Iron age burial mounds as refugia for steppe specialist plants and invertebrates – case study from the Zsolca mounds (NE Hungary)
Ključne besede:
kurgan, prehistoric mound, loess steppe, biodiversity, cropland matrix, microhabitat, slope, ground-dwelling invertebratesPovzetek
Prehistoric mounds of the Great Hungarian Plain often function as refuges for relic loess steppe vegetation and their associated fauna. The Zsolca mounds are a typical example of kurgans acting as refuges, and even though they are surrounded by agricultural land, they harbour a species rich loess grassland with an area of 0.8 ha. With a detailed field survey of their geomorphology, soil, flora and fauna, we describe the most relevant attributes of the mounds regarding their maintenance as valuable grassland habitats. We recorded 104 vascular plant species, including seven species that are protected in Hungary and two species (Echium russicum and Pulsatilla grandis) listed in the IUCN Red List and the Habitats Directive. The negative effect of the surrounding cropland was detectable in a three-metre wide zone next to the mound edge, where the naturalness of the vegetation was lower, and the frequency of weeds, ruderal species and crop plants was higher than in the central zone. The ancient man-made mounds harboured dry and warm habitats on the southern slope, while the northern slopes had higher biodiversity, due to the balanced water supplies. Both microhabitats had different assemblages of grounddwelling invertebrates.
Prenosi
Literatura
Barczi, A., Joo, K., Pető, A. & Bucsi, T. 2006: Survey of the Buried Paleosol under the Lyukas Mound in Hungary. Eurasian Soil Science 39 (1): 133–140.
Bede, A., Salisbury, R. B., Csatho, A. I., Czukor, P., Pall, D. G., Szilagyi, G. & Sumegi, P. 2015: Report of the complex geoarcheological survey at the Ecse-halom kurgan in Hortobagy, Hungary. Central European Geology 58(3): 268–289. doi: https://doi. org/10.1556/24.58.2015.3.5
Biro, M., Boloni, J. & Molnar, Zs. 2018: Use of long-term data to evaluate loss and endangerment status of Natura 2000 habitats and effects of protected areas. Conservation Biology 3: 660–671. doi:https://doi.org/10.1111/cobi.13038
Borhidi, A. 1993: A magyar flora szocialis magatartastipusai, termeszetessegi es relativ okologiai ertekszamai [Social behavior-types, naturalness and relative ecological values of the Hungarian flora]. JPTE Novenytani Tanszek, Pecs, p. 93. (in Hungarian)
Csatho, A. I. 2011: Az elsődleges es masodlagos mezsgyek novenyzetenek osszehasonlito vizsgalata a battonyai Granic- es Csarda-dűlő peldajan [Differences between the vegetation of primary and secondary verges – examples of the Granic- and Csarda-dűlő, Battonya]. Tajokologiai Lapok 9 (2): 345–356. (in Hungarian)
Deak, B., Torok, P., Tothmeresz, B. & Valko, O. 2015: A hencidai Mondro-halom, a loszgyep-vegetacio őrzője [The Mondro-mound of Hencida, guardian of the loess-grassland vegetation]. Kitaibelia 20 (1): 143–149. (in Hungarian)
Deak, B, Tothmeresz, B., Valko, O., Sudnik-Wojcikowska, B., Moysiyenko, I.I., Bragina, T.M., Apostolova, I., Dembicz, I., Bykov, N.I. & Torok, P. 2016a: Cultural monuments and nature conservation: a review of the role of kurgans in the conservation and restoration of steppe vegetation. Biodiversity and Conservation 25: (293) 1–18. doi:https://doi.org/10.1007/s10531-016-1081-2
Deak, B., Valko, O., Torok, P. & Tothmeresz, B. 2016b: Factors threatening grassland specialist plants – A multi-proxy study on the vegetation of isolated grasslands. Biological Conservation 204: 255–262. doi: https://doi.org/10.1016/j.biocon.2016.10.023
Deak, B., Tolgyesi, Cs., Kelemen, A., Batori, Z., Galle, R., Bragina, T.M., Abil, Y.A. & Valko, O. 2017: The effects of micro-habitats and grazing intensity on the vegetation of burial mounds in the Kazakh steppes. Plant Ecology and Diversity 10: 509–520. doi: https://doi.org/10.1080/17550874.2018.1430871
Deak, B., Valko, O., Torok, P., Kelemen, A., Bede, A., Csatho, A.I. & Tothmeresz, B. 2018: Landscape and habitat and filters jointly drive richness and abundance of grassland specialist plants in terrestrial habitat islands. Landscape Ecology 33: 1117–1132. doi: https://doi.org/10.1007/s10980-018-0660-x
Deak, B., Tothcs, Cs. A., Bede, A., Apostolova, I., Bragina, T. M., Bathori, F., Ban, M. 2019: Eurasian Kurgan Database – a citizen science tool for conserving grasslands on historical sites. Hacquetia 18 (2): doi: 10.2478/hacq-2019-0007
Dembicz, I., Moysiyenko, I. I., Shaposhnikova, A., Vynokurov, D., Kozub, L. & Sudnik-Wojcikowska, B. 2016: Isolation and patch size drive specialist plant species density within steppe islands: A case study of kurgans in southern Ukraine. Biodiversity and Conservation 25(12): 2289–2307. doi: https://doi.org/10.1007/s10531-016-1077-y
Diamond, J.M., & May, R.M. 1976: Island biogeography and the design of nature reserves. In May, R.M (ed.): Theoretical Ecology, Principles and Application. Blackwell Scientific Publications, Oxford. 163-186.
Ellenberg, H., Weber, E. H., Dull, R., Wirth, V., Werner, W. & Paulisen, D. 1992: Zeigerwerte von Pflanzen in Mitteleuropa (Indicator values of plants in Central Europe), Scripta Geobotanica 18.
Verlag Erich Goltze KG, Gottingen, 258. (in German) Galle, L., Győrffy, Gy., Hornung, E., Kocsis, A., Kormoczi, L., Szőnyi, G. & Vajda, Z. 1992: Arthropod communities of ecological islands surrounded by agricultural fields. In Zombori, L., Peregovits, L., (eds.), Proc. 4th European Congress of Entomology and XIII Internationale Symposium fur die Entomofaunistik Mitteleuropas, 1–6 September 1991, Godollő, Hungary pp. 286–290.
Godo, L., Tothmeresz, B., Valko, O., Toth, K., Radocz, S., Kiss, R., Kelemen, A., Torok, P., Švamberkova, E. & Deak, B. 2018: Ecosystem engineering by foxes is mediated by isolation in grassland fragments. Ecology and Evolution 8(14): 7044–7054. doi: https://doi.org/10.1002/ece3.4224
Jones, M. 2007: The European Landscape Convention and the question of public participation. Landscape Research 32: 613–633. doi: https://doi.org/10.1080/01426390701552753
Joo, K. 2003: Kunhalomkutatasok (A Csipő-halom vegetacioja). [Researches on kurgans (The vegetation of Csipő-mound)]. TajokologiaiLapok 1(1): 87–96. (in Hungarian)
Kitov, G. 1993: The Thracian tumuli. Thracia 10: 39–80.
Krausz, K. & Papai, J. 2004: Egyenesszarnyu rovarok izolatumdinamikai vizsgalata kunhalmokon (Studies on the Orthoptera isolation-dynamics on kurgans). In Toth, A. (ed.): A kunhalmokrol mas szemmel. Kisujszallas-Debrecen, pp. 89–107. (in Hungarian)
Lisetskii, F., Goleusov, V.P., Moysiyenko, I.I. & Sudnik-Wojcikowska, B. 2014: Microzonal distribution of soils and plants along the catenas of mound structures. Contemporary Problems in Ecology 7: 282–293. doi: https://doi.org/10.1134/S1995425514030111
Lisetskii, F., Sudnik-Wojcikowska, B. & Moysiyenko, I. 2016: Flora differentiation among local ecotopes in the transzonal study of foreststeppe and steppe mounds. Biology Bulletin 43(2): 169–176. doi:https://doi.org/10.1134/S1062359016010106
Molnar, M., Joo, K., Barczi, A., Szanto, Zs., Futo, I., Palcsu, L. & Rinyu, L. 2004: Dating of total soil organic matter used in kurgan studies. Radiocarbon 46 (2): 413–419.
Molnar, M. & Svingor, E. 2011: An interpretation of the soil 14C results of the Hajdunanas-Tedej-Lyukas-halom kurgan. Kurgan Studies: An environmental and archaeological multiproxy study of burial mounds in the Eurasian steppe zone. BAR International Series
(11): 255–258.
Molnar V., A., Loki, V., Mate, A., Molnar, A., Takacs, A., Nagy, T., Lovas-Kiss, A., Lukacs, B.A., Sramko, G. & Tokolyi, J. 2017: The occurrence of Spiraea crenata and other rare steppe plants in Pannonian graveyards. Biologia 72: 500–509. https://doi.org/10.1515/biolog-2017-0060
Molnar V., A., Meszaros, A., Csatho, A.I., Balogh, G., Takacs, A., Loki, V., Lovas-Kiss, A., Tokolyi, J., Somlyay, L. & Bauer, N. 2018: Distribution and seed production of the rare, dry grassland specialist Sternbergia colchiciflora (Amaryllidaceae) in Pannonian cemeteries. Tuexenia 38: 371–384. doi: https://doi.org/10.14471/2018.38.015
Mozolevsky, B.N. & Polin, C.V. 2005: Kurgany skifskogo Gerossa IVB (Babina vodjana i cobolena mogili) [Kurgans of Scythian Gerros of 4th B.C. (Babina, Vodjana and Soboleva mogily)]. Stilos Publishing, Kiev.
Ponomareva, V. V. & Plotnikova, T. A. 1980: Gumus i Pochvoobrazovanie (Humus and Pedogenesis), Nauka, Leningrad. 65–74.
Selmeczi, L. 1971: Angaben und Gesichtspunkte zur archaologischen Forschung nach den Kumanen im Komitat Szolnok. Mora Ferenc Muzeum Evkonyve 2. pp. 187–197.
Simon, T. 1992: A magyarorszagi edenyes flora hatarozoja [Guide of the vascular flora in Hungary]. Tankonyvkiado, Budapest. 892 pp. (in Hungarian)
Sudnik-Wojcikowksa, B., Moysiyenko, I.I. & Zachwatowicz, M. 2011: The value and need for protection of kurgan flora in the anthropogenic landscape of steppe zone in Ukraine. Plant Biosystems 145: 638–653. doi: https://doi.org/10.1080/11263504.2011.601335
Szilagyi, G., Nafradi, K. & Sümegi, P. 2019: A preliminary chronological study to understand the construction phases of a Late Copper–Early Bronze Age kurgan (kunhalom). Central European Geology 62: 1–29. https://doi.org/10.1556/24.61.2018.11
Toth, Cs. 2006: Results of the national mound cadastering from the aspect of geological conservation. Acta Debrecina Geology, Geomorphology, Physical Geography Series Debrecen 1: 129–135.
Toth, Cs. & Toth, A. 2011: The complex condition assessment survey of kurgans in Hungary. In A. Pethő & A. Barczi (eds.), Kurgan Studies: An environmental and archaeological multiproxy study of burial mounds in the Eurasian steppe zone. BAR International Series 2238. 11: 9–17.
Toth, Cs., Pethe, M. & Hathazi, A. 2014: The application of earth science-based analyses on a twin-kurgan in Northern Hungary. Carpathian Journal of Earth and Environmental Sciences 9 (1): 11–20.
Valko, O., Toth, K., Kelemen, A., Miglecz, T., Radocz, S., Sonkoly, J., Tothmeresz, B., Torok, P. & Deak, B. 2018: Cultural heritage and biodiversity conservation – Plant introduction and practical restoration on ancient burial mounds. Nature Conservation 24: 65–80. doi:https://doi.org/10.3897/natureconservation.24.20019
Zolyomi, B. & Fekete, G. 1994: The Pannonian loess steppe: differentiation in space and time. Abstracta Botanica 18 (1): 29–41.
Prenosi
Kako citirati
Številka
Rubrike
Licenca
Avtorji jamčijo, da je delo njihova avtorska stvaritev, da v njem niso kršene avtorske pravice tretjih oseb ali kake druge pravice. V primeru zahtevkov tretjih oseb se avtorji zavezujejo, da bodo varovali interese založnika ter da bodo povrnili morebitno škodo.
Podrobneje v rubriki: Prispevki