SERANGGA

The study was conducted in two stages, in 2013-2014, on the territory of the Crimea, Ukraine. The second stage was conducted in 2019-2021 at the city of Kyiv in the region of Carpathians, Ukraine and in the city of Tashkent in Uzbekistan. The study covered natural (forest, meadow, steppe), suburban (alleys and tree planting) and urban habitats (tree planting along streets and roads, botanical gardens). The average number of workers on the trails per 2 minute (activity) are obtained for each of the 21 dominant species of ants. Urbanized habitats are favorable for some ant species (Crematogaster subdentata and Lasius neglectus - invasive or native species, depending on the region, Dolichoderus quadripunctatus - native species), it is reflected in the maximum rates of activity on the trails. In urbanized habitat there are about 200-800 individuals of ants can be observed on the trails, it is equal to or greater than the activity for other ant species in natural habitats (100-400 individuals per 2 minutes). In the primary range (Uzbekistan), activity indicators on trails in native species C. subdentata and L. neglectus are equal or lower than those in the secondary range (Crimea, Kyiv city, Ukraine). The maximum activity of L. neglectus on trails in urbanized habitats is in Tashkent city, less in Crimea (M-W test, Tashkent vs Crimea, P≤0.001), and in Kyiv city (Tashkent vs Kyiv, P≤0.001). For C. subdentata, the maximum activity in the conditions of Tashkent, less activity - in natural habitats (tugai forests) (Tashkent vs tugai, P≤0.001). The presence of permanent foraging trails indicates the dominant status of the ant species. The amount of traffic on the trails can vary greatly in different habitats.

Abbott, K.L. 2005. Supercolonies of the invasive yellow crazy ant, Anoplolepis gracilipes, on an oceanic island: Forager activity patterns, density and biomass. Insectes Sociaux 52: 266-273.

Abbott, K.L. & Green, P.T. 2007. Collapse of an ant–scale mutualism in a rainforest on Christmas Island. Oikos 116: 1238-1246.

Azcarate, F.M. & Peco, B. 2003. Spatial patterns of seed predation by harvester ants (Messor Forel) in Mediterranean grassland and scrubland. Insectes Sociaux 50: 120-126.

Buhl, J., Hicks, K., Miller, E.R., Persey, S., Alinvi, O. & Sumpter, D.J.T. 2009. Shape and efficiency of wood ant foraging networks. Behavioral Ecology and Sociobiology 63(3): 451-460.

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

Detrain, C. 1990. Field study on foraging by the polymorphic ant species, Pheidole pallidula. Insectes Sociaux 37: 315-332.

Detrain, C., Tasse, O., Versaen, M. & Pasteels, J.M. 2000. A field assessment of optimal foraging in ants: trail patterns and seed retrieval by the European harvester ant Messor barbarus. Insectes Sociaux 47: 56-62.

Dlussky, G.M. 1967. Ants of the Formica genus (Hymenoptera, Formicidae, G. Formica). Moscow, USSR: Nauka. (In Russian).

Dlussky, G.M. 1981. Ants of the Deserts. Moscow, USSR: Nauka (In Russian).

Dussutour, A., Beshers, S., Deneubourg, J.L. & Fourcassié, V. 2009. Priority rules govern the organization of traffic on foraging trails under crowding conditions in the leaf-cutting ant Atta colombica. Journal of Experimental Biology 212(4): 499-505.

Dyachenko, N.G. 2017. Red Wood Ants of Belovezhskaya Pushcha. Moskva, Russia: KMK (In Russian).

Elizalde, L. & Farji-Brener, A. 2012. To be or not to be faithful: Flexible fidelity to foraging trails in the leaf-cutting ant Acromyrmex lobicornis. Ecological Entomology 37: 370-376.

Franks, N.R. 1989. Army ants: A collective intelligence. American Scientist 77: 139-145.

Gordon, D.M. 2002. The regulation of foraging activity in red harvester ant colonies. American Naturalist 159: 509-518.

Heller, N.E. & Gordon, D.M. 2006. Seasonal spatial dynamics and causes of nest movement in colonies of the invasive Argentine ant (Linepithema humile). Ecological Entomology 31: 499-510.

Human, K.G. & Gordon, D.M. 1996. Exploitation and interference competition between the invasive Argentine ant, Linepithema humile, and native ant species. Oecologia 105(3): 405-412.

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.

Jeanson, R., Ratnieks, F.L.W. & Deneubourg, J.L. 2003. Pheromone trail decay rates on different substrates in the Pharaoh’s ant, Monomorium pharaonis. Physiological Entomology 28: 192-198.

Lewis, T., Pollard, G. & Dibley, G. 1974. Rhythmic foraging in the leafcutting ant Atta cephalotes (L.) (Formicidae: Attini). Journal of Animal Ecology 43: 129-142.

Makarevich, O.M. 2003. Liometopum microcephalum (Hymenoptera, Formicidae) in the Lower Dnieper. Vestnik Zoologii 37(4): 51-56. (In Ukrainian).

Mershchiev, A.V. 2010. Trail systems and territorial strategy of forest ants-obligate dominants in communities. PhD Thesis. Moscow State University of Forest, Moscow, Russia (In Russian).

Moffett, M.W. 1988. Foraging dynamics in the group-hunting myrmicine ant, Pheidologeton diversus. Journal of Insect Behaviour 1: 309-331.

Orr, A.G. & Charles, J.K. 1994. Foraging in the giant forest ant, Camponotus gigas (Smith) (Hymenoptera: Formicidae): Evidence for temporal and spatial specialization in foraging activity. Journal of Natural History 28(4): 861-872.

Peng, R. Christian, K. & Gibb, K. 2012. The best time of day to monitor and manipulate weaver ant colonies in biological control. Journal of Applied Entomology 136: 155-160.

Perfecto, I. 1994. Foraging behavior as a determinant of asymmetric competitive interaction between two ant species in a tropical agroecosystem. Oecologia 98(2): 184-192.

Quinet, Y. & Pasteels, J.M. 1987. Description et evolution spatio-temporelle du reseau de pistes chez Lasius fuliginosus. Actes des Colloques Insectes Sociaux 4: 211-218 (In French).

Pisarski, B. & Vepsäläinen, K. 1989. Competition hierarchies in ant communities (Hymenoptera, Formicidae). Annales Zoologici 42: 321-328.

Radchenko, A.G. 2016. Ants (Hymenoptera, Formicidae) of Ukraine. Kiev, Ukraine: Schmalhausen Institute of zoology NAS of Ukraine (In Russian).

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

Rosengren, R. & Sundström, L. 1987. The foraging system of a red wood ant colony (Formica s. str.) - collecting and defending food through an extended phenotype. Experientia Supplementum: 54: 117-137.

Rust, M.K., Reierson, D.A., Paine, E.O. & Blum, L.J. 2000. Seasonal activity and bait preferences of the Argentine ant (Hymenoptera: Formicidae). Journal of Agricultural and Urban Entomology17: 201-212.

Soboleva, N.I. 2010. Trail system of red wood ants (Formica rufa group) under conditions of recreational pressure. Zoological Journal 89(12): 1468-1476.

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. 2015. Crematogaster subdentata Mayr 1877, a potentially invasive species of ant (Hymenoptera, Formicidae) new to the fauna of the Crimea. Entomological Review 95(8): 1021-1035.

Stukalyuk, S.V. 2018. Supercolony of Dolichoderus quadripunctatus Linnaeus (Hymenoptera, Formicidae). Biology Bulletin Reviews 8 (5): 449-462.

Stukalyuk, S.V. & Netsvetov, M.V. 2018. The influence of Crematogaster subdentata Mayr invasion on the structure of ant assemblages (Hymenoptera: Formicidae) in Crimea. Zhurnal Obshcheĭ Biologii 79(4): 294-317 (In Russian).

Stukalyuk, S.V., Kozyr, M.S., Netsvetov, M.V. & Zhuravlev, V.V. 2020a. Effect of the invasive phanerophytes and aphids on them on the ant (Hymenoptera, Formicidae) assemblages. Halteres 11: 56-89.

Stukalyuk, S.V., Radchenko, Y.N., Netsvetov, M.V. & Gilev, A.A. 2020b. Effect of mound size on intranest thermoregulation in the red wood ants Formica rufa and F. polyctena (Hymenoptera, Formicidae). Turkish Journal of Zoology 44: 266-280.

Stukalyuk, S., Gilev, A., Antonov, I. & Netsvetov, M. 2021a. Size of nest complexes, the size of anthills, and infrastructure development in 4 species of red wood ants (Formica rufa, F. polyctena, F. aquilonia, F. lugubris) (Hymenoptera; Formicidae). Turkish Journal of Zoology 45: 464-478.

Stukalyuk, S.V., Radchenko, A.G., Reshetov, A.A., Akhmedov, A.G. & Goncharenko, I.V. 2021b. Comparative analysis of the population structure of Crematogaster subdentata and Lasius neglectus in the primary and secondary ranges (Hymenoptera: Formicidae). Fragmenta Entomologica 53(1): 43-56.

Stukalyuk, S., Radchenko, A., Akhmedov, A., Reshetov, A. & Netsvetov, M. 2021c. Acquisition of invasive traits in ant, Crematogaster subdentata Mayr (Hymenoptera, Formicidae) in urban environments. Serangga 26(4): 1-29.

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.

Vasconcellos, H.L. 1990. Foraging activity of two species of leafcutting ants (Atta) in a primary forest of the central Amazon. Insectes Sociaux 37: 131-145.

Zakharov, A.A. 1978. Estimate of the population numbers in the complex of formicaria. Zoological Journal 57(11): 1656-1662 (In Russian).

Zakharov, A.A. 1991. Organization of Communities in Ants. Moscow, Russia: Nauka (In Russian).

Zakharov, A.A. 2015. Ants of Forest Communities, Their Life Cycle and Role in Forests. Moskva, Russia: KMK Scientific Press (In Russian).