Forest Sustainability of Ecotopes of the Volga-Akhtuba Floodplain when Cultivating Pine Plantations
DOI:
https://doi.org/10.37482/0536-1036-2022-4-127-145Keywords:
damming, steppification of ecotopes, environmental factors, pine stand, growth parameters, forest site conditions, homogeneous ecotope groups, afforestation, Scots pine, Crimean pine, Volga-Akhtuba floodplainAbstract
In the south of European Russia, the largest sand massifs are found in the zone of dry steppes and semi-deserts. Effective utilization of such lands requires creation of protective forest planting of drought-resistant coniferous species like Scots pine and Crimean pine. The productivity and longevity of such stands vary widely over the territory and depends on the presence of additional to atmospheric precipitation water supply and the root layer mineral supply. In this regard, sand massifs of steppificated river valleys composed of multiphase or single-phase polymineral rocks are of particular interest for afforestation. One of the most important objects of afforestation is the Northern (within the Volgograd region) highest and most drained part of the Volga-Akhtuba floodplain. Volga River damming by the Volga Hydroelectric Station (Volga GES) led to a restructuring of surface and ground water regimes, formation of new conditions of water and mineral nutrition and changes in other important factors of forest ecosystems in the area. The research aims at developing a classification of the Volga-Akhtuba floodplain ecotopes by water-mineral nutrition conditions, cultivation, expected productivity and longevity of pine plantings. We studied relationships of growth parameters of Pinus silvestris L. stands with soil-ground and hydrological conditions in different ecotopes of the large hilly and transitional floodplains after the Volga River damming by the Volga GES. Dynamics patterns of this relationship were revealed. It was found that in the northern part of the Volga-Akhtuba valley (approximately up to the Kapustin Yar – Kamenny Yar line) with increasing stratification, heavier granulometric composition of the root layer to sandy loam layer, lowering the surface level at a small distance from the drainage channel moisture supply and growth of Scots pine plantations improve, forest suitability of ecotopes increases. There is a risk of early decay and death of high-density pine forests in periods of low water and dry years on soils underlain by thick loams. Three groups of ecotope forest suitability were identified according to these indicators, as well as the conditions for the creation of forest plantations, productivity and longevity of plantings. The least favorable ecotopes are in the highlands of the hilly and transitional floodplains with minor soils of different composition on single-phase open-textured sands with deep (more than 4–5 m) groundwater table during low-water season. The most favorable are welldrained areas of the transitional floodplain with light soils on thick stratified predominantly sandy loam sediments, as well as on sands with close to the surface groundwater occurrence. Average ecotopes in terms of conditions are poorly drained areas of the transitional floodplain with minor sandy loam and loamy soils on deep loams.
For citation: Manaenkov A.S., Ponomarev A.S. Forest Sustainability of Ecotopes of the Volga-Akhtuba Floodplain when Cultivating Pine Plantations. Lesnoy Zhurnal = Russian Forestry Journal, 2022, no. 4, pp. 127–145. (In Russ.). https://doi.org/10.37482/0536-1036-2022-4-127-145
Downloads
References
Битвинскас Т.Т. Дендроклиматические исследования. Л.: Гидрометеоиздат, 1974. 172 с. Bitvinskas T.T. Dendroclimatic Studies. Leningrad, Gidrometeoizdat Publ., 1974. 172 p. (In Russ.).
Брылев В.А., Овчарова А.Ю. Эколого-экономическая оптимизация обводнения Волго-Ахтубинской поймы // Изв. вузов. Северо-Кавказский регион. Сер.: Естеств. науки. 2013. № 5(177). С. 67–70. Brylev V.A., Ovcharova A.Yu. Ecological and Economic Optimization of Irrigation of the Volga-Akhtuba Floodplain. Bulletin of Higher Educational Institutions. North Caucasus Region. Natural Sciences, 2013, no. 5(177), pp. 67–70. (In Russ.).
Гаель А.Г., Зюзь Н.С. Строение культур сосны на песчаных почвах степного Дона // Биол. науки. 1985. № 7. С. 85–92. Gayel’ A.G., Zyuz’ N.S. Structure of Pine Plantations on Sandy Soils of the Steppe Don. Biologicheskiye nauki, 1985, no. 7, pp. 85–92. (In Russ.).
Глобальный климат и почвенный покров России: оценка рисков и эколого-экономических последствий деградации земель. Адаптивные системы и технологии рационального природопользования (сельское и лесное хозяйство): нац. докл. / под ред. А.И. Бедрицкого. М.: ГЕОС, 2018. 357 с. Global Climate and Soil Cover of Russia: Assessment of Risks and Eco-Economic Consequences of Land Degradation. Adaptive Systems and Technologies of Rational Nature Management (Agriculture and Forestry): National Report. Ed. by A.I. Bedritskiy. Moscow, GEOS Publ., 2018. 357 p. (In Russ.).
Голуб В.Б., Чувашов А.В., Бондарева В.В., Герасимова К.А., Николайчук Л.Ф. Изменения состава флоры Волго-Ахтубинской поймы после зарегулирования водного стока р. Волги // Аридные экосистемы. 2020. Т. 26, № 1(82). С. 54–61. Golub V.B., Chuvashov A.V., Bondareva V.V., Gerasimova K.A., Nikolaichuk L.F. Changes in the Flora Composition of the Volga–Akhtuba Floodplain after Regulation of the Flow of Volga River. Arid Ecosystems, 2020, vol. 26, no. 1(82), pp. 54–61. (In Russ.). https://doi.org/10.24411/1993-3916-2020-10083
Горелиц О.В., Землянов И.В. Современный механизм заливания территории Волго-Ахтубинской поймы в период половодий (в пределах Волгоградской области) // Научный потенциал регионов на службу модернизации. 2013. № 2(5). С. 9–18. Gorelits O.V., Zemlyanov I.V. Modern Mechanism of Flooding the Volga-Akhtuba Floodplain during Seasonal Floods (Within the Volgograd Region). Nauchnyy potentsial regionov na sluzhbu modernizatsii, 2013, no. 2(5), pp. 9–18. (In Russ.).
Кузьмина Ж.В., Трешкин С.Е. Климатические изменения в бассейне Нижней Волги и их влияние на состояние экосистем // Аридные экосистемы. 2014. № 3(60). С. 14–32. Kuz’mina Zh.V., Treshkin S.Ye. Climate Change in the Lower Volga Basin and Its Influence on the Ecosystems. Arid Ecosystems, 2014, no. 3(60), pp. 14–32 (In Russ.).
Лобойко В.Ф., Овчарова А.Ю., Никитина Н.С. Особенности водного режима Нижней Волги и его влияние на состояние северо-западной части Волго-Ахтубинской поймы // Изв. Нижневолж. агроунив. комплекса. 2018. № 4(52). С. 159–173. Loboyko V.F., Ovcharova A.Yu., Nikitina N.S. Features of the Water Regime of the Lower Volga and Its Impact on the Condition of the North-Western Part of the Volga-Akhtuba Floodplain. Proceedings of Nizhnevolzskiy Agrouniversity Complex, 2018, no. 4(52), pp. 159–173. (In Russ.). https://doi.org/10.32786/2071-9485-2018-04-12
Манаенков А.С. Особенности водного режима корнеобитаемого слоя и засухоустойчивость культур сосны // Лесоведение. 2009. № 2. С. 52–61. Manaenkov A.S. Specific Features of the Water Regime in Root-Dwelling Layer and Drought-Resistance of Pine Plantations. Lesovedenie = Russian Journal of Forest Science, 2009, no. 2, pp. 52–61. (In Russ.).
Манаенков А.С. Лесомелиорация арен засушливой зоны. 2-е изд., перераб. и доп. Волгоград: ФНЦ агроэкологии РАН, 2018. 428 с. Manaenkov A.S. Forest Reclamation of Arid Zone Arenas. Volgograd, Federal Scientific Center of Agroecology RAS Publ., 2018. 428 p. (In Russ.).
Манаенков А.С., Сурхаев Г.А., Сурхаев И.Г. Особенности облесения песчаных земель Терско-Кумского междуречья культурами сосны // Лесн. хоз-во. 2010. № 5. С. 36–38. Manaenkov A.S., Stepanova Z.A., Surkhayev I.G. Features of Afforestation of Sandy Lands of the Terek-Kum Interfluve with Pine Plantations. Lesnoye khozyastvo, 2010, no. 5, pp. 36–38. (In Russ.).
Методические рекомендации по проектированию рубок ухода в искусственных молодняках сосны степной зоны ЕТР / разраб. и подгот. А.С. Манаенков. М.: Россельхозакадемия, 2004. 34 с. Manaenkov A.S. Methodology Recommendations for the Thinning Design in Artificial Young Pine Stands of the Steppe Zone of the European Part of Russia. Moscow, Rossel’khozakademiya Publ., 2004. 34 p. (In Russ.).
Миронов В.В. Экология хвойных пород при искусственном лесоразведении. М.: Лесн. пром-сть, 1977. 232 с. Mironov V.V. Conifers Ecology in Artificial Afforestation. Moscow, Lesnaya promyshlennost’ Publ., 1977. 232 p. (In Russ.).
Орлов А.Я., Кошельков С.П. Почвенная экология сосны. М.: Наука, 1971. 323 с. Orlov A.Ya., Koshel’kov S.P. Soil Ecology of Pine. Moscow, Nauka Publ., 1971. 323 p. (In Russ.).
Прозоров Н.А. Влияние климатических факторов на радиальный прирост сосны обыкновенной как один из показателей изменчивости экологических условий ее произрастания на песках степной зоны // Лесомелиорация и ландшафт: сб. науч. тр. Волгоград: ВНИАЛМИ, 1993. Вып. 1(105). С. 145–157. Prozorov N.A. Influence of Climatic Factors on the Scots Pine Radial Growth as an Indicator of Environmental Conditions Variability of Pine Growth on the Steppe Zone Sands. Forest Reclamation and Landscape: Collection of Academic Papers. Volgograd, VNIALMI Publ., 1993, iss. 1(105), pp. 145–157. (In Russ.).
Шеппель П.А. Паводок и пойма. Волгоград: Ниж.-Волж. кн. изд-во, 1986. 241 с. Sheppel’ P.A. River Flood and Floodplain. Volgograd, Nizhne-Volzhskoye knizhnoye izdatel’stvo, 1986. 241 p. (In Russ.).
De Resende A.F., Schöngart J., Streher A.S., Ferreira-Ferreira J., Fernandez Piedade M.T., Freire Silva T.S. Massive Tree Mortality from Flood Pulse Disturbances in Amazonian Floodplain Forests: The Collateral Effects of Hydropower Production. Science of The Total Environment, 2019, vol. 659, pp. 587–598. https://doi.org/10.1016/j.scitotenv.2018.12.208
Fan H., He D., Wang H. Environmental Consequences of Damming the Mainstream Lancang-Mekong River: A Review. Earth-Science Reviews, 2015, vol. 146, pp. 77–91. https://doi.org/10.1016/j.earscirev.2015.03.007
Kuzmina Zh.V., Treshkin S.E., Karimova T.Yu. Effects of River Flow Regulation and Climate Fluctuations on Dynamic Changes in the Terrestrial Ecosystems of the Lower Volga Delta and Floodplain. Arid Ecosystems, 2015, vol. 5, pp. 230–242. https://doi.org/10.1134/S2079096115040071
Zhao P., Cornelis W., Tang X., Zhao P., Tang J. Does Damming Streams Alter the Water Use Strategies of Riparian Trees? A Case Study in a Subtropic Climate. Land Degradation & Development, 2020, vol. 31, iss. 8, pp. 927–938. https://doi.org/10.1002/ldr.3500
