Coleoptera Collected Using Three Trapping Methods at Grass River Natural Area, Antrim County, Michigan

Total Page:16

File Type:pdf, Size:1020Kb

Coleoptera Collected Using Three Trapping Methods at Grass River Natural Area, Antrim County, Michigan The Great Lakes Entomologist Volume 53 Numbers 3 & 4 - Fall/Winter 2020 Numbers 3 & Article 9 4 - Fall/Winter 2020 December 2020 Coleoptera Collected Using Three Trapping Methods at Grass River Natural Area, Antrim County, Michigan Robert A. Haack USDA Forest Service, [email protected] Bill Ruesink [email protected] Follow this and additional works at: https://scholar.valpo.edu/tgle Part of the Entomology Commons, and the Forest Biology Commons Recommended Citation Haack, Robert A. and Ruesink, Bill 2020. "Coleoptera Collected Using Three Trapping Methods at Grass River Natural Area, Antrim County, Michigan," The Great Lakes Entomologist, vol 53 (2) Available at: https://scholar.valpo.edu/tgle/vol53/iss2/9 This Peer-Review Article is brought to you for free and open access by the Department of Biology at ValpoScholar. It has been accepted for inclusion in The Great Lakes Entomologist by an authorized administrator of ValpoScholar. For more information, please contact a ValpoScholar staff member at [email protected]. Haack and Ruesink: Coleoptera Collected at Grass River Natural Area 138 THE GREAT LAKES ENTOMOLOGIST Vol. 53, Nos. 3–4 Coleoptera Collected Using Three Trapping Methods at Grass River Natural Area, Antrim County, Michigan Robert A. Haack1, * and William G. Ruesink2 1 USDA Forest Service, Northern Research Station, 3101 Technology Blvd., Suite F, Lansing, MI 48910 (emeritus) 2 Illinois Natural History Survey, 1816 S Oak St, Champaign, IL 61820 (emeritus) * Corresponding author: (e-mail: [email protected]) Abstract Overall, 409 Coleoptera species (369 identified to species, 24 to genus only, and 16 to subfamily only), representing 275 genera and 58 beetle families, were collected from late May through late September 2017 at the Grass River Natural Area (GRNA), Antrim Coun- ty, Michigan, using baited multi-funnel traps (210 species), pitfall traps (104 species), and sweep nets (168 species). All three collecting methods were used in three distinct habitats: a rich conifer swamp (cedar), near the edge of a red pine plantation (pine), and within a mesic northern hardwood forest (hardwoods). Additional collections were made along two trails and in an open field by sweep netting only. Of the 409 species, 322 were collected in one or more of the cedar, hardwoods, and pine habitats, and 152 were collected along the two trails and the grassland site. Of the 322 species collected in the three main habitats, 40 species (36 genera and 14 families) were collected in all three habitats, 105 species (80 genera and 32 families) were collected in the cedar, 176 (131 genera and 38 families) in the hardwoods, and 199 (158 genera and 47 families) in the pine habitats. With respect to adult seasonal activity, 21% of the 409 species were first collected in May, 40% in June, 23% in July, 10% in August, and 6% in September. Of the 210 species collected in funnel traps, 144, 123, and 114 species were collected, respectively, in traps baited with α-pinene, ethanol, or ipsenol. Diversity indices were calculated for the funnel trap data by site and lure. Overall, 32 of the 409 species were considered exotic to North America, and 18 were considered new state records for Michigan. In addition, 16 species of aquatic beetles (12 genera in 5 families) were identified from GRNA stream samples collected during 2013–2019. Keywords: beetles, diversity index, state records, funnel trap, pitfall trap, sweep net Interest in insect biodiversity and con- on collections in both Michigan’s Lower and servation has grown in recent decades along Upper Peninsulas, including Isle Royale with recognition of the many important eco- in Lake Superior where they recorded 123 system services that insects provide (Foottit beetle species. Townsend (1889) published and Adler 2017, Samways 2019). Moreover, a list of beetles (161 species) collected in St. recent reports of global insect declines have Joseph County, MI. Later, Adams (1909) heightened public awareness of the threats and Wolcott (1909) added several more spe- faced by many insects (van Klink et al. 2020). cies to the list of beetles known to occur on Just over one million species of insects have Isle Royale, raising the total to 206 species. been described worldwide (Zhang 2011), Andrews (1916) published an extensive including nearly 400,000 species of beetles list of beetle species (623 species) found on (Coleoptera) (Bouchard et al. 2017). In North the Charity Islands in Saginaw Bay, Lake America north of Mexico, over 25,000 beetle Huron. Andrews (1921) published another species have been described (Marske and long list of beetle species (886 species) found Ivie 2003), and in Michigan there are about at Whitefish Point in the Upper Peninsula 4000 beetle species recorded (W. G. Ruesink of Michigan. One additional early list of et al., unpublished data). Michigan beetles (580 species) was published Beetle surveys in various parts of by Hatch (1925) for Charlevoix County, Michigan have been published since the including Beaver, Garden and Hog Islands late 1800s. Schwarz (1876) published one in Lake Michigan. More recently, several of the first lists based on beetles collected authoritative lists of Michigan beetles have mostly in the Detroit area. Two years later, been published for specific families or sub- Hubbard and Schwarz (1878) published a families, such as Buprestidae (Wellso et al. more extensive list (> 2000 species) based 1976), Cerambycidae (Gosling 1973, 1983; Published by ValpoScholar, 2020 1 The Great Lakes Entomologist, Vol. 53, No. 2 [2020], Art. 9 2020 THE GREAT LAKES ENTOMOLOGIST 139 Figure 1. Map of Grass River Natural Area (GRNA), Antrim County, MI, showing all property as of 2020 except for a few parcels at the north end of Lake Bellaire. The green-col- ored parcels are open to hunting, while the orange-colored area is closed to hunting. Labels for the 2017 sampling sites are: C = cedar habitat, G = grassland, H = hardwoods, P = pine, RT = Rail Trail, and SMT = Sedge Meadow Trail. The three creeks where sampling occurred are marked (Cold, Finch, and Shanty Creeks). The red star inside the inset map of Michigan is the approximate location of GRNA. Gosling and Gosling 1977), Ciidae (Grey et al. 2017). Using MNFI terminology the and Cognato 2019), Cleridae (Gosling 1980), nine natural communities (habitats) found at Scolytinae (Cognato et al. 2009), Tenebrion- GRNA, in decreasing order of size as estimat- idae (Spilman 1973), and several families of ed in 2017, were rich conifer swamp (503 ac; aquatic beetles (Bright 2020). 204 ha), mesic northern forest (283 ac; 115 ha), northern fen (185 ac; 75 ha), poor coni- The Grass River Natural Area (GRNA) fer swamp (82 ac; 33 ha), hardwood-conifer is in Antrim County in northwestern Lower swamp (53 ac; 21 ha), northern wet meadow Michigan, where it straddles much of the (49 ac; 20 ha), northern shrub thicket (41 Grass River that connects Lake Bellaire to ac; 17 ha), dry-mesic northern forest (30 Clam Lake (Fig. 1). GRNA began in 1969 ac; 12 ha), and emergent marsh (6 ac; 2 ha) with a single 62 ac (25 ha) parcel and has (Hackett et al. 2017). now expanded to 1492 ac (603 ha), consisting of 73 discrete and mostly contiguous land Beetles can be collected in a variety of parcels (GRNA 2020). The staff at GRNA ways with equipment such as sweep nets, welcomes and supports on-site field research beating sheets, light traps, pitfall traps, (GRNA 2020). baited or unbaited flight-intercept traps, Berlese funnels, and Malaise traps (Dillon The Michigan Natural Features In- and Dillon 1972, White 1983, Evans 2014). ventory (MNFI) has identified 77 natural In the present study, we used sweep nets, community types in Michigan (Kost et al. pitfall traps, and baited multi-funnel traps 2007, Cohen et al. 2015), of which 9 were to collect beetles at GRNA in 2017. In this identified by MNFI staff at GRNA (Hackett paper, we provide a list of the beetle species https://scholar.valpo.edu/tgle/vol53/iss2/9 2 Haack and Ruesink: Coleoptera Collected at Grass River Natural Area 140 THE GREAT LAKES ENTOMOLOGIST Vol. 53, Nos. 3–4 collected with details on their habitat asso- pitfall traps, and sweep netting. Sampling ciations, seasonality, methods by which they with funnel traps occurred from 19 May to were collected, and status as being native 24 September 2017, and similarly from 19 or exotic to the United States as well as a May to 22 September 2017 for pitfall traps, new state record for Michigan. In addition, and from 23 May to 20 September 2017 for diversity indices were calculated for the sweep netting. Starting in June or July, re- funnel trap data. spectively, the pitfall traps and funnel traps were “closed” for two weeks each month, Methods and Materials usually the first two weeks of each month. Sweep netting occurred at all sites, starting Habitats sampled. Trapping and in May or June, and occurred usually two to sweep netting was conducted in three GRNA three times per month, including the trails habitats, including rich conifer swamp and grassland site. (which we refer to as “cedar”), mesic north- ern forest (hardwoods), and along the edge Funnel traps. At each of the three of a mature, red pine (Pinus resinosa Sol. main collecting sites, three 12-unit multi-fun- ex Aiton) plantation (pine) (Fig. 1). The rich nel traps (Contech Enterprises Inc., Victoria, conifer swamp was dominated by northern British Columbia, Canada) were deployed. white cedar (Thuja occidentalis L.), with oth- The color of the funnels was green as shown er occasional tree species such as tamarack in Petrice and Haack (2015). The individual [Larix laricina (Du Roi) K. Koch], balsam fir funnels in all traps were coated with Fluon [Abies balsamea (L.) Mill], red maple (Acer (Northern Products Inc., Woonsocket, RI), a rubrum L.), yellow birch (Betula alleghanien- slippery substance that improves trapping sis Britton), and black ash (Fraxinus nigra efficiency (Graham et al.
Recommended publications
  • The 2014 Golden Gate National Parks Bioblitz - Data Management and the Event Species List Achieving a Quality Dataset from a Large Scale Event
    National Park Service U.S. Department of the Interior Natural Resource Stewardship and Science The 2014 Golden Gate National Parks BioBlitz - Data Management and the Event Species List Achieving a Quality Dataset from a Large Scale Event Natural Resource Report NPS/GOGA/NRR—2016/1147 ON THIS PAGE Photograph of BioBlitz participants conducting data entry into iNaturalist. Photograph courtesy of the National Park Service. ON THE COVER Photograph of BioBlitz participants collecting aquatic species data in the Presidio of San Francisco. Photograph courtesy of National Park Service. The 2014 Golden Gate National Parks BioBlitz - Data Management and the Event Species List Achieving a Quality Dataset from a Large Scale Event Natural Resource Report NPS/GOGA/NRR—2016/1147 Elizabeth Edson1, Michelle O’Herron1, Alison Forrestel2, Daniel George3 1Golden Gate Parks Conservancy Building 201 Fort Mason San Francisco, CA 94129 2National Park Service. Golden Gate National Recreation Area Fort Cronkhite, Bldg. 1061 Sausalito, CA 94965 3National Park Service. San Francisco Bay Area Network Inventory & Monitoring Program Manager Fort Cronkhite, Bldg. 1063 Sausalito, CA 94965 March 2016 U.S. Department of the Interior National Park Service Natural Resource Stewardship and Science Fort Collins, Colorado The National Park Service, Natural Resource Stewardship and Science office in Fort Collins, Colorado, publishes a range of reports that address natural resource topics. These reports are of interest and applicability to a broad audience in the National Park Service and others in natural resource management, including scientists, conservation and environmental constituencies, and the public. The Natural Resource Report Series is used to disseminate comprehensive information and analysis about natural resources and related topics concerning lands managed by the National Park Service.
    [Show full text]
  • Coleoptera: Carabidae) Assemblages in a North American Sub-Boreal Forest
    Forest Ecology and Management 256 (2008) 1104–1123 Contents lists available at ScienceDirect Forest Ecology and Management journal homepage: www.elsevier.com/locate/foreco Catastrophic windstorm and fuel-reduction treatments alter ground beetle (Coleoptera: Carabidae) assemblages in a North American sub-boreal forest Kamal J.K. Gandhi a,b,1, Daniel W. Gilmore b,2, Steven A. Katovich c, William J. Mattson d, John C. Zasada e,3, Steven J. Seybold a,b,* a Department of Entomology, 219 Hodson Hall, 1980 Folwell Avenue, University of Minnesota, St. Paul, MN 55108, USA b Department of Forest Resources, 115 Green Hall, University of Minnesota, St. Paul, MN 55108, USA c USDA Forest Service, State and Private Forestry, 1992 Folwell Avenue, St. Paul, MN 55108, USA d USDA Forest Service, Northern Research Station, Forestry Sciences Laboratory, 5985 Hwy K, Rhinelander, WI 54501, USA e USDA Forest Service, Northern Research Station, 1831 Hwy 169E, Grand Rapids, MN 55744, USA ARTICLE INFO ABSTRACT Article history: We studied the short-term effects of a catastrophic windstorm and subsequent salvage-logging and Received 9 September 2007 prescribed-burning fuel-reduction treatments on ground beetle (Coleoptera: Carabidae) assemblages in a Received in revised form 8 June 2008 sub-borealforestinnortheasternMinnesota,USA. During2000–2003, 29,873groundbeetlesrepresentedby Accepted 9 June 2008 71 species were caught in unbaited and baited pitfall traps in aspen/birch/conifer (ABC) and jack pine (JP) cover types. At the family level, both land-area treatment and cover type had significant effects on ground Keywords: beetle trap catches, but there were no effects of pinenes and ethanol as baits.
    [Show full text]
  • Newsletter of the Biological Survey of Canada
    Newsletter of the Biological Survey of Canada Vol. 40(1) Summer 2021 The Newsletter of the BSC is published twice a year by the In this issue Biological Survey of Canada, an incorporated not-for-profit From the editor’s desk............2 group devoted to promoting biodiversity science in Canada. Membership..........................3 President’s report...................4 BSC Facebook & Twitter...........5 Reminder: 2021 AGM Contributing to the BSC The Annual General Meeting will be held on June 23, 2021 Newsletter............................5 Reminder: 2021 AGM..............6 Request for specimens: ........6 Feature Articles: Student Corner 1. City Nature Challenge Bioblitz Shawn Abraham: New Student 2021-The view from 53.5 °N, Liaison for the BSC..........................7 by Greg Pohl......................14 Mayflies (mainlyHexagenia sp., Ephemeroptera: Ephemeridae): an 2. Arthropod Survey at Fort Ellice, MB important food source for adult by Robert E. Wrigley & colleagues walleye in NW Ontario lakes, by A. ................................................18 Ricker-Held & D.Beresford................8 Project Updates New book on Staphylinids published Student Corner by J. Klimaszewski & colleagues......11 New Student Liaison: Assessment of Chironomidae (Dip- Shawn Abraham .............................7 tera) of Far Northern Ontario by A. Namayandeh & D. Beresford.......11 Mayflies (mainlyHexagenia sp., Ephemerop- New Project tera: Ephemeridae): an important food source Help GloWorm document the distribu- for adult walleye in NW Ontario lakes, tion & status of native earthworms in by A. Ricker-Held & D.Beresford................8 Canada, by H.Proctor & colleagues...12 Feature Articles 1. City Nature Challenge Bioblitz Tales from the Field: Take me to the River, by Todd Lawton ............................26 2021-The view from 53.5 °N, by Greg Pohl..............................14 2.
    [Show full text]
  • Dytiscid Water Beetles (Coleoptera: Dytiscidae) of the Yukon
    Dytiscid water beetles of the Yukon FRONTISPIECE. Neoscutopterus horni (Crotch), a large, black species of dytiscid beetle that is common in sphagnum bog pools throughout the Yukon Territory. 491 Dytiscid Water Beetles (Coleoptera: Dytiscidae) of the Yukon DAVID J. LARSON Department of Biology, Memorial University of Newfoundland St. John’s, Newfoundland, Canada A1B 3X9 Abstract. One hundred and thirteen species of Dytiscidae (Coleoptera) are recorded from the Yukon Territory. The Yukon distribution, total geographical range and habitat of each of these species is described and multi-species patterns are summarized in tabular form. Several different range patterns are recognized with most species being Holarctic or transcontinental Nearctic boreal (73%) in lentic habitats. Other major range patterns are Arctic (20 species) and Cordilleran (12 species), while a few species are considered to have Grassland (7), Deciduous forest (2) or Southern (5) distributions. Sixteen species have a Beringian and glaciated western Nearctic distribution, i.e. the only Nearctic Wisconsinan refugial area encompassed by their present range is the Alaskan/Central Yukon refugium; 5 of these species are closely confined to this area while 11 have wide ranges that extend in the arctic and/or boreal zones east to Hudson Bay. Résumé. Les dytiques (Coleoptera: Dytiscidae) du Yukon. Cent treize espèces de dytiques (Coleoptera: Dytiscidae) sont connues au Yukon. Leur répartition au Yukon, leur répartition globale et leur habitat sont décrits et un tableau résume les regroupements d’espèces. La répartition permet de reconnaître plusieurs éléments: la majorité des espèces sont holarctiques ou transcontinentales-néarctiques-boréales (73%) dans des habitats lénitiques. Vingt espèces sont arctiques, 12 sont cordillériennes, alors qu’un petit nombre sont de la prairie herbeuse (7), ou de la forêt décidue (2), ou sont australes (5).
    [Show full text]
  • Coleoptera) Rolf G
    ARTICLE IN PRESS Organisms, Diversity & Evolution 7 (2008) 255–269 www.elsevier.de/ode A genus-level supertree of Adephaga (Coleoptera) Rolf G. Beutela,Ã, Ignacio Riberab, Olaf R.P. Bininda-Emondsa aInstitut fu¨r Spezielle Zoologie und Evolutionsbiologie, FSU Jena, Germany bMuseo Nacional de Ciencias Naturales, Madrid, Spain Received 14 October 2005; accepted 17 May 2006 Abstract A supertree for Adephaga was reconstructed based on 43 independent source trees – including cladograms based on Hennigian and numerical cladistic analyses of morphological and molecular data – and on a backbone taxonomy. To overcome problems associated with both the size of the group and the comparative paucity of available information, our analysis was made at the genus level (requiring synonymizing taxa at different levels across the trees) and used Safe Taxonomic Reduction to remove especially poorly known species. The final supertree contained 401 genera, making it the most comprehensive phylogenetic estimate yet published for the group. Interrelationships among the families are well resolved. Gyrinidae constitute the basal sister group, Haliplidae appear as the sister taxon of Geadephaga+ Dytiscoidea, Noteridae are the sister group of the remaining Dytiscoidea, Amphizoidae and Aspidytidae are sister groups, and Hygrobiidae forms a clade with Dytiscidae. Resolution within the species-rich Dytiscidae is generally high, but some relations remain unclear. Trachypachidae are the sister group of Carabidae (including Rhysodidae), in contrast to a proposed sister-group relationship between Trachypachidae and Dytiscoidea. Carabidae are only monophyletic with the inclusion of a non-monophyletic Rhysodidae, but resolution within this megadiverse group is generally low. Non-monophyly of Rhysodidae is extremely unlikely from a morphological point of view, and this group remains the greatest enigma in adephagan systematics.
    [Show full text]
  • Coleoptera: Carabidae) Diversity
    VEGETATIVE COMMUNITIES AS INDICATORS OF GROUND BEETLE (COLEOPTERA: CARABIDAE) DIVERSITY BY ALAN D. YANAHAN THESIS Submitted in partial fulfillment of the requirements for the degree of Master of Science in Entomology in the Graduate College of the University of Illinois at Urbana-Champaign, 2013 Urbana, Illinois Master’s Committee: Dr. Steven J. Taylor, Chair, Director of Research Adjunct Assistant Professor Sam W. Heads Associate Professor Andrew V. Suarez ABSTRACT Formally assessing biodiversity can be a daunting if not impossible task. Subsequently, specific taxa are often chosen as indicators of patterns of diversity as a whole. Mapping the locations of indicator taxa can inform conservation planning by identifying land units for management strategies. For this approach to be successful, though, land units must be effective spatial representations of the species assemblages present on the landscape. In this study, I determined whether land units classified by vegetative communities predicted the community structure of a diverse group of invertebrates—the ground beetles (Coleoptera: Carabidae). Specifically, that (1) land units of the same classification contained similar carabid species assemblages and that (2) differences in species structure were correlated with variation in land unit characteristics, including canopy and ground cover, vegetation structure, tree density, leaf litter depth, and soil moisture. The study site, the Braidwood Dunes and Savanna Nature Preserve in Will County, Illinois is a mosaic of differing land units. Beetles were sampled continuously via pitfall trapping across an entire active season from 2011–2012. Land unit characteristics were measured in July 2012. Nonmetric multidimensional scaling (NMDS) ordinated the land units by their carabid assemblages into five ecologically meaningful clusters: disturbed, marsh, prairie, restoration, and savanna.
    [Show full text]
  • Rose Stem Girdler, a New Pest of Caneberries & Roses Jean R
    Natter’s Notes Rose stem girdler, a new pest of caneberries & roses Jean R. Natter As insects go, rose stem borers, Agrilus cuprescens, (Fig 1) are small commonly grown in home gardens, including metallic beetles in the Family Buprestidae, about a 1/4-inch long when both raspberry (red and black) and mature. This imported European species attacks two favorite garden blackberry. Affected roses may be wild or plants: Roses and caneberries. Their larvae bore into the stems, cultivated kinds. eventually girdling them. The growth beyond that point wilts and dies. (Fig 2) The older name, Agrilus aurichalceus, is still used in various resources. Other common names include bronze cane borer, cane fruit borer, and raspberry borer. Facts about borers Before we delve into further details, we need to understand that all insects that bore into plants behave similarly. For rose stem borers, it’s Fig 1 – Damage to caneberry foliage by adult rose stem essentially this: girdlers, Agrilus cuprescens, is typically minor. (W. 1. Stressed plants release volatiles (e.g.: ethanol) to attract the pests. Cranshaw, Colorado State University, Bugwood.org) 2. The borers find the host by following a scent emitted by the plant. Damage 3. The beetles “taste” the plant and, if it’s suitable for attack – Affected canes develop a gall (enlargement) adequately stressed – release aggregation pheromones which attract at the feeding site which dries, weakens and more of their kin. may break. (Figs 4, 5) Fruit production may 4. After sufficient beetles have arrived, they release a “de- decrease. Caneberry plants with normally aggregation” pheromone which essentially says “Back off, dude.” lush growth may die.
    [Show full text]
  • Forest Insect and Disease Conditions in Vermont 2014
    FOREST INSECT AND DISEASE CONDITIONS IN VERMONT 2014 AGENCY OF NATURAL RESOURCES DEPARTMENT OF FORESTS, PARKS & RECREATION MONTPELIER - VERMONT 05620-3801 STATE OF VERMONT AGENCY OF NATURAL RESOURCES DEPARTMENT OF FORESTS, PARKS & RECREATION Michael C. Snyder, Commissioner Steven J. Sinclair, Director of Forests http://fpr.vermont.gov/ We gratefully acknowledge the financial and technical support provided by the USDA Forest Service, Northeastern Area State and Private Forestry that enables us to conduct the surveys and publish the results in this report. This report serves as the final report for fulfillment of the Cooperative Lands – Survey and Technical Assistance and Forest Health Monitoring programs. In accordance with Federal law and U.S. Department of Agriculture policy, this institution is prohibited from discrimination on the basis of race, color, national origin, sex, age, or disability. This document is available upon request in large print, Braille or audio cassette. FOREST INSECT AND DISEASE CONDITIONS IN VERMONT CALENDAR YEAR 2014 PREPARED BY: Barbara Schultz, Trish Hanson, Sandra Wilmot, Kathy Decker, Tess Greaves AGENCY OF NATURAL RESOURCES DEPARTMENT OF FORESTS, PARKS & RECREATION STATE OF VERMONT – DEPARTMENT OF FORESTS, PARKS & RECREATION FOREST RESOURCE PROTECTION PERSONNEL Barbara Schultz Alexandra Pastor Kathy Decker Forest Health Program Manager Administrative Assistant Plant Pathologist/Invasive Plant Dept. of Forests, Parks & Dept. of Forests, Parks & Program Manager/District Recreation Recreation Manager 100 Mineral Street, Suite 304 1 National Life Drive, Davis 2 Dept. of Forests, Parks & Springfield, VT 05156-3168 Montpelier, VT 05620-3801 Recreation Cell Phone: 802-777-2082 Work Phone: 802-828-1531 1229 Portland St., Suite 201 [email protected] [email protected] St.
    [Show full text]
  • Coleoptera: Dytiscidae: Agabinae) with Phylogenetic Considerations
    Zootaxa 4646 (3): 401–433 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.4646.3.1 http://zoobank.org/urn:lsid:zoobank.org:pub:D9362795-F949-4A1F-9E46-1A466EDD9301 Description of the larvae of four Japanese Platambus Thomson, 1859 (Coleoptera: Dytiscidae: Agabinae) with phylogenetic considerations RYOHEI OKADA1, YVES ALARIE2 & MARIANO C. MICHAT3 1Coleopterological Society of Japan. National Museum of Nature and Science, Tsukuba, 3050005 Japan. E–mail: [email protected] 2Department of Biology, Laurentian University, Ramsey Lake Road, P3E 2C6, Canada. E-mail: [email protected] 3Laboratory of Entomology, IBBEA, CONICET-UBA., DBBE-FCEN, University of Buenos Aires, Argentina. E-mail: [email protected] Abstract The larvae of four species of Platambus Thomson, 1859 from Japan, P. pictipennis (Sharp, 1873), P. convexus Okada, 2011, P. fimbriatus (Sharp, 1884) and P. sawadai (Kamiya, 1932) are described for the first time including a detailed chaetotaxy analysis of the cephalic capsule, head appendages, legs, last abdominal segment and urogomphi. A provisional parsimony analysis based on 39 informative larval characteristics of 15 species in seven genera of the subfamily Agabinae was conducted using the program TNT. Larvae of the Platambus species studied stand out from those of other genera of Agabinae by the unique presence of a subquadrate last abdominal segment not protruding posteriorly into siphon and the much shorter length of the primary urogomphal seta UR5 compared to seta UR7 in first instar larva. Key words: Coleoptera, Dytiscidae, Agabinae, Platambus, chaetotaxy, larvae, Palearctic Introduction The dytiscid genus Platambus Thomson, 1859 contains 67 species distributed in the Nearctic, Neotropical, Orien- tal and Palearctic regions (Bian & Ji 2008; Hendrich & Przewoźny 2015; Hájek & Zhang 2019; Nilsson & Hájek 2019).
    [Show full text]
  • Biological-Control-Programmes-In
    Biological Control Programmes in Canada 2001–2012 This page intentionally left blank Biological Control Programmes in Canada 2001–2012 Edited by P.G. Mason1 and D.R. Gillespie2 1Agriculture and Agri-Food Canada, Ottawa, Ontario, Canada; 2Agriculture and Agri-Food Canada, Agassiz, British Columbia, Canada iii CABI is a trading name of CAB International CABI Head Offi ce CABI Nosworthy Way 38 Chauncey Street Wallingford Suite 1002 Oxfordshire OX10 8DE Boston, MA 02111 UK USA Tel: +44 (0)1491 832111 T: +1 800 552 3083 (toll free) Fax: +44 (0)1491 833508 T: +1 (0)617 395 4051 E-mail: [email protected] E-mail: [email protected] Website: www.cabi.org Chapters 1–4, 6–11, 15–17, 19, 21, 23, 25–28, 30–32, 34–36, 39–42, 44, 46–48, 52–56, 60–61, 64–71 © Crown Copyright 2013. Reproduced with the permission of the Controller of Her Majesty’s Stationery. Remaining chapters © CAB International 2013. All rights reserved. No part of this publication may be reproduced in any form or by any means, electroni- cally, mechanically, by photocopying, recording or otherwise, without the prior permission of the copyright owners. A catalogue record for this book is available from the British Library, London, UK. Library of Congress Cataloging-in-Publication Data Biological control programmes in Canada, 2001-2012 / [edited by] P.G. Mason and D.R. Gillespie. p. cm. Includes bibliographical references and index. ISBN 978-1-78064-257-4 (alk. paper) 1. Insect pests--Biological control--Canada. 2. Weeds--Biological con- trol--Canada. 3. Phytopathogenic microorganisms--Biological control- -Canada.
    [Show full text]
  • Marcelo Moussallem
    UNIVERSIDADE FEDERAL DO PARANÁ Marcelo Moussallem REVISÃO TAXONÔMICA DAS ESPÉCIES BRASILEIRAS DE ALEOCHARA (ALEOCHARA) GRAVENHORST, 1802 (COLEOPTERA: STAPHYLINIDAE: ALEOCHARINAE) Dissertação apresentada ao Programa de Pós-graduação em Ciências Biológicas, Área de Concentração em Entomologia, Setor de Ciências Biológicas, Departamento de Zoologia, Universidade Federal do Paraná como requisito parcial à obtenção do grau de Mestre em Ciências Biológicas. Orientador: Prof. Dr. Edilson Caron Co-Orientadora: Profᵃ Drᵃ Cibele S.Ribeiro-Costa CURITIBA 2015 Ad Astra per Aspera To all those who helped me pass through the difficulties and reach my stars. ACKNOWLEDGMENTS I would like to thank my family: Renato, Josely, Daniel and Clementina Moussallem of all the love and support given during not only this last years, but for my entire life. Lyvia Renata Boutin for always been there for me! Thank you for the patience, comprehension, love and support during these years. The entire Brito, Moussallem, Boutin and Cachuba families for the cozy and friendly relation. Marco Antônio dos Santos-Silva, José Roberto Pujol and Maria Luiza de Araújo Gastal, for the important contribution in my formation and serving as inspiration as great teacher, research and person. My advisors Prof. Dr. Edílson Caron and Prof a Dr a Cibele S. Ribeiro-Costa for the kind relation during this years and everything I learned from both. My colleages in post graduation, specially: Cristiane Seger (Botany), Kely Cruz (Botany), Ana Mazza (Entomology), João Fogaça (Entomology), Eric ‘Jummy’ Medeiros (Zoology), Isabela Monteiro Neves (Zoology) and Natascha Wosnick (Zoology) for the friendship and all the good memories! The Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) for the fellowship (N° 130498/2013-0) and grants (N° 1394.0790.9564.4621, 479960/2010-0 and 476361/2013-3).
    [Show full text]
  • IV Trobada D'estudiosos De La Serralada Litoral Central I VIII Del
    Sèrie Territori i Parcs Naturals 7 IV Trobada d’Estudiosos de la Serralada Litoral Central i VIII del Montnegre i el Corredor Col·lecció Eines Sèrie Territori i Parcs Naturals El 20 i 21 de novembre de 2019 va tenir lloc a Vallgorguina la IV Trobada d’Estudiosos de la Serralada Litoral Central i VIII del Montnegre i el Corredor, amb l’objectiu de donar a conèixer els estudis i recerques duts a terme els últims quatre anys en diferents àmbits de les ciències socials i naturals del territori. En total es van presentar 47 comunicacions que van abordar temes rellevants i innovadors, però també estudis de base o projectes de gestió aplicada per a la conservació d’espècies o per al control d’espècies exòtiques, entre d’altres. Aquests treballs, que amb aquesta publicació tenim l’oportunitat de llegir amb detall, suposen una contribució inestimable per millorar el coneixement de la realitat d’aquests tres parcs, dels seus valors naturals, paisatgístics i culturals, i són de gran utilitat per al personal encarregat de gestionar-los i per a qualsevol persona interessada en la seva conservació. Col·lecció Eines Sèrie Territori i Parcs Naturals 7 IV Trobada d’Estudiosos de la Serralada Litoral Central i VIII del Montnegre i el Corredor Vallgorguina, 20 i 21 de novembre de 2019 Col·lecció Eines Primera edició: desembre de 2020 © dels textos: els seus autors © de l’edició: Diputació de Barcelona Coordinació: Gerència de Serveis d’Espais Naturals de la Diputació de Barcelona Producció: Gabinet de Premsa i Comunicació de la Diputació de Barcelona Composició:
    [Show full text]