Soil Characteristics of Embryozems under Cover of Pine Plantations on Technogenic Residual Rocks of Kuzbass

Authors

DOI:

https://doi.org/10.37482/0536-1036-2022-2-118-131

Keywords:

embryozems, soil fractional composition, soil agrochemical characteristics, phosphatase, protease, Scots pine, phytogenic field

Abstract

The article studies the edificatory role of pine growing on the technogenic landscapes of the Kuznetsk coal basin and considers the influence of plantations of Scots pine (Pinus sylvestris L.) with different crown density on the main characteristics of embryozems on the overburden dumps of the coal mining industry. The object of the study was soil samples collected in various zones of the phytogenic fields of pine growing on the transport-free dump of the Kedrovsky coal mine. When choosing test plots, the plantations were ranked according to crown density into unclosed (crown density about 30 %), medium-closed (about 60 %) and closed (about 90 %). In each gradation of closeness, the following zones of influence (phytogenic fields) of trees were identified: undercrown, near-crown (intermediate). The selection of sampling points was carried out taking into account the presence of the identification signs: solid pine litter (undercrown zone), developed moss cover (near-crown zone) and developed meadow vegetation (outer zone). External zones are not found in unclosed and medium-closed plantations. In total, according to the degree of crown density and zoning of phytogenic fields, 7 plantation sites of Pinus sylvestris were identified. Soil samples were taken at each of them from a depth of 0–20 cm in the 3rd decade of September. The enzyme activity was studied in recently collected soil in in 3-fold replications. The fractional composition of soils and their agrochemical properties were determined in dried soil on the basis of the Center for Agrochemical Service “Kemerovo”. The analysis of the results showed that pine stands contribute to accelerated disintegration of technogenic residual rocks with the formation of fine-grained fractions, which are of great soil and environmental importance. Litter combined with grassy vegetation in open pine stands favors the accumulation of total nitrogen in embryozems. It was revealed that the content of readily available forms of phosphorus and potassium depends on lithogenic rather than phytocenotic factors. The study of the enzymatic activity of soils showed that the phosphatase activity decreases with an increase in the phosphorus content, and the protease activity increases with an increase in the nitrogen content. Agrochemical indicators of embryozems are favorable for the growth of herbaceous plants due to horizontal differentiation of space under the influence of stands of Scots pine.
For citation: Kolmogorova E.Yu., Ufimtsev V.I. Soil Characteristics of Embryozems under Cover of Pine Plantations on Technogenic Residual Rocks of Kuzbass. Lesnoy Zhurnal [Russian Forestry Journal], 2022, no. 2, pp. 118–131. DOI: 10.37482/0536-1036-2022-2-118-131

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Author Biographies

Elena Yu. Kolmogorova, The Federal Research Center of Coal and Coal-Chemistry of Siberian Branch of the Russian Academy of Sciences

Candidate of Biology; ResearcherID: J-4549-2018

Vladimir I. Ufimtsev, The Federal Research Center of Coal and Coal-Chemistry of Siberian Branch of the Russian Academy of Sciences

Candidate of Biology; ResearcherID:J-9268-2018

References

Акулов П.Г., Афанасьев Р.А., Гамзиков Г.П., Гетманский В.З., Гюрова Э.С., Иванова Т.И., Коробской Н.Ф., Костина Л.П., Никитин В.В., Новоселов С.И., Окорков В.В., Потатурина Н.В., Доманов Н.М., Цыгуткин А.С., Чичкин А.П., Чуб М.П., Шафран С.А., Ширинян М.Х. Научные основы и рекомендации по диагностике и оптимизации минерального питания зерновых и других культур. М.: Агроконсалт, 2000. 100 с. Akulov P.G., Afanas’yev R.A., Gamzikov G.P., Getmanskiy V.Z., Gyurova E.S., Ivanova T.I., Korobskoy N.F., Kostina L.P., Nikitin V.V., Novoselov S.I., Okorkov V.V., Potaturina N.V., Domanov N.M., Tsygutkin A.S., Chichkin A.P., Chub M.P., Shafran S.A., Shirinyan M.Kh. Scientific Basis and Recommendations for Diagnosis and Optimization of Mineral Nutrition of Cereals and Other Crops. Moscow, Agrokonsalt Publ., 2000. 100 p.

Андроханов В.А., Берлякова О.Г. Состояние лесных культур и почвенного покрова на рекультивированном отвале угольного разреза // Сиб. лесн. журн. 2016. № 2. С. 22–31. Androkhanov V.A., Berlyakova O.G. Condition of Forest Crops and Soil Cover at Reclaimed Dump of Coal Mine. Sibirskij Lesnoj Zurnal [Siberian Journal of Forest Science], 2016, no. 2, pp. 22–31. DOI: https://doi.org/10.15372/SJFS20160202

Андроханов В.А., Куляпина Е.Д., Курачев В.М. Почвы техногенных ландшафтов: генезис и эволюция. Новосибирск: СО РАН , 2004. 151 с. Androkhanov V.A., Kulyapina E.D., Kurachev V.M. Soils of Technogenic Landscapes: Genesis and Evolution. Novosibirsk, SB RAS Publ., 2004. 151 p.

Артемкина Н.А., Лукина Н.В., Орлова М.А. Пространственное варьирование содержания вторичных метаболитов, углерода и азота в подстилках северотаежных ельников // Лесоведение. 2018. № 1. С. 37–47. Artemkina N.A., Lukina N.V., Orlova M.A. Spatial Variability of Secondary Metabolites, Carbon and Nitrogen in Litters of Spruce Forests in Northern Taiga. Lesovedenie [Russian Journal of Forest Science], 2018, no. 1, pp. 37–47. DOI: https://doi.org/10.7868/S0024114818010035

ГОС Т Р 54650–2011. Почвы. Определение подвижных соединений фосфора и калия по методу Кирсанова в модификации ЦИНАО . Технические требования: дата введения 2013-01-01. М.: Стандартинформ, 2019. 8 с. State Standard. GOST R 54650–2011. Soils. Determination of Mobile Phosphorus and Potassium Compounds by Kirsanov Method Modified by ClNAO. Moscow, Standartinform

Publ., 2019. 8 p.

Доклад о состоянии и охране окружающей среды Кемеровской области в 2014 году. Кемерово, 2015. 459 с. Report on the State and Protection of the Environment of the Kemerovo Region in 2014. Kemerovo, 2015. 459 p.

Журавлева Е.Н., Ипатов В.С., Лебедева В.Х., Тиходеева М.Ю. Изменение растительности на лугах под влиянием сосны обыкновенной (Pinus sylvestris L.) // Вестн. СПбГУ. Сер. 3.: Биология. 2012. Вып. 2. С. 3–12. Zhuravleva E., Ipatov V., Lebedeva V., Tikhodeeva M. Vegetation Changes in Meadows under the Influence of Scotts Pine (Pinus sylvestris L.). Vestnik SPbGU. Seriya 3: Biologiya [Biological Communications], 2012, iss. 2, pp. 3–12.

Крышень А.М., Хокканен Т. Фитогенное поле сосны // Тез. докл. Междунар. конф. «Экология таежных лесов». Сыктывкар, 1998. С. 87–88. Kryshen’ A.M., Hokkanen T. Phytogenic Field of Pine. Proceedings of the International Conference “Ecology of Taiga Forests”. Syktyvkar, 1998, pp. 87–88.

Муртазина С.Г. Динамика азота и ферментативной активности под влиянием эрозии в почвах Республики Татарстан // Агрохим. вестн. 2006. № 6. С. 6–7. Murtazina S.G. Dynamics of Nitrogen and Enzymatic Activity under the Influence of Erosion in Soils of the Republic of Tatarstan. Agrokhimicheskiy vestnik [Agrochemical Herald], 2006, no. 6, pp. 6–7.

Практикум по агрохимии / под ред. В.Г. Минеева. М.: МГУ, 2001. 689 с. Workshop on Agrochemistry. Ed. by V.G. Mineyev. Moscow, MSU Publ., 2001. 689 p.

Решетникова Т.В., Зырянова А.А., Ведрова Э.Ф. Трансформация органического вещества лесной подстилки (экспериментальное исследование) // Вестн. КрасГАУ. 2014. № 6. С. 80–93. Reshetnikova T.V., Zyryanova A.A., Vedrova E.F. The Organic Substance Transformation of the Forest Ground Litter (Experimental Research). Vestnik KrasGAU [The Bulletin of KrasGAU], 2014, no. 6, pp. 80–93.

Сорокин Н.Д., Сорокина О.А. Изменение биологического состояния старопахотных почв под влиянием сосняков разного возраста (среднее Приангарье) // Успехи современной биологии. 2008. Т. 128, № 2. С. 171–179. Sorokin N.D., Sorokina O.A. Changes in the Biological State of Old Plow Soils under the Influence of Pine Forests of Different Age (the Middle Angara River Basin). Uspekhi sovremennoi biologii [Biology Bulletin Reviews], 2008, vol. 128, no. 2, pp. 171–179.

Степанова О.И., Просянников В.И., Клевлина Т.П. Справочник агрохимика Кемеровской области. Кемерово: Практика, 2018. 228 с. Stepanova O.I., Prosyannikov V.I., Klevlina T.P. Handbook of Agricultural Chemist of the Kemerovo Region. Kemerovo, Praktika Publ., 2018. 228 p.

Титова В.И., Козлов А.В. Методы оценки функционирования микробиоценоза почвы, участвующего в трансформации органического вещества: науч.-метод. пособие. Н. Новгород: НГСХА , 2012. 64 с. Titova V.I., Kozlov A.V. Methods for Assessing the Functioning of Soil Microbiocenosis Involved in the Transformation of Organic Matter. Nizhny Novgorod, NNAA Publ., 2012. 64 p.

Турусов В.И., Гармашов В.М., Дьячкова Т.И. Ферментативная активность чернозема обыкновенного в различных севооборотах при разных способах обработки почвы // Агрохимия. 2012. № 9. С. 21–25. Turusov V.I., Garmachov V.M., Diachkova T.I. Enzymatic Activity of Ordinary Chernozem under Different Crop Rotations and Different Tillage Practices. Agrohimia [Eurasian Soil Science], 2012, no. 9, pp. 21–25.

Уфимцев В.И. Естественное возобновление и семеношение сосновых насаждений на отвалах Кузбасса // Сиб. лесн. журн. 2016. № 6. С. 84–93. Ufimtsev V.I. Natural Regeneration and Seed Production of Pine Stands on the Dumps of Coal Mining Industry in Kuzbass. Sibirskij Lesnoj Zurnal [Siberian Journal of Forest Science], 2016, no. 6, pp. 84–93. DOI: https://doi.org/10.15372/SJFS20160608

Уфимцев В.И., Беланов И.П., Бочаров Д.А. Зонирование фитогенных полей деревьев сосны обыкновенной (Pinus sylvestris L.), произрастающих на участках лесной рекультивации Кедровского угольного разреза // Вестн. КемГУ. 2015. № 1-2(61). С. 44–48. Ufimtsev V.I., Belanov I.P., Bocharov D.A. Zoning of Phytogeneous Fields of the Common Pine (Pinus sylvestris L.) Trees Growing on Reforestation Sites of Kedrovsky Coal Mine. Vestnik Kemerovskogo gosudarstvennogo universiteta [Bulletin of Kemerovo State University], 2015, no. 1-2(61), pp. 44–48.

Уфимцев В.И., Стрельникова Т.О., Куприянов О.А. Структура живого напочвенного покрова в сосняках на участках рекультивации Кузбасса // Вестн. ТГУ. Биология. 2018. № 44. С. 36–58. Ufimtsev V.I., Strelnikova T.O., Kupriyanov O.A. Structure of the Living Ground Cover in Pine Forests on Dumps of Kuzbass. Vestnik Tomskogo Gosudarstvennogo Universiteta. Biologiya [Tomsk State University Journal of Biology], 2018, no. 44, pp. 36–58. DOI: https://doi.org/10.17223/19988591/44/3

Хазиев Ф.Х. Методы почвенной энзимологии. М.: Наука, 2005. 192 с. Khaziyev F.Kh. Methods of Soil Enzymology. Moscow, Nauka Publ., 2005. 192 p.

Цандекова О.Л., Уфимцев В.И. Формирование подстилки пойменных лесных биогеоценозов с участием Acer negundo L. // Изв. вузов. Лесн. журн. 2019. № 3. С. 73–81. Tsandekova O.L., Ufimtsev V.I. Formation of Floodplain Forest Biogeocenosis Litter with the Participation of Acer negundo L. Lesnoy Zhurnal [Russian Forest Journal], 2019, no. 3, pp. 73–81. DOI: https://doi.org/10.17238/issn0536-

2019.3.73

Cotrufo F.M., Soong J.L., Horton A.J., Campbell E.E., Haddix M.L., Wall D.H., Parton W.J. Formation of Soil Organic Matter via Biochemical and Physical Pathways of Litter Mass Loss. Nature Geoscience, 2015, vol. 8, iss. 10, pp. 776–779. DOI: https://doi.org/10.1038/ngeo2520

Grabherr G. Biodiversity in Mountain Forests. Forest in Sustainable Mountain Development. New York, CABI, 2000, pp. 28–38. DOI: https://doi.org/10.1079/9780851994468.0028

Kaar E. Coniferous Trees on Exhausted Oil-Shale Opencast Mines. Forestry Studies, 2002, vol. 36, pp. 120–125.

Kiikkilӓ V., Kitunen V., Spetz P., Smolander A. Characterization of Dissolved Organic Matter in Decomposing Norway Spruce and Silver Birch Litter. European Journal of Soil Science, 2012, vol. 63, iss. 4, pp. 476–486. DOI: https://doi.org/10.1111/j.1365-2389.2012.01457.x

Lyons A. Pines Do not Damage Soils. Private Forests Tasmania. 2001, pp. 1–4.

Rhoades C.C. Single-Tree Influences on Soil Properties in Agroforestry: Lessons from Natural Forest and Savanna Ecosystems. Agroforestry Systems, 1997, vol. 35, iss. 1, pp. 71–94. DOI: https://doi.org/10.1007/BF02345330

Ufimtsev V.I., Belanov I.P., Kupriyanov O.A. Ecological-Cenotic Role of Phytogenous Fields of Scots Pine on Coal Dumps. Contemporary Problems of Ecology, 2016, vol. 9, iss. 1, pp. 140–149. DOI: https://doi.org/10.1134/S1995425516010169

Yashin I.M., Vasenev I.I., Valentini R., Petukhova A.A., Kogut L.P. Studies of the Influence of Soil Biogenic Acidity on Podzol Formation. Izvestiya TSKhA [Izvestiya of Timiryazev Agricultural Academy], 2013, iss. S, pp. 180–196.

Published

2022-04-07

How to Cite

Kolmogorova Е., and Ufimtsev В. “Soil Characteristics of Embryozems under Cover of Pine Plantations on Technogenic Residual Rocks of Kuzbass”. Lesnoy Zhurnal (Forestry Journal), no. 2, Apr. 2022, pp. 118-31, doi:10.37482/0536-1036-2022-2-118-131.