Voronezh, Voronezh, Russian Federation
Russian Federation
from 01.01.2015 to 01.01.2021 Voronezh, Russian Federation
from 01.01.2014 to 01.01.2022 Voronezh, Russian Federation
Russian Federation
The article discusses the issues of the sanitary condition of pine plantations of the Kola forestry of the Murmansk region. Performing important environmental, environmental protection, sanitary, hygienic, recreational and other functions, these plantations are adversely affected by various environmental factors. Plant pathogens are one of these factors. The most harmful diseases of pine caused by fungi are considered root and stem rot, necrotic and cancerous diseases. In the case of mass reproduction of these pathogens (epiphytotics), the sanitary and pathological condition of the forest deteriorates noticeably and its biological stability is violated.
scots pine, diseases of pine plantations, the environmental role of plantations
1. Alekseev, A. S. Monitoring lesnyh ekosistem / A. S. Alekseev. – SPb: Izd-vo SPbGLTA, 2003. – 116 s.
2. Dinamika ochagov kornevoy gubki v lesah Rossii / A. G. Baburina, P. V. Gordienko, V. V. Karasev, V. A. Ryabinkov, E. A. Yakushkin // Lesnoy zhurnal. – 2010. – № 2. – S. 46-54.
3. Malinina, T. A. Dinamika i ocenka sostoyaniya kul'tur sosny obyknovennoy na rekul'tivirovannyh zemlyah: v usloviyah gidrootvala Berezovyy log KMA: dis. ... kand. s.-h. nauk: 06.03.01 / Malinina Tat'yana Anatol'evna. – Voronezh, 2011. – 186 s.
4. Menschikov, S. L. Zakonomernosti transformacii predtundrovyh i taezhnyh lesov v usloviyah aerotehnogennogo zagryazneniya i puti snizheniya nanosimogo uscherba: avtoref. dis. ... d-ra s.-h. nauk: 06.03.03 / Menschikov Sergey Leonidovich. – Ekaterinburg, 2003. – 43 s.
5. Mozolevskaya, E. G. Ocenka sostoyaniya lesov i lesnyh territoriy pri lesopatologicheskom monitoringe / E. G. Mozolevskaya, T. V. Sharapa // Ohrana lesnyh ekosistem i racional'noe ispol'zovanie lesnyh resursov. – M.: MGUL, 1994. – T. 3. – S. 27-28.
6. OST 56 69-83 «Ploschadi probnye lesoustroitel'nye. Metody zakladki».
7. Pluzhnikov, A. A. Vozdeystvie nizovyh pozharov na sanitarnoe sostoyanie sosnovyh nasazhdeniy v razlichnyh lesorastitel'nyh usloviyah / A. A. Pluzhnikov // Nauka XXI veka: novyy podhod. – Petrozavodsk: Petro-press, 2012. – S. 73-86.
8. Rumyanceva, A. V. Sostoyanie sosnovyh lesov v okrestnostyah Cherepoveckogo promyshlennogo kompleksa: dis. ... kand. biol. nauk: 03.00.16 / Rumyanceva Anzhella Vladimirovna. – Sankt-Peterburg, 2006. – 174 s.
9. Rukovodstvo po proektirovaniyu, organizacii i vedeniyu lesopatologicheskogo monitoringa / Prikaz Rosleshoza ot 29.12.2007g. № 523 «Ob utverzhdenii metodicheskih dokumentov».
10. Rukovodstvo po provedeniyu sanitarno-ozdorovitel'nyh meropriyatiy / Prikaz Rosleshoza ot 29.12.2007g. № 523 «Ob utverzhdenii metodicheskih dokumentov».
11. Cvetkov, V. F. Les v usloviyah aerotehnogennogo zagryazneniya / V. F. Cvetkov, I. V. Cvetkov. – Arhangel'sk: S(A)FU, 2003. – 354 s.
12. Chernen'kova, T. V. Podhody k kolichestvennoy ocenke biologicheskogo uscherba lesnyh soobschestv v usloviyah tehnogennoy nagruzki / T. V. Chernen'kova // Ekologiya. – 2003. – № 3. – S. 163-170.
13. Sheremet'ev, V. I. Prirodnye i antropogennye faktory formirovaniya lesnyh landshaftov Srednego Podon'ya / V. I. Sheremet'ev, L. A. Mezhova, A. M. Lugovskoy. – Voronezh: VGPU, 2001. – 167 s.
14. Debort, S. Degradation de lecosysteme forestier: analyse et ebauchen de solutions / S. Debort, D. Meyer // Schweiz. Z. Forstw. 1989. N 11. S. 965-976.
15. Impeus, R. Rollution et deperissement des forets / R. Impeus, E. Laiten, J. Fagot // Sante homme environ. Luxembourg, 1988. S. 84-90.
16. Keller, T. The effect of long term low S02 concentrations upon photosynthesis of conifers / T. Keller // 4th Internat. Clean Air Congress, 1977. P. 81-83.
17. Mudd, J. B. Biochemical effects of some air pollutants on plants / J. B. Mudd, J. A. Neagele // Air Pollution Damage to Vegetation. Adv. Chem. Series. 1973. N 122. P. 31-47.
18. Wallace, R. G. The biochemical basis of plant damage by atmospheric sulfur dioxide / R. G. Wallace, D. J. Spedding // Clean Air. 1976. N 10. P. 61-64.
19. Gonzalez-Dfaz, P., Gazol, A., Valbuena-Carabana, M., Sanguesa-Barreda, G., Moreno-Urbano, A., Zavala, M. A., Camarero, J. J. Remaking a stand: Links between genetic diversity and tree growth in expanding Mountain pine popu-lations. Forest Ecology and Management. 2020; 472: 118244. DOI: http://doi.org/10.1016/j.foreco.2020.118244.
20. Mendez-Cea B., Garria-Garria I., Gazol A., Camarero J. J., de Andres E. G., Colangelo M., Linares J. C. Weak genetic differentiation but strong climate- induced selective pressure toward the rear edge of mountain pine in northeastern Spain. Science of the Total Environment. 2023; 858: 159778. DOI: http://doi.org/10.1016/j.scitotenv.2022.159778.
21. Housset J. M., Toth E. G., Girardin M. P., Tremblay F., Motta R., Bergeron Y., Carcaillet C. Tree-rings, genetics and the environment: Complex interactions at the rear edge of species distribution range. Dendrochronologia. 2021; 69: 125863. DOI: http://doi.org/10.1016/i.dendro.2021.125863.
22. Shah, S., Yu, J., Liu, Q., Shi, J., Ahmad, A., Khan, D., & Mannan, A. Climate growth response of Pinus sibirica (Siberian pine) in the Altai Mountains, northwestern China. Pakistan Journal of Botany. 2020; 52 (2): 593-600. DOI: http://doi.org/10.30848/PJB2020-2(16).
