Dermaptera (earwigs or “tijerillas, tijeretas” in Spanish) is a small group representative nearly 2000 species, which are mainly distributed throughout the southern continents, greater diversity in tropical regions, especially in South-East Asia and in the Neotropics (^{Popham, 2000}). Earwigs are medium-sized hemimetabolous insects, easily recognized by the presence of front wings modified like short tegmina, well developed hindwings with several lines of folding and the abdomen ended in forceps-like cerci (almost all species) (^{Núñez-Bazán et al., 2022}). The order currently has 2494 species, 367 genera, 27 families in 12 superfamilies (^{Hopkins et al., 2021}). Fossil earwigs have not been reported from Chiapas, with the exception of Haplodiplatys crightoni ^{Ross & Engel, 2013}, found in a piece of amber from a mine near Simojovel (^{Solórzano-Kraemer, 2010}; ^{Ross and Engel, 2013}). Here we report results from studying of four pieces of amber with earwigs as inclusions.

• ^{Popham, 2000}
  The geographical distribution of the Dermaptera (Insecta) with reference to continental drift

  Journal of Natural History, 2000
  Popham, E.J., 2000, The geographical distribution of the Dermaptera (Insecta) with reference to continental drift: Journal of Natural History, 34(10), 2007-2027. https://doi.org/10.1080/00222930050144837
• ^{Núñez-Bazán et al., 2022}
  Earwigs (Dermaptera: Insecta) of Morelos, Mexico, with new data and description of a new species

  Biología, 2022
  Núñez-Bazán, R., Estrada-Álvarez, J.C., Osorio-Beristain, M., 2022, Earwigs (Dermaptera: Insecta) of Morelos, Mexico, with new data and description of a new species: Biología, 77(3), 1305-1316. https://doi.org/10.1007/s11756-022-01025-7
• ^{Hopkins et al., 2021}
  Dermaptera Species File, 2021
  Hopkins, H., Maehr, M. D., Haas, F., Deem, L.S., 2021, Dermaptera Species File. Version 5.0/5.0. [nov. 17 2021]. Aviable in: Aviable in: http://Dermaptera.SpeciesFile.org
• ^{Ross & Engel, 2013}
  The first diplatyid earwig in Tertiary amber (Dermaptera: Diplatyidae): a new species from Miocene Mexican amber

  Insect Systematics & Evolution, 2013
  Ross, A.J., Engel, M.S., 2013, The first diplatyid earwig in Tertiary amber (Dermaptera: Diplatyidae): a new species from Miocene Mexican amber: Insect Systematics & Evolution, 44, 157-166. https://doi.org/10.1163/1876312X-44032096
• ^{Solórzano-Kraemer, 2010}
  Mexican amber

  Biodiversity of Fossils in Amber from the Major World Deposits, 2010
  Solórzano-Kraemer, M.M., 2010, Mexican amber, in Penney, D. (ed.), Biodiversity of Fossils in Amber from the Major World Deposits: Manchester, Siri Scientific Press, 42-56.
• ^{Ross and Engel, 2013}
  The first diplatyid earwig in Tertiary amber (Dermaptera: Diplatyidae): a new species from Miocene Mexican amber

  Insect Systematics & Evolution, 2013
  Ross, A.J., Engel, M.S., 2013, The first diplatyid earwig in Tertiary amber (Dermaptera: Diplatyidae): a new species from Miocene Mexican amber: Insect Systematics & Evolution, 44, 157-166. https://doi.org/10.1163/1876312X-44032096

The fossil record of earwigs extends to the Mesozoic (^{Grimaldi and Engel, 2005}; ^{Tihelka, 2019}), in particular the Triassic (^{Kelly et al.,2017}), the Jurassic (^{Vishniakova, 1980}; ^{Zhang, 1994}, ²⁰⁰²; ^{Ross, 2010}; ^{Zhao et al.,2010}; ^{Ren et al.,2019}), the Cretaceous (^{Haas, 2007}; ^{Engel et al., 2011}; ^{Engel, 2009}, ²⁰¹¹; ^{Engel and Grimaldi, 2004}, ²⁰¹⁴; ^{Engel and Perrichot, 2014}; ^{Engel et al.,2015}; ^{Mao et al.,2020}), the Eocene (^{Burr, 1911}; ^{Nel et al.,2003}), the Oligocene (^{Nel et al.,1994}) and the amber of the Miocene of Mexico and the Dominican Republic (^{Ross and Engel, 2013}; ^{Ross et al.,2016}; ^{Engel, 2019}).

• ^{Grimaldi and Engel, 2005}
  Evolution of the Insects, 2005
  Grimaldi, D.A., Engel, M.S., 2005, Evolution of the Insects:Cambridge, UK, Cambridge University Press, 770p. https://doi.org/10.1111/j.1096-0031.2006.00115.x
• ^{Tihelka, 2019}
  New Mesozoic earwigs from England, with a catalogue of fossil Dermaptera

  Proceedings of the Geologists’ Association, 2019
  Tihelka, E., 2019, New Mesozoic earwigs from England, with a catalogue of fossil Dermaptera: Proceedings of the Geologists’ Association, 130, 609-611. https://doi.org/10.1016/j.pgeola.2019.06.003
• ^{Kelly et al.,2017}
  Earwigs (Dermaptera) from the Mesozoic of England and Australia, described from isolated tegmina, including the first species to be named from the Triassic

  Earth and Environmental Science, Transactions of the Royal Society of Edinburgh, 2017
  Kelly, R.S., Ross, A.J., Jarzembowski, E.A., 2017, Earwigs (Dermaptera) from the Mesozoic of England and Australia, described from isolated tegmina, including the first species to be named from the Triassic: Earth and Environmental Science, Transactions of the Royal Society of Edinburgh, 107, 129-143. http://dx.doi.org/10.1017/S1755691017000329P
• ^{Vishniakova, 1980}
  Earwig from the Upper Jurassic the Karatau range (Insect, Forficulida)

  Paleontologicheskiy Zhurnal, 1980
  Vishniakova, V.H., 1980, Earwig from the Upper Jurassic the Karatau range (Insect, Forficulida): Paleontologicheskiy Zhurnal, 1980, 78-94.
• ^{Zhang, 1994}
  Discovery of primitive fossil earwigs (Insecta) from Late Jurassic of Laiyang, Shandong and its significance

  Acta Palaeontologica Sinica, 1994
  Zhang, J.F., 1994, Discovery of primitive fossil earwigs (Insecta) from Late Jurassic of Laiyang, Shandong and its significance: Acta Palaeontologica Sinica, 33, 229-245.
• ²⁰⁰²
  The most primitive earwigs (Archidermaptera, Dermaptera, Insecta) from the Upper Jurassic of Neimonggol Autonomous Region, Northeastern China

  Acta Micropalaeontologica Sinica, 2002
  Zhang, J.F., 2002, The most primitive earwigs (Archidermaptera, Dermaptera, Insecta) from the Upper Jurassic of Neimonggol Autonomous Region, Northeastern China: Acta Micropalaeontologica Sinica, 19, 348-362. https://doi.org/10.11646/zootaxa.4205.2.7
• ^{Ross, 2010}
  Insects

  Fossils from the Lower Lias of the Dorset Coast, 2010
  Ross, A.J., 2010, Insects, in Lord, A.R., Davis, P.G. (eds.), Fossils from the Lower Lias of the Dorset Coast - Field Guide to Fossils, No 13: London, Palaeontological Association Field Guides to Fossils, 276-289.
• ^{Zhao et al.,2010}
  Transitional fossil earwigs - a missing link in Dermaptera evolution

  BMC Evolutionary Biology, 2010
  Zhao, J., Zhao, Y., Shih, Ch., Ren, D., Wang, Y., 2010, Transitional fossil earwigs - a missing link in Dermaptera evolution: BMC Evolutionary Biology, 10, 344. https://doi.org/10.1186/1471-2148-10-344
• ^{Ren et al.,2019}
  Dermaptera - Earwigs

  Rhythms of Insect Evolution: Evidence from the Jurassic and Cretaceous in Northern China, 2019
  Ren, M., Shih, C., Xing, C., Ren, D., 2019, Dermaptera - Earwigs, in Ren, D., Shih, C., Gao, T., Wang, Y., Yao, Y.Y. (eds.), Rhythms of Insect Evolution: Evidence from the Jurassic and Cretaceous in Northern China: Hoboken, Willey Blackwell, 149-156. https://doi.org/10.1002/9781119427957.ch11
• ^{Haas, 2007}
  Dermaptera: earwigs. Chapter 11.6

  The Crato Fossil Beds of Brazil, 2007
  Haas, F., 2007, Dermaptera: earwigs. Chapter 11.6, in Martill, D.M., Bechly, G., Loveridge, R.F. (eds), The Crato Fossil Beds of Brazil: UK, Cambridge University Press, 222-234.
• ^{Engel et al., 2011}
  The earliest earwigs in amber (Dermaptera): A new genus and species from the Early Cretaceous of Lebanon

  Insect Systematics & Evolution, 2011
  Engel, M., Ortega-Blanco, J., Azar, D., 2011, The earliest earwigs in amber (Dermaptera): A new genus and species from the Early Cretaceous of Lebanon: Insect Systematics & Evolution, 42(2), 139-148. doi:https://doi.org/10.1163/187631211X555717
• ^{Engel, 2009}
  Gregarious behaviour in Cretaceous earwig nymphs (Insecta, Dermaptera) from southwestern France

  Geodiversitas, 2009
  Engel, M.S., 2009, Gregarious behaviour in Cretaceous earwig nymphs (Insecta, Dermaptera) from southwestern France: Geodiversitas, 31(1), 129-135. https://doi.org/10.5252/g2009n1a11
• ²⁰¹¹
  New earwigs in mid-Cretaceous amber from Myanmar (Dermaptera, Neodermaptera)

  ZooKeys, 2011
  Engel, M.S., 2011, New earwigs in mid-Cretaceous amber from Myanmar (Dermaptera, Neodermaptera): ZooKeys, 130, 137-152. doi: 10.3897/zookeys.130.1293
• ^{Engel and Grimaldi, 2004}
  A primitive earwig in Cretaceous amber from Myanmar (Dermaptera: Pygidicranidae)

  Journal of Paleontology, 2004
  Engel, M.S., Grimaldi, D.A., 2004, A primitive earwig in Cretaceous amber from Myanmar (Dermaptera: Pygidicranidae): Journal of Paleontology, 78(5), 1018-1023. https://doi.org/10.1666/0022-3360(2004)078<1018:APEICA>2.0.CO;2
• ²⁰¹⁴
  An earwig in Late Cretaceous Vendean amber (Dermaptera)

  Paleontological Contributions, 2014
  Engel, M.S., Perrichot, V., 2014, An earwig in Late Cretaceous Vendean amber (Dermaptera): Paleontological Contributions, 10D, 16-20. https://doi.org/10.17161/PC.1808.15984
• ^{Engel and Perrichot, 2014}
  An earwig in Late Cretaceous Vendean amber (Dermaptera)

  Paleontological Contributions, 2014
  Engel, M.S., Perrichot, V., 2014, An earwig in Late Cretaceous Vendean amber (Dermaptera): Paleontological Contributions, 10D, 16-20. https://doi.org/10.17161/PC.1808.15984
• ^{Engel et al.,2015}
  An earwig (Insecta: Dermaptera) in Early Cretaceous amber from Spain

  Insect Systematics and Evolution, 2015
  Engel, M.S., Peris, D., Chatzimanolis, S., Delclòs, X., 2015, An earwig (Insecta: Dermaptera) in Early Cretaceous amber from Spain: Insect Systematics and Evolution, 46(3), 291-300. https://doi.org/10.1163/1876312x-45032121
• ^{Mao et al.,2020}
  A new genus of labidurid earwigs in mid- Cretaceous amber from northern Myanmar (Dermaptera: Labiduridae)

  Cretaceous Research, 2020
  Mao, Y., Engel, M.S., Zhao, Y., Ren, D., 2020, A new genus of labidurid earwigs in mid- Cretaceous amber from northern Myanmar (Dermaptera: Labiduridae): Cretaceous Research, 111, 104447. https://doi.org/10.1016/j.cretres.2020.104447
• ^{Burr, 1911}
  Dermaptera

  Genera insectorum, 1911
  Burr, M., 1911, Dermaptera, in Wytsman P. (ed), Genera insectorum, V.122: Bruxelles, L. Desmet-Verteneuil, 112p.
• ^{Nel et al.,2003}
  New fossil earwigs from the lowermost Eocene amber of Paris basin (France) (Insecta, Dermaptera, family incertaesedis)

  Geodiversitas, 2003
  Nel, A., Waller, A., Albouy, V., Menier, J.J., De Ploëg, G., 2003, New fossil earwigs from the lowermost Eocene amber of Paris basin (France) (Insecta, Dermaptera, family incertaesedis): Geodiversitas, 25(1),119-129.
• ^{Nel et al.,1994}
  Réflexion paléo-entomologique sur la systématique des Dermaptères. Quatre nouveaux forficules fossiles de l’Oligocène de Provence (France) (Dermaptera)

  Bulletin de la Société entomologique de France, 1994
  Nel, A., Albouy, V., Caussanel, C., Jamet, C., 1994, Réflexion paléo-entomologique sur la systématique des Dermaptères. Quatre nouveaux forficules fossiles de l’Oligocène de Provence (France) (Dermaptera): Bulletin de la Société entomologique de France, 99, 253-266. https://doi.org/10.3406/bsef.1994.17063
• ^{Ross and Engel, 2013}
  The first diplatyid earwig in Tertiary amber (Dermaptera: Diplatyidae): a new species from Miocene Mexican amber

  Insect Systematics & Evolution, 2013
  Ross, A.J., Engel, M.S., 2013, The first diplatyid earwig in Tertiary amber (Dermaptera: Diplatyidae): a new species from Miocene Mexican amber: Insect Systematics & Evolution, 44, 157-166. https://doi.org/10.1163/1876312X-44032096
• ^{Ross et al.,2016}
  A catalogue of the collections of Mexican amber at the Natural History Museum, London and National Museums Scotland, Edinburgh, UK

  Boletín de la Sociedad Geológica Mexicana, 2016
  Ross, A.J., Mellish, C.J.T., Crighton, B., York, P.V., 2016, A catalogue of the collections of Mexican amber at the Natural History Museum, London and National Museums Scotland, Edinburgh, UK: Boletín de la Sociedad Geológica Mexicana, 68(1), 45-55. https://doi.org/10.18268/bsgm2016v68n1a7
• ^{Engel, 2019}
  A new species of spongiphorine earwig in Miocene amber from the Dominican Republic (Dermaptera: Spongiphoridae)

  Palaeontomology, 2019
  Engel, M.S., 2019, A new species of spongiphorine earwig in Miocene amber from the Dominican Republic (Dermaptera: Spongiphoridae): Palaeontomology, 2(6), 560-565. https://doi.org/10.11646/palaeoentomology.2.6.3

Famous worldwide for its contents of abundant biological inclusions, the lower Miocene amber from Chiapas, Mexico includes mostly terrestrial insects, arachnids, plants and fungi (^{Solórzano-Kraemer, 2007}). Aquatic representatives of algae, ferns, crustaceans, and insects are also present as aquatic representatives, found in lesser amount, but they are very important for deciphering the diverse paleoenvironments where resins, secreted by several kinds of plants, served as traps for living beings and corpses (^{Serrano-Sánchez et al., 2016}). Near the town of Simojovel, located in the Sierra Madre de Chiapas (Figure 1), several amber mines have been exploited by locals during the last decades. The amber can be found in three lithostratigraphic units, known as (from oldest to youngest): the upper portion of La Quinta Formation, the Mazantic Shale and the Balumtun Formation (Figure 2). A precise age based on isotopic and biostratigraphic data indicates that the amber deposit begun 22.8 Ma ago (^{Vega et al., 2009}; ^{Perrilliat et al., 2010}; ^{Solórzano-Kraemer, 2010}), in estuarine environments, nearby the ancient coast of the Gulf of Mexico (^{Serrano-Sánchez et al., 2016}). The oldest amber, characterized by the stratification of layers of amber, separated by thin layers of sand, contains a diverse estuarine microcrustacean assemblage (^{Serrano-Sánchez et al., 2016}).

• ^{Solórzano-Kraemer, 2007}
  Systematic, palaeoecology, and palaeobiogeography of the insect fauna from Mexican amber

  Palaeontographica Abteilung A, 2007
  Solórzano-Kraemer, M.M., 2007, Systematic, palaeoecology, and palaeobiogeography of the insect fauna from Mexican amber: Palaeontographica Abteilung A, 282, 1-133. https://doi.org/10.1127/pala/282/2007/1
• ^{Serrano-Sánchez et al., 2016}
  The aquatic and semiaquatic biota in Miocene amber from the Campo La Granja mine (Chiapas, Mexico): Paleoenvironmental implications

  Journal of South American Earth Sciences, 2016
  Serrano-Sánchez, M. de L., Hegna, T.A., Schaaf, P., Pérez, L., Centeno-García, E., Vega, F.J., 2016. The aquatic and semiaquatic biota in Miocene amber from the Campo La Granja mine (Chiapas, Mexico): Paleoenvironmental implications: Journal of South American Earth Sciences, 62, 243-256. https://doi.org/10.1016/j.jsames.2015.06.007
• ^{Vega et al., 2009}
  Neogene Crustacea from southeastern Mexico

  Bulletin of the Mizunami Fossil Museum, 2009
  Vega, F.J., Nyborg, T., Coutiño, M.A., Solé, J., Hernández-Monzón, O., 2009, Neogene Crustacea from southeastern Mexico: Bulletin of the Mizunami Fossil Museum, 35, 51-69.
• ^{Perrilliat et al., 2010}
  Miocene mollusks from the Simojovel area in Chiapas, southwestern Mexico

  Journal of South American Earth Sciences, 2010
  Perrilliat, M.C., Vega, F., Coutiño, M., 2010, Miocene mollusks from the Simojovel area in Chiapas, southwestern Mexico: Journal of South American Earth Sciences, 30, 111-119. https://doi.org/10.1016/j.jsames.2010.04.005
• ^{Solórzano-Kraemer, 2010}
  Mexican amber

  Biodiversity of Fossils in Amber from the Major World Deposits, 2010
  Solórzano-Kraemer, M.M., 2010, Mexican amber, in Penney, D. (ed.), Biodiversity of Fossils in Amber from the Major World Deposits: Manchester, Siri Scientific Press, 42-56.
• ^{Serrano-Sánchez et al., 2016}
  The aquatic and semiaquatic biota in Miocene amber from the Campo La Granja mine (Chiapas, Mexico): Paleoenvironmental implications

  Journal of South American Earth Sciences, 2016
  Serrano-Sánchez, M. de L., Hegna, T.A., Schaaf, P., Pérez, L., Centeno-García, E., Vega, F.J., 2016. The aquatic and semiaquatic biota in Miocene amber from the Campo La Granja mine (Chiapas, Mexico): Paleoenvironmental implications: Journal of South American Earth Sciences, 62, 243-256. https://doi.org/10.1016/j.jsames.2015.06.007
• ^{Serrano-Sánchez et al., 2016}
  The aquatic and semiaquatic biota in Miocene amber from the Campo La Granja mine (Chiapas, Mexico): Paleoenvironmental implications

  Journal of South American Earth Sciences, 2016
  Serrano-Sánchez, M. de L., Hegna, T.A., Schaaf, P., Pérez, L., Centeno-García, E., Vega, F.J., 2016. The aquatic and semiaquatic biota in Miocene amber from the Campo La Granja mine (Chiapas, Mexico): Paleoenvironmental implications: Journal of South American Earth Sciences, 62, 243-256. https://doi.org/10.1016/j.jsames.2015.06.007

The overlying Mazantic Shale contains amber pieces with no aquatic (or very rare) organisms, and is clearer when compared with amber pieces from the basal amber of Campo La Granja mines (Finca Carmitto Member). Plant remains, fungi, and abundant terrestrial insects characterize the inclusions of the Mazantic Shale amber, which deposited in a humid forest (^{Solórzano-Kraemer, 2010}). The insects here described were found in amber pieces from the Mazantic Shale, at Los Pocitos mine, near Simojovel. ^{Solórzano-Kraemer (2007)} reported a wide diversity of insects found mostly in pieces from the Mazantic Shale.

• ^{Solórzano-Kraemer, 2010}
  Mexican amber

  Biodiversity of Fossils in Amber from the Major World Deposits, 2010
  Solórzano-Kraemer, M.M., 2010, Mexican amber, in Penney, D. (ed.), Biodiversity of Fossils in Amber from the Major World Deposits: Manchester, Siri Scientific Press, 42-56.
• ^{Solórzano-Kraemer (2007)}
  Systematic, palaeoecology, and palaeobiogeography of the insect fauna from Mexican amber

  Palaeontographica Abteilung A, 2007
  Solórzano-Kraemer, M.M., 2007, Systematic, palaeoecology, and palaeobiogeography of the insect fauna from Mexican amber: Palaeontographica Abteilung A, 282, 1-133. https://doi.org/10.1127/pala/282/2007/1

Four pieces of amber from Simojovel de Allende, Chiapas, were examined under a stereoscope at different magnifications, obtaining digital images. The general classification follows ^{Engel and Haas (2007)}.

• ^{Engel and Haas (2007)}
  Family-Group Names for Earwigs (Dermaptera)

  American Museum Novitates, 2007
  Engel, M.S., Haas, F., 2007, Family-Group Names for Earwigs (Dermaptera): American Museum Novitates, 3567, 1-20. https://doi.org/10.1206/003-0082(2007)593[1:fnfed]2.0.co:2

The studied pieces are deposited at the Museo de Paleontología “Eliseo Palacios Aguilera”, Secretaria de Medio Ambiente e Historia Natural, Estado de Chiapas, Tuxtla Gutiérrez, Chiapas, Mexico, under acronym IHNFG.

Order Dermaptera de ^{Geer, 1773}

Infraorder Epidermaptera ^{Engel, 2003}

[=Forficulina sensu^{Engel and Haas, 2007: 7}]

Parvorder Eteodermaptera ^{Engel, 2003} Nanorder Eudermaptera ^{Verhoeff, 1902} Family Spongiphoridae ^{Verhoeff, 1902} Subfamily Spongiphorinae ^{Verhoeff, 1902}

[=Homotaginae ^{Srivastava, 1985} and Irdicinae Srivastava, 1985, sensu ^{Engel and Haas, 2007: 5}]

Genus Marava^{Burr, 1911}

Marava^{Burr, 1911: 60} [gen. n.].

Larex^{Burr, 1911: 60} [gen. n.]. [sin. jun. sensu^{Brindle, 1971: 551}].

Prolabia^{Burr, 1911: 60} [gen. n.]. [sin. jun. sensu^{Brindle, 1971: 551}].

Type species: Labia grandis^{Dubrony, 1879} [=M. arachidis]; by ^{Burr, 1911: 60}.

• ^{Dubrony, 1879}
  Enumération des Orthoptères rapportés

  L.M. d’Albertis des régions Indienne et Austro-Malaise. I. Dermaptères, 1879
  Dubrony, A., 1879, Enumération des Orthoptères rapportés, Doria, M.M.J., Beccari, O., L.M. d’Albertis des régions Indienne et Austro-Malaise. I. Dermaptères: Genova, Annali del Museo Civico di Storia Naturale, 348-383.
• ^{Burr, 1911: 60}
  Dermaptera

  Genera insectorum, 1911
  Burr, M., 1911, Dermaptera, in Wytsman P. (ed), Genera insectorum, V.122: Bruxelles, L. Desmet-Verteneuil, 112p.

Marava antiqua Estrada-Álvarez and Núñez-Bazán new species (Figures 3a, 3b; 4a-4f; 11a)

Type material. Complete male adult, separate abdomen (Holotype IHNFG-6059).

Type locality and horizon. Simojovel de Allende, Chiapas. Mazantic Shale, lower Miocene (23 Ma).

Diagnosis. Differs from Recent species by the combination of the following characters:1) Pronotum sub-quadrate, as wide as the head (Figures 3a, 4b); 2) small eyes, smaller than the gena (Figure 4b); 3) Antenna with the base of the antennomers very narrow, third antennomer almost as wide as long (Figures 3a, 4a); 4) Thin tarsomeres and not so abundant setation, second tarsomere simple (Figures 4d); 5) medially emarginated male pygidium (Figure 4f); 6) Male forceps basally with subtriangular basal keel (Figure 4f).

Etymology. From the Latin “antiqua”, ancient.

Description. Overall length 4.9 mm, 0.9 mm maximum width. Glabrous appearance, with sparse setae. Tegmina fully developed, and inconspicuous wings (Figure 3a). Coloration, predominantly brown, pronotum, tegmina and legs lighter (Figures 3a and 3b). Head (about 0.6 mm long, 0.6 mm wide), prognathous, posterior border straight, without occipital carina, Mouthparts unmodified; small eyes (about 0.1 mm) distance between eyes 0.4mm, distance between antennal insertions 0.4 mm; antennae long, total length (about 2.3 mm long), 11(right)-12(left) antennal segments first segment short, second segment subequal to the length of the remaining, third segment short, almost as wide as long, with narrow base, narrower apically, apex of each light segment (Figure 4b). Pronotum (about 0.7 mm long, 0.6 mm wide) sub-quadrate, narrower than head, anterior and lateral margins straight, posterior margin procurved (Figure 4c). Tegmina (Forewing) (about 0.9 mm long, 0.4 mm wide) glabrous (Figure 4e). Hind wing not visible, possibly absent (Figures 3a, 4e). Abdomen relatively slender (about 1.5 mm long, 0.8 mm wide), simple tergites and sternites (Figure 3a). Forceps (1.5 mm long) symmetric, with inner edge in the first third with a keel and, the remaining two thirds conical, the apex is slightly recurved. (Figure 4f). Pygidium (about 0.5 mm long, 0.4 mm wide in the base), first half wide, with converging edges, second half with parallel lateral edges, apex emarginated, forming two points (Figure 4f). Legs: I Femur (about 0.7 mm long); tibia (about 0.45 mm long); tarsus (0.6 mm long [0.3+0.1+0.2]), second tarsomere simple. II Femur (about 0.7 mm long); tibia (about 0.4 mm long); tarsus (0.5 mm long [0.2+0.1+0.2]); III Femur (about 0.7 mm long); tibia (about 0.4 mm long); tarsus (0.75 mm long [0.4+0.1+0.25]); arolium absent; tarsal claws simple, long and symmetrical in the three legs (Figure 4d).

Marava brevicauda Estrada-Álvarez and Núñez-Bazán new species (Figures 5a, 5b; 6a-6c; 11b)

Type material. Complete male adult (Holotype IHNFG-6060).

Type locality and horizon. Simojovel de Allende. Mazantic Shale, lower Miocene (23 Ma).

Diagnosis. Similar to Marava championi (De ^{Bormans, 1893}) in the form of the pygidium with the divergent lateral edges; differs from this species by the short forceps, with very curved apex and pygidium fish-tail shaped (Figure 6c) and absence of numerous small tubercles along posterior margin of last tergite and distal half of 10th antennomers and remaining distal antennomers lighter.

• ^{Bormans, 1893}
  Orthoptera: Biologia Centrali-Americana, Insecta 1, 1893
  Bormans, A., 1893, Orthoptera: Biologia Centrali-Americana, Insecta 1: USA, Forgotten Books, 458p.

Etymology. From the Latin brevis = short and cauda = tail, in relation to the short forceps.

Description. 4.3 mm overall length, 0.9 mm maximum width. Glabrous appearance, with sparse setae. Tegmina and wings fully developed (Figure 5a). Coloration predominantly brown, abdomen darker (Figures 5a, 5b). Head (about 0.6 mm long, 0.7 mm wide), prognathous, posterior border recurved, without occipital carina, mouthparts unmodified; medium eyes (about 0.15 mm) distance between eyes 0.5 mm, distance between antennal insertions 0.4 mm; antennae long, sub-moliniform, total length (about 2.2 mm long), 12(right)-11(left) antennal segments first segment short, second wide segment, third segment short, almost as wide as long, narrower apically, apex of each light segment and last segments lighter (Figure a6). Pronotum (about 0.6 mm long, 0.65 mm wide) sub-quadrate, narrower than head, anterior and lateral margins straight, posterior margin procurved (Figure 6b). Tegmina (Forewing) (about 1mm long, 0.5 mm wide) glabrous, without considerable deformation, straight posterior edge (Figure 5a). Hind wing visible part about 0.7 mm long, covering up to the third tergite (Figure 5a). Abdomen relatively slender (about 1.5 mm long, 0.9 mm wide), simples tergites and sternites (Figure 5a). Forceps (0.7 mm long) symmetric, with inner edge with serrated ridge covering 60%, a tooth in the first quarter, highly curved apex at 90° angle (Figure 6c). Pygidium (about 0.2 mm long, 0.2 mm wide in the base), lateral borders diverging, trailing border slightly curved (Figure 6c). Legs: I Femur (about 0.6 mm long); tibia (about 0.45 mm long); tarsus (0.6 mm long [0.3+0.1+0.2]), second tarsomere simple. II Femur (about 0.5 mm long); tibia (about 0.35 mm long); tarsus (0.5 mm long [0.2+0.1+0.2]); III Femur (about 1 mm long); tibia (about 0.7 mm long); tarsus (0.75 mm long [0.4+0.1+0.2]); arolium absent; tarsal claws simple, long and symmetrical in the three legs.

Ikelus Estrada-Álvarez and Núñez-Bazán new genus

Type species: Ikelus nuxibus Estrada-Álvarez and Núñez-Bazán new species.

Diagnosis. This genus is recognized by the very short antennae and by the very thickened last antennal segment (Figure 7a; 8a; 11c) and tegminae with diagonal posterior border (Figure 11c).

Etymology. Using the Mayan word “Ik’el”, in Latinized form, neutral, meaning “insect, bug”.

Description genus. See description Ikelus nuxibus Estrada-Álvarez and Núñez-Bazán new species.

The taxonomic placement of the genus. The small size and the configuration of the tarsi and antennae place it within the subfamily Spongiphorinae ^{Verhoeff, 1902}; the distal antennal segments strongly narrowed at base, place this genus very close to Marava Burr.

• ^{Verhoeff, 1902}
  Über Dermapteren. 1. Aufsatz. Versuch eines neuen, natürlichen Systems auf vergleichend-morphologischer Grundlage und über den Mikrothorax der Insecten

  Zoologischer Anzeiger, 1902
  Verhoeff, K., 1902, Über Dermapteren. 1. Aufsatz. Versuch eines neuen, natürlichen Systems auf vergleichend-morphologischer Grundlage und über den Mikrothorax der Insecten: Zoologischer Anzeiger, 25, 181-209.

Ikelus nuxibus Estrada-Álvarez and Núñez-Bazán new species (Figures7a, 7b; 8a-8c; 11c)

Type material. Complete male adult (Holotype IHNFG-6061).

Type locality and horizon. Simojovel de Allende, Chiapas. Mazantic Shale, lower Miocene (23 Ma).

Etymology. From the Mayan nuxib, “old, older”.

Description. 5.8 mm overall length, 1 mm maximum width. Glabrous appearance, with sparse setae. Tegmina and wings fully developed (Figure 7a, 7b). Coloration predominantly dark brown (Figure 7a, 7b). Head (about 0.6 mm long, 0.7 mm wide), prognathous, the rest not visible; short antennae with the last antennal segment thickened (Figure 8a). Pronotum sub- quadrate, narrower than head, anterior and lateral margins straight, posterior margin procurved. Tegmina (Forewing) (about 1.15 mm long, 0.5 mm wide) glabrous, without considerable deformation and diagonal back edge (Figure 7a). Hind wing visible part about 0.8 mm long (Figure 7a). Abdomen relatively slender (about 1.8 mm long), tergites and sternites simple (Figure 7a). Forceps (1.1mm long) symmetric, with crenulate inner edge (Figure 8b; 11c). Pygidium (about 0.2 mm long, 0.2 mm wide in the base), lateral borders diverging, trailing border slightly curved (Figure 8c). Legs: Arolium absent; tarsal claws simple, long and symmetrical in the three legs.

Genus Vostox^{Burr, 1911}

Vostox^{Burr, 1911: 59} [gen. n.].

Type species: Psalidophora brunneipennis^{Audinet-Serville, 1839} [Vostox brunneipennis]: by original designation ^{Burr, 1911: 59}.

• ^{Audinet-Serville, 1839}
  Histoire naturelle des insectes. Orthoptères, 1839
  Audinet-Serville, J.G., 1839, Histoire naturelle des insectes. Orthoptères: Paris, Roret, 776p.
• ^{Burr, 1911: 59}
  Dermaptera

  Genera insectorum, 1911
  Burr, M., 1911, Dermaptera, in Wytsman P. (ed), Genera insectorum, V.122: Bruxelles, L. Desmet-Verteneuil, 112p.

Vostox engeli Estrada-Álvarez and Núñez-Bazán new species (Figures 9a, 9b; 10a-10b; 11d)

Type material: Complete male adult, enclosed in a piece of amber (Holotype IHNFG-6062).

Type locality and horizon. Simojovel de Allende, Chiapas. Mazantic Shale, lower Miocene (23 Ma).

Diagnosis. Similar to Vostox brunneipennis (Audinet-Serville) in general configuration and coloration (differs from this in the presence of a truncated process near the pygidium).Forceps similar to V. asemus (Hebard) and V. recurrens (Burr) (differs from these in pygidium morphology) (see key in ^{Brindle 1971}).

• ^{Brindle 1971}
  A revision of the Labiidae (Dermaptera) of the Neo-Tropical and Nearctic Regions

  Journal of Natural History, 1971
  Brindle, A., 1971, A revision of the Labiidae (Dermaptera) of the Neo-Tropical and Nearctic Regions: Journal of Natural History, 5(5), 521-568. http://dx.doi.org/10.1080/00222937100770391

Etymology. In honor to Dr. Michael S. Engel, for his extensive contributions.

Description. 5.5 mm overall length, 1mm maximum width. Glabrous appearance, with sparse setae. Tegmina and wings fully developed (Figure 9a). Coloration predominantly brown, tegminae darker (Figure 9a, 9b). Head (about 0.7 mm wide), prognathous, posterior border recurved; antennae long, total length (about 2.5 mm long), 13 antennal segments first segment short, second wide segment, third segment short, apical segments more elongate (Figure 9a). Pronotum (about 0.6 mm long, 0.7 mm wide) anterior margin narrow, lateral borders recurved, posterior border sub-straight (Figure 9a). Tegmina (Forewing) (about 1.2 mm long, 0.45 mm wide) glabrous, without considerable deformation, recurved posterior edge (Figure 9a). Hind wing partially deployed about 1.5 mm long. Abdomen relatively slender (about 2.3 mm long, 0.8 mm wide, simples tergites and sternites (Figure 9a). Forceps (1.7 mm long) symmetric, with inner edge with a middle ridge (Figure 10a). Pygidium (about 0.2 mm long, 0.3 mm wide in the base), short median projection, with rounded apex (Figure 10b). Legs: I Femur (about 0.5 mm long); tibia (about 0.4 mm long); tarsus (0.5 mm long [0.2+0.1+0.2]), second tarsomere simple. II Femur (about 0.7 mm long); tibia (about 0.3 mm long); tarsus (0.6 mm long [0.2+0.1+0.3]); III Femur (about 1 mm long); tibia (about 0.8 mm long); tarsus missing; arolium absent; tarsal claws simple, short and symmetrical in the three legs.

The new taxa of Dermaptera here reported are an important addition to the diverse insect fauna included in the lower Miocene Mexican amber from Chiapas, which surely is a source for new findings of plants, fungi, and arthropods to be reported in the coming years. Recent relative representants of the family inhabit humid forests, living associated with trunks and barks, being a habitat previously inferred for other insects from the Mazantic Shale amber.