Published June 15, 2018
| Version v1
Journal article
Open
Features of sulfur accumulation in needles Pinus sylvestris L. in conditions of industrial dump
Creators
- 1. ., Federal Research Centre Coal and Coal Chemistry of SB RAS "Institute of Human Ecology"
Description
The article analyzes the results of the content of total and exogenous sulfur in the needles of Pinus sylvestris, growing in conditions of the Kedrovsky coal mine. Some changes in metabolic processes were revealed, which were expressed in the accumulation of sulfur dioxide.
In pine needles, an increase in this indicator was observed on average by 18-32% relative to control.
The level of accumulation of exogenous sulfur in the samples under study did not exceed the background values. Experimental data can be used in assessing the state of woody plants in the anthropogenic environment.
Notes
Files
Цандекова О. Л. .pdf
Files
(336.1 kB)
Name | Size | Download all |
---|---|---|
md5:b18bf93db0bc41e715ee3ee3eebb707f
|
336.1 kB | Preview Download |
Additional details
Identifiers
Related works
- Is compiled by
- 2414-2948 (ISSN)
References
- Kulagin, A. A., & Shagieva Yu. A. (2005). Woody plants and biological preservation of industrial pollutants. Moscow: Nauka, 190.
- Neverova, O. A. (2008). Features of accumulation of sulfur and nitrogen by trees of various ecological zones of the city of Kemerovo. Modern science-intensive technologies, (8). 50-51.
- Mikhailova, T. A., Kalugina, O. V., & Shergina, O. V. (2013) Phytomonitoring of atmospheric pollution in the Baikal region. Siberian Ecological Journal, 20 (5), 725-731.
- Tsandekova, O. (2016). Heat–sink ability of leaves of wood plants in the conditions of the pedigree dump of Kedrovsky coal mine. Bulletin of Science and Practice, (8), 39-43. doi:10.5281/zenodo.60237.
- Afanasyeva, L. V., Kashin, V. K., & Mikhailova, T. A. (2005) Influence of industrial pollution on the accumulation of sulfur in needles of scotch pine (Pinus sylvestris L.) in the southwestern Transbaikalia. Chemistry for Sustainable Development, 13(3), 461-467.
- Prozherina, N. A., & Valkama, E. G. (2008). The reaction of Scots pine to atmospheric pollution in the area of the Arkhangelsk agglomeration. Forest Science, (2), 27-32.
- Tarkhanov, S. N. (2011). The content of sulfur and heavy metals in coniferous plantations of the Northern Dvina basin under aerotechnogenic pollution. Forest Science, (3), 26-33.
- Kolyasnikova, N. L., & Parshakova, K. A. (2010). Structural and functional changes in pine needles in conditions of technogenic pollution. Natural and technical sciences, (3), 65-68.
- Torlopova, N. V., & Robakidze E. A. (2012). Chemical composition of pine needles in conditions of aerotechnogenic contamination of the Syktyvkar timber industry complex. Siberian Ecological Journal. 19(3). 415-422.
- Tumenbaeva, A. R., Sarsekova, D. N., & Boranbay, Zh. T. (2018). The content of chemical elements (carbon, nitrogen and sulfur) in forest stands of Scots pine (Pinus sylvestris L.) in the sanitary-protective zone of Astana. The Eurasian Union of Scientists, 1-2(46). 50-53.
- Ermakov, A. I., Arasimovich, V. V., & Yarosh, N. P. (1987). Methods of biochemical research of plants. L.: Agropromizdat, 430.
- Pavlov, I. N. (2006). Woody plants in conditions of technogenic pollution. Ulan-Ude: Publishing house of the BSC Center of the SB RAS, 359.
- Sergeichik, S. A. Ecological and physiological monitoring of Pinus sylvestris L. resistance in anthropogenic environment. Biosphere, 7(4). 384-391.
- Nikolaevsky, V. S., & Nikolaevskaya, T. V. (1995). Bioindication of atmospheric air pollution and the state of forest vegetation as part of the EIA. Ecology, monitoring and rational nature management, (268). 214.