The influence of microclimatic urban conditions on the growth of Tilia cordata Mill. (Ufa city example)
Abstract and keywords
Abstract (English):
The biological state of plantings with contrasting microclimatic growing conditions within the city limits is influenced by the orientation of streets to the cardinal directions and the presence of high-rise buildings. The trunk diameters (d0,1 and d1,3) and the height of Tilia cordata Mill were measured (n = 1 476 trees on 12 trial areas) with different age range (within V-X classes), freely growing on twelve linear trial areas allocated within two districts of the Ufa city of the Republic of Bashkortostan. The comparison of the average values of biometric parameters of trees growing in areas with different microclimates was carried out using the Student's test (α=0.05). In the process of conducting research on sites with contrasting microclimatic conditions, it was revealed that the growth, development and productivity of green spaces in urban conditions is influenced by their location, microclimatic conditions and air temperature. The orientation of the streets to the cardinal directions and the presence of high-rise buildings - sunny or shady - are very important for the growth of the tree. On the shady side during the growing period there is more moisture and the air temperature is lower. Of great importance for the difference in the diameters of the trees of the objects under consideration is their age. In addition, the immediate proximity of trees to the carriageway of the main street of the city also has a serious impact on their condition. The data of this study allow them to be used in the organization of landscape care for urban plantings, including linden trees.

Keywords:
Tilia cordata Mill., stem diameter, tree height, Ufa, dependence, micro-climatic conditions, emissions, pollution, urban conditions
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References

1. Bayturina, R.R. Koncentraciya melkodispersnyh chastic v atmosfernom vozduhe gorodskih nasazhdeniy (na primere g.Ufa) / R.R. Bayturina // Uspehi sovremennogo estestvoznaniya. 2022. №5. S. 7-11 DOI: https://doi.org/10.17513/use.37817.

2. Saltan, N. V. Ekologo-biologicheskie osobennosti Tilia cordata Mill. v urbanizirovannoy srede Kol'skogo Severa (na primere G. Murmansk) / N. V. Saltan, E. A. Svyatkovskaya, N. N. Trostenyuk // Izvestiya Samarskogo nauchnogo centra Rossiyskoy akademii nauk. - 2019. - T. 21, № 2-2(88). - S. 180-184. Rezhim dostupa: https://elibrary.ru/zkdkto.

3. Galimova, R. G. Klimat Respubliki Bashkortostan / R. G. Galimova. - Ufa : Bashkirskiy gosudarstvennyy universitet, 2017. - 96 s. Rezhim dostupa: https://elibrary.ru/yvmqnu.

4. Mamieva, E. B. Ocenka ustoychivosti fotosinteticheskogo apparata lipy melkolistnoy Tilia cordata mill. v gradiente tehnogennogo zagryazneniya g. Vladikavkaz / E. B. Mamieva, L. V. Shirnina, V. T. Popova // Lesotehnicheskiy zhurnal. - 2022. - T. 12, № 2(46). - S. 30-42. - DOI: https://doi.org/10.34220/issn.2222-7962/2022.2/3.

5. Isyan'yulova, R. R. Lipa melkolistnaya kak odna iz preobladayuschih porod v sostave nasazhdeniy Respubliki Bashkortostan / R. R. Isyan'yulova, E. N. Talipov // Ispol'zovanie i ohrana prirodnyh resursov v Rossii. - 2019. - № 1(157). - S. 50-54. Rezhim dostupa: https://elibrary.ru/zcssyp.

6. Popova, I.V. Ocenka roli zelenyh nasazhdeniy v formirovanii komfortnyh mikroklimticheskih usloviy v letniy period / I.V. Popova, E.E. Burak, Yu.A .Vorob'eva // Vestnik Baltiyskogo federal'nogo universiteta im. I. Kanta. Ser.: Estestvennye i medicinskie nauki. 2019. № 2. S. 47-55. Rezhim dostupa: https://elibrary.ru/wnjetn.

7. Deng, J., Pickles, B.J., Kavakopoulos, A., Blanusa, T., Halios, C.H., Smith, S.T., Shao, L. Concept and methodology of characterising infrared radiative performance of urban trees using tree crown spectroscopy (2019) Building and Environment, 157: 380-390. DOI: https://doi.org/10.1016/j.buildenv.2019.04.056.

8. Erofeeva, E.A. Estimating the frequency of hormesis and other non-monotonic responses in plants experiencing road traffic pollution in urban areas and experimental pollutant exposure (2020) Environmental Monitoring and Assessment, 192 (7): 460. DOI: https://doi.org/10.1007/s10661-020-08418-8.

9. Gabdelkhakov A. Estimation of diameters by stump measurements for natural and artificial small-leaved linden (Tilia cordata Mill.) / A. Gabdelkhakov, L. Blonskaya, I. Sabirzyanov, R. Baiturina, I. Mullagaleev // International Journal of Agriculture and Biology. 2021. T. 26. № 4. P. 416-468. DOI: https://doi.org/10.17957/IJAB/15.1857.

10. Krzyżaniak, M., Świerk, D., Antoszewski, P. Factors influencing the health status of trees in parks and forests of urbanized areas (2021) Forests, 12 (6): 656. DOI: https://doi.org/10.3390/f12060656.

11. Martynova M. Effectiveness of tending activities in broadleaved forests / M.Martynova, R.Sultanova, L. Blonskaya, A.Gabdelkhakov, E. Volkova, G.Odintsov // Journal of Environmental Accounting and Management. - 2021. T. 9. № 4. P. 319-330. DOI: https://doi.org/10.5890/JEAM.2021.12.001.

12. Möller, T., Oldeland, J., Schultz, M. The value of alien roadside trees for epiphytic lichen species along an urban pollution gradient (2021) Journal of Urban Ecology, 7 (1). DOI: https://doi.org/10.1093/jue/juab025.

13. Pietras-Couffignal, K., Robakowski, P. The impact of air pollution on growth features and the health of trees in berlin (2019) Dendrobiology, 82, pp. 52-65. DOI: https://doi.org/10.12657/denbio.082.006.

14. Skrypnik, L., Maslennikov, P., Feduraev, P., Pungin, A., Belov, N. Ecological and landscape factors affecting the spread of European mistletoe (Viscum album L.) in urban areas (a case study of the Kaliningrad city, Russia) (2020) Plants, 9 (3), Article № 394. DOI: https://doi.org/10.3390/plants9030394.

15. Straigytë, L., Vaidelys, T., Žalkauskas, R., Manton, M. Impact of urban green spaces, native tree species and seasons on soil pH in Kaunas, Lithuania (2019) Baltic Forestry, 25 (2), pp. 257-262. DOI: https://doi.org/10.46490/vol25iss2pp257.

16. Šuškalo, N., Hasanagić, D., Topalić-Trivunović, L., Kukrić, Z., Samelak, I., Savić, A., Kukavica, B. Antioxidative and antifungal response of woody species to environmental conditions in the urban area (2018) Ecotoxicology, 27 (8), pp. 1095-1106. DOI: https://doi.org/10.1007/s10646-018-1963-z.

17. Czaja, M. The Complex Issue of Urban Trees-Stress Factor Accumulation and Ecological Service Possibilities / M. Czaja, A. Kołton, P. Muras // Forests. 2020; 11 (9): 932. DOI: https://doi.org/10.3390/f11090932.

18. Weryszko-Chmielewska, E., Piotrowska-Weryszko, K., Dąbrowska, A. Response of Tilia sp. L. to climate warming in urban conditions - Phenological and aerobiological studies (2019) Urban Forestry and Urban Greening, 43, Article № 126369. DOI: https://doi.org/10.1016/j.ufug.2019.126369.

19. Zhang, J., Ghirardo, A., Gori, A., Albert, A., Buegger, F., Pace, R., Georgii, E., Grote, R., Schnitzler, J.-P., Durner, J., Lindermayr, C. Improving Air Quality by Nitric Oxide Consumption of Climate-Resilient Trees Suitable for Urban Greening (2020) Frontiers in Plant Science, 11, 549913. DOI: https://doi.org/10.3389/fpls.2020.549913.

20. Andrianjara, I. Urban tree management: Diversity of Tilia genus in streets and parks of Paris based on morphological and genetic characteristics / I. Andrianjara, M. Bordenave-Jacquemin, V. Roy et al. // Urban Forestry & Urban Greening. - 2021. - Vol. 66. - P. 127382. DOI: https://doi.org/10.1016/j.ufug.2021.127382.


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