Title:

Ecophysiological features of Larix sibirica in urban ecosystems of the Kola north in the railway influence zone

Authors Name:   

Natalya V. Saltan, Ekaterina A. Sviatkovskaya

Journal: Czech Polar Reports
Issue: 11
Volume: 2
Page Range: 305-317
No. of Pages: 13
Year: 2021
DOI:

10.5817/CPR2021-2-21

Publishers: muniPress Masaryk University Brno
ISSN:    1805-0689 (Print), 1805-0697 (On-line)
Language: English
Subject:  
Abstract:

For the first time, a study of the ecophysiological features of the introduced Larix sibirica (middle-aged plantations old 40-50 years) was carried out at a tree nursery and railway stations in four cities in the Kola Subarctic. Content of photosynthetic pigments (per fresh weight) ranged 1185 – 1894 μg·g-1 (chlorophyll a), 377 – 666 μg·g-1 (chlorophyll b), and 256 – 387 μg·g-1 (carotenoids).  Exception was found for the specimens from Murmansk (significantly higher) and Olenegorsk (significantly lower values). High content of Fe was found in needles (1865 – 4278 mg·kg-1), however, it did not lead to any damage or abnormalities in the development of Larix sibirica. A close positive correlation was shown between the Fe and Mn contents (r = 0.91). Ni and Cu content in needles increased in all cities from 3 to 8 times in comparison with the background, Pb content increased only in the cities of Apatity and Olenegorsk (2–4 times). The amount of Cd and Zn was found within the optimal range. This study revealed the negative effects of the main pollutants (Ni, Cu, and Pb from the mining industry) on chlorophyll a (r = -0.81) and carotenoids (r = -0.70).

 

Keywords: Larix sibirica, heavy metals, photosynthetic pigments, railway transport
 

References:

Afanas’eva, L.V. (2018): Physiological-biochemical adaptation of the Larix sibirica Ledeb. to urban environments. Sibirskij lesnoj zhurnal [Siberian Journal of Forest Science], 3: 21-29.   (In Russian).

Alieva, M., Mammaev, A., Magomedova, M. and Pinyaskina, E. (2014): Studying the parameters of woody plants chlorophyll fluorescence in conditions of various transports loading.  Izvestiya Samarskogo nauchnogo centra [Journal Izvestia of Samara Scientific Center of the Russian Academy of Sciences], 16(1–3): 701-703. (In Russian).

Ashraf, M., Harris P. J. C. (2013): Photosynthesis under stressful environments. Photosynthetica, 51(2): 163-190. doi.org/10.1007/s11099-013-0021-6.

Bashkin, V. N., Kasimov, N. S. (2004): Biogeochemistry. Nauchny Mir Publ., Moscow, Russia,  648 p. (In Russian).

Beckett, K. P., Freer-Smith, P. H. and Taylor, G. (2000): Effective tree species for local air quality management. Journal of Aboriculture, 26(1): 12-19.

Biswal, B., Joshi, P. N., Raval, M. K. and Biswal, U. C. (2011): Photosynthesis, a global sensor of environmental stress in green plants: Stress signaling and adaptation. Current Science, 101(1): 47-56.

Borda-de-Agua, L., Barrientos, R., Beja, P. and Pereira, H. M. (2017): Railway ecology. Springer, Cham (eBook).

Bukharina, I. L., Dvoеglazova, A. A. (2010): Bioecological features of herbaceous and woody plants in city. UdmSU. Publ. Izhevsk, Russia, 184 p. (In Russian).

Dobrovolskii, V. V. (2003): Fundamentals of biogeochemistry: Textbook for students. higher. studies, institutions.  Academia Publ., Moscow, Russia, 400 p. (In Russian).

Dobrovolskii, V. V. (1997): Biosphere cycles of heavy metals and the regulatory role of soil. Eurasian Soil Science, 30(4): 371-380. (In Russian).

Dymova, O. V., Golovko, T. K. (2018): Photosynthetic pigments: functioning, ecology and biological activity. Trudy Ufimskogo nauchnogo centra RAN [Proceedings of the RAS Ufa Scientific Centre], (3–4): 5-16. (In Russian). doi: 10.31040/2222-8349-2018-4-3-5-16

Elpatyevsky, P. V., Arzhanova, V. S. (1990): Geochemistry of landscapes and technogenesis. Nauka Publ., Moscow, Russia, 196 p. (In Russian).

Emamverdian, A., Ding, Yu., Mokhberdoran, F. and Xie, Y. (2015): Heavy metal stress and some mechanisms of plant defense response. Scientific World Journal, Article ID 756120, 18 p. doi: 10.1155/2015/756120

Gomes, M. P., Marques, T. C. L., Nogueira, M. O. G., Castro, E. M. and Soares, В. M. (2011): Ecophysiological and anatomical changes due to uptake and accumulation of heavy metal in Brachiaria decumbens. Scientia Agricola, 68(5): 566-573. doi: 10.1590/S0103-901620110005 00009.

Ilyin, V. B. (1991): Heavy metals in the soil-plant system. SO RAN Publ., Novosibirsk, Russia, 151 p. (In Russian).

Kabata-Pendias, A. (2011): Trace elements in soils and plants. Fourth Edition. CRC Press, 548 p.

Kazantsev, I. V. (2008): Ecological assessment of the influence of railway transport on the content of heavy metals in soils and plants of the right-of-way. Extended Abstract of PhD of Sciences (Biol.) Dissertation, Samara, 18 p. (In Russian).

Kazantsev, I. V. (2015): Rail transport as a source of soil contamination with heavy metals. Samarskij nauchnyj zhurnal [Samara Journal of Science], 2(11): 94-96. (In Russian).

Kopylova, L. V. (2010): Accumulation of iron and manganese in leaves of woody plants in technogenic areas of Zabaikalskiy Krai. Izvestiya Samarskogo nauchnogo centra [Journal Izvestia of Samara Scientific Center of the Russian Academy of Sciences], 12(1–3): 709-712.  (In Russian).

Kopylova, L. V., Yakimova, E. P. (2011): Peculiarities of metals accumulation by woody plants in urban environment. Uchenye zapiski Zabajkal'skogo gosudarstvennogo universiteta. Seriya: Estestvennye nauki [Scientific notes of the Trans-Baikal State University. Series: Natural Sciences], 1(36): 102-107. (In Russian).

Kosheleva, N. E., Timofeev, I. V., Kasimov, N. S., Kisselyova, T. M., Alekseenko, A. V. and Sorokina, O. I. (2016): Trace element composition of poplar in mongolian cities. In: O. Frank-Kamenetskaya, E. Panova, D. Vlasov (eds.): Biogenic-abiogenic interactions in natural and anthropogenic systems.  Springer International Publishing AG, Switzerland, pp. 165178.

Kottek, M., Grieser, J., Beck, C., Rudolf, B. and Rubel, F. (2006): World map of the Köppen-Geiger climate classification updated. Meteorologische Zeitschrift [Meteorological journal],  15(3): 259-265. doi: 10.1127/0941-2948/2006/0130

Lettens, S., Vandecasteele, B., De Vos, B., Vansteenkiste, D. and Verschelde, P. (2011): Intra- and  inter-annual variation of Cd, Zn, Mn and Cu in foliage of poplars on contaminated soil. The Science of Total Environment, 409: 2306-2316. doi: 10.1016/j.scitotenv

Lichtenthaler, Н. К., Wellburn, А. R. (1983): Determinations of total carotenoids and chlorophylls a and b of leaf extracts in different solvents. Biochemical Society Transactions, 11: 591-592.

Long, S. P., Humphries, S. and Falkowski, P. G. (1994): Photoinhibition of photosynthesis in nature. Annual Review of Plant Physiology and Plant Molecular Biology, 45(1): 633-662.

Migeon, A., Richaud, P., Guinet, F., Chalot, M. and Blaudez, D. (2009): Metal accumulation by woody species on contaminated sites in the North of France. Water, AIR, & Soil Pollution, 204(1–4): 89-101. doi: 10.1007/s11270-009-0029-5

Moosavi, A. A., Ronaghi, A. (2010): Growth and iron-manganese relationships in dry bean as affected by foliar and soil applications of iron and manganese in a calcareous soil. Journal of Plant Nutrition, 33: 1353-1365.

Ovechkina, E. S., Shayakhmetova, R. I. (2015): Influence of anthropogenic factors on the pigments content of Scotch pine in summer-winter period on the territory of Nizhnevartovsk region. Izvestiya Samarskogo nauchnogo centra [Journal Izvestia of Samara Scientific Center of the Russian Academy of Sciences], 6: 236-241. (In Russian).

Pavlova, L. M., Kotelnikova, I. M. and Kuimova, N. G. (2010): Photosynthetic pigments' condition in the vegetative organs of woody plants in an urban environment. Ekologiya urbanizirovannyh territorij [Ecology of urbanized territories], 2: 98-105. (In Russian).

Pereverzev, V. N. (2004): Forest soils of the Kola Peninsula. Nauka Publ., Moscow, Russia, 232 р. (In Russian).

Pobedintseva, I. G., Dianova, T. M. (1983): Heavy metals in deciduous forests of the reserve Tula Zaseki. In: M.A. Glazovskaya (eds.): Geochemistry of heavy metals in natural and technogenic landscapes. MISI-MGSU Publ., Moscow, pp.1216. (In Russian).

Poonkothai, M., Vijayavathi, B. S. (2012): Nickel as an essential element and a toxicant. International Journal of Environmental Sciences, 1(4):  285-288.

Saibo, N. J. M., Lourenzo, T. and Oliveira, M. M. (2009): Transcription factors and regulation of photosynthetic and related metabolism under environmental stresses. Annals of Botany. 103(4): 609-623. doi: 10.1093/aob/mcn227

Saltan, N. V., Sviatkovskaya, E. A. (2021): Tree health of Larix sibirica Ledeb. in the railway impact zone on Kola Peninsula. Springer Geography. Proceedings of the Smart and Sustainable Cities Conference, 1: 1-8. doi: 10.1007/978-3-030-75285-9_1

Seregin, I. V., Ivanov, V. B. (2001): Physiological aspects of cadmium and lead toxic effects on higher plants. Russian Journal of Plant Physiology, 48(4): 523-544. (In Russian).

Siedlecka, A. (1995): Some aspects of interactions between heavy metals and plant mineral nutrients. ACTA Societatis Botanicorum Poloniae, 64(3): 265-272. doi: 10.5586/asbp.1995.035

Takahashi, S., Murata, N. (2008): How do environmental stresses accelerate photoinhibition. Trends in Plant Science, 13(4): 178-182.

Timofeev, I. V., Kosheleva, N. E. (2016): Environmental and geochemical assessment of woody plants in the nonferrous mining landscape (Zakamensk, Buryat Republic). “Problems of Botany of Southern Siberia and Mongolia (XV International Scientific and Practical Conference, Barnaul), pp. 463–472. (In Russian).

Tzvetkova, N., Hadjiivanova, Ch. (2006): Chemical composition and biochemical changes in needles of Scots pine (Pinus sylvestris L.) stands at different stages of decline in Bulgaria. Trees: Structure and Function, 20(4): 405-409.

Vass, I., Aro, E. M. (2007): Photoinhibition of photosynthetic electron transport. In: G. Renger (ed.): Primary processes in photosynthesis, basic principles and apparatus. The Royal Society of Chemistry, Cambridge, pp. 393–425.

Viehweger, K. (2014): How plants cope with heavy metals. Botanical Studies, 55: 35. doi: 10.1186/1999-3110-55-35

Wang, X., Jia, Y. (2010): Study on adsorption and remediation of heavy metals by poplar and larch in contaminated soil. Environmental Science and Pollution Research, 17(7): 1331-1338. doi: 10.1007/s11356-010-0313-3

 

 

Web sources / Other sources

 

[1] Climatic data of cities worldwide. https://ru.climate-data.org/ (Accessed 20.02.2021).

 

 

[2] Weather online. https://www.weatheronline.co.uk/ (Accessed 20.02.2021).

 

 

[3] Report on environmental state of the Murmansk region in 2019.

      https://gov-murman.ru/region/environmentstate/ (Accessed 20.02.2021). 

Notes: