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Journal articles on the topic 'Lamprosomatinae'

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Author: Grafiati
Published: 10 December 2022
Last updated: 28 January 2023

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1

BUKEJS, ANDRIS, and KONSTANTIN NADEIN. "First fossil Lamprosomatinae leaf beetles (Coleoptera: Chrysomelidae) with descriptions of new genera and species from Baltic amber." Zootaxa 3931, no. 1 (March 11, 2015): 127. http://dx.doi.org/10.11646/zootaxa.3931.1.9.

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In the current paper the first fossil representatives of leaf-beetles from the subfamily Lamprosomatinae (Coleoptera: Chrysomelidae) are described and illustrated from Upper Eocene Baltic amber: Succinoomorphus warchalowskii gen. et sp. nov., Archelamprosomius balticus gen. et sp. nov., and Archelamprosomius kirejtshuki sp. nov. A key to fossil Lamprosomatinae is provided.
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2

Gruev, B. "Chrysomelidae (Coleoptera) Jugoslawiens (Unterfamilien: Lamprosomatinae, Eumolpinae, Chrysomelinae, Alticinae, Hispinae, Cassidinae)." Deutsche Entomologische Zeitschrift 26, no. 1-3 (April 23, 2008): 113–52. http://dx.doi.org/10.1002/mmnd.19790260113.

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3

Verma, Krishna, and Pierre Jolivet. "Eumolpinae – a widely distributed and much diversified subfamily of leaf beetles (Coleoptera, Chrysomelidae)." Terrestrial Arthropod Reviews 1, no. 1 (2008): 3–37. http://dx.doi.org/10.1163/187498308x345424.

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AbstractThis communication is a general review of Eumolpinae, a subfamily of Chrysomelidae. The subfamily includes more than 7000 species. It is specially numerous and much diversified in the tropics, with both the attributes declining northward. It has several distinctive features, and is clearly related to Clytrinae, Cryptocephalinae, Chlamisinae, Lamprosomatinae, Hispinae, and Cassidinae. Megascelidines, though generally treated as a subfamily, they should be taken as a part of Eumolpinae. Through some larval features, Eumolpinae seem related also to Galerucinae-Chrysomelinae. Separation from Eumolpinae of the primitive eumolpines, the Tribe Spilopyrini, and inclusion of Syneta among Eumolpinae have been contradicted.
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4

Chamorro, Maria, and Alexander Konstantinov. "Cachiporrini, a remarkable new tribe of Lamprosomatinae (Coleoptera, Chrysomelidae) from South America." ZooKeys 78 (January 28, 2011): 43–59. http://dx.doi.org/10.3897/zookeys.78.980.

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5

Caxambú, Marcelo Galeazzi, and Lúcia Massutti de Almeida. "Descrição dos estágios imaturos e redescrição de Lamprosoma azureum Germar (Chrysomelidae, Lamprosomatinae)." Revista Brasileira de Zoologia 16, suppl 1 (1999): 243–56. http://dx.doi.org/10.1590/s0101-81751999000500017.

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6

Chaboo, Caroline S., and Matthias Schöller. "Beetles (Coleoptera) of Peru: A Survey of the Families. Chrysomelidae: Cryptocephalinae and Lamprosomatinae." Journal of the Kansas Entomological Society 89, no. 2 (April 2016): 191–94. http://dx.doi.org/10.2317/140429.1.

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7

Chaboo, Caroline S., Maria Lourdes Chamorro, and Matthias Schöller. "Catalogue of Known Immature Stages of Camptosomate Leaf Beetles (Coleoptera, Chrysomelidae, Cryptocephalinae and Lamprosomatinae)." Proceedings of the Entomological Society of Washington 118, no. 2 (April 2016): 150–217. http://dx.doi.org/10.4289/0013-8797.118.1.150.

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8

Gruev, B. "The geographic distribution of Lamprosomatinae, Eumolpinae, Chrysomelinae, Alticinae, Hispinae and Cassidinae in Greece (Coleoptera, Chrysomelidae)." Deutsche Entomologische Zeitschrift 37, no. 4-5 (April 22, 2008): 289–359. http://dx.doi.org/10.1002/mmnd.19900370410.

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9

Gruev, B. "The geographic distribution of Lamprosomatinae, Eumolpinae, Chrysomelinae, Alticinae, Hispinae and Cassidinae in Greece (Coleoptera, Chrysomelidae)." Deutsche Entomologische Zeitschrift (neue Folge) 37, no. 4-5 (October 26, 1990): 289–359. http://dx.doi.org/10.1002/mmnd.4810370410.

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10

LeSage, Laurent. "THE EGGS AND LARVAE OF PACHYBRACHIS PECCANS AND P. BIVITTATUS, WITH A KEY TO THE KNOWN IMMATURE STAGES OF THE NEARCTIC GENERA OF CRYPTOCEPHALINAE (COLEOPTERA: CHRYSOMELIDAE)." Canadian Entomologist 117, no. 2 (February 1985): 203–20. http://dx.doi.org/10.4039/ent117203-2.

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AbstractThe egg and larval instars of Pachybrachis peccans Suffrian and P. bivittatus Say are described and illustrated. Adults of both species appear in late May, feed on willow leaves, mate and oviposit in June–July. The larvae, unable to climb the host plants, feed in the leaf litter of dead leaves of willow; they reach the second-last or last instar by the end of the fall; then they seal their case and overwinter. Pupation occurs the following spring, probably in early May.Larval instars can be distinguished as follows: first instar with egg bursters on meso- and metathorax, with typical head chaetotaxy consisting of flattened-papillate setae and 1 pair of very long simple setae, and tibiae with 2 pairs of spiniform setae; older instars without egg bursters, and showing differences in size, in head and pronotal chaetotaxy, and in the number of spiniform setae on the tibiae.In the larvae, the premental sclerites of the head seem to be present throughout the Campsomata, a group with case-bearing larvae and not only in the Lamprosomatinae as previously reported.
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11

Zhang, Heng, Nan Song, and Xinming Yin. "Higher-level phylogeny of Chrysomelidae based on expanded sampling of mitogenomes." PLOS ONE 17, no. 1 (January 21, 2022): e0258587. http://dx.doi.org/10.1371/journal.pone.0258587.

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Chrysomelidae is one of the most diverse lineages of beetles. The classification and phylogeny of Chrysomelidae have been contentious. In this study, we obtained 16 new mitogenome sequences by using next-generation sequencing. Combined with the published mitogenomes, we inferred the phylogenetic relationships of Chrysomelidae. Different data recoding strategies and substitution models were applied to phylogenetic reconstruction. In the Maximum likelihood analyses under the homogeneous model, Dayhoff recoding allowed for the improved phylogenetic resolution due to the decreased level of heterogeneous sequence divergence. Bayesian inference under the heterogeneous model yielded generally well resolved subfamily relationships. The present mitogenome data strongly supported Chrysomelidae as a monophyletic group. Consistent with previous work, we found three major subfamily clades within Chrysomelidae. However, the pattern of the “sagrine” clade plus the “eumolpine” clade being sister to the “chrysomeline” clade contrasted with the prior study. The placement of the genus Syneta with regards to these three clades was ambiguous. Relationships recovered suggested several major chrysomelid lineages, including: (1) Bruchinae in the “sagrine” clade; (2) Donaciinae + Criocerinae; (3) Spilopyrinae + (Cassidinae + (Eumolpinae + (Lamprosomatinae + Cryptocephalinae))); (4) Chrysomelinae + (Alticinae + Galerucinae). Results also suggested the placement of Timarcha outside the major Chrysomelinae.
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12

Reid, C. A. M. "Spilopyrinae Chapuis: a new subfamily in the Chrysomelidae and its systematic placement (Coleoptera)." Invertebrate Systematics 14, no. 6 (2000): 837. http://dx.doi.org/10.1071/it00042.

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The phylogeny of the Chrysomeloidea is re-assessed, with data from recently described larvae of three chrysomeloid taxa. Cladistic analyses were performed on 19 subfamilies and tribes with 56 informative characters. The tribe Megascelidini is shown to be correctly placed in Eumolpinae and the subfamily Aulacoscelidinae in Orsodacnidae, but Spilopyra and associated genera are the probable monophyletic sister-taxon of (Eumolpinae + (Lamprosomatinae + Cryptocephalinae)) and are therefore elevated to subfamily: Spilopyrinae Chapuis (= Stenomelini Chapuis, syn. nov. = Hornibiinae Crowson, syn. nov.). The genera included in Spilopyrinae are: Bohumiljania Monrós, Cheiloxena Baly, Hornius Fairmaire, Macrolema Baly, Richmondia Jacoby, Spilopyra Baly and Stenomela Blanchard. Adults and larvae of Spilopyrinae are described and a key given for the genera. The status of several genera formerly placed in association with members of the Spilopyrinae is reviewed. The subfamily Spilopyrinae has a southern trans-Pacific distribution, in Chile, New Caledonia, New Guinea and Australia, indicating an origin before the late Cretaceous break-up of Gondwana. The species feed on Sapindaceae (Spilopyra), Nothofagaceae (Hornius) and Myrtaceae (Cheiloxena, Stenomela). New keys are provided to the adults and larvae of the subfamilies of Chrysomeloidea.
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13

Pinheiro Saravy, Fábio, Karl-L. Schuchmann, and Marinez I. Marques. "Diversity of Insect Flower Visitors of Xylopia aromatica (Magnoliales, Annonaceae) in a Brazilian Savanna." Diversity 13, no. 12 (December 11, 2021): 661. http://dx.doi.org/10.3390/d13120661.

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Small beetles are important pollinators of Annonaceae whose flower chambers are small and have diurnal and/or nocturnal anthesis. The pollinators of these flowers belong to the families Nitidulidae, Staphylinidae, Chrysomelidae, and Curculionidae. In this study, the first conducted in the Cerrado of Chapada dos Guimarães, Mato Grosso, Brazil, the behavior of the insect flower visitors of Xylopia aromatica was observed, in both the field and the laboratory. The chambers of 253 flowers were collected from 11 plants, and the biological aspects of their visitors were analyzed quantitatively and qualitatively. The most abundant visitors were thrips and beetles. Coleoptera was represented by four morphospecies occurring frequently in the floral chambers (>70% of individuals). Among beetles, one species belonged to Nitidulidae (Cillaeinae, Conotelus sp. 1) and two belonged to Staphylinidae (Aleocharinae sp. 1 and Aleocharinae sp. 2). These three morphospecies of small elongate beetles have setae where pollen may adhere. In addition, they were present on both male and female phases of the flowers, indicating potential cross-pollination. In the study area, X. aromatica possesses mixed pollination promoted by Thysanoptera and small Nitidulidae and Staphylinidae beetles. This study brings the first record of Lamprosomatinae (Chrysomelidae) and, especially, of Conotelus (Nitidulidae) in the flower chambers of X. aromatica, with new information on behavior of floral visitors coupled with their morphological traits that may promote cross-pollination in this plant species.
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14

Bezděk, Jan. "Review of the genus-level names proposed by Johannes Gistel in Chrysomelidae (Coleoptera)." Acta Entomologica Musei Nationalis Pragae 60, no. 1 (March 12, 2020): 173–88. http://dx.doi.org/10.37520/aemnp.2020.011.

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The genus-level names proposed by Johannes Gistel in Chrysomelidae are reviewed. The genus Chloemela Gistel, 1856 is designated as a nomen oblitum for Chrysolina Motschulsky, 1860 (nomen protectum), and Alitene Gistel, 1856 is designated as a nomen oblitum for Neophaedon Jacobson, 1901 (nomen protectum). The following new synonymies are established: Donaciinae: Macroplea Samouelle, 1819 = Calamobia Gistel, 1856 syn. nov.; Criocerinae: Crioceris Geoffroy, 1762 = Anthurga Gistel, 1848 syn. nov.; Cassidinae: Hybosa Chevrolat, 1842 = Axis Gistel, 1848 syn. nov.; Botanochara Dejean, 1836 = Epichorestes Gistel, 1848 syn. nov.; Notosacantha Chevrolat, 1836 = Festa Gistel, 1848 syn. nov.; Omocerus Chevrolat, 1836 = Homocera Gistel, 1848 syn. nov.; Basiprionota Chevrolat, 1836 = Monax Gistel, 1848 syn. nov.; Metazycera Chevrolat, 1836 = Scotias Gistel, 1848 syn. nov.; Cryptocephalinae: Disopus Chevrolat, 1836 = Disops Gistel, 1856 syn. nov.; Pachybrachis Chevrolat, 1836 = Pachybrachia Gistel, 1856 syn. nov.; Lachnaia Chevrolat, 1836 = Vervex Gistel, 1848 syn. nov. = Bucedestes Gistel, 1856 syn. nov.; Coptocephala Chevrolat, 1836 = Ecphorastes Gistel, 1856 syn. nov.; Labidostomis Chevrolat, 1836 = Labidostomus Gistel, 1848 syn. nov.; Eumolpinae: Bromius Chevrolat, 1836 = Chartonia Gistel, 1856 syn. nov.; Pachnephorus Chevrolat, 1836 = Euchthonius Gistel, 1856 syn. nov.; Metaxyonycha Chevrolat, 1836 = Herostrates Gistel, 1848 syn. nov.; Guyanica Chevrolat, 1836 = Lestivina Gistel, 1848 syn. nov.; Typophorus Chevrolat, 1836 = Polisma Gistel, 1848 syn. nov.; Lamprosomatinae: Oomorphus Curtis, 1831 = Laophilus Gistel, 1856 syn. nov.; Lamprosoma Kirby, 1819 = Phenareta Gistel, 1848 syn. nov.; Chrysomelinae: Chrysomela Linnaeus, 1758 = Ernobia Gistel, 1856 syn. nov.; Leucocera Chevrolat, 1836 = Foliana Gistel, 1848 syn. nov.; Gastrophysa Chevrolat, 1836 = Gasterophysia Gistel, 1856 syn. nov.; Gonioctena Chevrolat, 1836 = Goniactis Gistel, 1856 syn. nov.; Phaedon Latreille, 1829 = Poebia Gistel, 1856 syn. nov.; Strichosa Chevrolat, 1843 = Harpax Gistel, 1848 syn. nov.; Galerucinae: Podagrica Chevrolat, 1836 = Geochoreutes Gistel, 1856 syn. nov.; Oedionychis Latreille, 1829 = Haplosonyx Gistel, 1848 syn. nov.; Altica Geoffroy, 1762 = Pantryptes Gistel, 1856 syn. nov.; Psylliodes Latreille, 1829 = Psyllides Gistel, 1856 syn. nov.; Acrocrypta Baly, 1862 = Pusio Gistel, 1848 syn. nov.; Sphaeroderma Stephens, 1831 = Sphaerodermus Gistel, 1856 syn. nov.; Oides Weber, 1801 = Eparchista Gistel, 1848 syn. nov.; and Agelastica Chevrolat, 1836 = Scholastica Gistel, 1848 syn. nov. The authorship of Elytrosphaera is discussed and the genus is attributed to Blanchard, 1845. Comisteisa Gistel, 1848 is confirmed as a synonym of Elytrosphaera. Type species are designated for Anthurga Gistel, 1848, Chartonia Gistel, 1856, Alitene Gistel, 1856, Chloemela Gistel, 1856, Ernobia Gistel, 1856, Geochoreutes Gistel, 1856, and Pantryptes Gistel, 1856. Unavailable genus names introduced by Gistel are listed and commented on. Publication dates of some Gistel’s publications are discussed and specified.
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15

Bukejs, Andris. "New genus and species of Lamprosomatinae (Coleoptera: Chrysomelidae) from Eocene Baltic amber." Palaeontologia Electronica, 2019. http://dx.doi.org/10.26879/905.

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