identifier	taxonID	type	CVterm	format	language	title	description	additionalInformationURL	UsageTerms	rights	Owner	contributor	creator	bibliographicCitation
916587E7FFC60F4AFF62FF70833FFDC8.text	916587E7FFC60F4AFF62FF70833FFDC8.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Agnocoris eduardi Ribes 1977	<div><p>Agnocoris eduardi Ribes, 1977</p><p>Agnocoris eduardi Ribes 1977: 29, Figs 1–9 (original description), Kerzhner &amp; Josifov 1999: 59 (catalogue), Serra et al. 2022 (type specimens list).</p><p>Diagnosis. Based on the Ribes (1977). Body length in male 4.4 mm, in female 4.6 mm; vertex width / eye diameter in dorsal view ratio 1.25 in male and 1.5 in female; antennal segment II / head width ratio 0.84 in male and 0.80–0.82 in female; in left view, apex of apical process of left paramere broader than middle of apical process, with curved shape spike; in left view, right paramere ~3× as long as wide; with sulcus dorsally, its body ca. 1.5× as wide as apical process, apical process r-shaped, forming 20° angle with body; spicule in vesica curved.</p><p>Distribution. Agnocoris eduardi is known from Spain (Moreda, Castellón). For more details, see Ribes 1977; Serra et al. 2022.</p></div>	https://treatment.plazi.org/id/916587E7FFC60F4AFF62FF70833FFDC8	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		MagnoliaPress via Plazi	Dzhelali, Polina A.;Namyatova, Anna A.	Dzhelali, Polina A., Namyatova, Anna A. (2025): Integrative taxonomy reveals mitochondrial introgression and Pleistocene diversification in Palearctic Agnocoris species (Insecta: Heteroptera: Miridae). Zootaxa 5706 (4): 501-529, DOI: 10.11646/zootaxa.5706.4.3, URL: https://doi.org/10.11646/zootaxa.5706.4.3
916587E7FFC90F44FF62F9518693F838.text	916587E7FFC90F44FF62F9518693F838.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Agnocoris reclairei (Wagner 1949)	<div><p>Agnocoris reclairei (Wagner, 1949)</p><p>Figs 1A; 2E–H; 3A–E,K–L; 4A–D; 5B,D; 6A–E.</p><p>Lygus Agnocoris reclairei Wagner 1949: 34, Figs 4–5 (original description),</p><p>Agnocoris reclairei Schuh 1995: 697 (catalogue), Carvalho 1959: 24 (new genus, catalogue), Kerzhner &amp; Jaczewski 1964: 723 (key to species); Wagner &amp; Weber 1964: 219 (key to species); Kerzhner &amp; Josifov 1999: 59 (catalogue), Wolski &amp; Skora 2012 (key to species), Lock 2018 (description), Zamani &amp; Hosseini 2020 (description), Vinokurov et al. 2024: 244 (catalogue).</p><p>For more references, see Carvalho (1959); Kerzhner &amp; Josifov (1999); Schuh (1995); Wolski &amp; Skora (2012); Zamani &amp; Hosseini (2020); Vinokurov et al. (2024).</p><p>Diagnosis. Body length in male 5–5.6, in female 4.8–5.6 (Fig. 2E–H); vertex width / eye diameter when viewed dorsally ratio 1.3 in male and 1.4–1.55 in female; antennal segment II / head width ratio 1 in male and 0.83–0.9 in female (Table 1); in dorsal view, apical process widened subapically, left paramere with apical process 2.2× as long as sensory lobe width, sensory lobe as long as wide in posterior view, spike placed in the middle of apical process apex; in dorsal view, right paramere twice as long as wide, its body ca. 3× as wide as apical process, apical process hooked, forming 100° angle with paramere body (Fig. 3A–E); vesica with spicule curved, slightly surpassing secondary gonopore, its width subequal to half of ductus seminis width, posterior sclerite distinctly surpassing secondary gonopore, with spines covered most of its posterior side; secondary gonopore subequal to third part of spicule length; plate-like sclerite above secondary gonopore weakly sclerotized (Fig. 4A–D); distance between sclerotized rings on dorsal labiate plate subequal to ring width; sclerotized ring height/length ratio 0.5; sclerite under sclerotized rings with inner angles acute reaching ¾ of sclerotized ring width; posterior wall of bursa copulatrix with interramal lobe partially covered with lateral lobe (Fig. 5B, D).</p><p>Distribution. The species is known from the central and southern parts of the Western Palearctic and Central Asia. In the south it is known from Turkey, Transcaucasia and Near East (Iran and Iraq), Kazakhstan and Tadjikistan. (Kerzhner &amp; Josifov 1999; Linnavuori 1992, 2009; Gorczyca &amp; Wolski 2011; Kment &amp; Banar 2012; Kondorosy 2011; Wolski &amp; Skora 2012; Shamsi et al. 2014; Lock 2018; Zamani &amp; Hosseini 2020; Vinokurov et al. 2024). In this work we record this species for the first time from East and West Kazakhstan, Tajikistan and Georgia.</p><p>Material examined (see details in the Material examined Data SI2): Azerbaijan, Bulgaria, Georgia, Germany, Kazakhstan, Russian Federation (Central European Territory, South European Territory), Tajikistan.</p></div>	https://treatment.plazi.org/id/916587E7FFC90F44FF62F9518693F838	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		MagnoliaPress via Plazi	Dzhelali, Polina A.;Namyatova, Anna A.	Dzhelali, Polina A., Namyatova, Anna A. (2025): Integrative taxonomy reveals mitochondrial introgression and Pleistocene diversification in Palearctic Agnocoris species (Insecta: Heteroptera: Miridae). Zootaxa 5706 (4): 501-529, DOI: 10.11646/zootaxa.5706.4.3, URL: https://doi.org/10.11646/zootaxa.5706.4.3
916587E7FFCD0F43FF62FF7081DBFD9B.text	916587E7FFCD0F43FF62FF7081DBFD9B.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Agnocoris rubicundus (Fallen 1807)	<div><p>Agnocoris rubicundus (Fallen, 1807)</p><p>Figs 1B; 2A–D; 3F–J, M; 4E–H; 5A,C; 6F–J.</p><p>Lygaeus rubicundus Fallen 1807: 84 (original description).</p><p>Agnocoris rubicundus Moore 1956: 37 (new combination).</p><p>Slater 1950: 29 (description, key to species); Wagner &amp; Slater 1952: 276 (description); Kelton 1955: 532 (description, key to species); Moore 1955: 180 (description, key to species); Carvalho 1959: 24 (catalogue); Kerzhner &amp; Jaczewski 1964: 723 (description, key to species); Wagner &amp; Weber 1964: 219 (description, key to species); Wagner 1974: 428 (description, key to species); Schuh 1995: 697 (catalogue); Vinokurov &amp; Kanyukova 1995: 93 (key to species); Vinokurov 1979: 96 (key to species); Kerzhner &amp; Josifov 1999: 59 (catalogue); Vinokurov et al. 2010: 77 (catalogue); Wolski &amp; Skora 2012: 6–11 (description, key to species); Lock 2018: 146–148 (description); Vinokurov et al. 2024: 244 (catalogue).</p><p>For more references and synonyms, see Carvalho (1959); Kerzhner &amp; Josifov (1999); Schuh (1995), Vinokurov (2010), Wolski &amp; Skora (2012), Vinokurov et al. (2024).</p><p>Diagnosis. Body length in male 4.6–5.5, in female 4.9–5.5 (Fig. 2); vertex width / eye diameter in dorsal view ratio 1.15–1.20 in male and 1.4–1.55 in female; antennal segment II / head width ratio 0.9–1 in male and 0.84–0.98 in female (Table 1); in dorsal view, apical process gradually tapering towards apex; left paramere with apical process twice as long as sensory lobe width, sensory lobe ca. 2.4× as long as wide; in posterior view, spike on the apical part of apical process moved towards posterior margin; in left view, right paramere ca. 3× as long as wide; its body ca. 1.5× as wide as apical process, apical process triangular, forming 70° angle with paramere body (Fig. 3F–J); spicule in vesica straight, as wide as ductus seminis, surpassing secondary gonopore at distance subequal to third of spicule length; posterior sclerite only slightly surpassing secondary gonopore, with spines covered only half of its posterior side; secondary gonopore subequal to half of spicule length; plate-like sclerite above secondary gonopore distinctly sclerotized (Fig. 4E–H); distance between sclerotized rings on dorsal labiate plate subequal to half of ring width; sclerotized ring height / length ratio 0.7; sclerite under sclerotized ring oval, its length subequal to half of sclerotized ring width; (Fig. 5A, C), posterior wall of bursa copulatrix with interramal lobes entirely covered with lateral lobe.</p><p>Distribution. Agnocoris rubicundus is distributed from Western Europe to East Asia. It inhabits polar regions at least in Europe, in the south its distribution spans to North Africa (Morocco), Near East (Iran), Central Asia and Mongolia. In East Asia, A. rubicundus is known from the Russian Far East, but it was not recorded from Kuril Islands. It was also recorded from the northern regions of China and Japan (Kerzhner 1988; Linnavuori 1992; Kerzhner &amp; Josifov 1999; Linnavuori 2009; Gorczyca &amp; Wolski 2011; Kment &amp; Banar 2012; Kondorosy 2011; Wolski &amp; Skora 2012; Shamsi et al. 2014; Lock 2018; Zamani &amp; Hosseini 2020; Vinokurov et al. 2024). Here we record this species for Iran for the first time. Agnocoris rubicundus is also known from the USA and Canada (Knight 1917, Moore 1956, Wheeler &amp; Henry 1992, Scudder 1997, Hebert et al. 2016, Sikes et al. 2017, Dewaard et al. 2019).</p><p>Material examined (see details in the Material examined Data SI2): Afghanistan, Armenia, Azerbaijan, Belarus, Bulgaria, Canada, Estonia, Finland, Georgia, Germany, Iran, Japan, Kazakhstan, Kyrgyzstan, Lithuania, Moldova, Mongolia, Morocco, Poland, Russian Federation (Central, North and South European regions, West Siberia, East Siberia, Far East), Serbia, Tajikistan, Ukraine, Uzbekistan.</p></div>	https://treatment.plazi.org/id/916587E7FFCD0F43FF62FF7081DBFD9B	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		MagnoliaPress via Plazi	Dzhelali, Polina A.;Namyatova, Anna A.	Dzhelali, Polina A., Namyatova, Anna A. (2025): Integrative taxonomy reveals mitochondrial introgression and Pleistocene diversification in Palearctic Agnocoris species (Insecta: Heteroptera: Miridae). Zootaxa 5706 (4): 501-529, DOI: 10.11646/zootaxa.5706.4.3, URL: https://doi.org/10.11646/zootaxa.5706.4.3
