Geological Station in Storkowo, Adam Mickiewicz University in Poznan, Poznan, Poland
Bibliografia
Anisimov O.A., Nelson F.E., 1996. Permafrost distribution in the northern hemisphere under scenarios of climatic change. Global and Planetary Change 14: 59-72.
Bartoszewski S., Michalczyk Z., Magierski J., 1991. The hy-drochemical characteristics of the north part of Wedel Jarlsberg Land. Wyprawy Geograficzne na Spitsbergen, UMCS, Lublin: 123-133.
Beylich A.A., 2007. Quantitative studies on sediment fluxes and sediment budgets in changing cold environments - potential and expected benefit of coordinated data exchange and the unification of methods. Landform Analysis 5: 9-10.
Beylich A.A., Lamoureux S.F., Decaulne A., 2007. Coordinated quantitative studies on sediment fluxes and sediment budgets in changing cold environments - examples from three SEDIBUD key test areas in Canada, Iceland and Norway. Landform Analysis 5: 11-12.
Beylich A.A., Lamoureux S.F., Decaulne A., 2011. Developing frameworks for studies on sedimentary fluxes and budgets in changing cold environments. Quaestiones Geographicae 30: 5-18.
Beylich, A.A., Lamoureux S.F., Decaulne A., Dixon J.C., Or-win J.F., Otto J.C., Overeem I., Saemundsson P., Warburton J., Zwoliński, Z., 2010. Sedimentary fluxes and budgets in changing cold environments: the global IAG/ AIG sediment budgets in cold environments (SEDIBUD) programme. Geografiska Annaler, Series A, Physical Geography 92A(2): 151-153.
Bring A., Destouni G., 2009. Hydrological and hydro-chemical observation status in the pan-Arctic drainage basin. Polar Research 28: 327-338.
Brykała D., Araźny A., 2002. Wpływ warunków meteorologicznych na kształtowanie się odpływu powierzchniowego na lodowcu Waldemara (NW Spitsbergen) latem 1997 roku (The impact of meteorological conditions on runoff from the surface of the Waldemarbreen in summer 1997). Problemy Klimatologii Polarnej 10: 139-158.
Chmiel S., Bartoszewski S., Gluza A., Siwek K., Zagórski P., 2007. Physicochemical characteristics of land waters in the Bellsund region (Spitsbergen). Landform Analysis 5: 13-15.
Chmiel S., Bartoszewski S., Siwek K., 2011. Chemical denudation rates in the Wydrzyca catchment (Bellsund, Spitsbergen). Annales Universitate Mariae Curie-Skłodowska 66: 115-128.
Chmiel S., Bartoszewski S., Siwek K., Sposób J., 2012. Chemical and mechanical denudation rates in the Scott River catchment (Svalbard) during the summer season 2005. Permafrost and Periglacial Processes 18: 337-350.
Christensen T., 1991. Arctic and sub-Arctic soil emissions: possible implications for global climate change. Polar Record 27: 205-210.
Christensen T.R., Michelsen A., Jonasson S., Schmidt I.K., 1997. Carbon dioxide and methane exchange of a subarctic heath in response to climate change related environmental manipulations. Oikos 79: 34-44.
Cooper R.J., Wadham J.L., Tranter M., Hodgkins R., Peters N.E., 2002. Groundwater chemistry in the active layer of the proglacial zone, Finsterwalderbreen, Svalbard. Journal of Hydrology 269: 208-223.
Dolnicki P., Grabiec M., Puczko D., Gawor Ł., Budzik T., Klementowski J. 2013. Variability of temperature and thickness of permafrost active layer at coastal sites of Svalbard. Polish Polar Research 34(4): 353-374.
Dragon K., Marciniak M., 2010. Chemical composition of groundwater and surface water in the Arctic environment (Petuniabukta region, central Spitsbergen). Journal of Hydrology 386: 160-172.
Dziadowiec H., Gonet S., Plichta W., 1994. Properties of hu-mic acids of Arctic tundra soils in Spitsbergen. Polish Polar Research 15: 71-81.
Elvebakk A., Prestrud P. (eds), 1996. A catalogue of Svalbard plants, fungi, algae and cyanobacteria. Norsk Polarinsti-tutt, Skrifter 198.
Elvebakk A., Elven R., Razzhivin V.Y., 1999. Delimitation, zonal and sectorial subdivision of the Arctic for the Panarctic Flora Project. In: I. Nordal, V.Y. Razzhivin (eds), The species concept in the High North - A Panarctic Flora Initiative. The Norwegian Academy of Science and Letters, Oslo, NO, 375-386 .
Gerstenhauer A., 1969. Offene Fragen der klimagenetichen Karstgeomorphologie. Der Einfluss der CO2 Konzentration inder Bodenruf auf die Landformung. Studia Geo-grafica 5: 43-51.
Grześ M., Król M., Sobota I., 2009, Submarine evidence of the Aavatsmark and Dahl Glaciers fluctuations in the Kaffioyra region, NW Spitsbergen. Polish Polar Research 30(2): 143-160.
Gugnacka-Fiedor W., Noryśkiewicz B., 1982a. Rośliny naczyniowe Ziemi Oskara II, Spitsbergen północno-zachodni (Vascular plants from Oscar II Land, North-West Spitsbergen). Acta Univ. N. Copernici, Biologia 24(53): 55-64.
Gugnacka-Fiedor W., Noryśkiewicz B., 1982b. The vegetation of Kaffioyra, Oscar II Land, NW Spitsbergen. Acta Univ. N. Copernici, Geografia 16(51): 203-238.
Hadač E., 1989. Notes on plant communities of Spitsbergen. Folia Geobotanica et Phytotaxonomica 24: 131-169.
Hjelle A., Piepjohn K., Saalmann K., Ohta Y., Salvigsen O., Thieding F., Dallmann W.K., 1999. Geological maps of Svalbard 1:100,000, sheet A7G Kongsfjorden. Norwegian Polar Institute, Troms0.
Hodson A., Tranter M., Gurnell A., Clark M., Hagen J.O., 2002. The hydrochemistry of Bayelva, a high Arctic proglacial stream in Svalbard. Journal of Hydrology 257: 91-114.
Hodson A., Tranter M., Vatne G., 2000. Contemporary rates of chemical denudation and atmospheric CO2 sequestration in glacier basins: an Arctic perspective. Earth Surface Processes and Landforms 25: 1447-1471.
Humlum O., Instanes A., Sollid L., 2003. Permafrost in Sval-bard: a review of research history, climatic background and engineering challenges. Polar Research 22: 191-215.
Jakucs L., 1977. Morphogenetics of karst regions: variants of karst eEvolution. Akademiai Kiado, Budapest.
Jaworski T., 2010. Marine terraces in Kaffi0yra and Her-mansen0ya (Oscar II Land, NW Spitsbergen). Landform Analysis 14: 25-33.
Jonasson S., Michelsen A., Schmidt I.K., 1999. Coupling of nutrient cycling and carbon dynamics in the Arctic, integration of soil microbial and plant processes. Applied Soil Ecology 11: 135-146.
Kokelj S.V., Burn C.R., 2003. Ground ice and soluble cations in near-surface permafrost, Inuvik, northwest territoriers, Canada. Permafrost and Periglacial Processes 14: 275-289.
Kostrzewski A., Kaniecki A., Kapuściński J., Klimczak R., Stach A., Zwoliński Z., 1989. The dynamics and rate of denudation of glaciated and non-glaciated catchments, central Spitsbergen. Polish Polar Research 10: 317-367.
Kostrzewski A., Rachlewicz G., Zwoliński Z., 2007. Present-day geomorphological activity in the Arctic. Landform Analysis 5: 41-46.
Krawczyk W.E., Bartoszewski S.A., 2008. Crustal solute fluxes and transient carbon dioxide drawdown in the Scottbreen Basin, Svalbard in 2002. Journal of Hydrology 362: 206-219.
Krawczyk W., Pettersson L.E., 2007. Chemical denudation rates and carbon dioxide drawdown in an ice-free polar karst catchment: Londonelva, Svalbard. Permafrost and Periglacial Processes 18: 337-350.
Kuhry P., Dorrepaal E., Hugelius G., Schuur E.A.G., Tarnocai C., 2010. Short communication potential remobilization of belowground permafrost carbon under future global warming. Permafrost and Periglacial Processes 21: 208-214.
Lankauf K.R., 2002. Recesja lodowców rejonu Kaffi0yry (Ziemia Oskara II-Spitsbergen) w XX wieku (Recession of Kaffi0yra region glaciers (Oscar II Land, Svalbard) in the twentieth century). Prace Geograficzne 183: 1-221.
Macioszczyk A., Dobrzyński D., 2007. Hydrogeochemia strefy aktywnej wymiany wód podziemnych (The hydrogeochem-istry of the zone of active groundwater exchange). Wydawnictwo Naukowe PWN, Warszawa.
Markowicz M., Pulina M., 1979. Ilościowa pół mikroanaliza chemiczna wód w obszarach krasu węglanowego (Quantitative chemical half microanalysis of water in carbonate karst areas). Pr. Nauk. Uniwersytetu Śląskiego 289: 1-67.
Mazurek M., Paluszkiewicz R., Rachlewicz G., Zwoliński Z., 2012. Variability of Water Chemistry in Tundra Lakes, Petuniabukta Coast, Central Spitsbergen, Svalbard. Scientific World Journal 596516. DOI: 10.1100/2012/596516
Nowak A., Hodson A., 2014. On the biogeochemical response of a glacierized High Arctic watershed to climate change: Revealing patterns, processes and heterogeneity among micro-catchments. Hydrological Processes: DOI: 10.1002/hyp.10263
Plichta W., 1993. Gleby Kaffi0yry, Spitsbergen - szkic monograficzny (Soils of Kaffi0yra - monographic sketch). Uniwersytet Mikołaja Kopernika, Toruń.
Przybylak R., Araźny A. 2006. Climatic conditions of the north-western part of Oscar II Land (Spitsbergen) in the period between 1975 and 2000. Polish Polar Research 27(2): 133-152.
Przybylak R., Kejna M., Araźny A. 2011. Air temperature and precipitation changes in the Kaffi0yra region (NW Spitsbergen) from 1975 to 2010. Papers on Global Change, 18: 7-22.
Pulina M., 1984. The effects of cryochemical processes in the glaciers and the permafrost in Spitsbergen. Polish Polar Research 5: 137-163.
Pulina M., 1990. Geomorphological effects of the cryochemical process. Quaestiones Geographicae 13/14: 99-112.
Pulina M., Burzyk J., 2002. Dwutlenek węgla produkowany latem 2001 r. w tundrze zlewni Fugleberget (Hornsund - Spitsbergen) i jego rola w denudacji chemicznej (Carbon dioxide produced in the summer 2001 in the tundra of Fugleberget catchment (Hornsund - Spitsbergen) and its role in chemical denudation). In: A. Kostrzewski, G. Rachlewicz (eds), Polish Polar Studies, Funkcjonowanie i monitoring geoekosystemów obszarów polarnych. Bogucki Wyd. Nauk., Poznań: 239-254.
Pulina M., Burzyk J., Burzyk M., 2003. Carbon dioxide in the tundra soils of SW Spitsbergen and its role in chemical denudation. Polish Polar Research 24: 243-260.
Pulina M., Krawczyk W., Pereyma J., 1984. Water balance and chemical denudation in the unglaciated Fugleberget basin SW Spitsbergen. Polish Polar Research 5: 183-205.
Raich J.W., Schlesinger W.H., 1992. The global carbon dioxyde flux in soil respiration and its relationship to vegetation and climate. Tellus 44B: 81-99.
Rachlewicz G., Burzyk M., Samołyk M., Szczucińska A.M., Szczuciński W., 2007. Particulate and dissolved matter transfer in small High-Arctic non-glaciated basins - Central Spitsbergen. 2nd SEDIBUD Workshop, Abisko-Sweden, Abstract volume: 44.
Sharp M., Tranter M., Brown G., Skidmore M., 1995. Rates of chemical denudation and CO2 drawdown in a glacier-covered alpine catchment. Geology 23: 61-64.
Shaver G.R., Billings W.D., Chapin III F.S., Giblin A.E., Na-delhoffer K.J., Oechel W.C., Rastetter E.B., 1992. Global change and the carbon balance of Arctic ecosystems. BioScience 42: 433-441.
Sobota I., 2013a. Changes in dynamics and runoff from the High Arctic glacial catchment of Waldemar-breen, Svalbard, Geomorphology, doi:10.1016/j.geo-morph.2013.04.001.
Sobota I., 2013b. Współczesne zmiany kriosfery północno-zachodniego Spitsbergenu na przykładzie regionu Kaffi0yry (Contemporary changes in the cryosphere of the north-west-
ern Spitsbergen; Kaffi0yra region case study). Wyd. Nauk. UMK, Toruń.
Sobota I., 2014. Changes in dynamics and runoff from the High Arctic glacial catchment of Waldemarbreen, Sval-bard. Geomorphology 212: 16-27.
Sobota I., Araźny A., Barcikowski A., Birkenmajer K., Grześ M., Gugnacka-Fiedor W., Lankauf K.R., Plichta W., Przybylak R., Zubel P., 2013. Geographical environment in the vicinity of the Nicolaus Copernicus University Polar Station - Kaffi0yra. In: Z. Zwoliński, A. Kostrzewski, M. Pulina (eds), Ancient and modern geoecosystems of Spitsbergen. Bogucki Wyd. Nauk., Poznań: 181-204.
Sobota I., Lankauf K.R., 2010. Recession of Kaffi0yra region glaciers, Oscar II Land, Svalbard. Bulletin of Geography -Physical Geography Series 3: 27-45.
Sobota I., Nowak M., 2012. Dynamika odpływu ze zlodowa-conej zlewni rzeki Waldemara (NW Spitsbergen) w sezonach letnich 2009-2011 (The dynamics of runoff from the Waldemarbreen glacierized river catchment (NW Spitsbergen) in summer seasons 2009-2011). Problemy Klimatologii Polarnej 22: 57-68.
Sobota I., Nowak M., 2014. Changes in the dynamics and thermal regime of the permafrost and active layer of the High Arctic coastal area in North-West Spitsbergen, Svalbard. Geografiska Annaler, Series A, Physical Geography 96 (2): 227-240.
Song L., Fuyuan L., 2001. Distribution of CO2 in soil air affected by vegetation in the Shilin National Park. Acta Ge-ologica Sinica 73: 288-293.
Stumm W., Morgan J., 1996. Aquatic chemistry, third ed. John Wiley & Sons, New York.
Szczepanik W., 1993. Reżim wybranych rzek Kaffi0yry (Ziemia Oskara II, NW Spitsbergen) w okresie lata polarnego. Acta Universitatis Nicolai Copernici, Geografia, 24, 82: 55-146.
Szpikowski J., Szpikowska G., Zwoliński Z., Kostrzewski A., 2014a. Magnitude of fluvial transport and denudation in a non-glacierized catchment in a polar zone, Central Spitsbergen. Geografiska Annaler, Series A, Physical Geography 96 (4): 447-464.
Szpikowski J., Szpikowska G., Zwoliński Z., Rachlewicz G., Kostrzewski A., Marciniak M. Dragon K., 2014b. Character and rate of denudation in a High Arctic glacierized catchment (Ebbaelva, Central Spitsbergen). Geomorphology 218: 52-62.
Turner J., Marshall G.J., 2011. Climate change in the polar regions. Cambridge: Cambridge University Press.
Woo M., Lewkowicz A.G., Rouse W.R., 1992. Response of the Canadian permafrost environment to climatic change. Physical Geography 13: 287-317.
Zwoliński Z., Mazurek M., Paluszkiewicz R., Rachlewicz G., 2008. The matter fluxes in the geoecosystem of small tundra lakes, Petuniabukta coast, Billefjorden, Central Spitsbergen. Zeitschrift Fur Geomorphologie 52(1): 79-101. DOI: 10.1127/0372-8854/2008/0052S1-0079
Zwoliński Z., Szpikowski J., Wiśniewska K., 2012. Provenance of surface waters on the western coast of Admiralty Bay, King George Island, Antarctica. Zeitschrift Fur Geomorphologie 56(1): 123-141. DOI: 10.1127/0372-8854/2012/S-00076