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Journal articles on the topic 'Hemerobiidae'

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Published: 4 June 2021
Last updated: 19 February 2022

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1

Makarkin, Vladimir N., S. Bruce Archibald, and John D. Oswald. "New Early Eocene brown lacewings (Neuroptera: Hemerobiidae) from western North America." Canadian Entomologist 135, no. 5 (October 2003): 637–53. http://dx.doi.org/10.4039/n02-122.

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AbstractTwo Early Eocene hemerobiid species from the Okanagan Highland deposits of western North America are described: Wesmaelius mathewesisp. nov. (Quilchena, British Columbia, Canada) and Cretomerobius wehrisp. nov. (Republic, Washington, United States of America.). A poorly preserved specimen, possibly Hemerobiidae (Driftwood Canyon, British Columbia, Canada) is discussed. The systematic position of the genus Cretomerobius within the Hemerobiidae is unclear, but it appears to belong within (or possibly as the sister group to) the poorly differentiated Drepanacrinae–Megalominae–Drepanepteryginae grade of subfamilies. Wesmaelius mathewesi is the first fossil species to be assigned, although with some uncertainty, to this otherwise speciose and widely distributed extant genus. It also represents the oldest known material of the subfamily Hemerobiinae. Meso hemerobius jeholensis Ping is removed from the Hemerobiidae and treated as Neuroptera incertae sedis.
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2

MAKARKIN, VLADIMIR N., SONJA WEDMANN, and THOMAS WEITERSCHAN. "First record of a fossil larva of Hemerobiidae (Neuroptera) from Baltic amber." Zootaxa 3417, no. 1 (August 10, 2012): 53. http://dx.doi.org/10.11646/zootaxa.3417.1.3.

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A fossil larva of Hemerobiidae (Neuroptera) is recorded for the first time from Baltic amber. The subfamilial and generic affinities of this larva are discussed. It is assumed that it may belong to Prolachlanius resinatus, the most common hemerobiid species from the Eocene Baltic amber forest. An updated list of extant species of Hemerobiidae with described larvae is provided.
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3

Oswald, John D. "A new phylogenetically basal subfamily of brown lacewings from Chile (Neuroptera: Hemerobiidae)." Insect Systematics & Evolution 25, no. 3 (1994): 295–302. http://dx.doi.org/10.1163/187631294x00090.

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AbstractA new genus and species, Adelphohemerobius enigmaramus, is described from Chile and assigned to a new subfamily, Adelphohemerobiinae, of the neuropterous family Hemerobiidae (brown lacewings). A cladistic analysis of morphological data derived from the unique female holotype of A. enigmaramus supports the conclusion that it represents the sister-group of the family Hemerobiidae sensu Oswald (1993a). The holotype of A. enigmaramus is interpreted to be the first non-teratological hemerobiid specimen known to possess a single 'radial sector', i.e., only the true ancestral Rs.
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4

MAKARKIN, VLADIMIR N., and EVGENY E. PERKOVSKY. "A new species of Proneuronema (Neuroptera: Hemerobiidae) from late Eocene Rovno amber." Zootaxa 4718, no. 2 (January 7, 2020): 292–300. http://dx.doi.org/10.11646/zootaxa.4718.2.11.

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Proneuronema sidorchukae sp. nov. (Neuroptera: Hemerobiidae: Drepanepteryginae) is described from the late Eocene Rovno amber, Ukraine. It is most similar to P. minor from Baltic amber, but easily distinguished from it by some crossveins in the third gradate series of the forewing broadly margined with dark brown, the proximal part of the costal space narrower, and proximal subcostal veinlets more oblique. The new species is the smallest known of the genus, with a forewing length of 5.9 mm. Rovno amber hemerobiids show a tendency to decrease in size compared to congeneric or conspecific specimens from Baltic amber. The morphology and terminology of the mesonotum in Hemerobiidae is discussed.
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5

LARA, Rogéria Inês Rosa, and Nelson Wanderley PERIOTO. "Updated checklist of Hemerobiidae (Neuroptera) from Brazil and new distributional records in the Neotropical Region." Acta Amazonica 46, no. 4 (December 2016): 425–32. http://dx.doi.org/10.1590/1809-4392201600883.

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ABSTRACT Hemerobiidae (Insecta, Neuroptera) is a cosmopolitan clade that comprises about 600 described species distributed into 26 genera. Since the publication of revisions to Hemerobius, Megalomus, Nusalala and Nomerobius, new records have been added in literature and taxonomic modifications have occurred at the genus level. The aim of this study was to update a checklist of Hemerobiidae species from Brazil and of specimens deposited at Coleção de Invertebrados do Instituto Nacional de Pesquisa da Amazônia (INPA), Manaus, Brazil; in order to summarize the geographical data of species in Brazilian states and in the Neotropical Region and to present new distributional data. The INPA collection holds 19 nominal species (55.2% of the all specimens identified at species level) of hemerobiids into eight genera and six subfamilies, mainly from the Neotropical Region; the remaining studied specimens were identified to the genus level. Megalomus marginatus is reported for the first time in Brazil and Nusalala dispar in Ecuador. Moreover, ten new records for the Brazilian states are presented: two to Nusalala tessellata and Hemerobius, and one each to Megalomus impudicus, Notiobiella maculata, Sympherobius ariasi, Megalomus, Nusalala and Sympherobius.
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6

JEPSON, JAMES E., DAVID PENNEY, and DAVID I. GREEN. "A new species of brown lacewing (Neuroptera: Hemerobiidae) from Eocene Baltic amber." Zootaxa 2692, no. 1 (November 30, 2010): 61. http://dx.doi.org/10.11646/zootaxa.2692.1.4.

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A new species of brown lacewing (Insecta: Neuroptera: Hemerobiidae) is described from Eocene Baltic amber. Sympherobius siriae sp. nov. is the second fossil species of the genus so far described. The other, Sympherobius completus Makarkin et Wedmann is also from Baltic amber. The fossil record of Hemerobiidae is reviewed.
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7

New, TR. "Hemerobiidae (Insecta : Neuroptera) from New Guinea." Invertebrate Systematics 2, no. 5 (1988): 605. http://dx.doi.org/10.1071/it9880605.

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Eighteen species of Hemerobiidae are recorded from New Guinea, and keys provided for their separation. They represent six genera: Notiobiella (five spp.), Psectra (four), Zachobiella (one), Megalomina (one), Hemerobius (three) and Micromus (four). Nine species are described as new (three Notiobiella, three Psectra, two Hemerobius and one Micromus) and a further two singletons noted as possibly new but not named. Few species appear to be common, and five (possibly six) occur also in Australia.
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8

De Melo, Márcio Aparecido, Maria de Lourdes Nascimento Maitan Araújo, and Caleb Califre Martins. "Entomofauna de Hemerobiidae (Neuroptera) em sistema de cultivo orgânico e convencional de frutíferas no município de Avaré, SP, Brasil." Revista de Biologia Neotropical / Journal of Neotropical Biology 17, no. 2 (October 17, 2020): 121–29. http://dx.doi.org/10.5216/rbn.v17i2.64864.

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Hemerobiídeos possuem importância em programas de controle biológico de pragas agrícolas, pois se alimentam de artrópodes pragas associados às diversas culturas, porém dados de sua biologia e distribuição ainda são escassos. Devido à sua importância e a escassez de dados, o presente estudo teve como objetivo realizar um levantamento de espécies de Hemerobiidae em frutíferas submetidas a sistemas de cultivo orgânico e convencional da região de Avaré, São Paulo, com o intuito de auxiliar futuros programas de controle biológico que possam utilizar hemerobiídeos como agente predador controlador. Durante um ano realizaram-se coletas com armadilhas tipo McPhail e atrativo de suco de manga em espécies de frutíferas. No total coletaram-se 22 espécimes de quatro espécies de três gêneros de Hemerobiidae, 16 espécimes de Hemerobius domingensis Banks, 1941, Megalomus impudicus (Gerstaecker, 1888), Megalomus rafaeli Penny & Monserrat, 1985 e Nusalala tessellata (Gerstaecker, 1888) foram coletadas em frutíferas submetidas ao sistema de cultivo orgânico, e seis espécimes de M. rafaeli e N. tessellata foram coletados em frutíferas submetidas ao sistema de cultivo convencional. A maior diversidade de Hemerobiidae foi observada em frutíferas submetidas ao sistema de cultivo orgânico, provavelmente devido a sua maior diversidade vegetacional e ao não uso de produtos fitossanitários.
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9

Bozdoğan, Hakan, İsmail Özcan, Ali Satar, and Sadreddin Tusun. "Notes on the Seasonal and Ecological Dynamics Of Some Hemerobiidae Family Latreille, 1803 (Neuroptera: Hemerobiidae) Species In Osmaniye Province, East Mediterranenan Anatolia." Afyon Kocatepe University Journal of Sciences and Engineering 16, no. 3 (September 1, 2016): 484–94. http://dx.doi.org/10.5578/fmbd.10749.

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10

Makarkin, Vladimir N. "The brown lacewings from Vietnam (Neuroptera Hemerobiidae)." Tropical Zoology 6, no. 2 (November 1993): 217–26. http://dx.doi.org/10.1080/03946975.1993.10539222.

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11

Gruppe, Axel, and Holger Schubert. "The spatial distribution and plant specificity of Neuropterida in different forest sites in Southern Germany (Raphidioptera and Neuroptera)." Beiträge zur Entomologie = Contributions to Entomology 51, no. 2 (December 16, 2001): 517–27. http://dx.doi.org/10.21248/contrib.entomol.51.2.517-527.

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In Wäldern unterschiedlicher Struktur wurde die Neuropteriden-Fauna mit Fallen im Kronenraum sowie in Bodennähe erfaßt. Die fünf Wälder bilden einen Gradienten hinsichtlich der Baumartenzusammensetzung, der vom fichtendominierten Wirtschaftswald über Wirtschaftswälder mit zunehmendem Laubholzanteil bis hin zu einem ungenutzten Laubwald reicht. In den Jahren 1995 bis 1997 wurden insgesamt 1396 Neuropterida aus 44 Arten der Familien Raphidiidae, Coniopterygidae, Hemerobiidae und Chrysopidae gefangen. Die meisten Individuen und Arten traten in Lufteklektoren im Kronenraum auf. Die Artenzusammensetzung unterschied sich sowohl zwischen den Wäldern als auch zwischen den Baumarten. Die meisten Arten wurden auf Eiche (Quercus petraea) gefangen, gefolgt von Lärche (Larix decidua), Fichte (Picea abies) und Buche (Fagus sylvatica). 18 Arten traten in den Fängen selten auf. Die häufigeren Arte können in drei Gruppe eingeteilt werden, die i) vornehmlich auf Nadelhölzern, ii) vornehmlich auf Laubhölzern oder iii) auf beiden Gehölzarten gefangen wurden.StichwörterNeuropterida, Raphidioptera, Coniopterygidae, Hemerobiidae, Chrysopidae, canopy fauna, spatial distribution, plant specificity.
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12

SHI, YIJUAN, WEIWEI ZHANG, BO WANG, and XINGYUE LIU. "An unusual new genus and species of beaded lacewings (Neuroptera: Berothidae) from the mid-Cretaceous Burmese amber." Palaeoentomology 2, no. 5 (October 31, 2019): 453–64. http://dx.doi.org/10.11646/palaeoentomology.2.5.9.

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A new genus and species of the neuropteran family Berothidae from the mid-Cretaceous Burmese amber, namely Xiaoberotha bipunctata gen. et sp. nov., is described. In addition, an undetermined species of this new genus is also described. This new genus greatly differs from most known berothids by the presence of forewing ScA and the configuration of hind wing Cu that is not approximating posterior wing margin. The new genus superficially resembles Hemerobiidae by having the distinct, posteriorly curved forewing ScA and the two forewing cua-cup crossveins that are shared by many brown lacewing genera. However, no autapomorphy of Hemerobiidae could be confirmed to be present in the new species. Here we tentatively place this new genus in Berothidae by the configuration of the female gonocoxites 8, which is conspicuous and dorsoventrally extended. This unusual beaded lacewing genus highlights the morphological diversity of the extinct Berothidae.
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13

New, TR. "A revision of the Australian Hemerobiidae (Insecta : Neuroptera)." Invertebrate Systematics 2, no. 2 (1988): 339. http://dx.doi.org/10.1071/it9880339.

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The Australian Hemerobiidae are revised, and keys and illustrations provided to facilitate identification of all known species. The 34 species are referred to 10 genera, one of which (Notherobius) is described as new. Thirteen new species are described in the genera Psychobiella (one), Psectra (two), Carobius (six), Notherobius (three) and Zachobiella (one). Several specific synonyms are established, and the genera Oxybiella and Drepanomina are synonymised with Megalornina. Kimminsiella is synonymised with Psectra.
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14

Burrows, M., and M. Dorosenko. "Jumping mechanisms in lacewings (Neuroptera, Chrysopidae and Hemerobiidae)." Journal of Experimental Biology 217, no. 23 (October 30, 2014): 4252–61. http://dx.doi.org/10.1242/jeb.110841.

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15

Monserrat, V. J., and F. Marín. "Plant substrate specificity of Iberian hemerobiidae (Insecta: Neuroptera)." Journal of Natural History 30, no. 5 (May 1996): 775–87. http://dx.doi.org/10.1080/00222939600770401.

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16

Zhao, Yang, Jinquan Jing, Ningning Zhang, and Heping Shao. "The complete mitochondrial genome of Hemerobius spodipennis (Neuroptera: Hemerobiidae)." Mitochondrial DNA Part B 5, no. 3 (May 18, 2020): 2105–6. http://dx.doi.org/10.1080/23802359.2020.1764400.

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17

Zhao, Yang, Heping Shao, Ningning Zhang, and Jinquan Jing. "The complete mitochondrial genome of Hemerobius japonicus (Neuroptera: Hemerobiidae)." Mitochondrial DNA Part B 5, no. 1 (January 2, 2020): 879–80. http://dx.doi.org/10.1080/23802359.2020.1717386.

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18

Lara, Rogéria Inês Rosa, Nelson Wanderley Perioto, and Sérgio de Freitas. "Diversidade de hemerobiídeos (Neuroptera) e suas associações com presas em cafeeiros." Pesquisa Agropecuária Brasileira 45, no. 2 (February 2010): 115–23. http://dx.doi.org/10.1590/s0100-204x2010000200001.

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O objetivo deste trabalho foi avaliar a diversidade de Hemerobiidae (Neuroptera) em cafeeiros, e suas relações com Leucoptera coffeella, Coccus sp., Planococcus sp., Oligonychus ilicis, Brevipalpus phoenicis, Aphis spiraecola e Toxoptera aurantii. As amostragens foram realizadas em Cravinhos, SP, entre maio de 2005 e abril de 2007. Os hemerobiídeos foram coletados com rede de varredura, armadilha de Möricke e armadilhas luminosas e, para a amostragem das presas, foram coletadas folhas de cafeeiro. Foram obtidos 882 exemplares de hemerobiídeos: Nusalala tessellata (467 espécimes, 52,9% do total coletado), Hemerobius bolivari (153, 17,3%), Megalomus impudicus (114, 12,9%), Sympherobius miranda (109, 12,4%), Megalomus rafaeli (30, 3,4%), Sympherobius ariasi (6, 0,7%) e Nomerobius psychodoides (3, 0,3%). A ocorrência de Nusalala tessellata e M. impudicus foi correlacionada positivamente à de Coccus sp.; o mesmo fato ocorreu para M. rafaeli com lagartas de L. coffeella e A. spiraecola e para H. bolivari com O. ilicis. As correlações foram negativas e significativas entre as ocorrências de S. miranda e O. ilicis e entre as de N. tessellata e L. coffeella e O. ilicis. As correlações mostraram que os Hemerobiidae, predadores generalistas, foram favorecidos pelo constante suprimento de presas que ocorreram na cultura do café, no período estudado.
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19

Monserrat, V. J. "Nuevos datos sobre algunas especies de hemeróbidos (Insecta, Neuroptera, Hemerobiidae)." Graellsia 64, no. 2 (December 30, 2008): 233–53. http://dx.doi.org/10.3989/graellsia.2008.v64.i2.34.

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20

Oswald, J. D. "Review of the brown lacewing genus Biramus (Neuroptera: Hemerobiidae: Hemerobiinae), with the description of a new species from Costa Rica and Panama." Tijdschrift voor Entomologie 147, no. 1 (2004): 41–47. http://dx.doi.org/10.1163/22119434-900000135.

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21

NEL, André, and Edmund A. JARZEMBOWSKI. "New lacewings from the Insect Bed (late Eocene) of the Isle of Wight (Neuroptera: Nemopteridae, Chrysopidae, Hemerobiidae)." Earth and Environmental Science Transactions of the Royal Society of Edinburgh 110, no. 3-4 (February 1, 2019): 397–403. http://dx.doi.org/10.1017/s1755691018000476.

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ABSTRACTNew fossils of the families Nemopteridae and Chrysopidae are recorded and a new species of Hemerobiidae, Sympherobius yulei sp. nov., is described from the late Eocene Insect Bed of the Isle of Wight. The new nemopterid belongs to the tribe Stenonemiini and is very similar to a specimen already recorded from the Early Oligocene of Alsace (France), suggesting that these warm-climate insects were not affected by the ‘Oi-1 Glaciation' cooling.
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22

Kim, Tae-Ho, Seung-Ho Oh, Young-Ho Kim, and Jong-Chul Jeong. "A New Record of Micromus angulatus (Neuroptera: Hemerobiidae) from Korea." Animal Systematics, Evolution and Diversity 26, no. 2 (July 31, 2010): 157–59. http://dx.doi.org/10.5635/kjsz.2010.26.2.157.

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23

Kim, Seul-Ki, and Soo-Won Cho. "Taxonomic Notes on the Species of Hemerobiidae (Neuroptera) of Korea." Korean journal of applied entomology 50, no. 1 (March 30, 2011): 65–69. http://dx.doi.org/10.5656/ksae.2011.03.0.008.

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24

An, Yuxin, Cong Li, Xiaoying Li, Haoran Cui, and Yuyu Wang. "The complete mitochondrial genome of Hemerobius simulans Walker (Neuroptera, Hemerobiidae)." Mitochondrial DNA Part B 4, no. 2 (July 3, 2019): 3500–3501. http://dx.doi.org/10.1080/23802359.2019.1675544.

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25

El Hamouly, Hayam, and Rabab Sawaby. "Review of Hemerobiidae (Insecta:Neuroptera) from Egypt, with a new record." African Journal of Biological Sciences 15, no. 1 (December 25, 2019): 63–71. http://dx.doi.org/10.21608/ajbs.2019.63988.

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26

Makarkin, Vladimir N., and Victor J. Monserrat. "Notes on the identity ofHemerobius amurensis Navás, 1929 (Neuroptera, Hemerobiidae)." Mitteilungen aus dem Museum für Naturkunde in Berlin – Deutsche Entomologische Zeitschrift 54, no. 2 (November 2007): 267–70. http://dx.doi.org/10.1002/mmnd.200700024.

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27

Zhao, Yang, Yunjiao Chen, Jing Zhao, and ZhiQi Liu. "First complete mitochondrial genome from the brown lacewings (Neuroptera: Hemerobiidae)." Mitochondrial DNA Part A 27, no. 4 (September 14, 2015): 2763–64. http://dx.doi.org/10.3109/19401736.2015.1053054.

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28

Oswald, John D. "Revision of the Neotropical Brown Lacewing Genus Nomerobius (Neuroptera: Hemerobiidae)." Annals of the Entomological Society of America 83, no. 1 (January 1, 1990): 18–29. http://dx.doi.org/10.1093/aesa/83.1.18.

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29

Wise, K. A. J. "Re-evaluation of three species of Australasian Hemerobiidae (Insecta: Neuroptera)." New Zealand Entomologist 22, no. 1 (January 1999): 15–21. http://dx.doi.org/10.1080/00779962.1999.9722051.

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30

Makarkin, Vladimir N., and Carsten Gröhn. "The first unusual Hemerobiidae (Neuroptera) from mid-Cretaceous Burmese amber." Cretaceous Research 106 (February 2020): 104206. http://dx.doi.org/10.1016/j.cretres.2019.104206.

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31

Souza, Brígida, and Américo I. Ciociola. "Aspectos comportamentais de Nusalala uruguaya (Navás) (Neuroptera: Hemerobiidae), em laboratório." Anais da Sociedade Entomológica do Brasil 24, no. 1 (April 28, 1995): 173–75. http://dx.doi.org/10.37486/0301-8059.v24i1.1009.

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32

Bokina, I. G. "Lacewing insects (Neuroptera: Chrysopidae, Hemerobiidae) Neuroptera insects (Chrysopidae, Hemerobiidae) according to different spring wheat cultivation practices in the northern forest-steppe of Western Siberia." Euroasian Entomological Journal 19, no. 1 (September 2020): 67–74. http://dx.doi.org/10.15298/euroasentj.19.2.03.

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33

Sario, Sara, Conceição Santos, Fátima Gonçalves, and Laura Torres. "DNA screening of Drosophila suzukii predators in berry field orchards shows new predatory taxonomical groups." PLOS ONE 16, no. 4 (April 8, 2021): e0249673. http://dx.doi.org/10.1371/journal.pone.0249673.

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Drosophila suzukii (spotted wing drosophila, SWD) is a pandemic quarantine pest that attacks mostly red fruits. The high number of life cycles per year, its ability to rapidly invade and spread across new habitats, and highly polyphagous nature, makes this a particularly aggressive invasive species, for which efficient control methods are currently lacking. The use of native natural predators is particularly promising to anchor sustainable and efficient measures to control SWD. While several field studies have suggested the presence of potential predatory species in infested orchards, only a few confirmed the presence of SWD DNA in predators’ gut content. Here, we use a DNA-based approach to identify SWD predators among the arthropod diversity in South Europe, by examining the gut content of potential predator specimens collected in SWD-infested berry fields in North Portugal. These specimens were morphologically identified to the family/order, and their gut content was screened for the presence of SWD DNA using PCR. New SWD predatory taxonomical groups were identified, as Opiliones and Hemerobiidae, in addition to known SWD predators, such as Hemerobiidae, Chrysopidae, Miridae, Carabidae, Formicidae and Araneae. Additionally, the presence of a spider family, Uloboridae, in the orchards was recorded for the first time, posing this family as another SWD-candidate predator. This study sets important bases to further investigate the potential large-scale use of some of these confirmed predator taxa for SWD control in South Europe.
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34

Lara, Rogéria Inês Rosa, and Sérgio de Freitas. "Caracterização morfológica de adultos de Nusalala tessellata (Gerstaecker, 1888) (Neuroptera, Hemerobiidae)." Revista Brasileira de Entomologia 46, no. 4 (2002): 521–28. http://dx.doi.org/10.1590/s0085-56262002000400005.

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35

MAKARKIN, VLADIMIR N., and SONJA WEDMANN. "First record of the genus Sympherobius (Neuroptera: Hemerobiidae) from Baltic amber." Zootaxa 2078, no. 1 (April 20, 2009): 55–62. http://dx.doi.org/10.11646/zootaxa.2078.1.3.

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Sympherobius completus sp. n. from the Eocene Baltic amber is described. Its venation is probably the most generalized in the genus. The systematic position of the species, as well as hemerobiid wing venational terminology are discussed.
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36

Park, Jongsun, Jonghyun Park, Jeong-Hwan Kim, Jum Rae Cho, Yongsung Kim, and Bo Yoon Seo. "The complete mitochondrial genome of Micromus angulatus (Stephens, 1836) (Neuroptera: Hemerobiidae)." Mitochondrial DNA Part B 4, no. 1 (January 2, 2019): 1467–69. http://dx.doi.org/10.1080/23802359.2019.1598800.

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37

Canard, Michel. "Can lacewings feed on pests in winter? (Neur.: Chrysopidae and hemerobiidae)." Entomophaga 42, no. 1-2 (June 1997): 113–17. http://dx.doi.org/10.1007/bf02769887.

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38

New, T. R. "Hemerobiidae (Insecta: Neuroptera) from malaise trap catches in far Southern Chile." Studies on Neotropical Fauna and Environment 25, no. 2 (January 1990): 105–10. http://dx.doi.org/10.1080/01650529009360808.

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39

Monserrat, Víctor J. "Los hemeróbidos de la Península Ibérica y Baleares (Insecta, Neuropterida, Neuroptera: Hemerobiidae)." Graellsia 71, no. 2 (August 19, 2015): e026. http://dx.doi.org/10.3989/graellsia.2015.v71.129.

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OSWALD, JOHN D. "A new genus and species of brown lacewing from Venezuela (Neuroptera: Hemerobiidae), with comments on the evolution of the hemerobiid forewing radial vein." Systematic Entomology 18, no. 4 (October 1993): 363–70. http://dx.doi.org/10.1111/j.1365-3113.1993.tb00672.x.

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41

Weddle, R. B. "The brown lacewing Hemerobius atrifrons (Neuroptera: Hemerobiidae) in Glasgow Botanic Gardens, Scotland." Glasgow Naturalist 27, no. 1 (2019): 68. http://dx.doi.org/10.37208/tgn27112.

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42

Klimaszewski, Jan, Laurent LeSage, and Karine Savard. "First record of adventive species Micromus variegatus (Fabricius) from eastern Canada (Neuroptera, Hemerobiidae)." ZooKeys 27 (November 9, 2009): 1–6. http://dx.doi.org/10.3897/zookeys.27.220.

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43

Krakauer, Alan H., and Catherine A. Tauber. "Larvae of Micromus: Generic Characteristics and a Description of Micromus subanticus (Neuroptera: Hemerobiidae)." Annals of the Entomological Society of America 89, no. 2 (March 1, 1996): 203–11. http://dx.doi.org/10.1093/aesa/89.2.203.

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44

Levente, Ábrahám. "The Börzsöny lacewing collection I. (Neuroptera: Osmylidae, Mantispidae, Hemerobiidae, Chrysopidae, Nemopteridae, Myrmeleontidae: Ascalaphinae)." Kaposvári Rippl-Rónai Múzeum Közleményei, no. 7 (2020): 35–54. http://dx.doi.org/10.26080/krrmkozl.2020.7.35.

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The entomological collection of László börzsöny was donated to the rippl-rónai museum (Kaposvár) in 2019. Osmylidae 2 exx. - 2 sp., mantispidae 1 ex. - 1 sp., hemerobii-dae 2 exx. - 1 sp., Chrysopidae 28 exx. - 12 sp., nemopteridae 100 exx. - 6 sp., myrmeleontidae: ascalaphinae 444 exx. - 68 sp. were identified in this collection. During the identification, 3 new synonyms were revealed namely Palparidius fascipennis(banks, 1911) (syn. n.) a new junior synonym of Palparidius capicolaPéringuey, 1910, Ululodes sinuatus banks, 1924 (syn. n.) a new junior synonym of Cordulecerus praecellens (Gers-taecker, 1885), Agrionosoma pendleburyi Fraser, 1927 (syn. n.) is a new junior synonym of Agrionosoma dohrni van der Weele, 1909. the lectotype of Suphalomitus buyssoni van der Weele, 1909 and the lectotype of Suhpalacsa donckieri navás, 1913 were designated. Several species were found as new records for the local faunas: Dielocroce chobauti (mclachlan, 1898) for Jordan; Ameropterus selysi (van der Weele, 1909) for Peru and French Guiana; Cordulecerus praecellens (Ger-staecker, 1885), Amoea arenosa (Walker, 1853) Haploglenius cuboides Jones sl. and Ululodes venezolensis van der Weele, 1909 (stat. n.) for Peru; Allocormodes junodi van der Weele, 1909 for tanzania; Ascalobyas microcerus (rambur, 1842) for belize; Protidricerus elwesii (mcLachlan, 1891) for myanmar, thailand and vietnam; Tmesibasis rothschildi van der Weele, 1907 for ethiopia; Agrionosoma dohrni van der Weele, 1909 and Agrionosoma swinhoei van der Weele, 1909 for myanmar; Encyoposis seydeli (navás, 1929) for Zambia; Glyptobasis cor-nuta Kimmins, 1949 for nepal; Libelloides sibiricus (eversmann, 1850) for mongolia; Maezous tomijankae Ábrahám, 2008 for China and vietnam; Malesianus harisi (Ábrahám, 2008) for Indonesia; Nephoneura costalis van der Weele, 1909 for Zam-bia, Ghana, Cameroon; Phalascusa vassei van der Weele, 1909 for Kenya. Zambia, namibia and Suphalomitus formosanusEsben-Petersen, 1913 for Vietnam.
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45

Monserrat, Víctor J. "Contribución al conocimiento de los hemeróbidos de Patagonia y Tierra del Fuego (Insecta, Neuroptera, Hemerobiidae)." Graellsia 59, no. 1 (June 30, 2003): 37–56. http://dx.doi.org/10.3989/graellsia.2003.v59.i1.222.

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Monserrat, V. J. "Sobre la morfología y la ultraestructura del huevo en algunas especies de Hemerobiidae (Insecta, Neuroptera)." Graellsia 64, no. 2 (December 30, 2008): 265–73. http://dx.doi.org/10.3989/graellsia.2008.v64.i2.36.

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47

Villenave, Johanna, Michel Canard, Thierry Lodé, and Elizabeth Rat-Morris. "Notes Ecologiques et Eidonomiques sur l’Espèce Psectra diptera dans l’Ouest de la France (Neuroptera: Hemerobiidae)." Entomologia Generalis 28, no. 3 (December 1, 2005): 183–92. http://dx.doi.org/10.1127/entom.gen/28/2005/183.

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48

Aspöck, Ulrike, Horst Aspöck, and Axel Gruppe. "Anchored between heaven and earth – a new flightless brown lacewing from Peru (Neuroptera, Hemerobiidae)." Deutsche Entomologische Zeitschrift 67, no. 2 (August 14, 2020): 141–49. http://dx.doi.org/10.3897/dez.67.56008.

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Male and female of Nusalala peruanasp. nov., a flightless hemerobiid from the Andes mountain range of northern Peru, at a height of almost 4000 m, are described, figured and documented as the first record of a brachypterous, flightless species of Nusalala Navás, 1913, from this country. The other two congeneric, brachypterous species are from high altitudes in Colombia and Costa Rica and have been described in the male sex only – the females remain unknown. The coriaceous domed forewings are shared by all three brachypterous Nusalala species. The ribbon-like hindwings of the male of N. peruanasp. nov. are unique, since those of the other brachypterous males are scale-like, as are the hindwings of the female of N. peruanasp. nov. Distribution and evolutionary backgrounds of brachyptery and flightlessness in Neuropterida are discussed.
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Yadav, A., X. Z. He, and Q. Wang. "Patterns of adult emergence and mating in Micromus tasmaniae (Walker) (Neuroptera Hemerobiidae)." New Zealand Plant Protection 62 (August 1, 2009): 179–83. http://dx.doi.org/10.30843/nzpp.2009.62.4775.

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The Tasmanian lacewing Micromus tasmaniae Walker is an important predator of a number of economically important pests such as aphids This study was to investigate the patterns of adult emergence sexual maturation and mating of M tasmaniae in the laboratory at 211C 60 RH and 168 h (lightdark) Results indicate that adult emergence peaked 3 h before the scotophase began There was no significant difference in emergence patterns between males and females (P>005) The sexual maturation period of males and females was 47825 h and 65131 h after emergence respectively and this difference was significant (P
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Canard, Michel, and Dominique Thierry. "What is the true identity of the brown lacewings called Hemerobius australis (Neuroptera, Hemerobiidae)?" Bulletin de la Société entomologique de France 124, no. 1 (March 26, 2019): 103–7. http://dx.doi.org/10.32475/bsef_2047.

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