Abstract
Micromorphological features of the fine earth and skeletal fractions of soils of West Antarctica forming under different conditions of pedogenesis have been studied in the areas of Russian Antarctic stations. The processes of mineral weathering and alteration of rock fragments are more pronounced in the Subantarctic soils with better developed humification and immobilization of iron compounds under conditions of surface overmoistening. The biogenic accumulative processes in the soils of King George Island result in the appearance of initial forms of humic plasma that have not been detected in the Antarctic soils in the areas of the Russkaya and Leningradskaya stations. Humus films on mineral grains are present in the soils of King George Island, and organic plasmic material is present in the ornithogenic soils under penguin guano on Lindsey Island. High-latitude Antarctic soils may contain surface concentrations of organic matter; rock fragments are covered by iron oxides and soluble salts. The formation of amorphous organic plasma takes place in the ornithogenic soils of Lindsey Island. The microprobe analysis indicates the presence of local concentrations of organic matter and pedogenic compounds not only on the surface of rock fragments but also in the fissures inside them. This analysis has also proved the translocation of guano-derived organic substances inside rock fragments through a system of fissures in the soils of Lindsey Island and the development of a network of pores inside rock fragments in the soils of King George Island.
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References
E. V. Abakumov, “Particle-size distribution in soils of West Antarctica,” Eur. Soil Sci. 43(3), 297–304 (2010).
E. V. Abakumov and V. F. Sapega, “Mineralogical composition of clay fractions from some Antarctic soils,” Vestn. St. Peterb. Univ., Ser. 3, No. 3, 99–109 (2010).
E. V. Abakumov, V. N. Pomelov, D. Yu. Vlasov, and V. A. Krylenkov, “Morphological organization of soils in West Antarctica,” Vestn. St. Peterb. Univ., Ser. 3, No. 3, 102–115 (2008).
D. Yu. Vlasov, Extended Abstract of Doctoral Dissertation in Biology (St. Petersburg, 2008).
D. Yu. Vlasov, E. V. Abakumov, M. A. Nadporozhskaya, N. V. Kovsh, V. A. Krylenkov, V. V. Lukin, and E. V. Safronova, “Lithosols of King George Island, Western Antarctica,” Eur. Soil Sci. 38(7), 681–687 (2005).
E. I. Gagarina, Micromorphological Method of Soil Studies (Izd. SPbGU, St. Petersburg, 2004) [in Russian].
M. A. Glazovskaya, “Biogeochemical weathering of andesitic volcanic rocks in Subantarctic periglacial conditions,” Izvest. Ross. Akad. Nauk, Ser. Geogr. No. 3, 39–48 (2002).
M. A. Glazovskaya, “Weathering and initial pedogenesis in Antarctica,” Nauchn. Dokl. Vyssh. Shkoly. Geol. Geogr. Nauki, No. 1, 63–76 (1958).
S. V. Goryachkin, H.-P. Blyume, L. I. Beier, et al., “Soil zonality in the Arctic and Antarctic: similarities and differences,” Earth Cryosphere as the Life-Support System (Mater. Int. Workshop) (Pushchino, 2003), pp. 26–27 [in Russian].
S. V. Goryachkin, D. A. Gilichinskii, E. V. Abakumov, E. P. Zazovskaya, N. S. Mergelov, D. G. Fedorov-Davydov, “Soils of Antarctica: diversity, geography, and genesis (according to studies in the areas of Russian Antarctic stations),” in Diversity of Permafrost-Affected and Seasonally Freezing Soils and Their Role in Ecosystems Materials V Int. Conf. Cryopedology (Moscow-Ulan-Ude, 2009), p. 32.
A. G. Zavarzina, “Lichens as early humificators,” in Problems of the Biosphere Evolution. Geobiological Systems in the Past (PIN RAN, Moscow, 2013), pp. 143–152 [in Russian].
V. N. Konishchev and V. V. Rogov, “The Impact of Cryogenesis on Clay Minerals,” Kriosfera Zemli, No. 1, 51–58 (2008).
N. S. Mergelov and S. V. Goryachkin, “Soils and soil-like bodies of Antarctica (the Larsemann Hills oasis),” in Genesis, Geography, Classification, and Assessment of Soils Resources VIII Sibirtsev’s Readings (Arkhangel’sk, 2010), pp. 38–42 [in Russian].
N. S. Mergelov, S. V. Goryachkin, I. G. Shorkunov, E. P. Zazovskaya, A. E. Cherkinskii, “Endolithic pedogenesis and rock varnish on massive crystalline rocks in East Antarctica,” Eur. Soil Sci. 45(10), (2012).
E. I. Parfenova and E. A. Yarilova, Manual on Soil Micromorphology (Nauka, Moscow, 1977) [in Russian].
L. M. Savatyugin, M. A. Preobrazhenskaya, and V. N. Pomelov, Scientific Description of the Environmental Conditions and Technical Base of Russian Antarctic Stations with the Environmental Impact Assessment. Vol. 7. Russkaya Station (St. Petersburg, 1995) [in Russian].
V. S. Soina, A. G. Gazimulina, N. S. Mergelov, L. V. Lysak, E. V. Lapygina, “Bacterial complexes in wet valley soils of the Larsemann Hills oasis, East Antarctica,” Al’manakh Sovrem. Nauki Obrazovan., No. 9 (64), 195–200 (2012).
J. G. Bockheim and M. McLeod, “Soil formation in Wright Valley, Antarctica since the Late Neogene,” Geoderma 137, 109–116 (2006).
I. B. Campbell and G. G. C. Claridge, Antarctica: Soils, Weathering Processes and Environment (Elsevier, 1987).
E. I. Friedmann, “Endolithic microorganisms in the Antarctic cold desert,” Science 215, 1045–1053 (1982).
G. M. Gaad, “Geomycology: biogeochemical transformations of rocks, minerals, metals and radionuclides by fungi, bioweathering and bioremediation,” Mycol. Res. 111, 3–49 (2007).
D. Gilichinsky, E. Abakumov, A. Abramov, D. Fyodorov-Davydov, S. Goryachkin, A. Lupachev, N. Mergelov, E. Zazovskaya, “Soils of Mid- and Low Antarctic: diversity, geography, temperature regime,” Proc. 19th World Congress of Soil Science, Symp. WG. 1.4. Cold Soils in a Changing World (Brisbane, Australia, 2010), p. 32–35.
R. Ilieva, Z. Vergilov, and M. Groseve, “Micromorphology of Organic Matter in the Antarctic Soils,” Bulgar. J. Ecol. Sci. 2(304), 52–54 (2003).
D. W. Hopkins, A. D. Sparrow, P. M. Novis, E. G. Gregorich, B. Elberling, L. G. Greenfield, “Controls on the distribution of productivity and organic resources in Antarctic dry valley soils,” Proc. Royal Soc., Biol. Sci. 273, 2687–2695 (2006).
W. L. Kubiena, Micromorphological Features of Soil Geography (Rutgers Univ. Press, New Jersey, 1970).
W. L. Kubiena, “Micromorphologic Investigations of Antarctic Soils,” Antarctic J. 5(4), 105–106 (1970).
F. N. B. Simas, C. R. Schaefer, V. F. Melo, M. R. Albuquerqu-Filho, R. F. M. Muchel, V. V. Pereria, M. R. M. Gomes, L. M. da Costa, “Ornithogenic Cryosols from maritime Antarctica: phosphatization as a soil forming process,” Geoderma 138, 191–203 (2007).
C. E. G. R. Shaefer, F. N. B. Simas, R. J. Gilkes, C. Mathison, L. M. da Costa, A. Albuquerque, “Micromorphology and microchemistry of selected Cryosols from maritime Antarctica,” Geoderma 144, 104–115 (2008).
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Original Russian Text © E.V. Abakumov, E.I. Gagarina, V.F. Sapega, D.Yu. Vlasov, 2013, published in Pochvovedenie, 2013, No. 12, pp. 1464–1474.
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Abakumov, E.V., Gagarina, E.I., Sapega, V.F. et al. Micromorphological features of the fine earth and skeletal fractions of soils of West Antarctica in the areas of Russian Antarctic stations. Eurasian Soil Sc. 46, 1219–1229 (2013). https://doi.org/10.1134/S1064229313120028
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DOI: https://doi.org/10.1134/S1064229313120028