Common Spiders of North Carolina Checklist Clubonidae: Sac Spiders Ant-Like Spider Castianeira Sp

Total Page:16

File Type:pdf, Size:1020Kb

Common Spiders of North Carolina Checklist Clubonidae: Sac Spiders Ant-Like Spider Castianeira Sp Common Spiders of North Carolina Checklist Clubonidae: Sac Spiders Ant-like Spider Castianeira sp. Date: ________________ Time: ___________ to ____________ White Sac Spider Elaver excepta Location: _____________________________ County: __________ Temperature low: _______ high: _________ Wind: __________ Corrinidae: Ant-mimic Spiders AM clouds: __________ PM clouds: _________ Delightful Antmimic Castianeira amoena Weather past 24 hours: __________________________________ Ant-like Spider Castianeira longipalpus AGELENIDAE: Funnel Web Spiders Ctenidae Funnel Web, Grass Spider Agelenopsis naevia False Wolf Spider Anahita punctulata Funnel Web, Grass Spider Agelenopsis pennsylvanica Ctenizidae: Trapdoor Spiders ARANEIDAE: Orb Web Spiders Southern Trapdoor Spider Ummidia audouini an Orbweaver Acacesia hamata Star-bellied Orbweaver Acanthepeira stellata Filistatidae: Hibernating Spiders Giant Lichen Orbweaver Araneus bicentenarius Southern House Spider Kukulcania hibernalis European Garden/Cross Araneus diadematus Marbled Orbweaver Araneus marmoreus Gnapphosidae: Stealthy Ground Spiders an Orbweaver Araneus mineatus Two-lined Cesonia Cesonia bilineata Butterfly Orbweaver Araneus pegnia Parson Spider Herpyllus ecclesiasticus Black & Yellow Argiope Argiope aurantia Variegated Spider Sergiolus capulatus Banded Argiope Argiope trifasciata Conical Trashline Orbweaver Cyclosa conica Linphiidae: Sheetweb Weavers an Orbweaver Cyclosa turbinata Bowl and Doily Spider Frontinella communis Humpbacked Orbweaver Eustala anastera Filmy Dome Spider Prolinyphia marginata Spiny Orbweaver Gasteracantha cancriformis Black-tailed Red Sheetweaver Florinda coccinea Furrow Orbweaver Larinioides cornutus Lined Orbweaver Mangora gibberosa Lycosidae: Wolf Spiders Spring Tuftlegged Orbweaver Mangora maculata Carolina Wolf Spider Hogna carolinensis Tuftlegged Orbweaver Mangora placida a wolf spider Hogna frondicola an Orbweaver Mangora spiculata Shore Thinlegged Wolf Sp. Pardosa milvina Basilica Spider Mecynogea lemniscata Pirate Spider Pirata sp. Labyrinth Orbweaver Metepeira labyrinthea Dotted Wolf Spider Rabidosa punculata 5 paired/Spined Mircathena Micrathena gracilis Rabid Wolf Spider Rabidosa rabida White Micrathena Micrathena mitrata Lance Wolf Spider Schizocosa avida Arrowhead Micrathena Micrathena sagittata Forest/Brush Legged Wolf Spider Schizocosa crassipes Arabesque Orbweaver Neoscona arabesca a wolf spider Sossipus Rusty-red Neoscona/Hentz Neoscona crucifera Spotted Forest Orbweaver Neoscona domiciliorum Lyssomanidae Arrowh-head Spider/Triang. Verrucosa arenata Magnolia Green Jumping Spider Lyssomanes viridis Mimetidae: Pirate Spiders Sicariidae: Sixeyed Sicariid Spiders A pirate spider Mimetus puritanus Brown Recluse Loxosceles reclusa Oxyopidae: Lynx Spiders Tetragnathidae: Longjawed Orbweavers Green Lynx Spider Peucetia viridans Longjawed Orbweaver Tetragnatha elongata Striped Lynx Spider Oxyopes salticus Venusta Orchard Orbweaver Leucauge venusta Pholcidae: Cellar Spiders Theridiidae: Cobweb Weavers Longbodied Cellar Spider Pholcus phalangiodes Common House Spider Achaearanea tepidariorum Kleptoparasitic Argyodes Argyodes nephilae Pilodromidae: Running Crab Spiders Southern Black Widow Latrodectus mactans Dutton Slender Crab Spider Tibellus duttoni Northern Black Widow Latrodectus variolus A Tangle Web Spider Neospintharus furcatus Pisauridae: Nursery web or Fishing Spiders Dewdrop Spider Neospintharus trigonum Dark Fishing Spider Dolomedes tenebrosus False Black Widow Steotoda grossa Six-spotted Fishing Spider Dolomedes triton a Cobweb Spider Theridion frondeum a Fishing Spider Dolomedes vittatus a Cobweb Spider Theridula emertoni Nursery Web Spider Pisaurina mira a Cobweb Spider Theridula opulenta a Nursery Web Spider Pisaurina undulata Thomisidae: Crab Spiders Salticidae: Jumping Spiders Northern Crab Spider Mecaphesa asperatus Bronze Jumper Eris militaris Goldenrod Crab Spider Misumena vatia a Jumping Spider Hentzia mitrata White/Red-banded Crab Spider Misumenoides formosipes Hentz Longjawed Jumper Hentzia palmarum a Crab Spider Misumenops sp. Dimorphic Jumper Maevia inclemens Tan Crab Spider Xysticus ferox Pike Slender Jumper Marpissa pikei Orange Jumper Paraphidippus aurantius Uloboridae: Hackled Orbweavers Peppered Jumper Pelegrina galathea Triangle Weaver Hyptiotes cavatus Bold/Daring Jumper Phidippus audax Featherlegged Orbweaver Uloborus glomosus Cardinal Jumper Phiddipus cardinalis Red-backed/Brilliant Jumper Phidippus clarus Additional Species Regal Jumper Phidippus regius Whitman's Jumper Phiddipus whitmanii Tan Jumper Platycryptus undatus Pantropical Jumper Plexippus paykulli Little Blue Jumper Sassacus cyaneus Little Black Jumper Sitticus concolor a Jumping Spider Thiodina purpurea Pale Jumper Thiodina sylvana a Jumping Spider Tutelina elegans a Jumping Spider Zygoballus sexpunctatus B. Bockhahn 2017.
Recommended publications
  • A Checklist of the Non -Acarine Arachnids
    Original Research A CHECKLIST OF THE NON -A C A RINE A R A CHNIDS (CHELICER A T A : AR A CHNID A ) OF THE DE HOOP NA TURE RESERVE , WESTERN CA PE PROVINCE , SOUTH AFRIC A Authors: ABSTRACT Charles R. Haddad1 As part of the South African National Survey of Arachnida (SANSA) in conserved areas, arachnids Ansie S. Dippenaar- were collected in the De Hoop Nature Reserve in the Western Cape Province, South Africa. The Schoeman2 survey was carried out between 1999 and 2007, and consisted of five intensive surveys between Affiliations: two and 12 days in duration. Arachnids were sampled in five broad habitat types, namely fynbos, 1Department of Zoology & wetlands, i.e. De Hoop Vlei, Eucalyptus plantations at Potberg and Cupido’s Kraal, coastal dunes Entomology University of near Koppie Alleen and the intertidal zone at Koppie Alleen. A total of 274 species representing the Free State, five orders, 65 families and 191 determined genera were collected, of which spiders (Araneae) South Africa were the dominant taxon (252 spp., 174 genera, 53 families). The most species rich families collected were the Salticidae (32 spp.), Thomisidae (26 spp.), Gnaphosidae (21 spp.), Araneidae (18 2 Biosystematics: spp.), Theridiidae (16 spp.) and Corinnidae (15 spp.). Notes are provided on the most commonly Arachnology collected arachnids in each habitat. ARC - Plant Protection Research Institute Conservation implications: This study provides valuable baseline data on arachnids conserved South Africa in De Hoop Nature Reserve, which can be used for future assessments of habitat transformation, 2Department of Zoology & alien invasive species and climate change on arachnid biodiversity.
    [Show full text]
  • A Taxonomic Revision of the Orb Weaver Genus Acacesia (Araneae: Araneidae)
    A TAXONOMIC REVISION OF THE ORB WEAVER GENUS ACACESIA (ARANEAE: ARANEIDAE) BY St3sAy GIt3Ec< ABSTRACT There are five species of Acacesia which range collectively from southern North America to Argentina. Two are previously known members of the genus, A. cornigera Petrunkevitch and A. hamata (Hentz). Three of these are new species: A. villalobosi and A. yacuiensis, from southern Brazil, and A. benigna from Bolivia and Peru. INTRODUCTION Acacesia is a genus of orb-weaving spiders common and endemic to the Americas, proposed by Simon in 1892. Hentz named the type species Epeira foliata in 1847. The genus con- tained the single species A. hamata until Petrunkevitch (1925) described A. cornigera. Subsequently published names, illustra- tions, and descriptions of new species of Acacesia have turned out to be synonyms of the two extant species (Chamberlin and Ivie 1936, Badcock 1932). Levi (1976) redescribed A. hamata in a revi- sion of Nearctic orb weaver genera, mentioning the Neotropical A. cornigera in passing. He hypothesized at the time that "there are three or four additional species of Acacesia, all Neotropical and all similar in appearance." The specimens I have examined for the current taxonomic revision corroborate this statement, and I expand the genus to include three new South American species. This study represents an addition to Levi's ongoing project of revising Neotropical orb weavers. I here report the results of my taxonomic project for which I examined and illustrated over 350 museum specimens. I describe factors I considered in delimiting new species such as their Harvard College, Harvard University, Cambridge, MA 02138 current address: Department of Entomology, Comstock Hall, Cornell University, Ithaca, NY 14853 Manuscript received 7 July 1993.
    [Show full text]
  • Untangling Taxonomy: a DNA Barcode Reference Library for Canadian Spiders
    Molecular Ecology Resources (2016) 16, 325–341 doi: 10.1111/1755-0998.12444 Untangling taxonomy: a DNA barcode reference library for Canadian spiders GERGIN A. BLAGOEV, JEREMY R. DEWAARD, SUJEEVAN RATNASINGHAM, STEPHANIE L. DEWAARD, LIUQIONG LU, JAMES ROBERTSON, ANGELA C. TELFER and PAUL D. N. HEBERT Biodiversity Institute of Ontario, University of Guelph, Guelph, ON, Canada Abstract Approximately 1460 species of spiders have been reported from Canada, 3% of the global fauna. This study provides a DNA barcode reference library for 1018 of these species based upon the analysis of more than 30 000 specimens. The sequence results show a clear barcode gap in most cases with a mean intraspecific divergence of 0.78% vs. a min- imum nearest-neighbour (NN) distance averaging 7.85%. The sequences were assigned to 1359 Barcode index num- bers (BINs) with 1344 of these BINs composed of specimens belonging to a single currently recognized species. There was a perfect correspondence between BIN membership and a known species in 795 cases, while another 197 species were assigned to two or more BINs (556 in total). A few other species (26) were involved in BIN merges or in a combination of merges and splits. There was only a weak relationship between the number of specimens analysed for a species and its BIN count. However, three species were clear outliers with their specimens being placed in 11– 22 BINs. Although all BIN splits need further study to clarify the taxonomic status of the entities involved, DNA bar- codes discriminated 98% of the 1018 species. The present survey conservatively revealed 16 species new to science, 52 species new to Canada and major range extensions for 426 species.
    [Show full text]
  • Oak Woodland Litter Spiders James Steffen Chicago Botanic Garden
    Oak Woodland Litter Spiders James Steffen Chicago Botanic Garden George Retseck Objectives • Learn about Spiders as Animals • Learn to recognize common spiders to family • Learn about spider ecology • Learn to Collect and Preserve Spiders Kingdom - Animalia Phylum - Arthropoda Subphyla - Mandibulata Chelicerata Class - Arachnida Orders - Acari Opiliones Pseudoscorpiones Araneae Spiders Arachnids of Illinois • Order Acari: Mites and Ticks • Order Opiliones: Harvestmen • Order Pseudoscorpiones: Pseudoscorpions • Order Araneae: Spiders! Acari - Soil Mites Characteriscs of Spiders • Usually four pairs of simple eyes although some species may have less • Six pair of appendages: one pair of fangs (instead of mandibles), one pair of pedipalps, and four pair of walking legs • Spinnerets at the end of the abdomen, which are used for spinning silk threads for a variety of purposes, such as the construction of webs, snares, and retreats in which to live or to wrap prey • 1 pair of sensory palps (often much larger in males) between the first pair of legs and the chelicerae used for sperm transfer, prey manipulation, and detection of smells and vibrations • 1 to 2 pairs of book-lungs on the underside of abdomen • Primitively, 2 body regions: Cephalothorax, Abdomen Spider Life Cycle • Eggs in batches (egg sacs) • Hatch inside the egg sac • molt to spiderlings which leave from the egg sac • grows during several more molts (instars) • at final molt, becomes adult – Some long-lived mygalomorphs (tarantulas) molt after adulthood Phenology • Most temperate
    [Show full text]
  • Casting a Sticky Trap: SPIDERS and Their Predatory Ways
    Casting a Sticky Trap: SPIDERS and Their Predatory Ways Bennett C. Moulder, ISM Research Associate and Professor Emeritus, Illinois College, Jacksonville, Illinois ating insects and other small sticky silk, capable of trapping and holding to the spot, and impales the insect with its arthropods is what spiders do for even relatively large an powerful insect prey. long chelicerae. First using her mouthparts a living. That spiders are an Damage to the orb caused by wind or strug- to cut a small slit in the tube, the spider enormously successful group of gling prey can be quickly repaired, or the then pulls the insect inside. After her meal, animals is testimony to how efficient they entire can be web taken down and replaced. the spider repairs the tear in the tube, re- Eare at catching their prey. Most insects move Many orb weavers replace their tattered web sumes her position below ground, and swiftly and, for their size, are quite powerful. with a new one every day. awaits the next victim. “For spiders to capture such prey, they have, Other spiders do not utilize webs for prey Mastophora, the bolas spider, is a mem- as a group, developed an impressive arsenal capture. Crab spiders, perfectly camouflaged ber of the family Araneidae, the typical orb of weapons and a variety of strategies. against their background, lie in wait on flow- weavers. This small spider has abandoned Except for one small family (Ul- ers or on the bark of trees to ambush unsus- the practice of orb web construction alto- oboridae), all spiders in Illinois have venom pecting insects.
    [Show full text]
  • Arachnids (Excluding Acarina and Pseudoscorpionida) of the Wichita Mountains Wildlife Refuge, Oklahoma
    OCCASIONAL PAPERS THE MUSEUM TEXAS TECH UNIVERSITY NUMBER 67 5 SEPTEMBER 1980 ARACHNIDS (EXCLUDING ACARINA AND PSEUDOSCORPIONIDA) OF THE WICHITA MOUNTAINS WILDLIFE REFUGE, OKLAHOMA JAMES C. COKENDOLPHER AND FRANK D. BRYCE The Wichita Mountains are located in eastern Greer, southern Kiowa, and northwestern Comanche counties in Oklahoma. Since their formation more than 300 million years ago, these rugged mountains have been fragmented and weathered, until today the highest peak (Mount Pinchot) stands only 756 meters above sea level (Tyler, 1977). The mountains are composed predominantly of granite and gabbro. Forests of oak, elm, and walnut border most waterways, while at elevations from 153 to 427 meters prair­ ies are the predominant vegetation type. A more detailed sum­ mary of the climatic and biotic features of the Wichitas has been presented by Blair and Hubbell (1938). A large tract of land in the eastern range of the Wichita Moun­ tains (now northeastern Comanche County) was set aside as the Wichita National Forest by President McKinley during 1901. In 1905, President Theodore Roosevelt created a game preserve on those lands managed by the Forest Service. Since 1935, this pre­ serve has been known as the Wichita Mountains Wildlife Refuge. Numerous papers on Oklahoma spiders have been published (Bailey and Chada, 1968; Bailey et al., 1968; Banks et al, 1932; Branson, 1958, 1959, 1966, 1968; Branson and Drew, 1972; Gro- thaus, 1968; Harrel, 1962, 1965; Horner, 1975; Rogers and Horner, 1977), but only a single, comprehensive work (Banks et al., 1932) exists covering all arachnid orders in the state. Further additions and annotations to the arachnid fauna of Oklahoma can be found 2 OCCASIONAL PAPERS MUSEUM TEXAS TECH UNIVERSITY in recent revisionary studies.
    [Show full text]
  • Visual Perception in Jumping Spiders (Araneae,Salticidae)
    Visual Perception in Jumping Spiders (Araneae,Salticidae) A thesis submitted in partial fulfilment of the requirements for the Degree of Doctor of Philosophy in Biology at the University of Canterbury by Yinnon Dolev University of Canterbury 2016 Table of Contents Abstract.............................................................................................................................................................................. i Acknowledgments .......................................................................................................................................................... iii Preface ............................................................................................................................................................................. vi Chapter 1: Introduction ................................................................................................................................................... 1 Chapter 2: Innate pattern recognition and categorisation in a jumping Spider ........................................................... 9 Abstract ....................................................................................................................................................................... 10 Introduction ................................................................................................................................................................ 11 Methods .....................................................................................................................................................................
    [Show full text]
  • Spiders of the Hawaiian Islands: Catalog and Bibliography1
    Pacific Insects 6 (4) : 665-687 December 30, 1964 SPIDERS OF THE HAWAIIAN ISLANDS: CATALOG AND BIBLIOGRAPHY1 By Theodore W. Suman BISHOP MUSEUM, HONOLULU, HAWAII Abstract: This paper contains a systematic list of species, and the literature references, of the spiders occurring in the Hawaiian Islands. The species total 149 of which 17 are record­ ed here for the first time. This paper lists the records and literature of the spiders in the Hawaiian Islands. The islands included are Kure, Midway, Laysan, French Frigate Shoal, Kauai, Oahu, Molokai, Lanai, Maui and Hawaii. The only major work dealing with the spiders in the Hawaiian Is. was published 60 years ago in " Fauna Hawaiiensis " by Simon (1900 & 1904). All of the endemic spiders known today, except Pseudanapis aloha Forster, are described in that work which also in­ cludes a listing of several introduced species. The spider collection available to Simon re­ presented only a small part of the entire Hawaiian fauna. In all probability, the endemic species are only partly known. Since the appearance of Simon's work, there have been many new records and lists of introduced spiders. The known Hawaiian spider fauna now totals 149 species and 4 subspecies belonging to 21 families and 66 genera. Of this total, 82 species (5596) are believed to be endemic and belong to 10 families and 27 genera including 7 endemic genera. The introduced spe­ cies total 65 (44^). Two unidentified species placed in indigenous genera comprise the remaining \%. Seventeen species are recorded here for the first time. In the catalog section of this paper, families, genera and species are listed alphabetical­ ly for convenience.
    [Show full text]
  • Gelenopsis Naevia Walckenaer, 1842 (Grass Spider)Venom
    STUDIES ON ANTIMICROBIAL AND HAEMOLYTIC ACTIVITIES, PROTEIN PROFILE AND TRANSCRIPTOMES OF AGELENOPSIS NAEVIA WALCKENAER, 1842 (GRASS SPIDER)VENOM BY JAMILA AHMED DEPARTMENT OF BIOLOGICAL SCIENCES, AHMADU BELLO UNIVERSITY, ZARIA AUGUST, 2016 i STUDIES ON ANTIMICROBIAL AND HAEMOLYTIC ACTIVITIES, PROTEIN PROFILE AND TRANSCRIPTOMES OF AGELENOPSIS NAEVIA WALCKENAER, 1842 (GRASS SPIDER)VENOM BY JamilaAHMED M. Sc/Sci/32878/2012-2013 A DISSERTATION SUBMITTED TO THE SCHOOL OF POSTGRADUATE STUDIES, AHMADU BELLO UNIVERSITY, ZARIA. IN PARTIAL FULFILMENT OF THE REQUIREMENTS FOR THE AWARD OF A MASTER DEGREE IN BIOLOGY DEPARTMENT OF BIOLOGICAL SCIENCES, FACULTY OF SCIENCE AHMADU BELLO UNIVERSITY, ZARIA AUGUST, 2016 ii DECLARATION I declare that the work in this dissertation, entitled, ―Studies on antimicrobial and haemolytic activities, protein profile and transcriptomes of Agelenopsis naevia Walckenaer, 1842 (grass spider) venom” was carried out by me in the Department of Biological Sciences, Faculty of Science, Ahmadu Bello University Zaria under the supervision of Prof. I. S. Ndams and Dr. D. M. Shehu. All information derived from the literature has been duly acknowledged in the text and a list of references provided. No part of this dissertation was previously presented for another degree or diploma at any university. Jamila Ahmed ----------------------------------- -------------------------------- Signature Date iii CERTIFICATION This dissertation, entitled STUDIES ON ANTIMICROBIAL AND HAEMOLYTIC ACTIVITIES, PROTEIN PROFILE AND TRANSCRIPTOMES OF AGELENOPSIS NAEVIA WALCKENAER, 1842 (GRASS SPIDER) VENOMby Jamila Ahmed meets the regulation governing the award of Master of Science in Biology of the Ahmadu Bello University, Zaria, and is approved for its contribution to knowledge and literary presentation. Prof. I. S. Ndams------------------------- -------------------------- Chairman Supervisory CommitteeSignature Date Department of Biological Sciences, Faculty of Science, Ahmadu Bello University, Zaria Dr.
    [Show full text]
  • A Protocol for Online Documentation of Spider Biodiversity Inventories Applied to a Mexican Tropical Wet Forest (Araneae, Araneomorphae)
    Zootaxa 4722 (3): 241–269 ISSN 1175-5326 (print edition) https://www.mapress.com/j/zt/ Article ZOOTAXA Copyright © 2020 Magnolia Press ISSN 1175-5334 (online edition) https://doi.org/10.11646/zootaxa.4722.3.2 http://zoobank.org/urn:lsid:zoobank.org:pub:6AC6E70B-6E6A-4D46-9C8A-2260B929E471 A protocol for online documentation of spider biodiversity inventories applied to a Mexican tropical wet forest (Araneae, Araneomorphae) FERNANDO ÁLVAREZ-PADILLA1, 2, M. ANTONIO GALÁN-SÁNCHEZ1 & F. JAVIER SALGUEIRO- SEPÚLVEDA1 1Laboratorio de Aracnología, Facultad de Ciencias, Departamento de Biología Comparada, Universidad Nacional Autónoma de México, Circuito Exterior s/n, Colonia Copilco el Bajo. C. P. 04510. Del. Coyoacán, Ciudad de México, México. E-mail: [email protected] 2Corresponding author Abstract Spider community inventories have relatively well-established standardized collecting protocols. Such protocols set rules for the orderly acquisition of samples to estimate community parameters and to establish comparisons between areas. These methods have been tested worldwide, providing useful data for inventory planning and optimal sampling allocation efforts. The taxonomic counterpart of biodiversity inventories has received considerably less attention. Species lists and their relative abundances are the only link between the community parameters resulting from a biotic inventory and the biology of the species that live there. However, this connection is lost or speculative at best for species only partially identified (e. g., to genus but not to species). This link is particularly important for diverse tropical regions were many taxa are undescribed or little known such as spiders. One approach to this problem has been the development of biodiversity inventory websites that document the morphology of the species with digital images organized as standard views.
    [Show full text]
  • Newsletter of the Biological Survey of Canada (Terrestrial Arthropods)
    Spring 1999 Vol. 18, No. 1 NEWSLETTER OF THE BIOLOGICAL SURVEY OF CANADA (TERRESTRIAL ARTHROPODS) Table of Contents General Information and Editorial Notes ............(inside front cover) News and Notes Activities at the Entomological Societies’ Meeting ...............1 Summary of the Scientific Committee Meeting.................2 EMAN National Meeting ...........................12 MacMillan Coastal Biodiversity Workshop ..................13 Workshop on Biodiversity Monitoring.....................14 Project Update: Family Keys ..........................15 Canadian Spider Diversity and Systematics ..................16 The Quiz Page..................................28 Selected Future Conferences ..........................29 Answers to Faunal Quiz.............................31 Quips and Quotes ................................32 List of Requests for Material or Information ..................33 Cooperation Offered ..............................39 List of Email Addresses.............................39 List of Addresses ................................41 Index to Taxa ..................................43 General Information The Newsletter of the Biological Survey of Canada (Terrestrial Arthropods) appears twice yearly. All material without other accreditation is prepared by the Secretariat for the Biological Survey. Editor: H.V. Danks Head, Biological Survey of Canada (Terrestrial Arthropods) Canadian Museum of Nature P.O. Box 3443, Station “D” Ottawa, Ontario K1P 6P4 TEL: 613-566-4787 FAX: 613-364-4021 E-mail: [email protected] Queries,
    [Show full text]
  • Checklist of Non-Insect Invertebrates of Steele Creek Park
    Checklist of Non-Insect Invertebrates of Steele Creek Park Harvestmen (Order Opiliones) __ Leiobunum aldrichi __ Leiobunum vittatum (Eastern Harvestman) __ Odiellus nubivagus __ Odiellus pictus __ Vonones sayi (Ornate Harvestman) Centipedes (Class Chilopoda) __ Geophilus vittatus (Diamondback Soil Centipede) __ Hemiscolopendra marginata (Florida Blue Centipede, Eastern Bark Centipede) __ Scolopocryptops nigridius __ Scolopocryptops sexspinosus (Eastern Fire Centipede) __ Strigamia bothriopus __ Theatops posticus (Smooth-tailed Forceps Centipede) __ Cryptops leucopodus Millipedes (Class Diplopoda) __ Apheloria montana (Cherry Millipede) __ Brachycybe lecontii (Feather Millipede) __ Cambala annulata __ Oxidus gracilis (Greenhouse Millipede)* __ Pseudopolydesmus canadensis __ Abacion magnum __ Abacion tesselatum __ Euryurus leachii __ Andrognathus corticarius (Cope’s Noodle Millipede) __ Narceus americanus-annularis (American Giant Millipede) Spiders (Order Araneae) __ Agelenopsis sp. (Grass Spider) __ Araneus marmoreus (Marbled Orbweaver) __ Araniella displicata (Six-spotted Orbweaver) __ Dolomedes albineus (White-striped Fishing Spider) __ Dolomedes tenebrosus (Dark Fishing Spider) __ Dolomedes triton (Six-spotted Fishing Spider) __ Dolomedes vittatus (Banded Fishing Spider) __ Larinioides cornutus (Furrow Orbweaver) __ Leucage venusta (Orchard Orbweaver) __ Micrathena gracilis (Spiny Micrathena) __ Micrathena mitrata (White Micrathena) __ Micrathena sagitatta (Arrow-shaped Micrathena) __ Misumenoides formosipes (White-banded Crab Spider) __ Neoscona crucifera (Spotted Orbweaver) __ Phidippus audax (Bold Jumping Spider) __ Phidippus otiosus (Canopy Jumping Spider) __ Phidippus putnami (Putnam’s Jumping Spider) __ Platycryptus undatus (Tan Jumping Spider) __ Pardosa sp. (Thin-legged Wolf Spider) __ Pirata sp. (Pirate Wolf Spider) __ Rabidosa rabida (Rabid Wolf Spider) __ Schizocosa crassipes (Brush-footed Wolf Spider) __ Synema parvulum (Black-banded Crab Spider) __ Tetragnatha sp.
    [Show full text]