M., Happonen K., Harper K. A., Heijmans M. M. P. D., Henry G. H. R., Hermanutz L., Hollister R. D., Hudson J., Hülber K., Iversen C. M., Jaroszynska F., Jiménez‐Alfaro B., Johnstone J., Jorgensen R. H., Kaarlejarvi E., Klady R., Klimesova J., Korsten A., Kuleza S., Kulonen A., Lamarque L. J., Lantz T., Lavallee A., Lembrechts J. J., Levesque E., Little C. J., Luoto M., Macek P., Mack M. C., Mathakutha R., Michelsen A., Milbau A., Molau U., Morgan J. W., Mörsdorf M. A., Nabe-Nielsen J., Nielsen S. S., Ninot J. M., Oberbauer S., Olofsson J., Onipchenko V. G., Petraglia A., Pickering C., Prevey J. S., Rixen C., Rumpf S. B., Schaepman-Strub G., Semenchuk P., Shetti R., Soudzilovskaia N. A., Spasojevic M. J., Speed J. D. M., Street L., Suding K., Tape K. D., Tomaselli M., Trant A., Treier U. A., Tremblay J. P., Tremblay M., Venn S., Virkkala A. M., Vowles T., Weijers S., Wilmking M., Wipf S., Zamin T., 2018: Tundra Trait Team: A database of plant traits spanning the tundra biome. Global Ecology and Biogeography 27, 12,1402-1411. https://onlinelibrary.wiley.com/doi/full/10.1111/geb.12821
  • Buchwał A., Weijers S., Blok D., Elberling B., 2018: Temperature sensitivity of willow dwarf shrub growth from two distinct High Arctic sites. International Journal of Biometeorology. https://link.springer.com/article/10.1007/s00484-018-1648-6
  • Ewertowski M., Evans D. J. A., Roberts D. H., Tomczyk A. M., Ewertowski W., Pleksot K., 2019: Quantification of historical landscape change on the foreland of a receding polythermal glacier, Hørbyebreen, Svalbard. Geomorphology 325, 40–54.
  • Kendzierski S., 2017: Porównanie przebiegu temperatury powietrza i wilgotności względnej w Petuniabukta i Svalbard-Lufthavn (Spitsbergen) w sezonie letnim 2016. Badania Fizjograficzne 68, 19-31.
  • Kendzierski S., Kolendowicz L., Półrolniczak M., 2018. The influence of synoptic condition patterns on air temperature and humidity in Petuniabukta (Svalbard) in summer 2018. Polish Polar Research 39, 3, 371–392.
  • Strzelecki M. Cz., Long A. J., Lloyd J. M., Małecki J., Zagórski P., Pawłowski Ł, Jaskólski M. W., 2018: The role of rapid glacier retreat and landscape transformation in controlling the post-Little Ice Age evolution of paraglacial coasts in central Spitsbergen (Billefjorden, Svalbard). Land Degradation and Development, 29, 6, 1962-1978.
  • Thomas H. J. D., Myers-Smith I. H., Bjorkman A. D., Elmendorf S. C., Blok D., Cornelissen J. H. C., Forbes B. C., Hollister R., Normand S., Prevey J. S., Rixen C., Schaepman-Strub G., Wilmking M., Wipf S., Cornwell W., Kattge J., Goetz S., Guay K., Alatalo J., Anadon Rosell A., Angers-Blondin S., Berner L. T., Björk R. G., Buchwał A., Buras A., Carbognani M., Christie K., Collier L. S., Cooper E. J., Eskelinen A., Frei E. R., Grau O., Grogan P., Hallinger M., Heijman M. M. P. D., Hermanutz L., Hudson J. M. G., Hülber K., Iturrate-Garcia M., Iversen C. M., Jaroszynska F., Johnstone J., Kaarlejarvi E., Kulonen A., Lamarque L., Levesque E., Little C. J., Michelsen A., Milbau A., Nabe-Nielsen J., Nielsen S. S., Ninot J. M., Oberbauer S., Olofsson J., Onipchenko V., Petraglia A., Rumpf S. B., Semenchuk P. R., Soudzilovskaia N., Spasojevic M., Speed J. D. M., Tape K., Te Beest M., Tomaselli M., Trant A., Treier U., Venn S., Vowles T., Weijers S., Zamin T., Atkin O., Bahn M., Blonder B., Campetella G., Cerabolini B. E. L., Chapin F. S., Dainese M., De Vries F. T., Diaz S., Green W., Jackson R., Manning P., Niinemets Ü., Ozinga W. A., Penuelas J., Reich P., Schamp B., Sheremetev S., van Bodegom P. M., 2018: Traditional plant functional groups explain variation in economic but not size-related traits across the tundra biome. Global Ecology and Biogeography. https://onlinelibrary.wiley.com/doi/epdf/10.1111/geb.12783
  • Rachlewicz G. (red.), 2017: Cryosphere reactions against the background of environmental changes in contrasting high-Arctic conditions in Svalbard. Institute of Geoecology and Geoinformation, A. Mickiewicz University in Poznań Polar Reports, vol. 2, Bogucki Wydawnictwo Naukowe.

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