SERANGGA

The structure of five Lasius flavus Fabricius, 1781 (yellow meadow ant) nest complexes with 33 to 211 nest mounds exposed to the anthropogenic impact of varying intensity was studied in 2001 and 2014 from four locations in Crimea. The study areas can be arranged in order of increasing intensity of anthropogenic impact as follows: the Chatyr-Dag Mountain (no impact, two nest complexes), arboretum near Simferopol city (low-intensity impact, moderate grazing, one nest complex), the outskirts of Kurtsy village (high-intensity impact, intensive grazing, ne nest complex), and Gagarinsky Park (critical level of intensity, draining, one nest complex). In 2001, mound measurements were taken from all nest complexes, divided into squares of 20 × 20 m. In 2014, mound measurements were taken from three out of five locations, namely the Chatyr-Dag Mountain (one nest complex), Kurtsy village, and Gagarinsky Park). In 2014, the nest complex in Gagarinsky Park was found to no longer exist. Other nest complexes underwent significant changes. Small nest mounds either disappeared or grew in size. The total nest volume did not change significantly or slightly increased. Therefore, this study concluded that grazing did not affect the ability of nest complexes to grow. The lowering of the groundwater table was found to be a critical factor. Nest complexes on the Chatyr-Dag plateau turned out to be 100 years of age, and other nest complexes were at the age of 40 to 80 years.

Antonova, V. & Penev, L. 2006. Change in the zoogeographical structure of ants (Hymenoptera: Formicidae) caused by urban pressure in the Sofia Region (Bulgaria). Myrmecologische Nachrichten 8: 271-276.

Bierbaß, P., Gutknecht, J.L.M. & Michalzik, B. 2015. Nest-mounds of the yellow meadow ant (Lasius flavus) at the “Alter Gleisberg”, Central Germany: Hot or cold spots in nutrient cycling? Soil Biology & Biochemistry 80: 209-217.

Boomsma, J.J. & Van Loon, A.J. 1982. Structure and diversity of ant communities in successive Coastal Dune Valleys. Journal of Animal Ecology 51 (3): 957-974.

Boomsma, J.J., Wright, P.J. & Brouwer, A.H. 1993. Social structure in the ant Lasius flavus: Multi-queen nests or multi-nest mounds? Ecological Entomology 18: 47-53.

Czechowski W., Radchenko A., Czechowska W. & Vepsäläinen K. 2012. The Ants of Poland with Reference to the Myrmecofauna of Europe. Warszawa: Natura Optima Dux Foundation.

Dauber, J., Rommeler, A. & Wolters, V. 2006. The ant Lasius flavus alters the viable seed bank in pastures. European Journal of Soil Biology 42:157-163.

Depa, L. & Wegierek, P. 2011. Aphid fauna (Sternorrhyncha, Aphidinea) in the nests of Lasius flavus (Fabricius, 1781) (Hymenoptera, Formicidae) of various plant communities. Aphids and other Hemipterous Insects 17: 73-79.

Dlussky, G.M. 1981. Nester von Lasius flavus (Hymenoptera, Formicidae). Pedobiologia 21: 81-99.

Doncaster, C.P. 1981. The spatial distribution of ants nests on Ramsey Island, South Wales. Journal of Animal Ecology 50: 195-218.

Dostál, P., Březnová, M., Kozlíčková, V., Herben, T. & Kovar, P. 2005 Ant-induced soil modification and its effect on plant below-ground biomass. Pedobiologia 49:127-137.

Ehrle, A., Andersen, A.N., Levick, S.N., Schumacher, J., Trumbore, S.N. & Michalzik, B. 2017. Yellow-meadow ant (Lasius flavus) mound development determines soil properties and growth responses of different plant functional types. European Journal of Soil Biology 81: 83-93.

Harlov, N. 1960. Microarthropods from Danish soils, ecology, phenology. Oikos: Acta oecologica Scandinavica (supplementum) 3:1-176.

Ihnatiuk, O.A. & Stukalyuk, S.V. 2015. Degradation changes in the structure of multispecies associations of ants in urbanized areas. Russian Journal of Ecology 46 (1): 109-115.

King, T.J. 1981. Anthills and grassland history. Journal of Biogegraphy 8: 329-334.

Marikovsky, P.I. 1965. Colonies of yellow ants (Lasius flavus De Geer) as theatre of struggle between nest colonies of other ant species. Insectes Sociaux 12 (1): 63-70.

Mustafa, N.Z.A. 2018. Ants as indicator tools for tropical forest regeneration: a case study from Ulu Muda forest Reserve. Serangga 23 (3): 84-97.

Odum, E.P. & Pontin A.J. 1961. Population-density of underground ant, Lasius flavus, as determined by tagging with P-32. Ecology 42: 186-188.

Pećarević, M., Danoff-Burg, J. & Dunn, R.R. 2010. Biodiversity on Broadway - Enigmatic Diversity of the Societies of Ants (Formicidae) on the Streets of New York City. PLoS One 5 (10): e13222.

Pontin, A.J. 1960. Field experiments of colony foundation by Lasius niger (L.) and L. flavus (F.) (Hymenoptera, Formicidae). Insectes Sociaux 7: 227-230.

Pontin, A.J. 1961. Population stabilization and competition between the ants Lasius flavus (F.) and L. niger (L.) Journal of Animal Ecology 30 (1): 47-54.

Pontin, A.J. 1963. Further considerations of competition and the ecology of the ants Lasius flavus (F.) and L. niger (L.). Journal of Animal Ecology 32 (3): 565-574.

Pontin, A.J. 1969. Experimental transplantation of nest-mounds of the ant Lasius flavus (F.) in a habitat containing also L. niger (L.) and Myrmica scabrinodis Nyl. Journal of Animal Ecology 38 (3): 747-754.

Pontin, A.J. 1978. The numbers and distribution of subterranean aphids and their exploitation by the ant Lasius flavus (Fabr.). Ecological Entomology 3: 203-207.

Putyatina, T.S., Perfilieva, K.S. & Zakalyukina, Yu. V. 2018. Typification of urban habitats, with ant assemblages of Moscow City taken as an example. Entomological Review 97 (8): 1053-1062.

Radchenko, A.G. 2016. Ants of Ukraine. Kyiv: Schmalhausen Institute of Zoology.

Radchenko, A.G., Stukalyuk, S.V. & Netsvetov, M.V. 2019. Ants (Hymenoptera, Formicidae) of Kyiv. Entomological Review 99 (6): 753-773.

Rosengren, R. 1986. Competition and coexistence in an insular ant community — a manipulation experiment (Hymenoptera: Formicidae). Annales Zoologici Fennici 23 (3): 297-302.

Seifert, B. 2017. The ecology of Central European non-arboreal ants – 37 Years of a Broad-Spectrum Analysis under Permanent Taxonomic Control. Gorlitz: Senckenberg Museum fur Naturkunde.

Ślipiński, P., Zmihorski, M. & Czechowski, W. 2012. Species diversity and nestedness of ant assemblages in an urban environment. European Journal of Entomolology 109: 197-206.

Steinmeyer, C., Pennnings, P.S. & Foitzik, S. 2012. Multicolonial population structure and nestmate recognition in an extremely dense population of the European ant Lasius flavus. Insectes Sociaux 59: 499-510.

Stukalyuk, S.V. & Radchenko, V. G. 2011. Structure of multi-species ant assemblages (Hymenoptera, Formicidae) in the Mountain Crimea. Entomological Review 91 (1): 15-36.

Stukalyuk, S.V. 2017a. Interactions of three dominant ant species, Lasius emarginatus (Ol.), Formica rufa L., and Lasius fuliginosus (Latr.) (Hymenoptera, Formicidae) among themselves and with subordinate species in broadleaf forests. Communication 1. Entomological Review 97 (6): 747-767.

Stukalyuk, S.V. 2017b. A Case of Vertical Seasonal Polydomy in Formica rufa (Hymenoptera; Formicidae). Russian Journal of Ecology 48(6): 583-587.

Syarifah, N., Hazmi I. & Idris G. 2016. Diversity of ants across growth stages and months in research field, FASSB P. P. P Tun Razak, Ulu Tekam, Pahang. Serangga 21: 33-42.

Trigos-Peral, G., Rutkowski, T., Witek, M., Slipinski, P., Babik, H &. Czechowski, W. 2020. Three categories of urban green areas and the effect of their different management on the communities of ants, spiders and harvestmen. Urban Ecosystems. 23: 803-818.

Waloff, N. &. Blackith, R.E. 1962. The growth and distribution of the mounds of Lasius flavus (Fabricius) (Hymenoptera: Formicidae) in Silwood Park, Berkshire. Journal of Animal Ecology 31 (3): 421-437.

Woodell, S.R.G. 1974. Anthill vegetation in a Norfolk Saltmarsh. Oecologia 16: 221-225.

Vele, A. &. Holusa, J. 2017. Microclimatic conditions of Lasius flavus ant mounds. International Journal of Biometeorology 61: 957-961.

Vepsäläinen, K., Ikonen, H. &. Koivula, M. 2008. The structure of ant assemblages in an urban area of Helsinki, Southern Finland. Annales Zoologici Fennici 45: 109-127.

Yamaguchi, T. 2004. Influence of urbanization on ant distribution in parks of Tokyo and Chiba City, Japan I. Analysis of ant species richness. Ecological Research 19: 209-216.

Zakharov, A.A. & Kalinin D.A. 2007. Restructuring and maintaining the viability of the Formica aquilonia complex of anthills under critical conditions. Advances in modern biology 127 (2): 190-203. (In Russian).

Zakharov A.A. 2015. Ants of forest communities. Moscow: KMK Press.