Structure of Collembola Communities in the Urban Gradient of Rīga City

Anonymous. (2017). The Economic Profile of the City of Riga. Rīga City Council City Development Department, Rīga, pp. 48. https://www.riga.lv (accessed 3.12.2023). Search in Google Scholar

Cekstere, G., Osvalde, A. (2013). A study of chemical characteristics of soil in relation to street trees status in Riga (Latvia). Urban Forestry & Urban Greening, 12, 69–78. https://doi.org/10.1016/j.ufug.2012.09.004. Search in Google Scholar

Danka, L., Stiprais, M. (1973). Materials on insect fauna of Riga. I. Ecological characterization of the territory of Riga. Latvijas Entomologs, 15, 3–7 (in Latvian). Search in Google Scholar

Dunger, W., Fiedler, G., Fiedler, H. J. (1997). Methoden der Bodenbiologie. Gustav Fischer Verlag, Jena. 540 pp. (in German). Search in Google Scholar

Eitminaviciute, I. (2006). Microarthropod communities in anthropogenic urban soils.1. Structure of microarthropod complexes in soils of roadside lawns. Entomol. Rev., 86, 128–135. https://link.springer.com/article/10.1134/S0013873806110029. Search in Google Scholar

Elmqvist, T., Fragkias, M., Goodness, J., Güneralp, B., Marcotullio, P. J., McDonald, R. I., Parnell, S., Schewenius, M., Sendstad, M., Seto, K. C., Wilkinson, C. (eds.) (2013). Urbanization, Biodiversity and Ecosystem Services: Challenges and Opportunities. Springer Dordrecht. https://doi.org/10.1007/978-94-007-7088-1. Search in Google Scholar

Fiera, C. (2009). Biodiversity of Collembola in urban soils and their use as bioindicators for pollution. Pesqui. Agropecu. Bras., 44, 868–873. https://doi.org/10.1590/S0100-204X2009000800010. Search in Google Scholar

Fjellberg, A. (1998). The Collembola of Fennoscandia and Denmark, Part I. Poduromorpha. Ser. Fauna Entomologica Scandinavica, Vol. 35. Brill, 184 pp. Search in Google Scholar

Fjellberg, A. (2007). The Collembola of Fennoscandia and Denmark. Part II: Entomobryomorpha and Symphypleona. Ser. Fauna Entomologica Scandinavica, Vol. 42. Brill, 272 pp. Search in Google Scholar

Forest management plan. (2018). https://www.sus.lv/sites/default/files/media/faili/mezaapsaimnplans20182026.pdf (accessed 3.12.2023). Search in Google Scholar

Fountain, M. T., Hopkin, S. P. (2004). Biodiversity of Collembola in urban soils and the use of Folsomia candida to assess soil ‘quality’. Ecotoxicology, 13, 555–572. https://link.springer.com/article/10.1023/B:ECTX.0000037192.70167.00. Search in Google Scholar

Grimm, N. B., Faeth, S. H., Golubiewski, N. E., Redman, C. L., Wu, J. G., Bai, X. M., Briggs, J. M. (2008). Global change and the ecology of cities. Science, 319, 756–760. https://doi:10.1126/science.1150195. Search in Google Scholar

Grina, V., Kagainis, U., Jucevica, E., Salmane, I., Melecis, V. (2023). Soil microarthropod distribution on the urban-rural gradient of Riga city: A study with robust sampling method application. J. Urban Ecol., 9 (1), juad012. https://doi.org/10.1093/jue/juad012. Search in Google Scholar

Guilland, C., Maron, P. A., Damas, O., Ranjard, L. (2018). Biodiversity of urban soils for sustainable cities. Environ. Chem. Lett., 16 (4). https://doi:10.1007/s10311-018-0751-6. Search in Google Scholar

Henderson, P. A. (2003). Practical Methods in Ecology. Blackwell Publishers, Oxford. 176 pp. Search in Google Scholar

Hopkin, P. (1997). Biology of the Springtails – Insecta: Collembola. Oxford University Press. 344 pp. Search in Google Scholar

Klausnitzer, B. (1987). Ökologie der Großstadt Fauna. VEB Gustav Fisher Verlag, Jena. 225 pp. Search in Google Scholar

Köppen, W. P. (1936). Das geographische System der Klimate, Handbuch der Klimatologie. Borntraeger, Berlin, Bd. 1, Teil. C. 44 pp. (in German). Search in Google Scholar

Kowarik, I. (2011). Novel urban ecosystems, biodiversity, and conservation. Environ. Pollut., 159 (8–9), 1974–1983. https://doi.org/10.1016/j.envpol.2011.02.022. Search in Google Scholar

Krestyaninova, A. I., Kuznetzova, N. A. (1996). Dynamics of collembolan (Hexapoda, Collembola) association in the soil of an urban boulevard. Entomol. Rev., 76, 1220–1230. Search in Google Scholar

Kuznetsova, N. A. (1994). Collembolan guild structure as an indicator of tree plantation conditions in urban areas. Mem. Zool., 49, 197–205. https://rcin.org.pl/miiz/Content/41582/PDF/WA058_57529_P4753_Mem-Zool-49-3-5.pdf Search in Google Scholar

Kuznetsova, N. A., Ageeva, T. Z. (2020). Collembola of broadleaved forests along gradient of urbanization in Moscow. Sampling event dataset. 1.4. Moscow Pedagogical State 14 Kuznetsova N, Ivanova N University (MPGU). Release date: 25.08.2020. https://doi.org/10.15468/e25d3s (accessed 3.12.2023). Search in Google Scholar

Lizuma, L. (2008). Gaisa temperatūras un atmosfěras nokrišņu mainības raksturs Rīgā [The character of variability in air temperature and atmospheric precipitation in Riga]. Doctoral dissertation, Academic Publishing House of the University of Latvia (in Latvian). https://dspace.lu.lv/dspace/handle/7/5157 (accessed 3.12.2023). Search in Google Scholar

McCune, B., Grace, J. B. (2002). Analysis of Ecological Communities. MjM Software Design, Gleneden Beach, Oregon. 300 pp. Search in Google Scholar

McCune, B., Mefford, M. J. (1999). Multivariate Analysis on the PC-ORD System. Version 4, MjM Software. Gleneden Beach, Oregon, USA. 237 pp. Search in Google Scholar

Melecis, V., Grina, V., Kagainis, U., Jucevica, E., Salmane, I. (2018). Robust method of soil mesofauna assessment in urban environment for long-term ecological research. In: TERENO International Conference, 8^th–12^th October, Umweltforum and Neue Malzerei, Berlin, Germany. http://www.ufz.de/tereno2018/index.php?en=44426#session-D Search in Google Scholar

Pavao-Zuckerman, M. A., Byrne, L. B. (2009). Scratching the surface and digging deeper: Exploring ecological theories in urban soils. Urban Ecosyst., 12, 9–20. https://doi.org/10.1007/s11252-008-0078-3. Search in Google Scholar

Potapov, A., Bellini, B., Chown, S., Deharveng, L., Janssens, F., Kováč, L., Kuznetsova, N., Ponge, J.-F., Potapov, M., Querner, P., Russel, D., Sun, X., Zhang, F., Berg, M. P. (2020). Towards a global synthesis of Collembola knowledge: Challenges and potential solutions. Soil Organisms, 92 (3), 161–188. https://doi.org/10.25674/so92iss3pp161. Search in Google Scholar

Rzeszowski, K., Sterzyñska, M. (2015). Changes through time in soil Collembola communities exposed to urbanization. Urban Ecosyst., 19 (1), 143–158. https://doi.org/10.1007/s11252-015-0478-0. Search in Google Scholar

Santorufo, L., van Gestel, C. A. M., Rocco, A., Maisto, G. (2012). Soil invertebrates as bioindicators of urban soil quality. Environ. Pollut., 161, 57–63. https://doi.org/10.1016/j.envpol.2011.09.042. Search in Google Scholar

Saraeva, A. K., Potapov, M. B., Kuznetsova, N. A. (2015). Different-scale distribution of Collembola in homogenous ground vegetation: Sphagnum moss. Entomol. Rev., 95 (5), 557–577. https://link.springer.com/article/10.1134/S0013873815050012. Search in Google Scholar

Simpson, E. H. (1949). Measurement of diversity. Nature, 163, 688. Search in Google Scholar

Sterzynska, M. (1982). Springtails (Collembola) of Warsaw and Mazovia. Memorabilia Zool., 36, 217–223. https://rcin.org.pl/Content/38602/PDF/WA058_28315_P4753_Mem-Zool-36-12.pdf. Search in Google Scholar

Sterzyńska, M., Nicia, P., Zadrożny, P., Fiera, C., Shrubovych, J., Ulrich, W. (2018). Urban springtail species richness decreases with increasing air pollution. Ecol. Indic., 94, 328–335. https://doi.org/10.1016/j.ecolind.2018.06.063. Search in Google Scholar

Telnov, D., Salmane, I. (2015). Ecology and diversity of urban pine forest soil invertebrates in Rīga. Latvia. Proc. Latvian Acad. Sci., Section B, 69 (3), 120–131. https://doi.org/10.1515/prolas-2015-0017. Search in Google Scholar

Tyurin, I. V. (1951). Analytical procedure for a comparative study of soil humus. Trudy Pochr. Inst. Dokuchaev, 33, 5–21 (in Russian). Search in Google Scholar