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Lepidoptera: Papilionoidea) Q ⇑ Marianne Espeland A,B, , Jason P.W
Molecular Phylogenetics and Evolution 93 (2015) 296–306 Contents lists available at ScienceDirect Molecular Phylogenetics and Evolution journal homepage: www.elsevier.com/locate/ympev Ancient Neotropical origin and recent recolonisation: Phylogeny, biogeography and diversification of the Riodinidae (Lepidoptera: Papilionoidea) q ⇑ Marianne Espeland a,b, , Jason P.W. Hall c, Philip J. DeVries d, David C. Lees e, Mark Cornwall a, Yu-Feng Hsu f, Li-Wei Wu g, Dana L. Campbell a,h, Gerard Talavera a,i,j, Roger Vila i, Shayla Salzman a, Sophie Ruehr k, David J. Lohman l, Naomi E. Pierce a a Museum of Comparative Zoology and Department of Organismic and Evolutionary Biology, Harvard University, 26 Oxford Street, Cambridge, MA 02138, USA b McGuire Center for Lepidoptera and Biodiversity, Florida Museum of Natural History, University of Florida, Powell Hall, 2315 Hull Road, Gainesville, FL 32611, USA c Department of Systematic Biology-Entomology, National Museum of Natural History, Smithsonian Institution, Washington, DC 20560-127, USA d Department of Biological Sciences, University of New Orleans, 2000 Lake Shore Drive, New Orleans, LA 70148, USA e Department of Zoology, University of Cambridge, Cambridge CB2 3EJ, UK f Department of Life Science, National Taiwan Normal University, Taipei, Taiwan g The Experimental Forest, College of Bio-Resources and Agriculture, National Taiwan University, Nantou, Taiwan h Division of Biological Sciences, School of Science, Technology, Engineering & Mathematics, University of Washington Bothell, Box 358500, 18115 Campus Way NE, Bothell, WA 98011-8246, USA i Institut de Biologia Evolutiva (CSIC-UPF), Pg. Marítim de la Barceloneta 37, 08003 Barcelona, Spain j Faculty of Biology & Soil Science, St. -
Speciation, Hybridization, and Conservation Quanderies: What Are We Protecting Anyway? J
_______________________________________________________________________________________News of The Lepidopterists’ Society Volume 58, Number 4 Conservation Matters: Contributions from the Conservation Committee Speciation, hybridization, and conservation quanderies: what are we protecting anyway? J. R. Dupuis1 and Felix A. H. Sperling2 1Dept. of Plant and Environmental Protection Sciences, Univ. of Hawai’i at Mãnoa, Honolulu, Hawai’i 96822 2Dept. of Biological Sciences, Univ. of Alberta, Edmonton, Alberta, Canada T6G 2E9 [email protected] There are few scientific disciplines more prone to social purpose of protecting rare animals or plants. Since then, quandaries than conservation biology. Its multidisci- extensive conservation efforts have taken place to stabi- plinary and synthetic nature lends itself to conflicts among lize populations of Lange’s metalmark, including the es- science, money, laws, and social values, which are encap- tablishment of a captive breeding program, planting of E. sulated in questions like what should you do with limited n. psychicola, hand-clearing/herbiciding invasive plants, funding but seemingly endless needs? In insect conserva- and experimental grazing. Despite these efforts, popula- tion, these quandaries often have an added layer of taxo- tion numbers are still precariously low, with competition nomic uncertainty. When a unique population is discov- from invasive weeds and wildfires proving to be formidable ered in some remnant patch of wildland, the first question opponents. is usually is this a different species/subspecies? A ‘yes’ can open the floodgates to discussions of endemism, legal pro- While Lange’s metalmark has a wing pattern that is dis- tection, and conservation prioritization. What may have tinct from most of the A. mormo species complex, it has lit- started as a weekend collecting trip, and the excitement tle to distinguish it genetically. -
Genomic Analysis of the Tribe Emesidini (Lepidoptera: Riodinidae)
Zootaxa 4668 (4): 475–488 ISSN 1175-5326 (print edition) https://www.mapress.com/j/zt/ Article ZOOTAXA Copyright © 2019 Magnolia Press ISSN 1175-5334 (online edition) https://doi.org/10.11646/zootaxa.4668.4.2 http://zoobank.org/urn:lsid:zoobank.org:pub:211AFB6A-8C0A-4AB2-8CF6-981E12C24934 Genomic analysis of the tribe Emesidini (Lepidoptera: Riodinidae) JING ZHANG1, JINHUI SHEN1, QIAN CONG1,2 & NICK V. GRISHIN1,3 1Departments of Biophysics and Biochemistry, University of Texas Southwestern Medical Center, and 3Howard Hughes Medical Insti- tute, 5323 Harry Hines Blvd, Dallas, TX, USA 75390-9050; [email protected] 2present address: Institute for Protein Design and Department of Biochemistry, University of Washington, 1959 NE Pacific Street, HSB J-405, Seattle, WA, USA 98195; [email protected] Abstract We obtained and phylogenetically analyzed whole genome shotgun sequences of nearly all species from the tribe Emesidini Seraphim, Freitas & Kaminski, 2018 (Riodinidae) and representatives from other Riodinidae tribes. We see that the recently proposed genera Neoapodemia Trujano, 2018 and Plesioarida Trujano & García, 2018 are closely allied with Apodemia C. & R. Felder, [1865] and are better viewed as its subgenera, new status. Overall, Emesis Fabricius, 1807 and Apodemia (even after inclusion of the two subgenera) are so phylogenetically close that several species have been previously swapped between these two genera. New combinations are: Apodemia (Neoapodemia) zela (Butler, 1870), Apodemia (Neoapodemia) ares (Edwards, 1882), and Apodemia (Neoapodemia) arnacis (Stichel, 1928) (not Emesis); and Emesis phyciodoides (Barnes & Benjamin, 1924) (not Apodemia), assigned to each genus by their monophyly in genomic trees with the type species (TS) of the genus. -
Devries, P.J., B.C. Cabral, C.M. Penz. 2004
N. 102 May 31, 2004 ~ C/) in Biology and Geology :J ~ C/) Z :J ~ 0 ~ The early stages of Apodemia paucipuncta U (Riodinidae): myrmecophily, ~ •.......• a new caterpillar ant-organ ........l and consequences for classification ~ :J By Pi. De Vries :J ~ Center for Biodiversity Studies Milwaukee Public Museum ~ ~ ~ 800 West Wells Street Milwaukee, WI 53233, USA ~ Berites c. Cabral ~ Departamento de Zoologia ~ Universidade de Brasilia P.O. Box 04525 ~ ~ Brasilia, Distrito Federal 70919-970, Brazil :J Carla M. Pen: -< Department of Invertebrate Zoology Z Milwaukee Public Museum 800 West Wells Street, ~ Milwaukee, WI 53233, USA ........l 0 •.......• Milwaukee Public ~ U MUSEUM Milwaukee Public Museum Contributions in Biology and Geology Paul Mayer, Editor Reviewer for this Publication: Andre Victor Lucci Freitas, Museu de Historia Natural, Instituto de Biologia, Universidade Estadual de Campinas This publication is priced at $6.00 and may be obtained by writing to the Museum Shop, Milwaukee Public Museum, 800 West Wells Street, Milwaukee, WI 53233. Orders must include $3.00 for shipping and handling ($4.00 for foreign destinations) and must be accompanied by money order or check drawn on U.S. bank. Money orders or checks should be made payable to the Milwaukee Public Museum, Inc. Wisconsin residents please add 5% sales tax. ISBN 0-89326-215-3 ©2004 Milwaukee Public Museum, Inc. Abstract The early stages of Apodemia paucipuncta are described for the first time. This species forms symbiotic associations with Crematogaster ants in central Brazil, and possesses four sets of ant-organs: tentacle nectary organs, vibratory papillae, balloon setae and for the first time in the Riodinidae, a cervical gland that is used in myrmecophily. -
Butterflies and Moths of Pinal County, Arizona, United States
Heliothis ononis Flax Bollworm Moth Coptotriche aenea Blackberry Leafminer Argyresthia canadensis Apyrrothrix araxes Dull Firetip Phocides pigmalion Mangrove Skipper Phocides belus Belus Skipper Phocides palemon Guava Skipper Phocides urania Urania skipper Proteides mercurius Mercurial Skipper Epargyreus zestos Zestos Skipper Epargyreus clarus Silver-spotted Skipper Epargyreus spanna Hispaniolan Silverdrop Epargyreus exadeus Broken Silverdrop Polygonus leo Hammock Skipper Polygonus savigny Manuel's Skipper Chioides albofasciatus White-striped Longtail Chioides zilpa Zilpa Longtail Chioides ixion Hispaniolan Longtail Aguna asander Gold-spotted Aguna Aguna claxon Emerald Aguna Aguna metophis Tailed Aguna Typhedanus undulatus Mottled Longtail Typhedanus ampyx Gold-tufted Skipper Polythrix octomaculata Eight-spotted Longtail Polythrix mexicanus Mexican Longtail Polythrix asine Asine Longtail Polythrix caunus (Herrich-Schäffer, 1869) Zestusa dorus Short-tailed Skipper Codatractus carlos Carlos' Mottled-Skipper Codatractus alcaeus White-crescent Longtail Codatractus yucatanus Yucatan Mottled-Skipper Codatractus arizonensis Arizona Skipper Codatractus valeriana Valeriana Skipper Urbanus proteus Long-tailed Skipper Urbanus viterboana Bluish Longtail Urbanus belli Double-striped Longtail Urbanus pronus Pronus Longtail Urbanus esmeraldus Esmeralda Longtail Urbanus evona Turquoise Longtail Urbanus dorantes Dorantes Longtail Urbanus teleus Teleus Longtail Urbanus tanna Tanna Longtail Urbanus simplicius Plain Longtail Urbanus procne Brown Longtail -
Apodemia Mormo ) Oviposition Behaviour in Canada
34 THE CANADIAN FIELD -N ATURALIST Vol. 126 First Observations of Mormon Metalmark ( Apodemia mormo ) Oviposition Behaviour in Canada ASHLEY ANNE WICK 1, 4 , JOHANE JANELLE 2, SHELLEY PRUSS 3, and NADIR ERBILGIN 1 1Department of Renewable Resources, University of Alberta, Edmonton, Alberta T6G 2E3 Canada ; email: [email protected] 2Box 218, Val Marie, Saskatchewan S0N 2T0 Canada 3Parks Canada Agency, Western and Northern Service Centre, Calgary, Alberta T2P 3M3 Canada 4Corresponding author Wick, Ashley Anne, Johane Janelle, Shelley Pruss, and Nadir Erbilgin. 2012. First observations of Mormon Metalmark (Apodemia mormo ) oviposition behaviour in Canada. Canadian Field-Naturalist 126(1): 3 4–37. We present new information on oviposition behaviour in the Mormon Metalmark, Apodemia mormo Felder and Felder, 1859 , documented in Grasslands National Park of Canada, Saskatchewan, in August 2011. The Mormon Metalmark is found through - out the U.S. southwest; little is known about its life history in the northern populations found in Canada. We provide photo - graphic documentation of the butterfly laying single eggs directly on soil or rocks. These observations differ from those recorded in the southern part of its range, where it lays eggs in groups of 2–4 on various locations of the host plant, Branched Umbrella- Plant, Eriogonum pauciflorum Pursh. This is the first published account of oviposition behaviour of this species in Canada in the most northern part of its range. Key Words: Mormon Metalmark, Apodemia mormo, Grasslands National Park of Canada, Saskatchewan, Lepidoptera, ovipo - sition, eggs. The Mormon Metalmark, Apodemia mormo Felder Recent work on the population genetics of the Mor - and Felder, 1859, is a butterfly of the primarily neo - mon Metalmark in the northern part of its range has tropical family Riodinidae. -
Butterflies and Moths of El Paso County, Texas, United States
Heliothis ononis Flax Bollworm Moth Coptotriche aenea Blackberry Leafminer Argyresthia canadensis Apyrrothrix araxes Dull Firetip Phocides pigmalion Mangrove Skipper Phocides belus Belus Skipper Phocides palemon Guava Skipper Phocides urania Urania skipper Proteides mercurius Mercurial Skipper Epargyreus zestos Zestos Skipper Epargyreus clarus Silver-spotted Skipper Epargyreus spanna Hispaniolan Silverdrop Epargyreus exadeus Broken Silverdrop Polygonus leo Hammock Skipper Polygonus savigny Manuel's Skipper Chioides albofasciatus White-striped Longtail Chioides zilpa Zilpa Longtail Chioides ixion Hispaniolan Longtail Aguna asander Gold-spotted Aguna Aguna claxon Emerald Aguna Aguna metophis Tailed Aguna Typhedanus undulatus Mottled Longtail Typhedanus ampyx Gold-tufted Skipper Polythrix octomaculata Eight-spotted Longtail Polythrix mexicanus Mexican Longtail Polythrix asine Asine Longtail Polythrix caunus (Herrich-Schäffer, 1869) Zestusa dorus Short-tailed Skipper Codatractus carlos Carlos' Mottled-Skipper Codatractus alcaeus White-crescent Longtail Codatractus yucatanus Yucatan Mottled-Skipper Codatractus arizonensis Arizona Skipper Codatractus valeriana Valeriana Skipper Urbanus proteus Long-tailed Skipper Urbanus viterboana Bluish Longtail Urbanus belli Double-striped Longtail Urbanus pronus Pronus Longtail Urbanus esmeraldus Esmeralda Longtail Urbanus evona Turquoise Longtail Urbanus dorantes Dorantes Longtail Urbanus teleus Teleus Longtail Urbanus tanna Tanna Longtail Urbanus simplicius Plain Longtail Urbanus procne Brown Longtail -
Specimen Records for North American Lepidoptera (Insecta) in the Oregon State Arthropod Collection. Lycaenidae Leach, 1815 and Riodinidae Grote, 1895
Catalog: Oregon State Arthropod Collection 2019 Vol 3(2) Specimen records for North American Lepidoptera (Insecta) in the Oregon State Arthropod Collection. Lycaenidae Leach, 1815 and Riodinidae Grote, 1895 Jon H. Shepard Paul C. Hammond Christopher J. Marshall Oregon State Arthropod Collection, Department of Integrative Biology, Oregon State University, Corvallis OR 97331 Cite this work, including the attached dataset, as: Shepard, J. S, P. C. Hammond, C. J. Marshall. 2019. Specimen records for North American Lepidoptera (Insecta) in the Oregon State Arthropod Collection. Lycaenidae Leach, 1815 and Riodinidae Grote, 1895. Catalog: Oregon State Arthropod Collection 3(2). (beta version). http://dx.doi.org/10.5399/osu/cat_osac.3.2.4594 Introduction These records were generated using funds from the LepNet project (Seltmann) - a national effort to create digital records for North American Lepidoptera. The dataset published herein contains the label data for all North American specimens of Lycaenidae and Riodinidae residing at the Oregon State Arthropod Collection as of March 2019. A beta version of these data records will be made available on the OSAC server (http://osac.oregonstate.edu/IPT) at the time of this publication. The beta version will be replaced in the near future with an official release (version 1.0), which will be archived as a supplemental file to this paper. Methods Basic digitization protocols and metadata standards can be found in (Shepard et al. 2018). Identifications were confirmed by Jon Shepard and Paul Hammond prior to digitization. Nomenclature follows that of (Pelham 2008). Results The holdings in these two families are extensive. Combined, they make up 25,743 specimens (24,598 Lycanidae and 1145 Riodinidae). -
Phylogenetic Relationships of the Riodinidae: Implications for the Evolution of Ant Association
CHAPTER 18 Phylogenetic Relationships of the Riodinidae: Implications for the Evolution of Ant Association Dana L. Campbell and Naomi E. Pierce PHYLOGENETIC HYPOTHESES OF THE PAPllIONOIDEA Although not for lack ofstudy, the evolutionary history of the rnajor lineages of "true" butterflies (Papilionoidea, including Hesperiidae) is still unknown, and multiple conflicting phylogenetic hypotheses exist in the literature. Assessing the systematic position of the metalmark butterflies (family Riodinidae) has been a particular challenge for this field. Furthermore, there is disagreement about the monophyly of this large group, which contains over 1,200 species. Most morphological studies place the riodinid butter flies as most closely related to the lycaenid butterflies, and identify the nymphalids as the closest relatives to this riodinid + lycaenid dade (Ehrlich and Ehrlich 1967; Kristensen 1976; Scott and Wright 1990; de jong et al. 1996a) (fig. 18.1A, B). These relationships have been inferred with a variety of phylogenetic methods and are supported by a number of adult, larval, and pupal synapomorphies, although few are universal or uniquely derived. An alternative hypothesis of the placement of the riodinids was proposed by Robbins (1988a). Based on a cladistic analysis of nine character states among four characters of the foreleg coxa, trochanter, and basal femur, Robb!ns suggested that the Riodinidae are more closely related to the Nymphalidae than to the Lycaenidae (fig. 18.1C), and split the lycaenids into two groups, which may not compose a monophyletic lineage: Lycaeninae-Theclinae Polyommatinae and Lipteninae-Poritjnae-Miletinae-Curetinae. Two molecular studies have explored papiJionid relationships, but their results conflict with each other and with the morphological hypothe ses (fig. -
Ts Denver Museum of Nature & Science Reports
DENVER MUSEUM OF NATURE & SCIENCE REPORTS DENVER MUSEUM OF NATURE & SCIENCE REPORTS DENVER MUSEUM OF NATURE & SCIENCE & SCIENCE OF NATURE DENVER MUSEUM NUMBER 16, OCTOBER 11, 2019 SCIENCE.DMNS.ORG/MUSEUM-PUBLICATIONS Denver Museum of Nature & Science Reports 2001 Colorado Boulevard (Print) ISSN 2374-7730 Denver, CO 80205, U.S.A. Denver Museum of Nature & Science Reports (Online) ISSN 2374-7749 REPORTS • NUMBER 16 • OCTOBER 11, 2019 • NUMBER 16 OCTOBER Cover photo: Oreas Anglewing (Polygonia oreas nigrozephyrus Scott, 1984), Gregory Canyon, Boulder County, Colorado, USA, 2 October 1973, leg. Michael G. Pogue. Photo: Bob Livingston. The Denver Museum of Nature & Science Reports (ISSN Frank Krell, PhD, Editor and Production 2374-7730 [print], ISSN 2374-7749 [online]) is an open- access, non peer-reviewed scientifi c journal publishing papers about DMNS research, collections, or other Program and Abstracts Museum related topics, generally authored or co-authored 30th Annual Meeting by Museum staff or associates. Peer review will only be arranged on request of the authors. of the High Country Lepidopterists October 11–12, 2019 The journal is available online at science.dmns.org/ Museum-Publications free of charge. Paper copies Denver Museum of Nature & Science are available for purchase from our print-on-demand publisher Lulu (www.lulu.com). DMNS owns the copyright of the works published in the Reports, which are Frank-Thorsten Krell (Ed.) published under the Creative Commons Attribution Non- Commercial license. For commercial use of published -
APODEMIA CHISOSENSIS Freeman, NEW SPECIES MALE
1964 Jou/'nal of the Lepidoptel'ists' Societ!l 75 A NEW SPECIES OF APODEMIA FROM TEXAS (RIODINIDAE) by H. A, FREEMAN 1605 Lewis Drive, Garland, Texas, U.S.A. On August 3, 1962 while examining some Agave scabra plants in the Chis os Mountains, Texas, looking for trap doors of Agathymus chisosensis (Freeman), my attention was drawn to a small Metal-mark that settled on the ground near my feet. After catching the specimen I quickly noted that it was unlike any that I had previously seen; thus, the rest of the afternoon was spent in looking for more specimens. I caught two more after about four hours' careful collecting. Later when I had taken the time to examine specimens of all the other North American Apodemia I decided that these three specimens were examples of an undescribed species of that genus, the description of which follows. APODEMIA CHISOSENSIS Freeman, NEW SPECIES MALE. Upper side: Primaries light coppery brown, being darker along costal margin, outer margin, and near base; seven black spots along outer margin; five black dashes present in submarginal arca; two subapical white spots, the first merely a short line, the second broadly triangular; an irregular band of black spots in postmedian area running from just inside subapical spots to nearly center of inner margin; a black bar at end of cell with four small dots between this and base; wing shape normal and not strongly produced at apex; fringes black with three white spots present, one at apex, one near middle of outer margin, and one near tornus. -
A SKELETON CHECKLIST of the BUTTERFLIES of the UNITED STATES and CANADA Preparatory to Publication of the Catalogue Jonathan P
A SKELETON CHECKLIST OF THE BUTTERFLIES OF THE UNITED STATES AND CANADA Preparatory to publication of the Catalogue © Jonathan P. Pelham August 2006 Superfamily HESPERIOIDEA Latreille, 1809 Family Hesperiidae Latreille, 1809 Subfamily Eudaminae Mabille, 1877 PHOCIDES Hübner, [1819] = Erycides Hübner, [1819] = Dysenius Scudder, 1872 *1. Phocides pigmalion (Cramer, 1779) = tenuistriga Mabille & Boullet, 1912 a. Phocides pigmalion okeechobee (Worthington, 1881) 2. Phocides belus (Godman and Salvin, 1890) *3. Phocides polybius (Fabricius, 1793) =‡palemon (Cramer, 1777) Homonym = cruentus Hübner, [1819] = palaemonides Röber, 1925 = ab. ‡"gunderi" R. C. Williams & Bell, 1931 a. Phocides polybius lilea (Reakirt, [1867]) = albicilla (Herrich-Schäffer, 1869) = socius (Butler & Druce, 1872) =‡cruentus (Scudder, 1872) Homonym = sanguinea (Scudder, 1872) = imbreus (Plötz, 1879) = spurius (Mabille, 1880) = decolor (Mabille, 1880) = albiciliata Röber, 1925 PROTEIDES Hübner, [1819] = Dicranaspis Mabille, [1879] 4. Proteides mercurius (Fabricius, 1787) a. Proteides mercurius mercurius (Fabricius, 1787) =‡idas (Cramer, 1779) Homonym b. Proteides mercurius sanantonio (Lucas, 1857) EPARGYREUS Hübner, [1819] = Eridamus Burmeister, 1875 5. Epargyreus zestos (Geyer, 1832) a. Epargyreus zestos zestos (Geyer, 1832) = oberon (Worthington, 1881) = arsaces Mabille, 1903 6. Epargyreus clarus (Cramer, 1775) a. Epargyreus clarus clarus (Cramer, 1775) =‡tityrus (Fabricius, 1775) Homonym = argentosus Hayward, 1933 = argenteola (Matsumura, 1940) = ab. ‡"obliteratus"