@article{MTMT:34557965, title = {Társasági élet}, url = {https://m2.mtmt.hu/api/publication/34557965}, author = {Varga, Zoltán Sándor}, doi = {10.17112/FoliaEntHung.2023.84.167}, journal-iso = {FOL ENTOMOL HUNG}, journal = {FOLIA ENTOMOLOGICA HUNGARICA}, volume = {84}, unique-id = {34557965}, issn = {0373-9465}, year = {2023}, pages = {167-183} } @CONFERENCE{MTMT:34535790, title = {Noctuid pests in forests of Transcarpathia}, url = {https://m2.mtmt.hu/api/publication/34535790}, author = {Ludvig, Potish and Szanyi, Kálmán and Varga, Zoltán Sándor and Miklós, Tóth and Nagy, Antal and Szanyi, Szabolcs}, booktitle = {28. Tiszántúli Növényvédelmi Fórum: Program - Összefoglalók}, unique-id = {34535790}, year = {2023}, pages = {44-45}, orcid-numbers = {Szanyi, Szabolcs/0000-0002-2642-9839} } @article{MTMT:34396618, title = {Contributions to the taxonomy and biogeography of the genus Dichagyris (subg. Dichagyris) Lederer, 1867 (Lepidoptera, Noctuidae, Noctuinae) II. : The review of the D. forficula species group}, url = {https://m2.mtmt.hu/api/publication/34396618}, author = {Varga, Zoltán Sándor and Ronkay, Gábor and Ronkay, László}, doi = {10.17109/AZH.69.3.265.2023}, journal-iso = {ACTA ZOOLOG ACAD SCI HUNG}, journal = {ACTA ZOOLOGICA ACADEMIAE SCIENTIARUM HUNGARICAE}, volume = {69}, unique-id = {34396618}, issn = {1217-8837}, abstract = {The forficula species group of the Holarctic genus Dichagyris is revised based on the survey of type specimens and relevant materials of state and private collections. D. turana (Staudinger, [1892]) stat. rev. and D. furiosa (Bang-Haas, 1912) stat. rev. are elevated to specific status and lectotypes are designated, D. forficula devota (Christoph, 1884) stat. rev. is downgraded to subspecies. The specific status of D. erubescens (Staudinger, [1892]) and D. contermina (Corti, 1930) is confirmed. The junior synonymy of D. devota eremica (Amsel, 1935) with D. forficula devota (Christoph, 1884) was constated. Seven new subspecies (D. forficula akdagestana ssp. n., D. forficula pseudoturana ssp. n., D. forficula chitralensis ssp. n., D. turana cisiliensis ssp. n., D. furiosa kugitanga ssp. n., D. furiosa griseoerythra ssp. n. and D. contermina melanographa ssp. n.) are described, with considerations on the phyletic lines and biogeography of the taxa of the D. forficula species complex. With 79 figures.}, year = {2023}, eissn = {2064-2474}, pages = {265-301}, orcid-numbers = {Ronkay, Gábor/0000-0001-8571-6312} } @article{MTMT:34083440, title = {Catches of Euxoa tritici in pheromone traps for Anarsia lineatella are due to the presence of ( Z )‐5‐decenyl acetate as an impurity}, url = {https://m2.mtmt.hu/api/publication/34083440}, author = {Nagy, Antal and Szarukán, István and Bohman, Björn and Szanyi, Szabolcs and Kozák, Lajos and Szilágyi, Arnold and Imrei, Zoltán and Vuts, József and Matula, Eszter Bernadett and Varga, Zoltán Sándor and Tóth, Miklós}, doi = {10.1111/eea.13356}, journal-iso = {ENTOMOL EXP APPL}, journal = {ENTOMOLOGIA EXPERIMENTALIS ET APPLICATA}, volume = {171}, unique-id = {34083440}, issn = {0013-8703}, keywords = {Gelechiidae}, year = {2023}, eissn = {1570-7458}, pages = {821-827}, orcid-numbers = {Szanyi, Szabolcs/0000-0002-2642-9839} } @article{MTMT:34065401, title = {Catalogue of the Lepidoptera of Iran}, url = {https://m2.mtmt.hu/api/publication/34065401}, author = {Rajaei, Hossein and Aarvik, Leif and Arnscheid, Wilfried R and Baldizzone, Giorgrgio and Bartsch, Daniel and Bengtsson, Bengt A and Bidzilya, Oleksiy and Buchner, Peter and Buchsbaum, Ulf and Buszko, Jarosław and Dubatolov, Vvladimir V and Erlrlacher, Sven and Esfandiari, Mehdi and De Freina, Josef J and Gaedike, Reinhard and Gyulai, Péter and Hausmann, Axel and Haxaire, Jean and Hobern, Donald and Hofmann, Axel and Ignatev, Nikolai and Kaila, Lauri and Kallllies, Axel and Keil, Thomas and Kiss, Á and Kitching, Ian J and Kun, Andras and László, Gyula M and Leraut, Guillllaume and Malllly, Richard and Matov, Alexey and Meineke, Jörgrg-Uwe and Melichar, Tomáš and Mey, Wolfram and Mironov, Vladimir and Müllller, Bernd and Naderi, Alireza and Nässig, Wolfgang A and Naumann, Stefan and Nazari, Vazrick and Van Nieukerken, Erik J and Nuss, Matthias and Pöllll, Norbrbert and Prozorov, Alexey M and Rabieh, Mohammad Mehdi and Rákosy, László and Rindoš, Michal and Rota, Jadranka and Rougerie, Rodolphlphlphe and Schintlmeister, Alexander and Shirvani, Asghghar and Sihvonen, Pasi and Simonsen, Thomas J and Sinev, Sergrgey Yu and Skou, Peder and Sobczyk, Thomas and Sohn, Jae-Cheon and Tabellll, Jukka and Tarmann, Gerhrhard and Tokárár, Zdenko and Trusch, Robert and Varga, Zoltán Sándor and Volynkin, Anton V and Wanke, Dominic and Yakovlev, Roman V and Zahiri, Reza and Zehzad, Payam and Zellller, Hans Chrhristof and Zolotuhin, Vadim V and Karsholt, Ole}, doi = {10.18476/2023.997558.7}, journal-iso = {Integr. Syst.}, journal = {Integrative Systematics}, volume = {6}, unique-id = {34065401}, issn = {2628-2380}, year = {2023}, pages = {121-459} } @article{MTMT:33556492, title = {Non‐target noctuids from traps with synthetic Spodoptera frugiperda pheromone lure in the Carpathian Basin, Central Europe}, url = {https://m2.mtmt.hu/api/publication/33556492}, author = {Szanyi, Szabolcs and Nagy, Antal and Varga, Zoltán Sándor and Tóth, Miklós}, doi = {10.1111/eea.13261}, journal-iso = {ENTOMOL EXP APPL}, journal = {ENTOMOLOGIA EXPERIMENTALIS ET APPLICATA}, volume = {171}, unique-id = {33556492}, issn = {0013-8703}, abstract = {The fall armyworm, Spodoptera frugiperda JE Smith (Lepidoptera: Noctuidae), is one of the most important invasive noctuid pests. Its appearance and rapid spread can be monitored with sex pheromone traps, but the catches can be confused by catches of non-target similar species. Here we present non-target catches of commercial pheromone traps of S. frugiperda in the Carpathian basin, which is a potential area of the pest. Sizable catches of Cucullia umbratica (L.), Agrotis bigramma (Esper), and Allophyes oxyacanthae (L.), common noctuids in East-Central Europe, were recorded in numerous sampling sites. Although they can be distinguished from the target species by their different morphology, it is necessary to draw the attention of agricultural experts to their possible presence in the traps to avoid misleading conclusions.}, year = {2023}, eissn = {1570-7458}, pages = {542-545}, orcid-numbers = {Szanyi, Szabolcs/0000-0002-2642-9839} } @article{MTMT:33575905, title = {Centres of endemism of Noctuidae (Lepidoptera) in the Palaearctic arid mountains: biogeographical and phylogenetic implications}, url = {https://m2.mtmt.hu/api/publication/33575905}, author = {Varga, Zoltán Sándor}, doi = {10.3897/contrib.entomol.72.e87196}, journal-iso = {BEITR ENTOMOL}, journal = {BEITRÄGE ZUR ENTOMOLOGIE}, volume = {72}, unique-id = {33575905}, issn = {0005-805X}, abstract = {The oreal fauna is connected with orographically limited non-arboreal habitats. Its chorological centres can be recognised by the high species-diversity of numerous typical genera, and by the accumulated occurrence of endemic species and/or subspecies of disjunct species. The oreal fauna is partitioned to the alpine type, as the faunal type of humid high-mountains with strong connections to the tundral zonobiome, and the xeromontane type, as the faunal type of arid high-mountains with close connections to the eremic zonobiomes. As the results of revisions of several Noctuinae genera, species groups and/or sister species were recognised and their distributions were mapped. The restricted areas of allopatric sister species, often described by us as new for science, fulfil the criteria of the “areas of endemism”. Core areas of the Palaearctic xeromontane Noctuidae, outlined by the distribution of endemic species, have been proven by the occurrence of allopatric subspecies of polytypic species, and/or by the presence of allopatric sister species. In the revised genera of Noctuidae several types of allopatric speciation have been identified based on the analysis of the areas of endemism and of vicariance patterns. As a result of these analyses, it is proved that allopatric sister species, as elementary monophyletic supraspecific units, are suitable for phylogenetic biogeographical surveys. Although the major part of the xeromontane fauna appears to be range-restricted, a considerable fraction of the species could have expanded into the steppic zonobiome due to adaptive changes of their life cycles. High diversity of cold-adapted species originated from the Sino-Himalayan mountains by passing two main filtercorridors. One track of this bifurcation was directed across the “Rhododendron-corridor” to the Holarctic taiga zone while the other one, across the “Xeromontane filter-corridor” to the mountain systems of Central and Inner Asia. This bifurcation becomes apparent from the taxonomic division of the genera, composing both of these main faunal types. Supposedly, the faunal movements of the xeromontanean species in the West Palaearctic had been shaped by the Messinian salinity crisis and, additionally, significantly influenced by the Mid-Pleistocene climatic transition which deeply transformed the zonality of the vegetation by cooling and aridisation of vast areas.}, year = {2022}, pages = {1-35} } @article{MTMT:33267674, title = {A Chemical Lure for Trapping Both Sexes of Amata phegea L.}, url = {https://m2.mtmt.hu/api/publication/33267674}, author = {Szanyi, Szabolcs and Nagy, Antal and Szarukán, István and Varga, Zoltán Sándor and Jósvai, Júlia Katalin and Tóth, Miklós}, doi = {10.3390/insects13111051}, journal-iso = {INSECTS}, journal = {INSECTS}, volume = {13}, unique-id = {33267674}, abstract = {The addition of synthetic eugenol and benzyl acetate to the known floral chemical and moth attractant phenylacetaldehyde synergized the attraction of Amata phegea (Lepidoptera: Amatidae). Traps baited with the ternary blend caught ca. four times more A. phegea moths than traps baited with phenylacetaldehyde alone. Both female and male moths were attracted; in a preliminary test, the female numbers caught were almost double compared to the males. Most A. phegea were caught when the blend was formulated in a dispenser with medium release rates. Traps baited with the ternary lure in polyethylene bag dispensers detected a single well-pronounced peak in seasonal trapping, suggesting that this multicomponent bisexual lure could be efficient enough to be applied to the detection and monitoring of female and male A. phegea.}, year = {2022}, eissn = {2075-4450}, orcid-numbers = {Szanyi, Szabolcs/0000-0002-2642-9839; Jósvai, Júlia Katalin/0000-0002-7681-5885} } @article{MTMT:33060671, title = {Attractivity of various artificial light sources to caddisfly (Trichoptera) species and its importance in their sampling and conservation}, url = {https://m2.mtmt.hu/api/publication/33060671}, author = {Szanyi, Kálmán and Nagy, Antal and Varga, Zoltán Sándor and Potish, Ludvid and Szanyi, Szabolcs}, doi = {10.1007/s10841-022-00427-x}, journal-iso = {J INSECT CONSERV}, journal = {JOURNAL OF INSECT CONSERVATION}, volume = {26}, unique-id = {33060671}, issn = {1366-638X}, abstract = {The artificial light sources are useful tools for sampling night active insects, however, they also possess potential environmental risks in their habitats. To test their applicability and evaluate environmental risk for caddisflies (Trichoptera), the attractivity of different portable light traps working with LED, UV and mixed-white light sources was studied and compared with attractivity of traditionally used mercury-vapour lamp (in Jermy-type light trap), which is tool of sampling and street-light. Analysing 1135 caught individuals of 19 species light sources emitting different wavelength spectra showed different attractivity and selectivity on caddisflies both on species and family levels. Attractivity of mercury-vapour lamp was generally lower than the other tested light sources. We found that the most attractive wavelength range for caddisflies is between 360 and 407 nm. One of the tested LED and mixed-white lamps together could cover this spectrum and a high and wide spectral peak of mixed-white light source between 375 and 391 nm resulted additional catches considering both species and number of individuals. Lamps emitting between 360 and 407 nm may be both a useful tool for sampling caddisflies and dangerous source of light pollution along lowland water courses where the sampled species are common and widespread.}, year = {2022}, eissn = {1572-9753}, pages = {839-849}, orcid-numbers = {Szanyi, Kálmán/0000-0002-3455-6125; Potish, Ludvid/0000-0002-4173-8242; Szanyi, Szabolcs/0000-0002-2642-9839} } @article{MTMT:33001969, title = {Bisexual lures and their comparison with synthetic sex attractants for trapping Orthosia species (Lepidoptera: Noctuidae)}, url = {https://m2.mtmt.hu/api/publication/33001969}, author = {Szanyi, Szabolcs and Varga, Zoltán Sándor and Nagy, Antal and Jósvai, Júlia Katalin and Imrei, Zoltán and Tóth, Miklós}, doi = {10.1111/jen.13049}, journal-iso = {J APPL ENTOMOL}, journal = {JOURNAL OF APPLIED ENTOMOLOGY - ZEITSCHRIFT FUR ANGEWANDTE ENTOMOLOGIE}, volume = {146}, unique-id = {33001969}, issn = {0931-2048}, year = {2022}, eissn = {1439-0418}, pages = {1109-1115}, orcid-numbers = {Szanyi, Szabolcs/0000-0002-2642-9839; Imrei, Zoltán/0000-0002-2839-8239} }