Инд. авторы: Boyarskikh I.G., Klyuchevskaya A.I., Syso A.I., Agatova A.R.
Заглавие: Plant morphofunctional response to environmental changes in active fault zones of the kurai ridge (gorny altai)
Библ. ссылка: Boyarskikh I.G., Klyuchevskaya A.I., Syso A.I., Agatova A.R. Plant morphofunctional response to environmental changes in active fault zones of the kurai ridge (gorny altai) // Izvestiya. Atmospheric and Oceanic Physics. - 2020. - Vol.56. - Iss. 8. - P.773-798. - ISSN 0001-4338. - EISSN 1555-628X.
Идентиф-ры: DOI: 10.1134/S0001433820080022; РИНЦ: 45004991; WoS: 000608062300002;
Реферат: eng: Integrated geological, geophysical, geochemical, and botanical studies in the Kuraika River Valley (Kurai Ridge, Gorny Altai) have revealed sharp changes in the growth environment of blue honeysuckle (Lonicera caerulea) at the conjunction zone of the regional Kubadra and local active faults. A high-gradient magnetic field is accompanied by the increased variability of the concentrations of radionuclides and macro- and micro-elements in soil, an increased mercury content in soil and surface air, and an increased γ-radiation exposure rate. Depending on combinations of geoenvironmental factors, the micropopulations of blue honeysuckle have produced increased or decreased fruit size and seed productivity. The observed tripling of accumulated biologically active phenol compounds in fruits, the simultaneous decrease in their concentration in leaves, and the reduction in the ratio between the content of some polyphenol classes in leaves and fruits are considered a response to the stressing impact of environmental factors associated with active tectonic processes in this area of Altai.
Ключевые слова: radon; radionuclide; polyphenols; mercury; Lonicera caerulea; geomagnetic anomaly; biological effects; altai; active fault zone;
Издано: 2020
Физ. хар-ка: с.773-798
Цитирование: 1. Agadzhanyan, N.A., Grachev, V.A., Zhalkovskii, E.V., Rastorguev, V.N., Sidorov, P.I., Chereshnev, V.A., Yudakhin, F.N., et al., Ekologiya cheloveka v izmenyayushchemsya mire (Human Ecology in a Changing World), Ekaterinburg: Ural. Otd. Ros. Akad. Nauk, 2008.
2. Agati, G., Azzarello, E., Pollastri, S., and Tattini, M., “Flavonoids as antioxidants in plants: location and functional significance,” Plant Sci., 2012, vol. 196, pp. 67–76. DOI: 10.1016/j.plantsci.2012.07.014
3. Agatova, A.R., Nepop, R.K., Barinov, V.V., Nazarov, A.N., and Myglan, V.S., "The first dating of strong Holocene earthquakes in Gornyi Altai using long-term tree-ring chronologies", Russ. Geol. Geophys., 2014, no. 9, pp. 1059-1067.
4. Agatova, A. R., Nepop, R.K., Khazin, L.B., Zhdanova, A.N., Uspenskaya, O.N., Ovchinnikov, I.Yu., and Moska, P., “New chronological, paleontological, and geochemical data on the formation of glacier-dammed lakes in the Kurai Depression (Southeastern Russian Altai) at the end of the Late Pleistocene,” Dokl. Earth Sci., 2019, vol. 488, pp. 1134–1136. DOI: 10.1134/S1028334X19090228
5. Agatova, A. R., Nepop, R.K., and Vysotsky, E.M., “Seismogravitational paleodislocations in the Chagan River valley (SE Altai),” Geomorfologiya, 2006, no. 4, pp. 53–62.
6. Biologicheskii kontrol' okruzhayushchei sredy: geneticheskii monitoring (Biologic Control of the Environment: Genetic Monitoring), Geras'kin, S.A. and Sarapul'tseva, E.S., Eds., Moscow: Akademiya, 2010.
7. Biologicheskii monitoring prirodno-tekhnogennykh sistem (Biological Monitoring of Natural and Technical Systems), Ashikhmina, T.Ya. and Alalykina, N.M., Eds., Syktyvkar: Komi Nauch. Tsentr Ros. Akad. Nauk, 2011.
8. Bondarenko, P.M., Modelirovanie nadvigovykh dislokatsii v skladchatykh oblastyakh (na primere Aktashskikh struktur Gornogo Altaya) (Modeling of Thrust Dislocations in Folded Areas (on the Example of the Aktash Structures of the Altai Mountains)), Novosibirsk: Nauka, 1976.
9. Bondarenko, P.M., Devyatkin, E.V., and Liskun, I.G., Materials on the contemporary tectonics and stratigraphy of Cenozoic deposits of the Aktash region, Kurai neotectonic zone of Altai Mountains, in Problemy geomorfologii i neotektoniki orogennykh oblastei Sibiri i Dal'nego Vostoka (Problems in Geomorphology and Neotectonics of Orogenic Regions of Siberia and Far East), Novosibirsk: Nauka, 1968, vol. 2, pp. 65-73.
10. Boyarskikh, I.G., Khudyaev, S.A., Platonova, S.G., Kolotukhin, S.P., Shitov, A.V., Kukushkina, T.A., and Chankina, O.V., “Change in biochemical and morphological characteristics of Lonicera caerulea in tectonically active zone of the Dzhazator River Valley (Altai Mountains),” Izv., Atmos. Ocean. Phys., 2012а, vol. 48, no. 7, pp. 747–760. DOI: 10.1134/S000143381207002X
11. Boyarskikh, I.G., Syso, A.I., Khudyaev, S.A., Bakiyanov, A.I., Kolotukhin, S.P., Vasil’ev, V.G., and Chankina, O.V., “Specific features of elemental and biochemical composition of Lonicera caerulea L. in the local geological active zone of the Katun Range (Gornyi Altai),” Geofiz. Protsessy Biosfera, 2012b, vol. 11, no. 3, pp. 70–84.
12. Boyarskikh, I.G., Agatova, A.R., Kulikova, A.I., Bakiyanov, A.I., Skaptsov, M.V., and Mazeika, J., “Comprehensive geological-geophysical and botanic study of the tectonic junction zone between the Katun Ridge and Uimon Depression (Altai Mountains),” Geofiz. Protsessy Biosfera, 2018, vol. 17, no. 1, pp. 45–76. 10.21455/GPB2018.1-3 DOI: 10.21455/GPB2018.1-3
13. Boyarskikh, I.G. and Shitov, A.V., Intraspecific variability of plants: The impact of active local faults, in Man and the Geosphere, Florinsky, I.V., Ed., New York: Nova Sci., 2010, pp. 145–167.
14. Boyarskikh, I.G. and Shitov, A.V., “Association of the distinctive features of intrapopulation variability of Lonicera caerulea L. fruit to the active geological processes in the Altai Mountains,” Vestn. Tomsk. Gos. Univ., 2011, no. 348, pp. 143–147.
15. Boyarskikh, I.G., Syso, A.I., Luchsheva, L.N., Agatova, A.R., Khudyaev, S.A., and Bakiyanov, A.I., Distribution of elements in soils and plant metabolism in seismoactive fault zones (the Kurai Range, Gornyi Altai), in Sistema “Planeta Zemlya” (The “Planet Earth” System), Moscow: LENAND, 2012a, pp. 330–339.
16. Boyarskikh, I.G., Vasil’ev, V.G., and Kukushkina, T.A., Changes in Lonicera caerulea L. metabolism in the tectonic active zone of Altai Mountains (Northern Chuya Ridge), Rast. Mir Aziat. Rossii, 2011a, no. 2, pp. 114–119.
17. Boyarskikh, I.G., Vasil'ev, V.G., and Kukushkina, T.A., "Content of flavonoids and hydroxycinnamic acids in Lonicera caerulea (Caprifoliaceae) in populations of Gornyi Altai", Rastit. Resur., 2014, no. 1, pp. 105-121.
18. Boyarskikh, I.G., Agatova, A.R., Kulikova, A.I., Bakiyanov, A.I., Skaptsov, M.V., and Mazeika, J., “Comprehensive geological-geophysical and botanic study of the tectonic junction zone between the Katun Ridge and Uimon Depression (Altai Mountains),” Izv., Atmos. Ocean. Phys., 2018, vol. 54, no. 8, pp. 805–825. DOI: 10.1134/S0001433818080030
19. Boyarskikh, I.G., Agatova, A.R., Syso, A.I., and Klyuchevskaya, A.I., “Plant morphofunctional response to environmental changes within active fault zones of the Kurai Ridge (Gorny Altai),” Geofiz. Protsessy Biosfera, 2020, vol. 19, no. 2, pp. 19–44.
20. Chupakhina, G.N., Maslennikov, P.V., Skrypnik, L.N., and Besserezhnova, M.I., “The reaction of pigment and antioxidant systems of plants to environment pollution by automobile exhaust fumes in Kaliningrad,” Vestn. Tomsk. Gos. Univ., Biol., 2012, no. 2 (18), pp. 171–185.
21. Davydov, M.G., Buraeva, E.A., Zorina, L.V., Malyshevskii, V.S., and Stasov, V.V., Radioekologiya: ucheb. dlya vuzov (Radioecology: A Textbook for Universities), Rostov na Donu: Feniks, 2013.
22. Deev, E.V., “Localization zones of ancient and historical earthquakes in Gorny Altai,” Izv., Phys. Solid Earth, 2019, vol. 55, pp. 451–470. DOI: 10.1134/S1069351319030030
23. Deev, E.V., Zolnikov, I.D., Goltsova, S.V., Rusanov, G.G., and Emanov, A.A., “Traces of paleoearthquakes in the Quaternary deposits of intermontane basins in central Gorny Altai,” Russ. Geol. Geophys., 2013, vol. 54, no. 3, pp. 312–323. 10.1016/j.rgg.2013.02.006 DOI: 10.1016/j.rgg.2013.02.006
24. Dobrovol'skii, V.V., Biogeokhimiya mirovoi sushi. Izbrannye trudy (Biogeochemistry of World's Terra. Selected Works), Moscow: Nauchnyi Mir, 2009, vol. 3.
25. Emanov, A.F., Emanov, A.A., Filina, A.G., and Leskova, E.V., “Spatiotemporal features of seismicity of the Altai-Sayan folded zone,” Fiz. Mezomekh., 2005, vol. 8, no. 1, pp. 49–64.
26. Fedak, S.I., Turkin, Yu.A., Gusev, A.I., Shokal'skii, S.P., Rusanov, G.G., Borisov, B.A., Belyaev G.M., and Leont'eva, E.M., Gosudarstvennaya geologicheskaya karta Rossiiskoi Federatsii. Masshtab 1: 1 000 000 (tret'e pokolenie). Seriya Altae-Sayanskaya. L. M-45 (Gorno-Altaisk) Ob"yasnitel'naya zapiska (The 1: 1 000 000 State Geological Map of the Russian Federation, 3rd ed., Ser. Altai-Sayany, Sheet M-45 (Gorno-Altaisk). Explanatory Note), St. Petersburg: Kart. Fabr. Vseross. Nauchno-Issled. Geol. Inst., 2011.
27. Glantz, S.A., Primer of Biostatistics, New York: McGraw-Hill, 2012.
28. Gol’din, S.V., Seleznev, V.S., Emanov, A.F., Filina, A.G., Emanov, A.A., Novikov, I.S., Vysotskii, E.M., Fateev, A.V., Kolesnikov, Yu.I., Podkorytova, V.G., Leskova, E.V., and Yarygina, M.A., “The Chuya earthquake and its aftershocks,” Dokl. Earth Sci., 2004, vol. 395, no. 3, pp. 394–396.
29. Gorbushina, L.V., Zimin, D.F., and Serdyukova, A.S., Radiometricheskie i yadernogeofizicheskie metody poiskov i razvedki mestorozhdenii poleznykh iskopaemykh: Ucheb. pos. (The Radiometric and Nuclear-Geophysical Methods for Mineral Exploration: A Textbook), Moscow: Atomizdat, 1970.
30. Gosudarstvennaya geologicheskaya karta Rossiiskoi Federatsii. Masshtab 1: 1 000 000 (tret'e pokolenie). Seriya Altae-Sayanskaya. L. M-45 (Gorno-Altaisk) (The 1: 1 000 000 State Geological Map of the Russian Federation, 3rd ed., Ser. Altai-Sayany, Sheet M-45 (Gorno-Altaisk)), Shokal'skii, S.P., Ed., St. Petersburg: Kart. Fabr. Vseross. Nauchno-Issled. Geol. Inst., 2011.
31. Handy, M.R., Hirth, G., and Hovius, N., Tectonic Faults: Agents of Change on a Dynamic Earth, Cambridge: MIT Press, 2007. DOI: 10.7551/mitpress/6703.001.0001
32. Harborne, J.B. and Williams, C.A., “Advances in flavonoid research since 1992,” Phytochemistry, 2000, vol. 55, pp. 481–504. DOI: 10.1016/S0031-9422(00)00235-1
33. Karak, P., “Biological activities of flavonoids: an overview,” Int. J. Pharm. Sci. Res., 2019, vol. 10, no. 4, pp. 1567–1574.
34. Khramova, E.P. and Vysochina, G.I., “Flavonoid composition and content in Potentilla fruticosa (Rosaceae) in a situation of technogenic pollution in Novosibirsk,” Rastit. Resur., 2010, no. 2, pp. 74–86.
35. Konoplev, A.V., Studies of air pollution by stable chemicals in the Russian Arctic, in Abstracts Int. Conf. on the Results of IPY (Sochi, September 28–October 1, 2009), Sochi, 2009, p. 72.
36. Korolyuk, A.Yu., "Ecological optima of southern Siberian plants", Bot. Issled. Sib. Kazakhstana, 2006, no. 12, pp. 3-38.
37. Kulikova, A.I. and Boyarskikh, I.G., Reproductive ability of Lonicera caerulea (Caprifoliaceae) in the local area of geological and geophysical heterogeneity in the Altai Mountains, Sib. Ekol. Zh., 2015, no. 4, pp. 608–616.
38. Kulikova, A.I. and Boyarskikh, I.G., Reproductive ability of Lonicera caerulea (Caprifoliaceae) in the local area of geological and geophysical heterogeneity in the Altai Mountains, Contemp. Probl. Ecol., 2015, vol. 8, no. 4, pp. 484–492. DOI: 10.1134/S1995425515040101
39. Kutinov, Yu.G., Chistova, Z.B., Belyaev, V.V., and Burlakov, P.S., Impact of tectonic breaks (degassing, induced currents, geomagnetic field variations) in the northern Russian plate on the environment (on the example of the Arkhangel’sk region), Vestn. Kamchatskoi Reg. Assots. Uchebno-Nauchnyi Tsentr, Nauki Zemle, 2009, vol. 2, no. 14, pp. 77–89.
40. Lovkova, M.Ya., Buzuk, G.N., and Sokolova, S.M., “Genetic aspects of the interrelation between alkaloids and chemical elements in Atropa belladonna L. and Glaucium flavum Crantz. plants,” Appl. Biochem. Microbiol., 2008, vol. 44, pp. 416–419. DOI: 10.1134/S0003683808040145
41. Magnitorazvedka: Spravochnik geofizika (Magnetic Prospecting: A Handbook for Geophysicists), Nikitskii, V.E. and Glebovskii, Yu.S., Eds., Moscow: Nauka, 1980.
42. Mamaev, S.A., Formy vnutrividovoi izmenchivosti drevesnykh rastenii (Intraspecific Variability Forms Among Trees), Moscow: Nauka, 1973.
43. Metodicheskie ukazaniya po semenovedeniyu introdutsentov (Methodical Instructions on Seed Studies of Introduced Plants), Moscow: Nauka, 1980.
44. Michalak, A., Phenolic compounds and their antioxidant activity in plants growing under heavy metal stress: review, Pol. J. Environ. Stud., 2006, vol. 15, pp. 523–530.
45. Molnar, P. and Tapponnier, P., Cenozoic tectonics of Asia: effects of a continental collision, Science, 1975, vol. 189, no. 4201, pp. 419–426. DOI: 10.1126/science.189.4201.419
46. Mukhin, A.S., “Kurai mercury deposit at the Southeast Altai,” Vestn. Zapadno-Sib. Geol. Tresta, 1937, no. 1, pp. 43–51.
47. Naveed, M., Hejazi, V., Abbas, M., Kamboh, A.A., Khan, G.J., Shumzaid, M., Ahmad, F., Babazadeh, D., Fang, F.X., Modarresi-Ghazani, F., Wen, H.L., and Xiao, H.Z., “Chlorogenic acid (cga): a pharmacological review and call for further research,” Biomed. Pharmacother., 2018, vol. 97, pp. 67–74. DOI: 10.1016/j.biopha.2017.10.064
48. Nepop, R.K. and Agatova, A.R., Recurrence interval of strong earthquakes in the SE Altai, Russia revealed by tree-ring analysis and radiocarbon dating, Geochronometria, 2018, vol. 45, no. 1, pp. 20–33. DOI: 10.1515/geochr-2015-0083
49. Novikov, I.S., Morfotektonika Altaya (Morphotectonics of the Altai), Devyatkin, E.V. and Ufimtsev, G.F., Eds., Novosibirsk: Sib. Otd. Ross. Akad. Nauk, 2004.
50. Novikov, I.S., Agatova, A.R., and Del’vo, D., “Contemporary tectonics of the Kurai Ridge (Altai Mountains),” Geol. Geofiz., 1998, vol. 39, no. 7, pp. 965–972.
51. Novikov, I.S. and Pospeeva, E.V., “Neotectonics of the eastern part of Mountain Altai according to magnetotelluric sounding,” Geol. Geofiz., 2017, vol. 58, no. 7, pp. 959–971.
52. Ozerova, N.A., Rtut’ i endogennoe rudoobrazovanie (Mercury and Endogenic Ore Formation), Moscow: Nauka, 1986.
53. Perelman, A.I. and Kasimov, N.S., Geokhimiya landshafta (Landscape Geochemistry), Moscow: Mos. Gos. Univ., 1999.
54. Plekhanova, M.N., Klassifikator roda Lonicera L. podsektsii Caeruleae Rehd. (zhimolost’) (Classifier of the genus Lonicera L., subsection Caeruleae Rehd. (honeysuckle).), Lenongrad: Vsesoyuz. Inst. Rastenievod., 1988.
55. Pobachenko, S.V., Shitov, A.V., Grigorjev, P.E., Sokolov, M.V., Zubrilkin, A.I., Vypirailo, D.N., and Solov’ev, A.V., “EEG reactions of the human brain in the gradient magnetic field zone of the active geological fault (pilot study),” Izv. Atmos. Ocean. Phys., 2016, vol. 52, pp. 745–752. DOI: 10.1134/S0001433816070057
56. Pozolotina, V.N., Otdalennye posledstviya deistviya radiatsii na rasteniya (Long-Term Effects of Radiation Exposure in Plants), Ekaterinburg: Akademkniga, 2003.
57. Ramenskii, L.G., Tsatsenkin, I.A., Chizhikov, O.N., and Antipin, N.A., Ekologicheskaya otsenka kormovykh ugodii po rastitel’nomu pokrovu (Ecological Assessment of Forage Lands by Plant Cover), Moscow: Sel’khozgiz, 1956.
58. Rogozhin, E.A., Bogachkin, B.M., Nechaev, Yu.V., Platonova, S.G., Chichagova, O.A., and Chichagov, V.P., “New data on the ancient strong earthquakes of Mountain Altai,” Fiz. Zemli, 1998, no. 3, pp. 1–7.
59. Rogozhin, E.A., Ovsyuchenko, A.N., and Marakhanov, A.V., “Major earthquakes of the southern Gornyi Altai in the Holocene,” Izv., Phys. Solid Earth, 2008, vol. 44, no. 6, pp. 469–486. DOI: 10.1134/S1069351308060037
60. Rogozhin, E.A., Ovsyuchenko, A.N., Marakhanov, A.V., and Ushanova E.A., “Tectonic setting and geological manifestations of the Altai Earthquake,” Geotektonika, 2007, no. 2, pp. 3–22.
61. Rogozhin, E.A. and Platonova, S.G., Ochagovye zony sil’nykh zemletryasenii Gornogo Altaya v golotsene (The Focal Zones of Major Earthquakes of Gornyi Altai in the Holocene), Moscow: OIFZ RAN, 2002.
62. Rusanov, G.G., Deev, E.V., Ryapolova, Yu.M., and Zol’nikov, I.D., “Paleohydrotermal activity of Altai Mountain folds according to the results of travertine dating,” Geol. Miner. Resur. Sib., 2013, no. 4, pp. 53–64.
63. Skugoreva, S.G. and Golovko, T.K., “The effect of mercury nitrate on salad and radish growth and metabolism,” Agrokhimiya, 2007, no. 2, pp. 66–71.
64. Skvortsov, A.K. and Kuklina, A.G., Golubye zhimolosti: Botanicheskoe izuchenie i perspektivy kul’tury v srednei polose Rossii (Lady’s Mantle: Botanical Studies and Prospects of Cultivation in the Moderate Zone of Russia), Moscow: Nauka, 2002.
65. Spivak, A.A., “Manifestation of fault zones in geophysical fields,” Geodyn. Tectonophys., 2014, vol. 5, no. 2, pp. 507–525. DOI: 10.5800/GT-2014-5-2-0138
66. Sudachkova, N.E., Shein, I.V., Romanova, L.I., Milyutina, I.L., Kudasheva, F.N., Varaksina, T.N., and Stepen’, R.A., Biokhimicheskie indikatory stressovogo sostoyaniya drevesnykh rastenii (Biochemical Indicators of Stress in Wood Plants), Novosibirsk: Nauka, 1997.
67. Tauson, V.L., Geletii, V.F., and Men’shikov, V.I., “Content levels, distribution patterns, and occurrence forms of Hg as indicator of the source of mercury contamination of the environment,” Khim. Inter. Ustoich. Razvit., 1995, no. 3, pp. 151–159.
68. Tauson, V.L., Men'shikov, V.I., and Zubkov, V.S., "The use of thermal atomic absorption analysis of synthetic kristals to identify the forms of mercury in minerals", Geokhimiya, 1992, no. 8, pp. 1203-1208.
69. Titov, A.F., Talanova, V.V., and Kaznina, N.M., Fiziologicheskie osnovy ustoichivosti rastenii k tyazhelym metallam (Physiological Foundations of Plant Resistance to Heavy Metals), Petrozavodsk: Karel. nauch. tsentr RAN, 2011.
70. Trifonov, V.G. and Karakhanian, A.S., Active faulting and human environment, Tectonophysics, 2004, vol. 380, nos. 3–4, pp. 287–294. DOI: 10.1016/j.tecto.2003.09.025
71. Tsyganov, D.N., Fitoindikatsiya ekologicheskikh rezhimov v podzone khvoino-shirokolistvennykh lesov (Phytoindication of Ecological Regimes in the Conifer–Broadleaf Forest Subzone), Moscow: Nauka, 1983.
72. Ulomov, V.I., Bogdanov, M.I., Trifonov, V.G., Gusev, A.A., Gusev, G.S., Akatova, K.N., Aptikaev, F.F., Danilova, T.I., Kozhurin, A.I., Medvedeva, N.S., Nikonov, A.A., Peretokin, S.A., Pustovitenko, B.G., and Strom, A.L., “General seismic zoning of the territory of the Russian Federation: Explanatory note to the GSZ-2016 map set and a list of settlements located in seismically active areas,” Inzh. Izyskaniya Stroit., 2016, no. 7, pp. 49–121.
73. V'yukhina, A.A., Omel'chenko, E.I., Shimanskaya, E.I., Chokheli, V.A., and Varduni, T.V., "Biotesting methods for the indication of regularities in the variation of phenotypic and cytogenetic changes in plants-indicators depending on the extent of tectonic fracturing of the growth zone", Izv. Vyssh. Uchebn. Zaved., Sev.-Kavk. Reg., Estestv. Nauki, 2013, no. 1, pp. 45-51. https://cyberleninka.ru/article/n/primenenie-metodov-biotestirovaniya-dlya-indikatsii-zakonomernostey-varirovaniya-fenotipicheskih-i-tsitogeneticheskih-izmeneniy
74. Zav’yalov, A.D., Peretokin, S.A., Danilova, T.I., Medvedeva, N.S., and Akatova, K.N., “General seismic zoning: From GSZ-97 maps to GSZ-2016 maps and new-generation maps in the parameters of physical characteristics,” Vopr. Inzh. Seismol., 2018, vol. 45, no. 4, pp. 47–68. 10.21455/VIS2018.4-4 DOI: 10.21455/VIS2018.4-4
75. Zidorn, C., “Altitudinal variation of secondary metabolites in flowering heads of the Asteraceae: trends and causes,” Phytochem. Rev., 2010, no. 9, pp. 197–203.