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Olive Clubtail (Stylurus Olivaceus) in Canada, Prepared Under Contract with Environment Canada
COSEWIC Assessment and Status Report on the Olive Clubtail Stylurus olivaceus in Canada ENDANGERED 2011 COSEWIC status reports are working documents used in assigning the status of wildlife species suspected of being at risk. This report may be cited as follows: COSEWIC. 2011. COSEWIC assessment and status report on the Olive Clubtail Stylurus olivaceus in Canada. Committee on the Status of Endangered Wildlife in Canada. Ottawa. x + 58 pp. (www.sararegistry.gc.ca/status/status_e.cfm). Production note: COSEWIC would like to acknowledge Robert A. Cannings, Sydney G. Cannings, Leah R. Ramsay and Richard J. Cannings for writing the status report on Olive Clubtail (Stylurus olivaceus) in Canada, prepared under contract with Environment Canada. This report was overseen and edited by Paul Catling, Co-chair of the COSEWIC Arthropods Specialist Subcommittee. For additional copies contact: COSEWIC Secretariat c/o Canadian Wildlife Service Environment Canada Ottawa, ON K1A 0H3 Tel.: 819-953-3215 Fax: 819-994-3684 E-mail: COSEWIC/[email protected] http://www.cosewic.gc.ca Également disponible en français sous le titre Ếvaluation et Rapport de situation du COSEPAC sur le gomphe olive (Stylurus olivaceus) au Canada. Cover illustration/photo: Olive Clubtail — Photo by Jim Johnson. Permission granted for reproduction. ©Her Majesty the Queen in Right of Canada, 2011. Catalogue No. CW69-14/637-2011E-PDF ISBN 978-1-100-18707-5 Recycled paper COSEWIC Assessment Summary Assessment Summary – May 2011 Common name Olive Clubtail Scientific name Stylurus olivaceus Status Endangered Reason for designation This highly rare, stream-dwelling dragonfly with striking blue eyes is known from only 5 locations within three separate regions of British Columbia. -
Wilderness Visitors and Recreation Impacts: Baseline Data Available for Twentieth Century Conditions
United States Department of Agriculture Wilderness Visitors and Forest Service Recreation Impacts: Baseline Rocky Mountain Research Station Data Available for Twentieth General Technical Report RMRS-GTR-117 Century Conditions September 2003 David N. Cole Vita Wright Abstract __________________________________________ Cole, David N.; Wright, Vita. 2003. Wilderness visitors and recreation impacts: baseline data available for twentieth century conditions. Gen. Tech. Rep. RMRS-GTR-117. Ogden, UT: U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station. 52 p. This report provides an assessment and compilation of recreation-related monitoring data sources across the National Wilderness Preservation System (NWPS). Telephone interviews with managers of all units of the NWPS and a literature search were conducted to locate studies that provide campsite impact data, trail impact data, and information about visitor characteristics. Of the 628 wildernesses that comprised the NWPS in January 2000, 51 percent had baseline campsite data, 9 percent had trail condition data and 24 percent had data on visitor characteristics. Wildernesses managed by the Forest Service and National Park Service were much more likely to have data than wildernesses managed by the Bureau of Land Management and Fish and Wildlife Service. Both unpublished data collected by the management agencies and data published in reports are included. Extensive appendices provide detailed information about available data for every study that we located. These have been organized by wilderness so that it is easy to locate all the information available for each wilderness in the NWPS. Keywords: campsite condition, monitoring, National Wilderness Preservation System, trail condition, visitor characteristics The Authors _______________________________________ David N. -
PERLA No. 19, 2001
P E R L A Newsletter and Bibliography of the International Society of Plecopterologists PERLA No. 19,2001 Aquatic Entomology Laboratory Department of Biological Sciences University of North Texas Denton, Texas 76203 PERLA Annual Newsletter and Bibliography of the International Society of Plecopterologists Available on Request to the Managing Editor MANAGING EDITOR: Kenneth W. Stewart Department of Biological Sciences University of North Texas P O Box 305220 Denton, Texas 76203-5220 USA Fax: 940-565-3821 E-mail: [email protected] EDITORIAL BOARD: Richard W. Baumann Department of Zoology and Monte L. Bean Life Science Museum Brigham Young University Provo, Utah 84602, USA Peter P. Harper Département de Sciences biologiques Université de Montréal C.P. 6128, Suce. "Centre-Ville" Montréal, Québec, H3C 3J7, CANADA Boris C. Kondratiejf Department of Bioagricultural Sciences and Pest Management Colorado State University Ft. Collins, CO 80523, USA Ian D. McLellan P. O. Box 95 Westport, NEW ZEALAND Shigekazu Uchida Department of Civil Engineering Aichi Institute of Technology 1247 Yakusa Toyota 470-0392, JAPAN Peter Zwick Limnologische Flufistation Max-Planck-Institut fur Limnologie Postfach 260 D-36105 Schlitz, GERMANY EDITORIAL ASSISTANT AND COPY EDITOR: Francene Stewart, Denton, Texas COVER ILLUSTRATION Upper left to lower right:Isoperla pinta, Isoperla marmorata, Neoperla stew /, Neoperlaart carlsoni eggs. Stonefly egg chorions vary from smooth to greatly sculptured and ornate. Egg morphology and chorion characteristics are species-specific and have been used as lines of evidence for phylogenetic analysis. Table of Contents PERLA Subscription Policy................................................ 1 History of International Plecoptera Symposia...................... 2 2001 International Joint Meeting.......................................... 3 Report on Sixth North American Plecoptera Symposium . -
L. Lacey Knowles
Curriculum Vitae L. Lacey Knowles Department of Ecology and Evolutionary Biology E-mail: [email protected] Museum of Zoology, University of Michigan Orcid ID: 0000-0002-6567-4853 Ann Arbor, MI 48109-1079 POSITIONS 2015-present, Robert B. Payne Collegiate Professor, Department of Ecology and Evolutionary Biology, Curator of Insects, Museum of Zoology, University of Michigan 2012-2015, Professor, Department of Ecology and Evolutionary Biology, Curator of Insects, Museum of Zoology, University of Michigan 2008-2012, Associate Professor, Department of Ecology and Evolutionary Biology, Curator of Insects, Museum of Zoology, University of Michigan 2003-2008, Assistant Professor, Department of Ecology and Evolutionary Biology, Curator of Insects, Museum of Zoology, University of Michigan ACADEMIC APPOINTMENTS: Science Communication Fellow, Museum of Natural History, University of Michigan Member, Center for statistical Genetics, University of Michigan NIH Training Program in Genome Sciences, University of Michigan EDUCATION 2001-2002 NIH Postdoctoral Fellowship (PERT: Postdoctoral Excellence in Research and Teaching) awarded through the Center for Insect Science at the University of Arizona 1999-2001 Postdoctoral Fellowship from the National Science Foundation Research Training Group in the Analysis of Biological Diversification at the University of Arizona 1999 Ph.D., Ecology and Evolution, State University of New York at Stony Brook Dissertation title: Genealogical portraits of Pleistocene speciation and diversity patterns in montane grasshoppers 1993 M.S., Zoology, University of South Florida. Thesis title: Effects of habitat structure on community assemblages of epifaunal macroinvertebrates in seagrass systems. 1989 B.S., cum laude with honors in Marine Biology, University of North Carolina, Wilmington RESEARCH INTERESTS Speciation and processes that promote divergence Phylogenomics and statistical phylogeography Evolutionary consequences of climate change HONORS AND AWARDS *Fulbright U.S. -
Recovery Plan for Northeastern Beach Tiger Beetle
Northeastern Beach Tiger Beetle, (Cincindela dorsalisdorsal/s Say) t1rtmow RECOVERY PLAN 4.- U.S. Fish and Wildlife Service SFAVI ? Hadley, Massachusetts September 1994 C'AZ7 r4S \01\ Cover illustration by Katherine Brown-Wing copyright 1993 NORTHEASTERN BEACH TIGER BEETLE (Cicindela dorsalis dorsalis Say) RECOVERY PLAN Prepared by: James M. Hill and C. Barry Knisley Department of Biology Randolph-Macon College Ashland, Virginia in cooperation with the Chesapeake Bay Field Office U.S. Fish and Wildlife Service and members of the Tiger Beetle Recovery Planning-Group Approved: . ILL Regi Director, Region Five U.S. Fish and Wildlife Service Date: 9 29- ~' TIGER BEETLE RECOVERY PLANNING GROUP James Hill Philip Nothnagle Route 1 Box 2746A RFD 1, Box 459 Reedville, VA Windsor, VT 05089 Judy Jacobs Steve Roble U.S. Fish and Wildlife Service VA Natural Heritage Program Annapolis Field Office Main Street Station 177 Admiral Cochrane Drive 1500 East Main Street Annapolis, MD 21401 Richmond, VA 23219 C. Barry Knisley Tim Simmons Biology Department The Nature Conservancy Massachusetts Randolph-Macon College Field Office Ashland, VA 23005 79 Milk Street Suite 300 Boston, MA 02109 Laurie MacIvor The Nature Conservancy Washington Monument State Park 6620 Monument Road Middletown, MD 21769 EXECUTIVE SUMMARY NORTHEASTERN BEACH TIGER BEETLE RECOVERY PLAN Current Status: This tiger beetle occurred historically "in great swarms" on beaches along the Atlantic Coast, from Cape Cod to central New Jersey, and along Chesapeake Bay beaches in Maryland and Virginia. Currently, only two small populations remain on the Atlantic Coast. The subspecies occurs at over 50 sites within the Chesapeake Bay region. -
Nitrogen Content in Riparian Arthropods Is Most Dependent on Allometry and Order
Wiesenborn: Nitrogen Contents in Riparian Arthropods 71 NITROGEN CONTENT IN RIPARIAN ARTHROPODS IS MOST DEPENDENT ON ALLOMETRY AND ORDER WILLIAM D. WIESENBORN U.S. Bureau of Reclamation, Lower Colorado Regional Office, P.O. Box 61470, Boulder City, NV 89006 ABSTRACT I investigated the contributions of body mass, order, family, and trophic level to nitrogen (N) content in riparian spiders and insects collected near the Colorado River in western Arizona. Most variation (97.2%) in N mass among arthropods was associated with the allometric effects of body mass. Nitrogen mass increased exponentially as body dry-mass increased. Significant variation (20.7%) in N mass adjusted for body mass was explained by arthropod order. Ad- justed N mass was highest in Orthoptera, Hymenoptera, Araneae, and Odonata and lowest in Coleoptera. Classifying arthropods by family compared with order did not explain signifi- cantly more variation (22.1%) in N content. Herbivore, predator, and detritivore trophic-levels across orders explained little variation (4.3%) in N mass adjusted for body mass. Within or- ders, N content differed only among trophic levels of Diptera. Adjusted N mass was highest in predaceous flies, intermediate in detritivorous flies, and lowest in phytophagous flies. Nitro- gen content in riparian spiders and insects is most dependent on allometry and order and least dependent on trophic level. I suggest the effects of allometry and order are due to exoskeleton thickness and composition. Foraging by vertebrate predators, such as insectivorous birds, may be affected by variation in N content among riparian arthropods. Key Words: nutrients, spiders, insects, trophic level, exoskeleton, cuticle RESUMEN Se investiguo las contribuciones de la masa de cuerpo, orden, familia y el nivel trófico al con- tenido de nitógeno (N) en arañas e insectos riparianos (que viven en la orilla del rio u otro cuerpo de agua) recolectadaos cerca del Rio Colorado en el oeste del estado de Arizona. -
Mountain Goat Unit Management Plan | Wasatch and Central Mountains
MOUNTAIN GOAT UNIT MANAGEMENT PLAN Wasatch and Central Mountains Lone Peak / Box Elder Peak / Timpanogos / Provo Peak / Nebo August 2019 BOUNDARY DESCRIPTIONS Lone Peak – Salt Lake County: Boundary begins at the junction of I-15 and I-80 in Salt Lake City; east on I-80 to the Salt Lake-Summit county line; south along this county line to the Salt Lake-Wasatch county line; southwest along this county line to the Salt Lake-Utah county line; southwest along this county line to I-15; north on I-15 to I-80 in Salt Lake City. Box Elder Peak – Utah County: Boundary begins at I-15 and the Salt Lake-Utah county line; east along this county line to the Utah-Wasatch county line; south along this county line to “Pole Line Pass” on the Snake Creek-North Fork American Fork Canyon road; west on this road to SR-92; west on SR-92 to I-15; north on I-15 to the Salt Lake-Utah county line. Timpanogos – Utah County: Boundary begins at the junction of SR-92 and SR-146; southeast on SR-92 to US-189; southwest on US-189 to SR-52; west on SR-52 to US-89; north on US-89 to SR-146; north on SR-146 to SR-92. Provo Peak – Utah County: Boundary begins at the junction of I-15 and US-6 at Spanish Fork; north on I-15 to SR-52; east on SR-52 to US-189; northeast on US-189 to the South Fork Drainage of Provo Canyon; east along this drainage bottom to the Berryport trail; south along this trail to the Left Fork of Hobble Creek road; south on this road to the Right Fork of Hobble Creek road; east on this road to Cedar Canyon; south along this canyon bottom to Wanrhodes Canyon; south along this canyon bottom to Diamond Fork Creek; southwest along this creek to US-6; northeast on US-6 to I-15. -
The Davis 15 Sports 38 Classifieds Home & Garden Hints and Tips to Help You Make Your Garden Ready for Spring Clipperthursday, April 5, 2018 Vol
7 Opinion 32 Life 12 Showcase 33 Calendar THE DAVIS 15 Sports 38 Classifieds Home & Garden Hints and tips to help you make your garden ready for spring CLIPPERTHURSDAY, APRIL 5, 2018 VOL. 126 NO. 32 New LDS temple announced for Layton by Jenniffer WARDELL everyone watching from home was. In Layton, however, that’s not as [email protected] “We found out last week, when telling as it might be in other cities. a church representative came up The LDS church has a real-estate LAYTON - Davis County is and talked to a couple of us,” said arm in Layton City that deals with getting a new temple. Layton City Mayor Bob Stevenson. various properties, including the In the closing session of LDS “They swore us to secrecy.” Layton Mission, the Layton Family General Conference last Sunday, He said that he doesn’t feel History Center, and some farms. President Russell M. Nelson of comfortable offering any insight “There’s a lot of church prop- The Church of Jesus Christ of as to where the temple might be erty in Layton,” he said. Latter-day Saints announced that located or any idea of the specific Stevenson added that represen- the church will build a temple in timeline for construction. tatives regularly request meetings Layton City. Once it’s completed, it “It’s not our place to be able to with the city to discuss the buying will be the church’s 19th temple in (announce things like) that,” said and selling of property. COURTESY Utah. Stevenson, though he was willing “When they first requested this PRESIDENT RUSSELL M. -
2009 Pinon Canyon Invertebrate Survey Report
"- - 70.096 60.096 50.096 40.096 30.096 20.096 10.096 0.0% Fig. 1 Most abundant Apiformes species calculated as a proportion of the total abundance of Apiformes in the collection period. Pinon Canyon Maneuver Site, 2008. 04% 1 j 0.391> 0.2% 0.1% 0.0% Fig. 2 Least abundant Apiformes species calculated as a proportion of the total abundance of Apiformes in the collection period. Pinon Canyon Maneuver Site, 2008.7 Fig. 3 Most abundant Carabidae species calculated as a proportion of the total abundance of Carabidae in the collection period. Pinon Canyon Maneuver Site, 2008. Fig. 4 Least abundant Carabidae species calculated as a proportion of the total abundance of Carabidae in the collection period. Pinon Canyon Maneuver Site, 2008. Fig. 5 Asilidae species abundance calculated as a proportion of the total abundace of Asilidae in the collection period. Pinon Canyon Maneuver Site, 2008. 30.0% 25.0% 20.0% 15.0% 10.0% 5.0% 0.0% Fig. 6 Butterfly species abundance calculated as a proportion of the total abundance of butterflies in the collection period. Pinon Canyon Maneuver Site, 2008. Fig. 7 Most abundant Orthoptera species calculated as a proportion of the total abundance of Orthoptera in the collection period. Pinon Canyon Maneuver Site, 2008. Fig. 8 Moderately abundant Orthoptera species calculated as a proportion of the total abundance of Orthoptera in the collection period. Pinon Canyon Maneuver Site, 2008. Fig. 9 Least abundant Orthoptera species calculated as a proportion of the total abundance of Orthoptera in the collection period. -
Pick Your Poison: Molecular Evolution of Venom Proteins in Asilidae (Insecta: Diptera)
toxins Article Pick Your Poison: Molecular Evolution of Venom Proteins in Asilidae (Insecta: Diptera) Chris M. Cohen * , T. Jeffrey Cole and Michael S. Brewer * Howell Science Complex, East Carolina University, 1000 E 5th St., Greenville, NC 27858, USA; [email protected] * Correspondence: [email protected] (C.M.C.); [email protected] (M.S.B.) Received: 5 November 2020; Accepted: 20 November 2020; Published: 24 November 2020 Abstract: Robber flies are an understudied family of venomous, predatory Diptera. With the recent characterization of venom from three asilid species, it is possible, for the first time, to study the molecular evolution of venom genes in this unique lineage. To accomplish this, a novel whole-body transcriptome of Eudioctria media was combined with 10 other publicly available asiloid thoracic or salivary gland transcriptomes to identify putative venom gene families and assess evidence of pervasive positive selection. A total of 348 gene families of sufficient size were analyzed, and 33 of these were predicted to contain venom genes. We recovered 151 families containing homologs to previously described venom proteins, and 40 of these were uniquely gained in Asilidae. Our gene family clustering suggests that many asilidin venom gene families are not natural groupings, as delimited by previous authors, but instead form multiple discrete gene families. Additionally, robber fly venoms have relatively few sites under positive selection, consistent with the hypothesis that the venoms of older lineages are dominated by negative selection acting to maintain toxic function. Keywords: Asilidae; transcriptome; positive selection Key Contribution: Asilidae venoms have relatively few sites under positive selection, consistent with the hypothesis that the venoms of older lineages are dominated by negative selection acting to maintain toxic function. -
Nymphs of North American Perlodinae Genera (Plecoptera: Perlodidae)
Great Basin Naturalist Volume 44 Number 3 Article 1 7-31-1984 Nymphs of North American Perlodinae genera (Plecoptera: Perlodidae) Kenneth W. Stewart North Texas State University, Denton, Texas Bill P. Stark Mississippi College, Clinton, Mississippi Follow this and additional works at: https://scholarsarchive.byu.edu/gbn Recommended Citation Stewart, Kenneth W. and Stark, Bill P. (1984) "Nymphs of North American Perlodinae genera (Plecoptera: Perlodidae)," Great Basin Naturalist: Vol. 44 : No. 3 , Article 1. Available at: https://scholarsarchive.byu.edu/gbn/vol44/iss3/1 This Article is brought to you for free and open access by the Western North American Naturalist Publications at BYU ScholarsArchive. It has been accepted for inclusion in Great Basin Naturalist by an authorized editor of BYU ScholarsArchive. For more information, please contact [email protected], [email protected]. The Great Basin Naturalist Published at Provo, Utah, by Brigham Young University ISSN 0017-3614 Volume 44 July 31, 1984 No. 3 NYMPHS OF NORTH AMERICAN PERLODINAE GENERA (PLECOPTERA: PERLODIDAE)' Kenneth VV. Stewart- and Bill P. Stark' Abstract.— Nymphs of the type or other representative species of the 22 North American Perlodinae genera are comparatively described and illustrated for the first time. The first complete generic key for the subfamily incorporates recent nymph discoveries and revisions in classification. References to all previous nymph descriptions and illustrations and major life cycle and food habits studies are given for the 53 North American species in the subfamilv, and a listing of species and their current distributions by states and provinces is provided for each genus. The previously unknown nymph of Chcrnokrihts misnomus is described and illustrated. -
The Art and Science of Describing Nature's Surrealists
Zootaxa 4281 (1): 001–290 ISSN 1175-5326 (print edition) http://www.mapress.com/j/zt/ Table of contents ZOOTAXA Copyright © 2017 Magnolia Press ISSN 1175-5334 (online edition) http://doi.org/10.11646/zootaxa.4281.1.2 The art and science of describing nature’s surrealists: Festschrift Celebrating the Career of Albino Morimasa Sakakibara OLIVIA EVANGELISTA, DANIELA MAEDA TAKIYA & CHRISTOPHER H. DIETRICH (EDS.) 5 The art and science of describing nature’s surrealists: Foreword from the Editors OLIVIA EVANGELISTA, DANIELA MAEDA TAKIYA & CHRISTOPHER H. DIETRICH 22 New species in the treehopper genus Bocydium Latreille, with description of nymphal stages and observations on their natural history CAMILO FLÓREZ-V & OLIVIA EVANGELISTA 58 A new species of Lycoderes Sakakibara (Hemiptera, Membracidae, Stegaspidinae) from Brazil ANTONIO JOSÉ CREÃO-DUARTE, VALBERTA ALVES CABRAL & ALINE LOURENÇO 63 A New Treehopper Genus and Species from Puerto Rico (Hemiptera: Membracidae: Stegaspidinae) with Notes on other Caribbean Membracidae CHRISTOPHER H. DIETRICH 70 Problematode: an enigmatic new genus of Membracidae (Hemiptera) with two new species from Venezuela MARCO A. GAIANI 77 Two remakable new species of Notocera Amyot and Serville, 1843 (Hemiptera, Membracidae, Hypsoprorini) from the Brazilian Caatinga ANTÔNIO JOSÉ CREÃO-DUARTE, REMBRANDT R. A. D. ROTHÉA, ALINE LOURENÇO, VALBERTA ALVES CABRAL & OLIVIA EVANGELISTA 90 Notes on the genus Sakakibarella Creão-Duarte with description of three new species (Membracidae: Membracinae: Hoplophorionini) LUIS F. CAMACHO, CAMILO FLÓREZ-V & OLIVIA EVANGELISTA 108 Two new species of Darnini (Hemiptera: Membracidae) from Colombia and Peru LAURA GONZALEZ-MOZO, STUART MCKAMEY, JESSICA L. WARE, GEORGE HAMILTON 115 Two new species of unusual Ceresini (Hemiptera: Membracidae: Smiliinae) STUART H.