PRELIMINARY RESEARCH ON SOME MORPHOMETRIC CHARACTERISTICS OF EUROPEAN RED WOOD ANTS (FORMICA PRATENSIS RETZIUS, 1783) ALONG THE TURKEY-BULGARIA CROSS-BORDER AREA
Year 2021,
, 187 - 195, 31.12.2021
Yılmaz Çamlıtepe
,
Volkan Aksoy
,
Albena Lapeva-gjonova
,
Kaan Yence
Cansu Dumlu
,
Ilia Gjonov
Abstract
Formica pratensis (Hymenoptera: Formiciadae) is one of the members of the wood ants group and is represented in Europe with the hairy N morph common in the south and the less hairy P morph common in the north. The species is naturally distributed in European part of Turkey (Thrace Region) and in the neighboring parts of Bulgaria. Former studies of Bernhard Seifert showed that the N morph is the dominant morph in south Bulgaria, but the situation in Turkey is not known. In the present study, we sampled workers from some colonies of F. pratensis in Turkey and Bulgaria and obtained a pilosity data for each colony in the two countries. The comparison of our data with that of Seifert showed that the Bulgaria samples well fit with the pilosity data of P morph and Turkey samples were apparently less hairy but hairs are longer than all other populations. The results helped us to show that F. pratensis can have ecomorphological traits other than that fitting the definition of N and P morphs and that traits may differ from one to another population distributed even along in a small scale of area.
Supporting Institution
EU
Project Number
INTERREG – IPA CBC BULGARIA – TURKEY PROGRAMME 2014-2020 CCI NO 2014TC16I5CB005
Thanks
This study was finacially supported by the project CB005.2.12. 012 “Joint initiatives for the conservation of zonal European red wood ants facing the danger of extinction", INTERREG – IPA CBC BULGARIA – TURKEY PROGRAMME 2014-2020 CCI NO 2014TC16I5CB005
References
- [1] Williams, E. E. The origin of faunas. Evolution of lizard congeners in a complex island fauna: a trial analysis. In Evolutionary biology (pp. 47-89). Springer, New York, 1972.
- [2] Brady, S. G., Schultz, T. R., Fisher, B. L., Ward, P. S., Evaluating alternative hypotheses for the early evolution and diversification of ants. Proceedings of the National Academy of Sciences, C 103(48), S 18172-18177, 2006.
- [3] Branstetter, M. G., Revision of the Middle American clade of the ant genus Stenamma Westwood (Hymenoptera, Formicidae, Myrmicinae). ZooKeys, C 295, 1, 2013.
- [4] Gillespie, R., Community assembly through adaptive radiation in Hawaiian spiders. Science, C 303(5656), S 356-359, 2004.
- [5] Gillespie, R. G., Benjamin, S. P., Brewer, M. S., Rivera, M. A. J., Roderick, G. K., Repeated diversification of ecomorphs in Hawaiian stick spiders. Current Biology, C 28(6), S 941-947, 2018.
- [6] Gibb, H., Stoklosa, J., Warton, D. I., Brown, A. M., Andrew, N. R., Cunningham, S. A., Does morphology predict trophic position and habitat use of ant species and assemblages?. Oecologia, C 177(2), S 519-531, 2015.
- [7] Guilherme, D. R., Souza, J. L. P., Franklin, E., Pequeno, P. A. C. L., das Chagas, A. C., Baccaro, F. B., Can environmental complexity predict functional trait composition of ground-dwelling ant assemblages? A test across the Amazon Basin. Acta Oecologica, C 99, S 103434, 2019.
- [8] Weiser, M. D., Kaspari, M., Ecological morphospace of New
World ants. Ecological Entomology, C 31, S 131–142, 2006.
- [9] Sosiak, C. E., Barden, P., Multidimensional trait morphology predicts ecology across ant lineages. Functional Ecology, C 35(1), S 139-152, 2021.
- [10] Brown Jr, W. L., Wilson, E. O., The evolution of the dacetine ants. The Quarterly Review of Biology, C 34(4), S 278-294, 1959.
- [11] Seifert, B., Formica nigricans EMERY, 1909-an ecomorph of Formica pratensis RETZIUS, 1783 (Hymenoptera, Formicidae). Entomologica Fennica, C 2(4), S 217-226, 1992.
- [12] Kutter, H., Hymenoptera - Formicidae. - Fauna Insecta Helvetica 6. Zurich, 1977.
- [13] Collingwood, C. A., The Formicidae of Fennoscandia and Denmark. - Fauna Entomol. Scandinavica 8. Klampenborg, 1979.
- [14] Dlusskii , G., Ants of the genus Formica. (In Russian) - Izd. Nauka, Moscow, 1967.
- [15] Paraschievescu, D., Pozitia sistematica a speciilor Formica pratensis Retz. si F. nigricans Emery.- Stud. Cercet. Bioi. Seria Zoologie, C 24(6), S 527-535, 1972.
- [16] Antonova, V., Marinov, M. P., Red wood ants in Bulgaria: distribution and density related to habitat characteristics. Journal of Hymenoptera Research, C 85, S 135, 2021.
- [17] Lapeva-Gjonova, A., Antonova, V., Radchenko, A., Atanasova, M., Catalogue of the ants (Hymenoptera: Formicidae) of Bulgaria. ZooKeys, C 62, S 1–124, 2010.
- [18] Lapeva-Gjonova, A., Antonova, V., Ljubomirov, T., Ants (Hymenoptera, Formicidae) ofSarnena Sredna Gora Mountains (Bulgaria). In: Georgiev D, Bechev D, Yancheva V (Eds) Fauna of Sarnena Sredna Gora Mts, Part 2, Zoonotes, Supplement 10: 18–27, 2021.
- [19] Çamlıtepe, Y., Aksoy, V., Distribution and Conservation Status of the European Red Wood Ant Species Formica pratensis Retzius, 1783 (Hymenoptera, Formicidae) in (European) Turkey. Journal of the Entomological Research Society, C 21(2), S 199-211, 2019.
- [20] Kıran, K., Karaman, C., First annotated checklist of the ant fauna of Turkey (Hymenoptera: Formicidae), Zootaxa, C 3548(1), S 1-38, 2012.
- [21] Kıran, K., Karaman, C., Additions to the ant fauna of Turkey (Hymenoptera, Formicidae), Zoosystema, C 42, S 285-329, 2020.
- [22] Czechowski, W., Radchenko, A., Do permanently mixed colonies of wood ants (Hymenoptera: Formicidae) really exist?. Annales Zoologici, C 56(4), S 667-673, 2006.
- [23] Yates, M. L., Andrew, N. R., Binns, M., Gibb, H., Morphological traits: Predictable responses to macrohabitats across a 300 km scale. PeerJ, 2, e271, 2014.
- [24] Buxton, J. T., Robert, K. A., Marshall, A. T., Dutka, T. L., Gibb, H., A cross-species test of the function of cuticular traits in ants (Hymenoptera: Formicidae). Myrmecological News, C 31, S 31-46, 2021.
- [25] Fedoseeva, E. B., Morphometric characteristics of Formica aquilonia ants in monitoring of their settlements. Entomological Review, C 91(2), S 152-168, 2011.
TÜRKİYE-BULGARİSTAN SINIR BÖLGESİNDEKİ AVRUPA KIRMIZI ORMAN KARINCASININ (FORMICA PRATENSIS RETZIUS, 1783) MORFOMETRİK KARAKTERLERİ ÜZERİNE BİR ÖN ÇALIŞMA
Year 2021,
, 187 - 195, 31.12.2021
Yılmaz Çamlıtepe
,
Volkan Aksoy
,
Albena Lapeva-gjonova
,
Kaan Yence
Cansu Dumlu
,
Ilia Gjonov
Abstract
Formica pratensis (Hymenoptera: Formiciadae) orman karıncaları grubunun bir üyesidir ve Avrupa’da güneyde daha yaygın olan kıllı N morf ile kuzeyde daha yaygın olan daha az kıllı P morf ile temsil edilmektedir. Tür Türkiye’de Trakya Bölgesinde ve Bulgaristan’ın bu bölgeye komşu sınır alanlarında doğal olarak yayılış göstermektedir. Bernhard Seifert’in daha önceki çalışmaları güney Bulgaristan’da türün N morfunun baskın olduğunu göstermişken Türkiye’deki durumu bilinmemektedir. Bu çalışmada Türkiye ve Bulgaristan’dan bazı F. pratensis kolonilerinden işçi sınıfına giren karıncalar örneklenmiş ve her iki ülke örnekleri için bir kıllılık veri seti oluşturulmuştur. Elde edilen veri setinin Seifert’in bulguları ile karşılaştırılması Bulgaristan’daki örneklerin P morf ile uyuştuğunu, Türkiye örneklerinin ise belirgin şekilde daha az kıllı olduğunu ancak bu kılların diğer tüm populasyonlardakinden daha uzun olduğunu göstermiştir. Sonuçlar F. pratensis’in N ve P morf tanımlarına uyanlar dışında ekomorfolojik özelliklere sahip olabileceğini ve bu özelliklerin çok dar bir alanda dağılım gösteren populasyonlar arasında dahi farklılık gösterebileceğini göstermemize olanak tanımıştır.
Project Number
INTERREG – IPA CBC BULGARIA – TURKEY PROGRAMME 2014-2020 CCI NO 2014TC16I5CB005
References
- [1] Williams, E. E. The origin of faunas. Evolution of lizard congeners in a complex island fauna: a trial analysis. In Evolutionary biology (pp. 47-89). Springer, New York, 1972.
- [2] Brady, S. G., Schultz, T. R., Fisher, B. L., Ward, P. S., Evaluating alternative hypotheses for the early evolution and diversification of ants. Proceedings of the National Academy of Sciences, C 103(48), S 18172-18177, 2006.
- [3] Branstetter, M. G., Revision of the Middle American clade of the ant genus Stenamma Westwood (Hymenoptera, Formicidae, Myrmicinae). ZooKeys, C 295, 1, 2013.
- [4] Gillespie, R., Community assembly through adaptive radiation in Hawaiian spiders. Science, C 303(5656), S 356-359, 2004.
- [5] Gillespie, R. G., Benjamin, S. P., Brewer, M. S., Rivera, M. A. J., Roderick, G. K., Repeated diversification of ecomorphs in Hawaiian stick spiders. Current Biology, C 28(6), S 941-947, 2018.
- [6] Gibb, H., Stoklosa, J., Warton, D. I., Brown, A. M., Andrew, N. R., Cunningham, S. A., Does morphology predict trophic position and habitat use of ant species and assemblages?. Oecologia, C 177(2), S 519-531, 2015.
- [7] Guilherme, D. R., Souza, J. L. P., Franklin, E., Pequeno, P. A. C. L., das Chagas, A. C., Baccaro, F. B., Can environmental complexity predict functional trait composition of ground-dwelling ant assemblages? A test across the Amazon Basin. Acta Oecologica, C 99, S 103434, 2019.
- [8] Weiser, M. D., Kaspari, M., Ecological morphospace of New
World ants. Ecological Entomology, C 31, S 131–142, 2006.
- [9] Sosiak, C. E., Barden, P., Multidimensional trait morphology predicts ecology across ant lineages. Functional Ecology, C 35(1), S 139-152, 2021.
- [10] Brown Jr, W. L., Wilson, E. O., The evolution of the dacetine ants. The Quarterly Review of Biology, C 34(4), S 278-294, 1959.
- [11] Seifert, B., Formica nigricans EMERY, 1909-an ecomorph of Formica pratensis RETZIUS, 1783 (Hymenoptera, Formicidae). Entomologica Fennica, C 2(4), S 217-226, 1992.
- [12] Kutter, H., Hymenoptera - Formicidae. - Fauna Insecta Helvetica 6. Zurich, 1977.
- [13] Collingwood, C. A., The Formicidae of Fennoscandia and Denmark. - Fauna Entomol. Scandinavica 8. Klampenborg, 1979.
- [14] Dlusskii , G., Ants of the genus Formica. (In Russian) - Izd. Nauka, Moscow, 1967.
- [15] Paraschievescu, D., Pozitia sistematica a speciilor Formica pratensis Retz. si F. nigricans Emery.- Stud. Cercet. Bioi. Seria Zoologie, C 24(6), S 527-535, 1972.
- [16] Antonova, V., Marinov, M. P., Red wood ants in Bulgaria: distribution and density related to habitat characteristics. Journal of Hymenoptera Research, C 85, S 135, 2021.
- [17] Lapeva-Gjonova, A., Antonova, V., Radchenko, A., Atanasova, M., Catalogue of the ants (Hymenoptera: Formicidae) of Bulgaria. ZooKeys, C 62, S 1–124, 2010.
- [18] Lapeva-Gjonova, A., Antonova, V., Ljubomirov, T., Ants (Hymenoptera, Formicidae) ofSarnena Sredna Gora Mountains (Bulgaria). In: Georgiev D, Bechev D, Yancheva V (Eds) Fauna of Sarnena Sredna Gora Mts, Part 2, Zoonotes, Supplement 10: 18–27, 2021.
- [19] Çamlıtepe, Y., Aksoy, V., Distribution and Conservation Status of the European Red Wood Ant Species Formica pratensis Retzius, 1783 (Hymenoptera, Formicidae) in (European) Turkey. Journal of the Entomological Research Society, C 21(2), S 199-211, 2019.
- [20] Kıran, K., Karaman, C., First annotated checklist of the ant fauna of Turkey (Hymenoptera: Formicidae), Zootaxa, C 3548(1), S 1-38, 2012.
- [21] Kıran, K., Karaman, C., Additions to the ant fauna of Turkey (Hymenoptera, Formicidae), Zoosystema, C 42, S 285-329, 2020.
- [22] Czechowski, W., Radchenko, A., Do permanently mixed colonies of wood ants (Hymenoptera: Formicidae) really exist?. Annales Zoologici, C 56(4), S 667-673, 2006.
- [23] Yates, M. L., Andrew, N. R., Binns, M., Gibb, H., Morphological traits: Predictable responses to macrohabitats across a 300 km scale. PeerJ, 2, e271, 2014.
- [24] Buxton, J. T., Robert, K. A., Marshall, A. T., Dutka, T. L., Gibb, H., A cross-species test of the function of cuticular traits in ants (Hymenoptera: Formicidae). Myrmecological News, C 31, S 31-46, 2021.
- [25] Fedoseeva, E. B., Morphometric characteristics of Formica aquilonia ants in monitoring of their settlements. Entomological Review, C 91(2), S 152-168, 2011.