Abstract
A comparative study of mountain-meadow and mountain-forest soils was performed within the entire Dolgorukovskaya Yayla—a plateau on the northern macroslope of the Main Ridge of the Crimean Mountains—in the altitudinal range from 560 to 975 m a.s.l. Soil morphology, texture, acidity, exchangeable cations, nonsilicate iron content, parameters of the humus status, and optical characteristics of soils were studied. Forest soils on the entire slope are assigned to acid and dark burozems (Cambisols, Luvisols); they are characterized by similar morphological properties and profile patterns of clay, humus, and nonsilicate iron. Mountain-meadow, mountain-meadow chernozem-like, and residual-carbonate soils (Phaeozems) are formed under meadow vegetation in the upper part of the plateau, and soils transitional to piedmont chernozems (Chernozems) are located in its lower part. Humus reserves in the 0- to 50-cm-thick soil layer varied from 16.6 to 42.2 kg/m2 under meadows and from 10.7 to 18.8 kg/m2 under forests. Soils under forest and meadow vegetation were characterized by an increase in acidity and a decrease in base saturation with the increase in the altitude. Acidity was generally higher in forest soils, while the difference in this parameter between forest and meadow soils in the upper part of the plateau was minimal. In soils under meadows, the content of oxalate-extractable iron also increased with the altitude, and its mean content in the A horizon (226 ± 67 mg/100) was higher than that in forest soils (183 ± 41 mg/100 g). More intense color of soils under grass vegetation as compared to soils under forests is mainly explained by the differences in the rate of organic matter humification and optical density of humic acids, the total humus content being similar in both groups of soils.
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REFERENCES
A. F. Vadyunina and Z. A. Korchagina, Methods of the Study of Soil Physical Properties (Agropromizdat, Moscow, 1986) [in Russian].
V. I. Vazhov, “Agroclimatic zonation of Crimea,” Sb. Nauchn. Tr. Gos. Nikitskogo Bot. Sada 71, 92–120 (1977).
V. N. Golubev, “Ecological-biological features of the plants and plant communities of Crimean yaila,” Sb. Nauchn. Tr. Gos. Nikitskogo Bot. Sada 74, 5–70 (1978).
G. E. Grishankov, Candidate’s Dissertation in Geography (Voronezh, 1956).
N. A. Dragan, Soil Resources of Crimea (Dolya, Simferopol, 2004) [in Russian].
V. G. Ena, Mountains and Plains of Crimea (Tavriya, Simferopol, 1973) [in Russian].
V. G. Ena, Al. V. Ena, and An. V. Ena, Discovery of Crimean Land (Biznes-Inform, Simferopol, 2007) [in Russian].
S. V. Zonn, Iron in Soils: Genetic and Geographical Aspects (Nauka, Moscow, 1982) [in Russian].
V. I. Kanivets, “Brown soil formation in forest soils in Ukrainian Carpathians,” Pochvovedenie, No. 4, 19–28 (1991).
Classification and Diagnostics of Soils of the Soviet Union (Kolos, Moscow, 1977) [in Russian].
N. O. Kovaleva and T. I. Evdokimova, “Organic matter of mountainous soils on the northern slope of Kyrgyz Ridge, Tien-Shan,” Pochvovedenie, No. 10, 1239–1247 (1995).
M. M. Kononova and N. P. Bel’chikova, “Rapid analysis of the composition of humus in mineral soils,” Pochvovedenie, No. 10, 75–87 (1961).
I. V. Kostenko, Soil Atlas of Mountainous Crimea (Agrarna Nauka, Kiev, 2014) [in Russian].
I. V. Kostenko, “Scanning study of the optical parameters of sandy soddy-steppe soil samples from the southern Ukraine,” Eurasian Soil Sci. 42, 1012–1020 (2009).
I. V. Kostenko, “Relationships between parameters of the humus status of forest and meadow soils and their altitudinal position on the main Crimean range,” Eurasian Soil Sci. 50, 515–525 (2017). https://doi.org/10.1134/S1064229317050088
D. S. Orlov, O. N. Biryukova, and N. I. Sukhanova, Organic Matter of Soils of the Russian Federation (Nauka, Moscow, 1996) [in Russian].
D. S. Orlov, L. K. Sadovnikova, and N. I. Sukhanova, Soil Chemistry (Vysshaya Shkola, Moscow, 2005) [in Russian].
T. A. Plotnikova and V. V. Ponomareva, “A simplified determination of the optical density of humic substances with a single light filter,” Pochvovedenie, No. 7, 73–85 (1967).
P. D. Podgorodetskii, Crimea: Nature. A Handbook (Tavriya, Simferopol, 1988) [in Russian].
I. Ya. Polovitskii and P. G. Gusev, Soils of Crimea and Improvement of Their Fertility (Tavriya, Simferopol, 1987) [in Russian].
L. G. Bogatyrev, V. D. Vasil’evskaya, A. S. Vladychevskaya, et al., Soil Science: Manual for Universities, Part 2: Types of Soil: Geography and Use, Ed. by V. A. Kovda and B. G. Rozanov (Vysshaya Shkola, Moscow, 1988) [in Russian].
Ya. S. Revina, E. I. Ergina, and I. V. Kostenko, “Characteristics of mountain-meadow chernozem-like yaila soils of Crimea,” Uch. Zap. Krymsk. Fed. Univ. im. V.I. Vernadskogo, Ser. Geogr., Geol. 67 (2), 67–70 (2015).
G. T. Selyaninov, “Agricultural climatology,” Tr. S-kh. Meteorol., No. 2, 45–89 (1930).
Handbook on Climate of the USSR, No. 10: Ukrainian SSR, Part 4: Air Moisture, Atmospheric Precipitation, and Snow Cover (Gidrometeoizdat, Leningrad, 1969) [in Russian].
A. A. Shchepinskii, Red Caves: Dolgorukovskaya Yaila (Tavriya, Simferopol, 1987) [in Russian].
D. Badía, A. Ruiz, A. Girona, C. Martí, J. Casanova, P. Ibarra, and R. Zufiaurre, “The influence of elevation on soil properties and forest litter in the Siliceous Moncayo Massif, SW Europe,” J. Mt. Sci. 13 (12), 2155–2169 (2016). https://doi.org/10.1007/s11629-015-3773-6
R. P. Griffiths, M. D. Madritch, and A. K. Swanson, “The effects of topography on forest soil characteristics in the Oregon Cascade Mountains (USA): Implications for the effects of climate change on soil properties,” For. Ecol. Manage. 257, 1–7 (2009). https://doi.org/10.1016/j.foreco.2008.08.010
IUSS Working Group WRB, World Reference Base for Soil Resources 2014, Update 2015, International Soil Classification System for Naming Soils and Creating Legends for Soil Maps, World Soil Resources Reports No. 106 (Food and Agriculture Organization of the United Nations, Rome, 2015).
T. Shishkov and N. Kolev, The Soils of Bulgaria (Springer-Verlag, Dordrecht, 2014).
R. A. Viscarra Rossel, B. Minasny, P. Roudier, and A. B. McBrantney, “Color space models for soil science,” Geoderma 133, 320–337 (2006). https://doi.org/10.1016/j.geoderma.2005.07.017
ACKNOWLEDGMENTS
We are grateful to the employees of the Yalta Hydrogeological and Engineering-Geological Party for data on precipitation in Mountain Crimea.
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Translated by I. Bel’chenko
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Kostenko, I.V., Opanasenko, N.E. Comparative Characteristics of Mountain-Forest and Mountain-Meadow Soils of Dolgorukovskaya Yayla (the Crimean Mountains). Eurasian Soil Sc. 53, 859–869 (2020). https://doi.org/10.1134/S1064229320070078
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DOI: https://doi.org/10.1134/S1064229320070078