Hostname: page-component-77c89778f8-gq7q9 Total loading time: 0 Render date: 2024-07-16T10:42:40.411Z Has data issue: false hasContentIssue false
  • English
  • Français

The spider fauna of Shetland and its zoogeographic context*

Published online by Cambridge University Press:  05 December 2011

N. Philip Ashmole
N. Philip Ashmole
Affiliation:
Department of Zoology, University of Edinburgh
Get access

Synopsis

The spider fauna of Shetland is described on the basis of collections made in 1974–75 and earlier published and unpublished data. The number of species recorded is increased from 35 to 90. Work on Ronas Hill and elsewhere has shown that Shetland has a substantial array of montane spiders, many of them occurring at much lower elevations than is normal in mainland Britain: a height of 400 m on Shetland is roughly equivalent—in terms of the spider community—to one of 900 m in the Cairngorms. Shetland appears to lack, however, a number of the arctic-alpine species present at high levels in mainland Scotland and the Faroes. The spider fauna of moorland in Shetland is shown to have closely similar composition to that of a moorland area in the Pennines, although the latter has more species. Other habitats discussed include sand dunes in South Mainland and serpentine heaths in Unst.

The new information permits for the first time assessment of the spider fauna of Shetland in its zoogeographic context. Almost all of the species found in Shetland, the Faroes and Iceland are present in both Scotland and Fennoscandia; however, only two-thirds of the Faroes species and less than half of the Iceland species are also found in Shetland.

Consideration of the Pleistocene history of the area permits analysis of the origins of the faunas. Some species adapted to arctic conditions may have survived through the last glacial episode in Iceland, where there were ice-free areas, but such survival is most unlikely for the Faroes and Shetland: for Orkney the picture is unclear. There was no subsequent overland immigration to Iceland or the Faroes and little or none to Shetland, but Orkney may have received rather more of its species in this way. The rapid postglacial rise in sea level ensured that the bulk of the species in all these faunas had to colonise over water. Some species were transported by man and a few may have travelled on natural rafts, but the majority seem to have immigrated by ballooning.

Orkney probably received all its colonists from mainland Scotland and Shetland could also have done so. Immigration from Fennoscandia, however, was undoubtedly important in the case of Iceland, significant in the Faroes and possibly also contributed to the Shetland fauna. Only Iceland can be shown to have received species from Greenland.

In an Appendix the spider species recorded from Orkney, Shetland, the Faroes and Iceland are tabulated and the occurrence of these species on the Scottish mainland and in Fennoscandia and Greenland is indicated.

Type
Research Article
Information
Proceedings of the Royal Society of Edinburgh, Section B: Biological Sciences , Volume 78 , Issue 1-2 , 1979 , pp. 63 - 122
Copyright
Copyright © Royal Society of Edinburgh 1979

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Footnotes

*

This paper was assisted in publication by a grant from the Carnegie Trust for the Universities of Scotland.

References

Andrews, J. T., 1974. Cainozoic glaciations and crustal movements of the Arctic. In Ives, J. D. and Barry, R. G. (eds) Arctic and Alpine Environments, 277317. London: Methuen.Google Scholar
Ashmole, N. P. and Planterose, B. R. Spider collections from arctic Fennoscandia, Fauna Norvegica, Ser. B. In press.Google Scholar
Ball, D. F. and Goodier, R., 1974. Ronas Hill, Shetland: a preliminary account of its ground pattern features resulting from the action of frost and wind. In Goodier, R. (ed.) The Natural Environment of Shetland, 89106. Edinburgh: Nature Conservancy Council.Google Scholar
Beirne, B. P., 1952. The Origin and History of the British Fauna. London: Methuen.Google Scholar
Bengtson, S.-A. et al. , 1976. Species composition and distribution of spiders (Araneae) in Iceland. Norw. J. Ent., 23, 3539.Google Scholar
Birks, H. J. B. and Ransom, M. E., 1969. An interglacial peat at Fugla Ness, Shetland. New Phytol., 68, 777796.CrossRefGoogle Scholar
Birse, E. L., 1974. Bioclimatic characteristics of Shetland. In Goodier, R. (ed.) The Natural Environment of Shetland, 2432. Edinburgh: Nature Conservancy Council.Google Scholar
Bishop, W. W. and Coope, G. R., 1977. Stratigraphical and faunal evidence for Lateglacial and early Flandrian environments in south-west Scotland. In Gray, J. M. and Lowe, J. J. (eds) Studies in the Scottish Lateglacial Environment, 6188. Oxford: Pergamon.CrossRefGoogle Scholar
Bloom, A. L., 1971. Glacial-eustatic and isostatic controls of sea level since the last glaciation. In Turekian, K. K. (ed.) Late Cenozoic Glacial Ages, 355379. New Haven: Yale Univ. Press.Google Scholar
Braendegaard, J., 1928. Araneina. Zoology Faroes, 2 (II), XLVII.Google Scholar
Braendegaard, J., 1946. The zoology of East Greenland. Araneina. Meddr Grenland, 121 (15).Google Scholar
Braendegaard, J., 1958. Araneida. Zoology Iceland, 3 (54).Google Scholar
Brinck, P., 1966. Animal invasion of Glacial and Late Glacial terrestrial environments in Scandinavia. Oikos, 17, 250266.Google Scholar
Bristowe, W. S., 1925. The fauna of the Arctic island of Jan Mayen and its probable origin. Ann. Mag. Nat. Hist., 15, 480485.Google Scholar
Bristowe, W. S., 1931. The spiders of the Orkney and Shetland Islands. Proc. Zool. Soc. Lond., 1931, 951956.Google Scholar
Bristowe, W. S., 1939, 1941. The Comity of Spiders, Vols I and II. London: Ray Society.Google Scholar
Brown, J. H., 1971. Mammals on mountaintops: nonequilibrium insular biogeography. Am. Nat., 105, 467478.Google Scholar
Carlquist, S., 1974. Island Biology. New York: Columbia Univ. Press.CrossRefGoogle Scholar
Carpenter, R. M., 1962. On the invertebrate fauna of Fair Isle. Scott. Nat., 70, 9195.Google Scholar
Chamberlin, T. C., 1897. The method of multiple working hypotheses. J. Geol., 5, 837848.CrossRefGoogle Scholar
Chappell, J., 1974. Late Quaternary glacio- and hydro-isostasy, on a layered earth. Quaternary Res., 4, 405428.CrossRefGoogle Scholar
Cherrett, J. M., 1964. The distribution of spiders on the Moor House National Nature Reserve. Westmorland. J. Anim. Ecol., 33, 2748.CrossRefGoogle Scholar
Cloudsley-Thompson, J. L., 1956. On the arachnid fauna of Fair Isle. Ann. Mag. Nat. Hist., 9, 830832.Google Scholar
Conolly, A. P. and Dahl, E., 1970. Maximum summer temperature in relation to the modern and Quaternary distributions of certain arctic-montane species in the British Isles. In Walker, D. and West, R. G. (eds) Studies in the Vegetational History of the British Isles, 159223. Cambridge Univ. Press.Google Scholar
Cooke, J. A. L., 1967 a. New and rare British spiders. J. Nat. Hist., 1, 135148.CrossRefGoogle Scholar
Cooke, J. A. L., 1967 a. A noteworthy collection of mountain spiders from Scotland. Bull. Br. Spider Study Group, No. 36, 57.Google Scholar
Cooke, J. A. L., 1967 c. Spiders from Norway. Entomologist's Mon. Mag., 103, 1213.Google Scholar
Cooke, J. A. L., 1968. A collection of spiders from Ben Hope, Sutherland. Bull. Br. Spider Study Group, No. 38, 6.Google Scholar
Coope, G. R., 1969. The contribution that the Coleoptera of Glacial Britain could have made to the subsequent colonisation of Scandinavia. Opusc. Ent., Lund, 34, 95108.Google Scholar
Coope, G. R., 1975. Climatic fluctuations in northwest Europe since the Last Interglacial indicated by fossil assemblages of Coleoptera. In Wright, A. E. and Moseley, F. (eds) Ice Ages: Ancient and Modern, 153168. Liverpool: Seel House Press.Google Scholar
Coope, G. R., 1977. Fossil coleopteran assemblages as sensitive indicators of climatic changes during the Devensian (Last) cold stage. Phil. Trans. Roy. Soc. Lond., 280B, 313340.Google Scholar
Croizat, L., Nelson, G. and Rosen, D.E., 1974. Centers of origin and related concepts. Syst. Zool., 23, 265287.CrossRefGoogle Scholar
Crosby, C. R. and Bishop, S. C., 1936. Aeronautic spiders with a description of a new species. Jl N. Y. Ent. Soc., 44, 4349.Google Scholar
Deacon, J., 1974. The location of refugia of Corylus avellana L. during the Weichselian glaciation. New Phytol., 73, 10551063.Google Scholar
Diamond, J., 1974. Colonization of exploded volcanic islands by birds. The supertramp strategy. Science, N. Y, 184, 803806.CrossRefGoogle ScholarPubMed
Diamond, J. M., 1975. Assembly of species communties. In Cody, M. L. and Diamond, J. M. (eds) Ecology and Evolution of Communities, 342444. Cambridge, Mass.: Belknap.Google Scholar
d'Olier, B., 1972. Subsidence and sea-level rise in the Thames estuary. Phil. Trans. Roy. Soc. Lond., 272A, 121130.Google Scholar
Donner, J. J., 1970. Land/sea level changes in Scotland. In Walker, D. and West, R. G. (eds) Studies in the Vegetational History of the British Isles, 2329. Cambridge Univ. Press.Google Scholar
Downes, J. A., 1966. The Lepidoptera of Greenland; some geographic considerations. Can. Ent., 98, 11351144.CrossRefGoogle Scholar
Duffey, E. 1955. Notes on the natural history of Eynhallow, Orkney. Scott. Nat., 67, 4051.Google Scholar
Duffey, E., 1962. A population study of spiders in limestone grassland. Description of study area, sampling methods and population characteristics. J. Anim. Ecol., 31, 571599.CrossRefGoogle Scholar
Duffey, E., 1968. An ecological study of the spider fauna of sand dunes. J. Anim. Ecol., 37, 641674.CrossRefGoogle Scholar
Elton, C. S., 1925. The dispersal of insects to Spitsbergen. Trans. Ent. Soc. Lond., 1925, 289299.Google Scholar
Flinn, D., 1973. The topography of the seafloor around Orkney and Shetland and in the northern North Sea. Jl Geol. Soc. Lond., 129, 3959.Google Scholar
Flinn, D., 1977. The erosion history of Shetland: a review. Proc. Geol. Assoc., 88, 129146.Google Scholar
Flinn, D., 1978. The most recent glaciation of the Orkney-Shetland Channel and adjacent areas. Scott. J. Geol., 14, 109123.CrossRefGoogle Scholar
Flint, R. F., 1971. Glacial and Quaternary Geology. New York: Wiley.Google Scholar
Fowler, J. A. (ed.), 1969. City of Leicester Polytechnic, School of Biology, Expedition to Shetland Isles April 1969. Report. (Cyclostyled.)Google Scholar
Godwin, H., 1975. The History of the British Flora, 2nd edn. Cambridge Univ. Press.Google Scholar
Goodier, R., 1967. Welsh mountain spiders. Nature in Wales, 10, 106114.Google Scholar
Goodier, R., 1970. Notes on mountain spiders from Wales. Bull. Br. Arach. Soc., 1, 85–87, 97100.Google Scholar
Goodier, R. (ed.), 1974. The Natural Environment of Shetland. Edinburgh: Nature Conservancy Council.Google Scholar
Gray, J. M. and Lowe, J. J. (eds), 1977. Studies in the Scottish Lateglacial Environment. Oxford: Pergamon.Google Scholar
Gressitt, J. L. and Yoshimoto, C. M., 1966. Dispersal of animals in the Pacific. Proc Pacif. Sci. Congr., 10, 283292.Google Scholar
Hauge, E., 1972. Spiders and harvestmen from Möre & Romsdal and Tröndelag, Norway. Norsk Ent. Tidsskr., 19, 117121.Google Scholar
Hauge, E., 1974. Notes on Norwegian spiders, IV. Norsk Ent. Tidsskr., 21, 111112.Google Scholar
Hauge, E., 1975. Three species of spiders (Aranea) new to Norway. Norw. J. Ent., 22, 8182.Google Scholar
Hauge, E., 1977. The spider fauna of two forest habitats in northern Norway. Astarte, 10, 93101.Google Scholar
Hauge, E., Hagvar, S. and Østbye, E., 1978. Pit-fall catches of surface-active arthropods in some high mountain habitats at Finse, south Norway. III. The species of Araneida. Norw. J. Ent., 25, 207220.Google Scholar
Hippa, H. and Mannila, R., 1975. Checklist of spiders (Araneae) of South-West Häme, Finland, with reference to the zoogeography of the species. Lounais-Hämeen Luonto, 55, 1730.Google Scholar
Holm, Å., 1950. Studien über die Spinnenfauna des Tornetraskgebietes. Zool. Bidr. Upps, 29, 103213.Google Scholar
Holm, Å., 1951. Araneae. In Brinck, P. and Wingstrand, K. G. (eds) The Mountain Fauna of the Virihaure Area in Swedish Lapland. Lunds Univ. Arsskrift, 46 (2), 138149.Google Scholar
Holm, Å., 1959. Spindlar från Härjedalens fjälltrakter. Ent. Tidskr., 79, 216236.Google Scholar
Holm, Å., 1967. Spiders (Araneae) from West Greenland. Meddr Grønland, 184 (1).Google Scholar
Holm, Å., 1968. A contribution to the spider fauna of Sweden. Zool. Bidr. Upps., 37, 183209.Google Scholar
Holm, Å. and Kronestedt, T., 1970. A taxonomic study of the wolf spiders of the Pardosa pullata-group (Araneae, Lycosidae). Acta Ent. Bohemoslovaca, 67, 408428.Google Scholar
Holm, Å., 1973. On the spiders collected during the Swedish Expeditions to Novaya Zemlya and Yenisey in 1875 and 1876. Zool. Scripta, 2, 71110.Google Scholar
Hoppe, G., 1965. Submarine peat in the Shetland Islands. Geogr. Annlr, 47A, 195203.CrossRefGoogle Scholar
Hoppe, G., 1968. Grímsey and the maximum extent of the last glaciation of Iceland. Geogr. Annlr, 50A, 1624.CrossRefGoogle Scholar
Hoppe, G., 1974. The glacial history of the Shetland Islands. In Brown, E. H. and Waters, R. S. (eds) Progress in Geomorphology, 197210. (Inst. Brit. Geographers, Spec. Publ., No. 7).Google Scholar
Ives, J. D., 1974. Biological refugia and the nunatak hypothesis. In Ives, J. D. and Barry, R. G. (eds) Arctic and Alpine Environments, 605636. London: Methuen.Google Scholar
Janetschek, H., 1970. Environments and ecology of terrestrial arthropods in the high Antarctic. In Holdgate, M. W. (ed.) Antarctic Ecology, 871885. London: Academic Press.Google Scholar
Jelgersma, S., 1961. Holocene sea level changes in the Netherlands. Meded. Geol. Sticht., C6, (7).Google Scholar
Johnston, J. L., 1974. Shetland habitats, an outline ecological framework. In Goodier, R. (ed.) The Natural Environment of Shetland, 3349. Edinburgh: Nature Conservancy Council.Google Scholar
Kaiser, K., 1969. The climate of Europe during the Quaternary Ice Age. In Wright, H. E. (ed.) Quaternary Geology and Climate, 1037. Washington, D.C.: Natn. Acad. Sci. U.S.A.Google Scholar
Kellaway, G. A. et al. , 1975. The Quaternary history of the English Channel. Phil. Trans. Roy. Soc. Lond., 279A, 189218.Google Scholar
Kiilerich, A., 1928. Geography, hydrography and climate of the Faroes. Zoology Faroes, 1 (I), II.Google Scholar
Kleemola, A., 1962. Spiders from the northernmost part of Enontekiö. Arch. Soc. ‘Vanamo’, 16, 128135.Google Scholar
Lindroth, C. H., 1955. Insects and spiders from Fair Isle. Entomologist's Mon. Mag., 91, 216.Google Scholar
Lindroth, C. H., 1957. The Faunal Connections between Europe and North America. New York: Wiley, and Stockholm: Almqvist and Wiksell.Google Scholar
Lindroth, C. H., 1960. The ground-beetles of the Azores (Coleoptera : Carabidae). Bolm. Mus. Munic. Funchal, No. 13, 548.Google Scholar
Lindroth, C. H., 1963. The fauna history of Newfoundland. Illustrated by Carabid beetles. Opusc. Ent. Lund., Suppl., 23.Google Scholar
Lindroth, C. H., 1965. Skaftafell, Iceland, a living glacial refugium. Oikos, Suppl., 6.Google Scholar
Lindroth, C. H., 1969. The theory of glacial refugia in Scandinavia. Comments on present opinions. Notul. Ent., 49, 178192.Google Scholar
Lindroth, C. H. et al. , 1973. Surtsey, Iceland. The development of a new fauna, 1963–1970. Terrestrial invertebrates. Ent. Scand., Suppl., 5.Google Scholar
Locket, G. H. and Millidge, A. F., 1951, 1953. British Spiders, Vols I and II. London: Ray Society.Google Scholar
Locket, G. H. and Millidge, A. F., 1961. Notes on spiders collected in Inverness-shire and Morayshire. Entomologist's Mon. Mag., 97, 2224.Google Scholar
Locket, G. H., Millidge, A. F. and Merrett, P., 1974. British Spiders, Vol. III. London: Ray Society.Google Scholar
Lynch, J. F. and Johnson, N. K., 1974. Turnover and equilibria in insular avifaunas, with special reference to the California Channel Islands. Condor, 76, 370384.Google Scholar
MacArthur, R. H. and Wilson, E. O., 1963. An equilibrium theory of insular zoogeography. Evolution, 17, 373387.Google Scholar
MacArthur, R. H. and Wilson, E. O., 1967. The Theory of Island Biogeography. Princeton Univ. Press.Google Scholar
McDowall, R. M., 1978. Generalized tracks and dispersal in biogeography. Syst. Zool., 27, 88104.Google Scholar
Mackie, D. W., 1968. Some spiders and harvestmen collected in Scotland in 1966 and 1967. Bull. Br. Spicier Study Group, No. 37, 910.Google Scholar
Mackie, D. W., 1971. Notes on some Linyphiid spiders from Tentsmuir, Fife. Bull. Br. Arach. Soc., 2, 3337.Google Scholar
Mani, M. S., 1962. Introduction to High Altitude Entomology. London: Methuen.Google Scholar
Mengel, R. M., 1964. The probable history of species formation in some northern wood warblers (Parulidae). Living Bird, 3, 943.Google Scholar
Merrett, P., 1971. The spiders of Ben Hope and Foinaven, Sutherland. Bull. Br. Arach. Soc., 2, 3031.Google Scholar
Milliman, J. D. and Emery, K. O., 1968. Sea levels during the past 35,000 years. Science|N. Y., 162, 11211123.Google Scholar
Mitchell, G. F., 1977. Periglacial Ireland. Phil. Trans. Roy. Soc. Lond., 280B, 199209.Google Scholar
Mitchell, G. F. and West, R. G. (eds) 1977. The changing environmental conditions in Great Britain and Ireland during the Devensian (Last) cold stage. Phil. Trans. Roy. Soc. London. 280B, 103374.Google Scholar
Moreau, R. E., 1961. Taxonomic realism. Proc. Zool. Soc. Lond., 137, 623626.CrossRefGoogle Scholar
Mörner, N.-A., 1971. Eustatic changes during the last 20,000 years and a method of separating the isostatic and eustatic factors in an uplifted area. Palaeogeog., Palaeoclimatol., Palaeoecol., 9, 153181.CrossRefGoogle Scholar
Mykura, W., 1976. British Regional Geology. Orkney and Shetland. Edinburgh: H.M.S.O.Google Scholar
Mykura, W. and Phemister, J., 1976. The Geology of Western Shetland. Mem. Geol. Surv. Gt Br. Scotland.Google Scholar
Nielsen, E., 1931. The Biology of Spiders. 2 Vols. Copenhagen: Levin & Munksgaard.Google Scholar
Osborne, P. J., 1974. An insect assemblage of early Flandrian age from Lea Marston, Warwickshire, and its bearing on the contemporary climate and ecology. Quaternary Res., 4, 471486.CrossRefGoogle Scholar
Page, N. R., 1972. On the age of the Hoxnian interglacial. Geol. Jl, 8, 129142.Google Scholar
Palmgren, P., 19391976. Die Spinnenfauna Finnlands. Acta Zool. Fenn., 25, 186; 36, 1–112; 62, 1–43; Fauna Fenn. 24, 1–70; 26, 1–54; 28, 1–102; 29, 1–126.Google Scholar
Palmgren, P., 1965. Die Spinnenfauna der Gegend von Kilpisjärvi in Lappland. Acta Zool. Fenn., 110, 170.Google Scholar
Palmgren, P., 1972. Studies on the spider populations of the surroundings of the Tvärminne Zoological Station, Finland. Commentat. Biol., 52, 1133.Google Scholar
Parker, J. R., 1964. Moorland spiders. Fld Nat., 9, 5859.Google Scholar
Parker, J. R., 1969. On the establishment of Cornicularia clavicornis Emerton (Araneae) as a British species. Bull. Br. Arach. Soc., 1, 4954.Google Scholar
Platnick, N. I., 1976. Drifting spiders or continents?: Vicariance biogeography of the spider sub-family Laroniinae (Araneae: Gnaphosidae). Syst. Zool., 25, 101109.CrossRefGoogle Scholar
Proctor, J., 1971. The plant ecology of serpentine. II. Plant response to serpentine soils. J. Ecol., 59, 397410.CrossRefGoogle Scholar
Ragge, R. D., 1963. First record of the grasshopper Stenobothrus stigmaticus (Rambur) (Acrididae) in the British Isles, with other new distribution records and notes on the origin of the British Orthoptera. Entomologist, 96, 211217.Google Scholar
Rasmussen, J., 1963. Recent studies on the geology of the Faeroes. In A., and Löve, D. (eds) North Atlantic Biota and their History, 2944. Oxford: Pergamon.Google Scholar
Richter, C. J. J., 1970. Aerial dispersal in relation to habitat in eight wolf spider species (Pardosa, Araneae, Lycosidae). Oecologia, 5, 200214.Google Scholar
Roy, D., 1962. The spiders of the Cairngorm region. Scott. Nat., 70, 96101.Google Scholar
Simberloff, D., 1976. Species turnover and equilibrium island biogeography. Science, N.Y., 194, 572578.Google Scholar
Sissons, J. B., 1974. The Quaternary in Scotland: a review. Scot. J. Geol., 10, 311337.CrossRefGoogle Scholar
Spence, D. H. N., 1960. Studies on the vegetation of Shetland. III. Scrub in Shetland and in South Uist, Outer Hebrides. J. Ecol., 48, 7395.CrossRefGoogle Scholar
Spence, D. H. N., 1970. Scottish serpentine vegetation. Oikos, 21, 2231.Google Scholar
Spence, D. H. N., 1974. Subarctic debris and scrub vegetation of Shetland. In Goodier, R. (ed.) The Natural Environment of Shetland, 7388. Edinburgh: Nature Conservancy Council.Google Scholar
Spence, D. H. N. and Millar, E. A., 1963. An experimental study of the infertility of a Shetland serpentine soil. J. Ecol., 51, 333343.CrossRefGoogle Scholar
Synge, F. M., 1977. Records of sea levels during the Late Devensian. Phil. Trans. Roy. Soc. Lond., 280B, 211228.Google Scholar
Talwani, M. and Eldholm, O., 1977. Evolution of the Norwegian-Greenland Sea. Bull. Geol. Soc. Am., 88, 969999.Google Scholar
Terborgh, J. and Weske, J. S., 1975. The role of competition in the distribution of Andean birds. Ecology, 56, 562576.Google Scholar
Ters, M., 1975. Variations in sea level on the French Atlantic coast over the last 10.000 years(Abstract). In Suggate, R. P. and Cresswell, M. M. (eds) Quaternary Studies, 287288. Bull. Roy. Soc. N.Z., 13.Google Scholar
Tullgren, A., 1955. Zur Kenntnis schwedischer Erigoniden. Ark. Zool., 7, 295389.Google Scholar
Udvardy, M. D. F., 1969. Dynamic Zoogeography, with Special Reference to Land Animals. New York: Van Nostrand Reinhold.Google Scholar
Usher, M. B., 1968. Some spiders and harvestmen from Rhum, Scotland. Bull. Br. Spider Study Group, No. 39, 16.Google Scholar
Waaler, P. F., 1970. Spiders (Aranea) from Syd-Varanger, North Norway, with a note on a gynandromorph Cornicularia. Rhizocrinus (flee. Pap. Zool. Mus. Univ. Oslo), 1 (5), 19.Google Scholar
Waaler, P. F., 1971. Spiders new to Norway. Norsk Ent. Tidsskr., 18, 1724.Google Scholar
Waaler, P. F., 1972. Spiders (Araneae) from Ringsaker, Norway. Norsk Ent. Tidsskr., 19, 4957.Google Scholar
West, R. G., 1977. Early and Middle Devensian flora and vegetation. Phil. Trans. Roy. Soc. Lond., 280B, 229246.Google Scholar
Wiehle, H., 1960. Spinnentiere oder Arachnoidea (Araneae). XI: Micryphantidae-Zwergspinnen Tierwelt Dtl., 47, 1620.Google Scholar
Wilson, E. O., 1961. The nature of the taxon cycle in the Melanesian ant fauna. Am. Nat., 95, 169193.CrossRefGoogle Scholar
Wingerden, W. K. R. E. van and Vugts, H. F., 1974. Factors influencing aeronautic behaviour of spiders. Bull. Br. Arach. Soc., 3, 610.Google Scholar
Wolff, N. L., 1971. Lepidoptera. Zoology Iceland, 3 (45).Google Scholar