DOCSLIB.ORG

Natural Curiosities

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Natural Curiosities Natural curiosities Crappies are well known for their boom-and­ bust population cycles, says DNR fisheries research scientist Jeffrey Reed. The success of each year class depends on spring weather, the abundance of food at critical times in their life, and habitat conditions. Similarly, northern pike can experience boom-and-bust years, usu­ ally booming in response to exceptional spring spawning conditions. Northern pike will eat crappies and sunfish, but they prefer fish with­ out spines, such as minnows and suckers, and YN BARNES fish that are more cylindrical in body shape like SHERAL yellow perch. Fish populations are constantly Bullied Bluebirds. I have a bluebird house changing, and it is very likely that those crappies in my back yard, and every year when bluebirds you enjoy catching will return to levels you’ve sit on the house, robins chase them away. Why previously observed. do robins appear to dislike bluebirds? Dick Johnson, New Market Wild Rice Pests. Last August while harvest­ Robins bully bluebirds because bluebirds are ing wild rice in Itasca County, we found worms often at the bottom of the pecking order in about ½ to 1 inch long, off white, maybe 1/8 inch territorial battles, DNR wildlife educator Jan in diameter. The worms covered the mound of Welsh tells us. Bluebirds cope by nesting later wild rice as well as the bow of our ricing skiff. In in the season, sometimes as late as June, after 40-plus years of wild ricing we have always seen robins have settled into their own nest sites. this creature, but never such an intense mass. What are these worms? What is their life cycle? What part of the rice plant do they eat? Why were Missing Fish. I love ice fishing for crappies they so thick last year? and sunfish in a west-central Minnesota lake. I’ve Peter Sparen, Grand Rapids always caught decent crappies along with some sunnies up until about two years ago. I’m now These “worms” were most likely the larvae (cater­ lucky to catch a decent crappie every other time pillars) of a moth commonly called the rice worm I go out.The lake is definitely not overfished, but moth (Apamea apamiformis), says DNR insect the number of northerns has skyrocketed. Could expert Robert Dana. This is a well-known pest this be the reason for the lack of crappies? of wild rice. Adult moths lay eggs on the wild rice Dick Wegscheid, New York Mills flowers in mid- to late summer. The larvae that 6 Minnesota Conservation Volunteer emerge feed on the spikelet and kernels as they ing signs of the disease. Last winter there were develop, then eat their way into the stems, where numerous reports of bats flying during the day they overwinter until pupating in early June. As in surrounding communities. The DNR is very with many insects, populations can fluctuate interested in reports of bats seen flying during the strongly from year to year. day. Submit a report at mndnr.gov/reportbats. Maple Mystery. In early March I noticed patches of missing bark about as large as a man’s hand on many of the maple trees at my cabin in northern Minnesota.What could cause this? Jennifer Peterson, Clear Lake DNR forester Paul Dubuque suspects it could be the work of a yellow-bellied sapsucker. This woodpecker chips into bark to drink sap from trees, leaving holes that other animals can then enlarge. If your maples are relatively small and BARNES SHERALYN healthy, you could wrap burlap around the Odd Fox. Is there such an animal as a ring-tailed trunks or use tree guards to protect them. fox? Also, we saw a fox near Fargo that looked almost black.What was it? Harold Larson, Fergus Falls Winter Bat. One afternoon last January my husband and I observed a bat flying around our A species of animal called a ringtail lives in open covered porch. We are used to seeing bats the southern United States, but it’s not a fox. at night in the summer but not during the day in Minnesota has two fox species, red fox and gray winter. Is this just a confused little guy? fox, says DNR furbearer specialist John Erb. Red Ruth Jayson, Eveleth foxes occur in three color “phases”—the familiar red as well as silver and cross. The silver-phase Bats fly outside during winter, particularly on red fox is mostly black, but the tips of the hairs warm, sunny days, but this is not common. DNR are silver, giving it a frosty appearance on parts of bat expert Gerda Nordquist suspects you may its body. The cross-phase red fox has a lot of red have observed a bat suffering from white-nose and orange coloration but also a large amount of syndrome—a disease caused by a fungus that black on its legs, chest, underside, and sometimes thrives in the environments where bats hibernate. face. It may have a black X across the shoulders. It grows on their nose and wing membranes, Gray foxes can vary in color as with any species. causing the bats to arouse from hibernation. ask us Infected bats that leave hibernacula often die from exposure and lack of food. Sadly, the bats Send questions and daytime phone number to at Lake Vermilion–Soudan Underground Mine Natural Curiosities, 500 Lafayette Road N., St. Paul, State Park in northern Minnesota are show­ MN 55155-4046 or [email protected]. July–August 2017 7 .
Load more

Recommended publications
  • ARTHROPOD COMMUNITIES and PASSERINE DIET: EFFECTS of SHRUB EXPANSION in WESTERN ALASKA by Molly Tankersley Mcdermott, B.A./B.S
    Arthropod communities and passerine diet: effects of shrub expansion in Western Alaska Item Type Thesis Authors McDermott, Molly Tankersley Download date 26/09/2021 06:13:39 Link to Item http://hdl.handle.net/11122/7893 ARTHROPOD COMMUNITIES AND PASSERINE DIET: EFFECTS OF SHRUB EXPANSION IN WESTERN ALASKA By Molly Tankersley McDermott, B.A./B.S. A Thesis Submitted in Partial Fulfillment of the Requirements for the Degree of Master of Science in Biological Sciences University of Alaska Fairbanks August 2017 APPROVED: Pat Doak, Committee Chair Greg Breed, Committee Member Colleen Handel, Committee Member Christa Mulder, Committee Member Kris Hundertmark, Chair Department o f Biology and Wildlife Paul Layer, Dean College o f Natural Science and Mathematics Michael Castellini, Dean of the Graduate School ABSTRACT Across the Arctic, taller woody shrubs, particularly willow (Salix spp.), birch (Betula spp.), and alder (Alnus spp.), have been expanding rapidly onto tundra. Changes in vegetation structure can alter the physical habitat structure, thermal environment, and food available to arthropods, which play an important role in the structure and functioning of Arctic ecosystems. Not only do they provide key ecosystem services such as pollination and nutrient cycling, they are an essential food source for migratory birds. In this study I examined the relationships between the abundance, diversity, and community composition of arthropods and the height and cover of several shrub species across a tundra-shrub gradient in northwestern Alaska. To characterize nestling diet of common passerines that occupy this gradient, I used next-generation sequencing of fecal matter. Willow cover was strongly and consistently associated with abundance and biomass of arthropods and significant shifts in arthropod community composition and diversity.
    [Show full text]
  • 2015 Summary of Changes to Endangered, Threatened, And
    2015 Update to State Listed Species The Department of Energy and Environmental Protection (DEEP) is required to review, at least every five years, the designation of species as endangered, threatened, or of special concern to determine whether species should be: (1) added or removed from the list; or, if necessary, (2) change the designation from one category to another. The following is a summary of the changes to the State Endangered Species list (DEEP Regulations Sections 26‐306‐4, 26‐306‐5, and 26‐306‐6) that became effective on August 5, 2015. The complete list can be found on the DEEP website. Summary of Amphibian Changes New species added Necturus maculosus, Mudpuppy added as Special Concern Summary of Reptile Changes New species added Clemmys guttata, Spotted turtle added as Special Concern Malaclemys terrapin terrapin, Northern diamondback terrapin added as Special Concern Taxonomic Changes Eumeces fasciatus, Five‐lined skink changed to Plestiodon fasciatus Liochlorophis vernalis, Smooth green snake changed to Opheodrys vernalis Summary of Bird Changes Northern diamondback terrapin Status Changes Falco sparverius, American kestrel downlisted to Special Concern Progne subis, Purple martin downlisted to Special Concern Sturnella magna, Eastern meadowlark uplisted to Threatened New species added Accipiter gentilis, Northern goshawk added as Threatened Setophaga cerulea, Cerulean warbler added as Special Concern Species delisted Anas discors, Blue‐winged teal Laterallus jamaicensis, Black rail Cerulean warbler Taxonomic changes Parula americana, Northern parula changed to Setophaga americana 1 Summary of Mammal Changes Status Changes Myotis leibii, Eastern small‐footed bat uplisted to Endangered New Species Added Myotis lucifugus, Little brown bat added as Endangered Myotis septentrionalis, Northern long‐eared bat added as Endangered (also Federally Threatened) Perimyotis subflavus, Tri‐colored bat added as Endangered Taxonomic Changes Phocoena phocoena, Harbor porpoise changed to Phocoena Northern long‐eared bat phocoena ssp.
    [Show full text]
  • Check List of Noctuid Moths (Lepidoptera: Noctuidae And
    Бiологiчний вiсник МДПУ імені Богдана Хмельницького 6 (2), стор. 87–97, 2016 Biological Bulletin of Bogdan Chmelnitskiy Melitopol State Pedagogical University, 6 (2), pp. 87–97, 2016 ARTICLE UDC 595.786 CHECK LIST OF NOCTUID MOTHS (LEPIDOPTERA: NOCTUIDAE AND EREBIDAE EXCLUDING LYMANTRIINAE AND ARCTIINAE) FROM THE SAUR MOUNTAINS (EAST KAZAKHSTAN AND NORTH-EAST CHINA) A.V. Volynkin1, 2, S.V. Titov3, M. Černila4 1 Altai State University, South Siberian Botanical Garden, Lenina pr. 61, Barnaul, 656049, Russia. E-mail: [email protected] 2 Tomsk State University, Laboratory of Biodiversity and Ecology, Lenina pr. 36, 634050, Tomsk, Russia 3 The Research Centre for Environmental ‘Monitoring’, S. Toraighyrov Pavlodar State University, Lomova str. 64, KZ-140008, Pavlodar, Kazakhstan. E-mail: [email protected] 4 The Slovenian Museum of Natural History, Prešernova 20, SI-1001, Ljubljana, Slovenia. E-mail: [email protected] The paper contains data on the fauna of the Lepidoptera families Erebidae (excluding subfamilies Lymantriinae and Arctiinae) and Noctuidae of the Saur Mountains (East Kazakhstan). The check list includes 216 species. The map of collecting localities is presented. Key words: Lepidoptera, Noctuidae, Erebidae, Asia, Kazakhstan, Saur, fauna. INTRODUCTION The fauna of noctuoid moths (the families Erebidae and Noctuidae) of Kazakhstan is still poorly studied. Only the fauna of West Kazakhstan has been studied satisfactorily (Gorbunov 2011). On the faunas of other parts of the country, only fragmentary data are published (Lederer, 1853; 1855; Aibasov & Zhdanko 1982; Hacker & Peks 1990; Lehmann et al. 1998; Benedek & Bálint 2009; 2013; Korb 2013). In contrast to the West Kazakhstan, the fauna of noctuid moths of East Kazakhstan was studied inadequately.
    [Show full text]
  • The Apameini of Israel (Lepidoptera: Noctuidae) SHILAP Revista De Lepidopterología, Vol
    SHILAP Revista de Lepidopterología ISSN: 0300-5267 [email protected] Sociedad Hispano-Luso-Americana de Lepidopterología España Kravchenko, V. D.; Fibiger, M.; Mooser, J.; Junnila, A.; Müller, G. C. The Apameini of Israel (Lepidoptera: Noctuidae) SHILAP Revista de Lepidopterología, vol. 36, núm. 142, junio, 2008, pp. 253-259 Sociedad Hispano-Luso-Americana de Lepidopterología Madrid, España Available in: http://www.redalyc.org/articulo.oa?id=45512540015 How to cite Complete issue Scientific Information System More information about this article Network of Scientific Journals from Latin America, the Caribbean, Spain and Portugal Journal's homepage in redalyc.org Non-profit academic project, developed under the open access initiative SHILAP Nº 142 9/6/08 11:52 Página 253 SHILAP Revta. lepid., 36 (142), junio 2008: 253-259 CODEN: SRLPEF ISSN:0300-5267 The Apameini of Israel (Lepidoptera: Noctuidae) V. D. Kravchenko, M. Fibiger, J. Mooser, A. Junnila & G. C. Müller Abstract In Israel, 20 species of tribe Apameini belonging to 10 genera have been found to date. Four species are endemic of the Levant (Sesamia ilonae, Luperina kravchenkoi, Gortyna gyulaii and Lenisa wiltshirei). Others are mostly Palaearctic, Mediterranean, Iranian and Irano-Turanian elements. Grassland species of the Apameini are mainly associated with the Temperate region and are univoltine with highest rate of occurrence in May, or in autumn. Most wetland and oases species are multivoltine and occur in oases and riverbeds over the country, though few of the species are extremely localized. The S. ilonae is presently known only from northern area of the Sea of Galilee, while A. deserticola is from oases of the Dead Sea area.
    [Show full text]
  • Viruses 2015, 7, 306-319; Doi:10.3390/V7010306 OPEN ACCESS
    Viruses 2015, 7, 306-319; doi:10.3390/v7010306 OPEN ACCESS viruses ISSN 1999-4915 www.mdpi.com/journal/viruses Review History and Current Status of Development and Use of Viral Insecticides in China Xiulian Sun Key Laboratory of Agricultural and Environmental Microbiology, Wuhan Institute of Virology, Chinese Academy of Sciences, Wuhan 430071, China; E-Mail: [email protected]; Tel.: +86-27-8719-8641; Fax: +86-27-8719-8072 Academic Editors: John Burand and Madoka Nakai Received: 1 December 2014 / Accepted: 14 January 2015 / Published: 20 January 2015 Abstract: The use of insect viruses as biological control agents started in the early 1960s in China. To date, more than 32 viruses have been used to control insect pests in agriculture, forestry, pastures, and domestic gardens in China. In 2014, 57 products from 11 viruses were authorized as commercial viral insecticides by the Ministry of Agriculture of China. Approximately 1600 tons of viral insecticidal formulations have been produced annually in recent years, accounting for about 0.2% of the total insecticide output of China. The development and use of Helicoverpa armigera nucleopolyhedrovirus, Mamestra brassicae nucleopolyhedrovirus, Spodoptera litura nucleopolyhedrovirus, and Periplaneta fuliginosa densovirus are discussed as case studies. Additionally, some baculoviruses have been genetically modified to improve their killing rate, infectivity, and ultraviolet resistance. In this context, the biosafety assessment of a genetically modified Helicoverpa armigera nucleopolyhedrovirus is discussed. Keywords: viral insecticides; commercialization; genetic modification 1. Introduction Research on insect viruses in China started with the Bombyx mori nucleopolyhedrovirus in the mid-1950s [1] and, to date, more than 200 insect virus isolates have been recorded in China.
    [Show full text]
  • Indiana County Endangered, Threatened and Rare Species List 03/09/2020 County: Elkhart
    Page 1 of 4 Indiana County Endangered, Threatened and Rare Species List 03/09/2020 County: Elkhart Species Name Common Name FED STATE GRANK SRANK Insect: Plecoptera (Stoneflies) Acroneuria lycorias Boreal Stonefly SE G5 S1 Perlesta golconda Two-lined Stone SE G2G3 S1 Pteronarcys dorsata American Salmonfly SE G5 S1 Mollusk: Bivalvia (Mussels) Venustaconcha ellipsiformis Ellipse G4 S2 Mollusk: Gastropoda Campeloma decisum Pointed Campeloma SSC G5 S2 Insect: Coleoptera (Beetles) Nicrophorus americanus American Burying Beetle LE SX G3 SX Insect: Hymenoptera Formica ulkei G5 S1 Insect: Lepidoptera (Butterflies & Moths) Apamea lignicolora The Wood-colored Apamea ST G5 S1S2 Apamea nigrior Black-dashed Apamea SR G5 S2S3 Capis curvata Curved Halter Moth ST G5 S2S3 Catocala praeclara Praeclara Underwing SR G5 S2S3 Crambus girardellus Orange-striped Sedge Moth SR GNR S2S3 Dasychira cinnamomea Cinnamon Tussock Moth SE G4 S1 Exyra fax Pitcher Window Moth SE G4 S1S2 Iodopepla u-album White-eyed Borer Moth SR G5 S2 Leucania multilinea Many-lined Wainscot SR G5 S1S2 Macrochilo absorptalis Slant-lined Owlet SR G4G5 S2S3 Macrochilo hypocritalis Twin-dotted Macrochilo SR G4 S2 Melanomma auricinctaria Huckleberry Eye-spot Moth SR G4 S2S3 Papaipema appassionata The Pitcher Plant Borer Moth SE G4 S1 Papaipema speciosissima The Royal Fern Borer Moth ST G4 S2S3 Insect: Odonata (Dragonflies & Damselflies) Sympetrum semicinctum Band-winged Meadowhawk SR G5 S2S3 Insect: Tricoptera (Caddisflies) Setodes oligius A Caddisfly SE G5 S1 Fish Coregonus artedi Cisco SSC
    [Show full text]
  • MOTH CHECKLIST Species Listed Are Those Recorded on the Wetland to Date
    Version 4.0 Nov 2015 Map Ref: SO 95086 46541 MOTH CHECKLIST Species listed are those recorded on the Wetland to date. Vernacular Name Scientific Name New Code B&F No. MACRO MOTHS 3.005 14 Ghost Moth Hepialus humulae 3.001 15 Orange Swift Hepialus sylvina 3.002 17 Common Swift Hepialus lupulinus 50.002 161 Leopard Moth Zeuzera pyrina 54.008 169 Six-spot Burnet Zygaeba filipendulae 66.007 1637 Oak Eggar Lasiocampa quercus 66.010 1640 The Drinker Euthrix potatoria 68.001 1643 Emperor Moth Saturnia pavonia 65.002 1646 Oak Hook-tip Drepana binaria 65.005 1648 Pebble Hook-tip Drepana falcataria 65.007 1651 Chinese Character Cilix glaucata 65.009 1653 Buff Arches Habrosyne pyritoides 65.010 1654 Figure of Eighty Tethia ocularis 65.015 1660 Frosted Green Polyploca ridens 70.305 1669 Common Emerald Hermithea aestivaria 70.302 1673 Small Emerald Hemistola chrysoprasaria 70.029 1682 Blood-vein Timandra comae 70.024 1690 Small Blood-vein Scopula imitaria 70.013 1702 Small Fan-footed Wave Idaea biselata 70.011 1708 Single-dotted Wave Idaea dimidiata 70.016 1713 Riband Wave Idaea aversata 70.053 1722 Flame Carpet Xanthorhoe designata 70.051 1724 Red Twin-spot Carpet Xanthorhoe spadicearia 70.049 1728 Garden Carpet Xanthorhoe fluctuata 70.061 1738 Common Carpet Epirrhoe alternata 70.059 1742 Yellow Shell Camptogramma bilineata 70.087 1752 Purple Bar Cosmorhoe ocellata 70.093 1758 Barred Straw Eulithis (Gandaritis) pyraliata 70.097 1764 Common Marbled Carpet Chloroclysta truncata 70.085 1765 Barred Yellow Cidaria fulvata 70.100 1776 Green Carpet Colostygia pectinataria 70.126 1781 Small Waved Umber Horisme vitalbata 70.107 1795 November/Autumnal Moth agg Epirrita dilutata agg.
    [Show full text]
  • Miscr157.Pdf (2.553Mb Application/Pdf)
    Authors Contents Page A. G. Peterson Introduction . 3 professor emeritus Department of Entomology, Fisheries, and Wildlife Riceworm ....................................... 3 University of Minnesota Evaluation of Injury by Riceworms . 4 D. M. Noetzel Varietal Susceptibility to Riceworms . 5 associate professor and extension entomologist Department of Entomology, Fisheries, and Wildlife Control of Riceworms . 5 University of Minnesota Rice Stalk Borer ................................. II J. E. Sargent Evaluation of Injury by Stalk Borers ................. II associate professor a.nd extension entomologist Control of the Rice Stalk Borer ..................... I2 Ohio State University Rice Water Weevil ............................... 13 P. E. Hanson graduate student and research assistant Other Insects Occurring on Wild Rice .................. I4 Department of Entomology Wild Rice Midge ................................. I4 University of Oregon Wild Rice Leafminers ............................. I4 C. B. Johnson former entomology graduate student Wild Rice Stem Maggot ........................... I4 University of Minnesota Additional Insects .................................. I5 A. T. Soemawinata junior lecturer, economic entomology Acknowledgments .................................. I5 Bogor Agricultural University, Indonesia Literature Cited .................................... I5 The University of Minnesota, including the Agricultural Experiment Station, is committed to the policy that all persons shall have equal access to its programs, facilities, and employment without regard to race, creed, color, se.x, national origin, or handicap. 30 cents Insects of Wild ICe lll Minnesota A. G. Peterson, D. M. Noetzel, J. E. Sargent, P. E. Hanson, C. B. Johnson, a!'id A. T. Soemawinata* INTRODUCTION the wild rice plant. Adult moths (figure l) begin to emerge at about the same time that the first wild rice panicles appear. Little information is available concerning the insect pests of According to light trap catches, the first emergence of adults is wild rice.
    [Show full text]
  • Insecticidal Action of Chitin-Binding Mistletoe (Viscum Album L.) Fruit Lectins Against Apamea Sordens Hufn
    saqarTvelos mecnierebaTa erovnuli akademiis moambe, t. 4, #3, 2010 BULLETIN OF THE GEORGIAN NATIONAL ACADEMY OF SCIENCES, vol. 4, no. 3, 2010 Plant Physiology Insecticidal Action of Chitin-Binding Mistletoe (Viscum album L.) Fruit Lectins against Apamea sordens Hufn. and Pyrausta nubilalis Hb. (Lepidoptera: Noctuidae) Nino Keburia*, Ekaterine Khurtsidze*, Mariam Gaidamashvili* * I. Javakhishvili Tbilisi State University (Presented by Academy Member Nugzar Aleksidze) ABSTRACT. Chitin-binding lectins from mistletoe (Viscum album L.) fruit were examined for insecticidal activity against Apamea sordens Hufn. and Pyrausta nubilalis Hb. (Lepidoptera, Noctuidae) larvae at different stages of development. Lectins affected larval survival and showed delay of pupation time. The results demonstrate that mistletoe chitin-binding lectins have obvious anti-nutritive effects on Lepidoptera insects. © 2010 Bull. Georg. Natl. Acad. Sci. Key words: Lepidoptera, mistletoe, chitin-binding lectin, insecticidal activity. Insects are in competition with human agro-industry. documented [1-3]. Insecticidal activity was found to be Every day, 1/6 of the world’s agricultural production is associated mostly with the two main groups of plant consumed by insects, especially in those countries which lectins: monocot mannose-binding and chitin-binding are the most dependent on agriculture for their lectin groups. Galanthus nivalis bulb lectin and wheat subsistence or for the revenue it generates for health germ agglutinin are the best characterized representatives and development expenses. Lepidoptera are the most of this group which is increasingly used in the diverse group of animals in the world and they are development of transgenic crops [4]. practically all herbivores. Among the polyphagous In this paper we analyze chitin-binding lectins (VAC1 Lepidoptera insects Apamea sordens (Noctuidae) and and VAC2) from mistletoe (Viscum album L.) fruits for Pyrausta nubilalis (Pyralididae) are the largest in the insecticidal activity toward Apamea sordens Hufn.
    [Show full text]
  • A New Genus and Species of the Tribe Apameini from the Russian Far East (Lepidoptera, Noctuidae: Xyleninae)
    Zootaxa 3590: 16–22 (2012) ISSN 1175-5326 (print edition) www.mapress.com/zootaxa/ ZOOTAXA Copyright © 2012 · Magnolia Press Article ISSN 1175-5334 (online edition) urn:lsid:zoobank.org:pub:C3C0D537-CABE-41F6-89E4-B84B9A03E5A2 A new genus and species of the tribe Apameini from the Russian Far East (Lepidoptera, Noctuidae: Xyleninae) V. S. KONONENKO1,3 & A. JU. МАТОV2 1Laboratory of Entomology, Institute of Biology and Soil Science Far Eastern Branch of Russian Academy of Sciences, RF-690022 Vladivostok, Russia. E-mail: [email protected], [email protected] 2Laboratory of Entomology, Zoological Institute of Russian Academy of Sciences RF-199034 St. Petersburg, Russia. E-mail: [email protected], [email protected] 3Corresponding author Abstract A new genus Minigrapta gen. n. (type-species Xanthograpta basinigra Sugi, 1982) and new species Minigrapta minimoides sp. n. of the tribe Apameini are described from the Primorye territory, Russia. The species described as Xanthograpta basinigra Sugi, 1982 is transferred from Acontiinae (sensu auctorum) to the subfamily Xyleninae, tribe Apameini; the new combination Minigrapta basinigra Sugi, 1982 comb. n. is proposed. The adults and genitalia are illustrated for these and allied species. Key words: Lepidoptera, Noctuidae, Xyleninae, Apameini, new genus, new species, East Palaearctic, Primorye territory Introduction The Apameini is one of the largest tribes in the subfamily Xyleninae (Noctuidae) and includes about 800 species worldwide (Zilli et al. 2005). The tribe is distributed mainly in the Northern Hemisphere, but some taxa are also recorded from the mountainous areas of the Oriental and African tropical regions. The tribe is most diverse in open steppe, forest-steppe and mountain habitats in the southern part of the temperate zone.
    [Show full text]
  • Lepidoptera, Noctuidae, Noctuinae)
    A peer-reviewed open-access journal ZooKeys 421:A new181–191 apameine (2014) genus and species from the southern Appalachian Mountains, USA... 181 doi: 10.3897/zookeys.421.7727 RESEARCH ARTICLE www.zookeys.org Launched to accelerate biodiversity research A new apameine genus and species from the southern Appalachian Mountains, USA (Lepidoptera, Noctuidae, Noctuinae) Eric L. Quinter1, J. Bolling Sullivan2 1 P.O. Box 74, Willimantic, Connecticut, 06226, USA 2 200 Craven Street, Beaufort, North Carolina, 28516, USA Corresponding author: Eric L. Quinter ([email protected]); J. Bolling Sullivan ([email protected]) Academic editor: C. Schmidt | Received 15 April 2014 | Accepted 15 May 2014 | Published 27 June 2014 http://zoobank.org/C935D050-0B82-4396-8B93-40305586F683 Citation: Quinter EL, Sullivan JB (2014) A new apameine genus and species from the southern Appalachian Mountains, USA (Lepidoptera, Noctuidae, Noctuinae). In: Schmidt BC, Lafontaine JD (Eds) Contributions to the systematics of New World macro-moths V. ZooKeys 421: 181–191. doi: 10.3897/zookeys.421.7727 Abstract Cherokeea gen. n. is proposed for a rarely collected apameine moth species from the southern Appalachian Mountains, C. attakullakulla sp. n. It is recorded from foothills and lower montane habitats of North Carolina and Georgia where hill cane, Arundinaria appalachiana Triplett, Weakley & L.G. Clark is found. Adults and their genitalia are figured and a mtDNA barcode sequence is given. Keywords Apameini, Arundinaria, bamboo, barcode, biogeography, endophagy, evolution, Noctuoidea Introduction Most of the species formerly placed in the “Oligia” semicana (Walker) group were resolved by Troubridge and Lafontaine (2002) and placed in the new genus Neoligia Troubridge & Lafontaine.
    [Show full text]
  • Apamea Sphagnicola Sp. N. — a Surprising New Species from the Azores in Westernmost Europe (Lepidoptera, Noctuidae, Xyleninae, Apameini)
    Nachr. entomol. Ver. Apollo, N. F. 35 (4): 177–184 (2014) 177 Apamea sphagnicola sp. n. — a surprising new species from the Azores in westernmost Europe (Lepidoptera, Noctuidae, Xyleninae, Apameini) Wolfgang Wagner Dr. Wolfgang Wagner, Baseler Straße 6, D­70619 Stuttgart, Germany; [email protected], www.pyrgus.de Abstract: In November and December 2013 and in March the easternmost islands. São Miguel is the largest island 2014 the author found caterpillars of a species of the genus and belongs to the eastern group, some 1500 km from the Apamea Ochsenheimer, 1816 in the uplands of São Miguel Portuguese mainland, some 1700 km from North Af ri ca Island (Azores, Portugal) in a very special ecological niche in damp Sphagnum mosses in mostly shady, steep em bank­ and about 3600 km from the United States east coast. ments and slopes. Because so far no Apamea species are São Miguel is of volcanic origin. Eastern parts of the known from the Azores (and the whole of Maca ro ne sia), is land are at least 4–5 million years old. Originally, the the larvae have been reared and the bionomics studi ed. As Azo rean islands had been mainly covered by laurel ex pected, the resulting adults could not been as sign ed to an ex isting species. Thus Apamea sphagnicola sp. n. is descr i­ forests and peat mosses. Nowadays the lower regions are bed in the present paper (holotype male in Senc kenberg­ more and more used as usually overfertilized, EU­funded Mu seum in Frankfurt am Main, Ger ma ny).
    [Show full text]