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GEOGRAPHIC VARIATION IN THE NORTH AMERICAN TIGER BEETLE, CICINDELA H1RTICOLLIS SAY, WITH A DESCRIPTION OF FIVE NEW SUBSPECIES (COLEOPTERA: CICINDELIDAE)

Published online by Cambridge University Press:  31 May 2012

Robert C. Graves
Affiliation:
Department of Biological Sciences, Bowling Green State University, Bowling Green, Ohio, USA43403–0212
Mark E. Krejci
Affiliation:
Department of Biological Sciences, Bowling Green State University, Bowling Green, Ohio, USA43403–0212
Anne C.F. Graves
Affiliation:
Department of Biological Sciences, Bowling Green State University, Bowling Green, Ohio, USA43403–0212

Abstract

Cicindela hirticollis Say 1817 is associated with shoreline and riverine sand deposits and is widely distributed in North America. Geographic variation in this species was analyzed by multivariate analysis of size, elytral markings, and color data obtained from some 4000 specimens from 75 sites throughout the species distribution. Eleven subspecies are recognized and discussed: C.h. hirticollis Say, gravida LeC., ponderosa Thorns., abrupta Csy., rhodensis Calder, corpuscula Rumpp, shelfordi, athabascensis, coloradula, couleensis, and siuslawensis Graves. Possible Pleistocene réfugia, and redistribution of the species following continental glaciation are discussed. Theoretical advantages of certain variants in particular climates or on certain substrates, are considered. Cicindela hirticollis has been eliminated or is endangered in many of its former habitats due to human activities.

Five new subspecies are described: C. h. shelfordi (type locality: Guthrie, OK) which inhabits the Great Plains region; C. h. athabascensis from the Lake Athabasca Sand Dunes of Saskatchewan and Alberta; C. h. coloradula from the Little Colorado River, AZ; C. h. couleensis (type locality: Vantage, WA) which is distributed in the Columbia–Snake river system of Washington, Oregon, and Idaho; and C. h. siuslawensis (type locality: Florence, OR) which inhabits the Pacific coast of Oregon and Washington.

Résumé

Associée aux dépots sablonneux des bords lacustres, fluviaux et riverains, Cicindela hirticollis Say 1817 habite une vaste aire de répartition en Amérique du Nord. Cet article présente une analyse de la variation géographique de l’espèce au moyen de l’analyse à variables multiples de la taille, des taches élytrales et des données chromatiques observées chez quelques 4000 spécimens en provenance de 75 sites choisis dans la répartition de l’espèce. L’auteur reconnaît, met en tableau de détermination et discute onze sous-espèces : C. h. hirticollis Say, gravida LeC, ponderosa Thorns., abrupta Csy., rhodensis Calder, corpuscula Rumpp, shelfordi, athabascensis, coloradula, couleensis, siuslawensis Graves. On discute aussi les refuges possibles de l’espèce au Pleistocene, et sa distribution à la suite de la glaciation continentale. On considère enfin les avantages théoriques de certaines variantes dans des climats particuliers ou sur certains substrats. Cicindela hirticollis a fait l’objet d’élimination ou risque de l’être dans plusieurs de ses habitats passés, suite aux activités humaines.

Cinq nouvelles sous-espèces font l’objet d’une description : C. h. shelfordi (localité-type : Guthrie, OK) qui habite la région des Great Plains; C. h. athabascensis des Dunes sablonneuses du Lac Athabasca de Saskatchewan et de l’Alberta; C. h. coloradula de la Rivière Little Colorado, AZ; C. h. couleensis (localité-type : Vantage, WA) qui est répartie dans le système de rivière Columbia–Snake de Washington, de l’Orégon et de l’Idaho; et C. h. siuslawensis (localité-type : Florence, OR) qui habite la côte pacifique de l’Orégon et de Washington.

Type
Articles
Copyright
Copyright © Entomological Society of Canada 1988

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References

Ball, G.E. 1979. Conspectus of carabid classification: history, holomorphology and higher taxa. pp. 63111in Erwin, T.L. et al. , (Eds.), Carabid Beetles: Their Evolution, Natural History, and Classification. W. Junk, The Hague.CrossRefGoogle Scholar
Boyd, H.P. 1975. The overlapping ranges of Cicindela dorsalis dorsalis and C. d. media, with notes on the Calvert Cliffs, Maryland. Cicindela 7: 5559.Google Scholar
Boyd, H.P., and Associates. 1982. Checklist of Cicindelidae: The Tiger Beetles. Plexus Publ., Marlton, NJ. 31 pp.Google Scholar
Boyd, H.P., and Rust, R.W.. 1982. Intraspecific and geographic variations in Cicindela dorsalis Say (Coleoptera: Cicindelidae). Coleopts. Bull. 36: 221239.Google Scholar
Calder, E.E. 1916. Cicindela hirticollis var. rhodensis new var. J. New York ent. Soc. 24: 9394.Google Scholar
Campbell, J.M. 1980. Distribution patterns of Coleoptera in eastern Canada. Can. Ent. 112: 11611175.CrossRefGoogle Scholar
Casey, T.L. 1913. Cicindelidae and Carabidae. p. 31in Memoirs on the Coleoptera. 4. Lancaster, PA. pp. 1192.Google Scholar
Casey, T.L. 1916. Cicindelidae. p. 30in Memoirs on the Coleoptera. 7. Lancaster, PA. pp. 134.Google Scholar
Cassola, F., and Brouerius van Nidek, C.M.C.. 1984. Checklist of Cicindela (s. auct.) of the Palaearctic Region (Coleoptera: Cicindelidae). Cicindela 16: 717.Google Scholar
Chronic, H. 1983. Roadside Geology of Arizona. Mountain Press Publ. Co., Missoula, MT.Google Scholar
Crowson, R.A. 1981. The Biology of the Coleoptera. Academic Press, London. 802 pp.Google Scholar
Davis, C.A. 1903. The Cicindelidae of Rhode Island. Ent. News 14: 270273.Google Scholar
Dejean, P.F.M.A. 1826. Spécies Général des Coléoptères de la Collection de M. le Comte Dejean. vol. 2. Paris. p. 425.Google Scholar
Dreisig, H. 1980. Daily activity, thermoregulation and water loss in the tiger beetle Cicindela hybrida. Oecologia (Berl.) 44: 376389.CrossRefGoogle Scholar
Dunn, G.A. 1981. Tiger beetles of New Hampshire. Cicindela 13: 128.Google Scholar
Erwin, T.L. 1979. Thoughts on the evolutionary history of ground beetles: hypotheses generated from comparative faunal analyses of lowland forest sites in temperate and tropical regions. pp. 539592in Erwin, T.L. et al. , (Eds.), Carabid Beetles: Their Evolution, Natural History, and Classification. W. Junk, The Hague.CrossRefGoogle Scholar
Flint, R.F. 1940. Late Quaternary changes of sea level in western and southern Newfoundland. Bull. Geol. Soc. Am. 51: 17571780.CrossRefGoogle Scholar
Freitag, R. 1965. A revision of the North American species of the Cicindela maritima group with a study of hybridization between Cicindela duodecimguttata and oregona. Quaest. Ent. 1: 87170.Google Scholar
Freitag, R. 1972. Female genitalia of the North American species of the Cicindela maritima group (Coleoptera: Cicindelidae). Can. Ent. 104: 12771306.CrossRefGoogle Scholar
Freitag, R. 1974. Selection for a non-genitalic mating structure in female tiger beetles of the genus Cicindela (Coleoptera: Cicindelidae). Can. Ent. 106: 561568.CrossRefGoogle Scholar
Gaumer, G.C. 1977. The variation and taxonomy of Cicindela formosa Say (Coleoptera: Cicindelidae). Ph.D. thesis, Texas A&M Univ., College Station. 253 pp.Google Scholar
Glaser, J.D. 1976. Cicindelids of Chesapeake Bay revisited. Cicindela 8: 1720.Google Scholar
Goudie, A. 1977. Environmental Change. Clarendon Press, Oxford. 244 pp.Google Scholar
Graves, R.C. 1988. Geographic distribution of the Nearctic tiger beetle Cicindela hirticollis Say. Cicindela. In press.Google Scholar
Hopkins, D.M. 1982. Aspects of the paleogeography of Beringia during the late Pleistocene. pp. 3–28 in Hopkins, D.M. et al. , (Eds.), Paleoecology of Beringia. Academic Press, New York. 489 pp.Google Scholar
Horn, W., and Kahle, I.. 1935. Über entomologische Sammlungen. Ent. Beih. Berlin-Dahlem. Band 2.Google Scholar
Howden, H.F. 1963. Speculations on some beetles, barriers, and climates during the Pleistocene and pre-Pleistocene periods in some non-glaciated portions of North America. System. Zool. 12: 178201.CrossRefGoogle Scholar
Howden, H.F. 1969. Effects of the Pleistocene on North American insects. Annu. Rev. Ent. 14: 3956.CrossRefGoogle Scholar
Howden, H.F. 1970. The Coleoptera. pp. 1–30 in Howden, H.F., Martin, J.E.H., Bousfield, E.L., and McAllister, D.E., Fauna of Sable Island and Its Zoogeographic Affinities. National Museum of Natural Sciences, Publications in Zoology, No. 4. Ottawa. 45 pp.Google Scholar
Ives, J.D. 1963. Field problems in determining the maximum extent of Pleistocene glaciation along the eastern Canadian seaboard — geographer's point of view. pp. 337354in Love, A. and D.(Eds.), North Atlantic Biota and Their History. MacMillan, New York.Google Scholar
Kerr, R.A. 1986. Climate since the ice began to melt. Science 226: 326327.CrossRefGoogle Scholar
Kollar, V. 1836. Species insectorum coleopterorum novae. Ann. d. Hofmus. Wien. 2. p. 330.Google Scholar
Larochelle, A. 1971. Tiger beetles of the Magdalen Islands. Cicindela 3: 57.Google Scholar
Larochelle, A. 1980. Cicindelidae of the Maritime Provinces of Canada. Cicindela 12: 3539.Google Scholar
LeConte, J.L. 1851. Descriptions of new species of Coleoptera from California. Ann. Lyceum Nat. Hist. New York 5: 125–216 (pp. 170171).Google Scholar
Leffler, S.R. 1979. Tiger beetles of the Pacific Northwest (Coleoptera: Cicindelidae). Ph.D. diss., Univ. of Washington, Seattle. 731 pp.Google Scholar
Leffler, S.R., and Pearson, D.L.. 1976. Tiger beetles of Washington. Cicindela 8: 2160.Google Scholar
Loy, W.G., Allan, S., Patton, C.P., and Plank, R.D.. 1976. Atlas of Oregon. Univ. of Oregon Books, Academic Book Center, Portland. 215 pp.Google Scholar
Mandl, K. 19351936. Vorarbeiten für eine monographische Neubearbeitung der paläarktischen Cicindelen. Revision der Cicindela hybrida-Gruppe (C. hybrida, coerulea, transbaicalica, altaica, maritima). Arb. morph. taxon. Ent. Berlin-Dahlem 2: 283306, 3: 5–32.Google Scholar
Maser, C., and Beer, F.M.. 1984. Notes on cicindelid habitats in Oregon. Cicindela 16: 3960.Google Scholar
Mayewski, P.A., Denton, G.H., and Hughes, T.J.. 1981. Late Wisconsin ice sheets of North America. pp. 67178in Denton, G.H., and Hughes, T.J. (Eds.), The Last Great Ice Sheets. Wiley, New York.Google Scholar
Mayr, E. 1969. Principles of Systematic Zoology. McGraw-Hill, New York. 428 pp.Google Scholar
Morgan, A.V., and Freitag, R.. 1982. The occurrence of Cicindela limbalis Klug (Coleoptera: Cicindelidae) in a late-glacial site at Brampton, Ontario. Coleopts. Bull. 36: 105108.Google Scholar
Munroe, E.G. 1956. Canada as an environment for insect life. Can. Ent. 88: 372476.CrossRefGoogle Scholar
Murray, R.R. 1980. Systematics of Cicindela rufiventris Dejean, Cicindela sedecimpunctata Klug and Cicindela dela flohri Bates (Coleoptera: Cicindelidae). Ph.D. thesis, Texas A&M Univ., College Station. 287 pp.Google Scholar
Nagano, C.D. 1980(1982). Population status of the tiger beetles of the genus Cicindela (Coleoptera: Cicindelidae) inhabiting the marine shoreline of southern California. Atala 8: 3342.Google Scholar
National Geographic Society. 1986. Map of Newfoundland. Nat. Geog. Mag. 169: 683.Google Scholar
Nations, D., and Stump, E.. 1981. Geology of Arizona. Kendall-Hunt Publ., Dubuque, IA.Google Scholar
Prest, V.K., Terasmae, J., Matthews, J.V., and Lichti-Federovich, S.. 1976. Late Quaternary history of Magdalen Islands, Quebec. Maritime Sediments 12: 3959, pl. I–III.Google Scholar
Raup, H.M., and Argus, G.W.. 1982. The Lake Athabasca Sand Dunes of northern Saskatchewan and Alberta, Canada. 1. The land and vegetation. National Museum of Natural Sciences, Publications in Botany, No. 12. Ottawa. 96 pp.Google Scholar
Rivalier, E. 1954. Démembrement du genre Cicindela Linné. II. Faune américaine. Rev. Fr. Ent. 21: 249268.Google Scholar
Rumpp, N.L. 1961. Three new tiger beetles of the genus Cicindela from southwestern United States. Bull. California Acad. Sci. 60: 165187.Google Scholar
Rumpp, N.L. 1967. A new species of Cicindela from Idaho (Coleoptera: Cicindelidae). Proc. Calif. Acad. Sci. 35: 129138.Google Scholar
Say, T. 1817. Descriptions of several new species of North American insects. J. Acad. Nat. Sci. Philadelphia 1: 1823 (pp. 20–21).Google Scholar
Schultz, T.D. 1986. Role of structural colors in predator avoidance by tiger beetles of the genus Cicindela (Coleoptera: Cicindelidae). Bull. ent. Soc. Am. 32: 142146.Google Scholar
Schultz, T.D., and Rankin, M.A.. 1985 a. The ultrastructure of the epicuticular interference reflectors of tiger beetles (Cicindela). J. Exp. Biol. 117: 87110.CrossRefGoogle Scholar
Schultz, T.D., and Rankin, M.A.. 1985 b. Developmental changes in the interference reflectors and colorations of tiger beetles (Cicindela). J. Exp. Biol. 117: 111117.CrossRefGoogle Scholar
Scudder, G.G.E. 1979. Present patterns in the fauna and flora of Canada. pp. 87–179 in Danks, H.V. (Ed.), Canada and Its Insect Fauna. Mem. Ent. Soc. Can. 108. Ottawa. 573 pp.Google Scholar
Selander, R.B., and Vaurie, P.. 1962. A gazetteer to accompany the “Insecta” volumes of the “Biologia Centrali-Americana”. Am. Mus. Novitates (2099): 170.Google Scholar
Shelford, V.E. 1907. Preliminary note on the distribution of the tiger beetles (Cicindela) and its relation to plant succession. Biol. Bull. 14: 914.CrossRefGoogle Scholar
Shelford, V.E. 1909. Life histories and larval habits of the tiger beetles (Cicindelidae). J. Linnean Soc. London (Zoology) 30: 157184.CrossRefGoogle Scholar
Shelford, V.E. 1917. Color and color-pattern mechanism of tiger beetles. Illinois Biol. Monogr. 3 (4): 1135.Google Scholar
Spanton, T.G. 1983. A revision of the Nearctic species of the Cicindela sylvatica group (Coleoptera: Cicindelidae). M.Sc. thesis, Lakehead University, Thunder Bay, Ont.Google Scholar
Thomson, J. 1859. Arcana Naturae. Paris. pp. 8990.Google Scholar
Thorndike, R.M. 1978. Correlational Procedures for Research. Halsted Press, New York. 340 pp.Google Scholar
USDA. 1941. Climate and man. Yearbook of Agriculture. U.S. Department of Agriculture, Washington, DC. 1248 pp.Google Scholar
Vickery, V.R., and McE. Kevan, D.K.. 1977. A new species of Melanoplus (Orthoptera: Acrididae: Melanoplinae) from the Magdalen Islands, Quebec. Ann. ent. Soc. Quebec 22: 188192.Google Scholar
Vickery, V.R., and McE. Kevan, D.K.. 1983. A monograph of the orthopteroid insects of Canada and adjacent regions. Mem. Lyman ent. Mus. Res. Lab. 13(2): i–iv + 6811462.Google Scholar
Wiens, J.A. (Ed.), Mayr, E., Parker, K.C., Gill, F.B., Storer, R.W., Barrowclough, G.F., Lanyon, W.E., Johnson, N.K., Zusi, R.L., Monroe, B.L. Jr., O'Neill, J.P., and Phillips, A.R.. 1982. Forum: Avian subspecies in the 1980's. Auk 99: 593615.Google Scholar
Willis, H.L. 1967. Bionomics and zoogeography of tiger beetles of saline habitats in the central United States (Coleoptera: Cicindelidae). Univ. Kansas Sci. Bull. 47: 145313.Google Scholar
Zusi, R.L. 1982. Infraspecific geographic variation and the subspecies concept. Auk 99: 606608.Google Scholar