SEARCH

SEARCH BY CITATION

References

  • Adams, G.A. & Wall, D.H. (2000) Biodiversity above and below the surface of soils and sediments: linkages and implications for global change. Bioscience, 50, 10431048.
  • Alavi, G. (1999) Climate, leaf area, soil moisture and tree growth in spruce stands in SW Sweden – field experiments and modelling. PhD Thesis. Agraria 175. Swedish University of Agricultural Sciences, Uppsala, Sweden.
  • Anderson, J.M. (1975a) Succession, diversity and trophic relationships of some soil animals in decomposing leaf litter. Journal of Animal Ecology, 44, 475495.
  • Anderson, J.M. (1975b) The enigma of soil animal species diversity. Progress in Soil Biology (ed. J.Vanek), pp. 5158. Dr W. Junk, B.V. The Hague, the Netherlands.
  • Anderson, J.M. (1978) Inter- and intra-habitat relationships between woodland Cryptostigmata species diversity and the diversity of soil and litter microhabitats. Oecologia, 32, 341348.
  • Anderson, J.M. (1988) Spatiotemporal effects of invertebrates on soil processes. Biology and Fertility of Soils, 6, 216227.
  • Anderson, J.M. & Hall, H. (1977) Cryptostigmata species diversity and soil habitat structure. Ecological Bulletins, 25, 473475.
  • Arnell, N. (1999) The effects of climate change on hydrological regimes in Europe: a continental perspective. Global Environmental Change, 9, 523.
  • Bååth, E. & Söderström, B. (1982) Seasonal and spatial variation in fungal biomass in a forest soil. Soil Biology and Biochemistry, 14, 353358.
  • Basset, Y., Novotny, V., Miller, S.E. & Springate, N.D. (1998) Assessing the impact of forest disturbance on tropical invertebrates: some comments. Journal of Applied Ecology, 35, 461466.
  • Behan-Pelletier, V. & Newton, G. (1999) Linking soil biodiversity and ecosystem function – the taxonomic dilemma. Bioscience, 49, 149152.
  • Bengtsson, J. (1994) Temporal predictability in forest soil communities. Journal of Animal Ecology, 63, 653665.
  • Bengtsson, G., Ohlsson, L. & Rundgren, S. (1985) Influence of fungi on growth and survival of Onychiurus armatus (Collembola) in a metal polluted soil. Oecologia, 68, 6368.
  • Bengtsson, J., Persson, T. & Lundkvist, H. (1997) Long-term effects of logging residue addition and removal on macroarthropods and enchytraeids. Journal of Applied Ecology, 34, 10141022.
  • Bergholm, J., Jansson, P.-E., Johansson, U., Majdi, H., Nilsson, L.-O., Persson, H., Rosengren- Brinck, U. & Wiklund, K. (1995) Air pollution, tree vitality and forest production – the Skogaby project. General description of a field experiment with Norway spruce in south Sweden. Nutrient Uptake and Cycling in Forest Ecosystems (eds L.-O.Nilsson, R.F.Hüttl, U.T.Johansson & P.Mathy), pp. 6987. Ecosystems Research Report 21. European Commission, Luxembourg, Luxembourg.
  • Bissett, J. & Parkinson, D. (1979) Functional relationships between soil fungi and environment in alpine tundra. Canadian Journal of Botany, 51, 16421659.
  • Briones, M.J.I., Ineson, P. & Piearce, T.G. (1997) Effects of climate change on soil fauna; responses of enchytraeids, Diptera larvae and tardigrades in a transplant experiment. Applied Soil Ecology, 6, 117134.
  • Brussaard, L. (1998) Soil fauna, guilds, functional groups and ecosystem processes. Applied Soil Ecology, 9, 123135.
  • Dewdney, A.K. (1997) A dynamic model of abundances in natural communities. Coenoses, 12, 6776.
  • Didden, W.A.M. (1993) Ecology of terrestrial Enchytraeidae. Pedobiologia, 37, 229.
  • Faber, J.H. & Verhoef, H.A. (1991) Functional differences between closely-related soil arthropods with respect to decomposition processes in the presence or absence of pine tree roots. Soil Biology and Biochemistry, 23, 1523.
  • Fjellberg, A. (1980) Identification Keys to Norwegian Collembola. The Norwegian Entomological Society, Ås, Norway.
  • Fjellberg, A. (1998) The Collembola of Fennoscandia and Denmark. I. Poduromorpha and Onychiuridae. Fauna Entomologica Scandinavica 35. EJ Brill, the Netherlands.
  • Frampton, G.K., Van Den Brink, P.J. & Gould, P.J.L. (2000a) Effects of spring drought and irrigation on farmland arthropods in southern Britain. Journal of Applied Ecology, 37, 865883.
  • Frampton, G.K., Van Den Brink, P.J. & Gould, P.J.L. (2000b) Effects of spring precipitation on a temperate arable collembolan community using principal response curves. Applied Soil Ecology, 14, 231248.
  • Giller, P.S. (1996) The diversity of soil communities, the ‘poor man's tropical rainforest’. Biodiversity and Conservation, 5, 135168.
  • Gilyarov, M.S. & Krivolutsky, D.A. (1975) A Key to Soil-Inhabiting Mites. Sarcoptiformes. Izdatel’stvo Nauka, Moscow, Russia. [In Russian].
  • Gray, J.S. & Mirza, F.B. (1979) A possible method for detecting pollution-induced disturbance on marine benthic communities. Marine Pollution Bulletin, 10, 142146.
  • Hågvar, S. (1994) Log-normal distribution of dominance as an indicator of stressed soil microarthropod communities? Acta Zoologica Fennica, 195, 7180.
  • Hågvar, S. (1998) Mites (Acari) developing inside decomposing spruce needles: biology and effect on decomposition rate. Pedobiologia, 42, 358377.
  • Hågvar, S. & Kjøndal, B.R. (1981) Succession, diversity and feeding habits of microarthropods in decomposing birch leaves. Pedobiologia, 22, 385408.
  • Hansen, R.A. & Coleman, D.C. (1998) Litter complexity and composition are determinants of the diversity and species composition of oribatid mites (Acari: Oribatida) in litterbags. Applied Soil Ecology, 9, 1723.
  • Hasegawa, M. (1997) Changes in Collembola and Cryptostigmata communities during the decomposition of pine needles. Pedobiologia, 41, 225241.
  • Hasegawa, M. & Takeda, H. (1996) Carbon and nutrient dynamics in decomposing pine needle litter in relation to fungal and faunal abundances. Pedobiologia, 40, 171184.
  • Hill, J.K. & Hamer, K.C. (1998) Using species abundance models as indicators of habitat disturbance in tropical forests. Journal of Applied Ecology, 35, 458460.
  • Hill, J.K., Hamer, K.C., Lace, L.A. & Banham, W.M.T. (1995) Effects of selective logging on tropical forest butterflies on Buru, Indonesia. Journal of Applied Ecology, 32, 754760.
  • Hodkinson, I.D., Webb, N.R., Bale, J.S., Block, W., Coulson, S.J. & Strathdee, A.T. (1998) Global change and arctic ecosystems: conclusions and predictions from experiments with terrestrial invertebrates on Spitsbergen. Arctic and Alpine Research, 30, 306313.
  • Hoffman, A.A. & Parsons, P.A. (1997) Extreme Environmental Change and Evolution. Cambridge University Press, Cambridge, UK.
  • Hogervorst, R.F., Verhoef, H.A. & Van Straalen, N.M. (1993) Five-year trends in soil arthropod densities in pine forests with various levels of vitality. Biology and Fertility of Soils, 15, 189195.
  • Hopkin, S. (1997) Biology of the Springtails. Oxford University Press, Oxford, UK.
  • Horak, F. (1997) New questions about an old taxon: Suctobelba bella (Berlese, 1904) – only an Italian species? Abhandlungen und Berichte des Naturkundemuseums Görlitz, 69, 2530.
  • Hughes, R.G. (1986) Theories and models of species abundance. American Naturalist, 128, 879899.
  • Huston, M.A. (1994) Biological Diversity – The Coexistence of Species on Changing Landscapes. Cambridge University Press, Cambridge, UK.
  • IPCC (2001) Climate Change 2001: The Scientific Basis. Summary for Policymakers. IPCC Working Group I, Third Assessment Report, http://www.ipcc.ch/. Intergovernmental Panel on Climate Change, Geneva, Switzerland.
  • Irmler, U. (2000) Changes in the fauna and its contribution to mass loss and N release during leaf litter decomposition in two deciduous forests. Pedobiologia, 44, 105118.
  • Kaneko, N., McLean, M.A. & Parkinson, D. (1995) Grazing preference of Onychiurus subtenuis (Collembola) and Oppiella nova (Oribatei) for fungal species inoculated on pine needles. Pedobiologia, 39, 538546.
  • Kevan, P.G., Greco, C.F. & Belaoussoff, S. (1997) Log-normality of biodiversity and abundance in diagnosis and measuring of ecosystemic health: pesticide stress on pollinators on blueberry heaths. Journal of Applied Ecology, 34, 11221136.
  • Krebs, C.J. (1989) Ecological Methodology. Harper & Row, New York, NY.
  • Lundkvist, H. (1982) Population dynamics of Cognettia sphagnetorum (Enchytraeidae) in a Scots pine forest soil in Central Sweden. Pedobiologia, 23, 2141.
  • Macfadyen, A. (1961) Improved funnel-type extractors for soil arthropods. Journal of Animal Ecology, 30, 171184.
  • MacLean, S.F., Douce, G.K., Morgan, E.A. & Skeel, M.A. (1977) Community organization in the soil invertebrates of Alaskan Arctic tundra. Ecological Bulletins, 25, 90101.
  • Magurran, A.E. (1988) Ecological Diversity and its Measurement. Croom-Helm, London, UK.
  • Maraun, M., Migge, S., Shaefer, M. & Scheu, S. (1998) Selection of microfungal food by six oribatid mite species (Oribatida, Acari) from two different beech forests. Pedobiologia, 42, 232240.
  • May, R.M. (1975) Patterns of species abundance and diversity. Ecology and Evolution of Communities (eds M.L.Cody & J.M.Diamond), pp. 81120. Bellknap Press, Cambridge, MA.
  • Mebes, K.-H. & Filser, J. (1998) Does the species composition of Collembola affect nitrogen turnover? Applied Soil Ecology, 9, 241247.
  • Melillo, J.M., Hall, D.O. & Ågren, G.I. (1996) Executive summary. Global Change: Effects on Coniferous Forests and Grasslands (eds A.I.Breymeyer, D.O.Hall, J.M.Melillo & G.I.Ågren), pp. 116. SCOPE 56. John Wiley & Sons Ltd, Chichester, UK.
  • Naeem, S. (1998) Species redundancy and ecosystem reliability. Conservation Biology, 12, 3945.
  • Niemi, R., Karppinen, E. & Uusitalo, M. (1997) Catalogue of the Oribatida (Acari) of Finland. Acta Zoologica Fennica, 207, 139.
  • Nilsson, L.-O. (1997) Manipulation of conventional forest management practices to increase forest growth – results from the Skogaby project. Forest Ecology and Management, 91, 5360.
  • O'Connor, F.B. (1962) The extraction of Enchytraeidae from soil. Progress in Soil Zoology (ed. P.W.Murphy), pp. 279285. Butterworths, London, UK.
  • Osler, G.H.R. & Beattie, A.J. (1999) Taxonomic and structural similarities in soil oribatid communities. Ecography, 22, 567574.
  • Overgaard Nielsen, C. & Christensen, B. (1959) The Enchytraeidae – Critical Revision and Taxonomy of European Species. Naturhistorisk Museum, Aarhus, Denmark.
  • Overgaard Nielsen, C. & Christensen, B. (1961) The Enchytraeidae – Critical Revision and Taxonomy of European Species. Supplement 1. Naturhistorisk Museum, Aarhus, Denmark.
  • Overgaard Nielsen, C. & Christensen, B. (1963) The Enchytraeidae – Critical Revision and Taxonomy of European Species. Supplement 2. Naturhistorisk Museum, Aarhus, Denmark.
  • Persson, T. (1983) Influence of soil animals on nitrogen mineralization. New Trends in Soil Biology (eds P.Lebrun, H. M.André, A.De Medts, C.Gregoire-Wibo & G.Wauthy), pp. 117126. Dieu-Brichart, Louvain-la-Neuve, Belgium.
  • Persson, T. (1989) Role of soil animals in C and N mineralization. Plant and Soil, 115, 241245.
  • Persson, T., Van Oene, H., Harrison, A.F., Karlsson, P.S., Bauer, G.A., Cerny, J., Coûteaux, M.M., Dambrine, E., Högberg, P., Kjøller, A., Matteucci, G., Rudebeck, A., Schulze, E.D. & Paces, T. (2000) Experimental sites in the NIPHYS/CANIF Project. Carbon and nitrogen cycling in European forest ecosystems. Ecological Studies Number 142 (ed. E.D.Schulze), pp. 1446. Springer Verlag, Berlin Heidelberg, Germany.
  • Petersen, H. (1995) Temporal and spatial dynamics of soil Collembola during secondary succession in Danish heathland. Acta Zoologica Fennica, 196, 190194.
  • Piervitali, E., Colacino, M. & Conte, M. (1997) Signals of climatic change in the Central-Western Mediterranean Basin. Theoretical and Applied Climatology, 58, 211219.
  • Rosenzweig, M.L. (1995) Species Diversity in Space and Time. Cambridge University Press, Cambridge, UK.
  • SAS Institute (1996) SAS User's Guide, Version 6·12. SAS Institute Inc, Cary, NC.
  • Schlesinger, W.H. (1997) Biogeochemistry – An Analysis of Global Change. Academic Press, San Diego, CA.
  • Schwartz, M.W., Brigham, C.A., Hoeksema, J.D., Lyons, K.G., Mills, M.H. & Van Mantgem, P.J. (2000) Linking biodiversity to ecosystem function: implications for conservation ecology. Oecologia, 122, 297305.
  • Seastedt, T.R. (1984) The role of microarthropods in decomposition and mineralization processes. Annual Review of Entomology, 29, 2546.
  • Sellnick, M. & Forsslund, K.-H. (1953) Die Gattung Carabodes C. L. Koch 1836 in der Schwedishen Bodenfauna (Acar. Oribat.). Arkiv För Zoologi, 4, 367390.
  • Setälä, H. & Huhta, V. (1991) Soil fauna increase Betula pendula growth: laboratory experiments with coniferous forest floor. Ecology, 72, 665671.
  • Siepel, H. (1996) Biodiversity of soil microarthropods: the filtering of species. Biodiversity and Conservation, 5, 251260.
  • SMHI (1992) Väder Och Vatten. Juli 1992. SMHI, Norrköping, Sweden[in Swedish].
  • SMHI (2000) Nya Resultat Från SWECLIM. Rossby Centre, SMHI, Norrköping, Sweden, http://www.smhi.se/in Swedish].
  • Standen, V. (1978) The influence of soil fauna on decomposition by micro-organisms in blanket bog litter. Journal of Animal Ecology, 47, 2538.
  • Steiner, W.A. (1995) Influence of air pollution on moss-dwelling animals. III. Terrestrial fauna, with emphasis on Oribatida and Collembola. Acarologia, 36, 149173.
  • Strathdee, A.T., Bale, J.S., Strathdee, F.C., Block, W.C., Coulson, S.J., Webb, N.R. & Hodkinson, I.D. (1995) Climatic severity and the response to temperature elevation of Arctic aphids. Global Change Biology, 1, 2328.
  • Swift, M.J., Andrén, O., Brussaard, L., Briones, M., Coûteaux, M.M., Ekschmitt, K., Kjøller, A., Loiseau, P. & Smith, P. (1998) Global change, soil biodiversity, and nitrogen cycling in terrestrial ecosystems: three case studies. Global Change Biology, 4, 729744.
  • Takeda, H. (1979) On the extraction process and efficiency of MacFadyen's high gradient extractor. Pedobiologia, 19, 106112.
  • Van Straalen, N.M. (1998) Evaluation of bioindicator systems derived from soil arthropod communities. Applied Soil Ecology, 9, 429437.
  • Van Straalen, N.M. & Rijninks, P.C. (1982) The efficiency of Tullgren apparatus with respect to interpreting seasonal changes in age structure of soil arthropod populations. Pedobiologia, 24, 197209.
  • Van Straalen, N.M., Schobben, J.H.M. & De Goede, R.G.M. (1989) Population consequences of cadmium toxicity in soil microarthropods. Ecotoxicology and Environmental Safety, 17, 190204.
  • Vegter, J.J. (1983) Food and habitat specialization in coexisting springtails (Collembola, Entomobryidae). Pedobiologia, 25, 253262.
  • Verhoef, H. & Witteveen, J. (1980) Water balance in Collembola and its relation to habitat selection; cuticular water loss and water uptake. Journal of Insect Physiology, 26, 201208.
  • Vitousek, P.M., Mooney, H.A., Lubchenco, J. & Melillo, J.M. (1997) Human domination of Earth's ecosystems. Science, 277, 494499.
  • Walker, B. (1995) Conserving biological diversity through ecosystem resilience. Conservation Biology, 9, 747752.
  • Walker, B., Kinzig, A. & Langridge, J. (1999) Plant attribute diversity, resilience and ecosystem function: the nature and significance of dominant and minor species. Ecosystems, 2, 95113.
  • Wall, D.H. & Virginia, R.A. (1999) Controls on soil biodiversity: insights from extreme environments. Applied Soil Ecology, 13, 137150.
  • Wallwork, J.A. (1983) Oribatids in forest ecosystems. Annual Review of Entomology, 28, 109130.
  • Walter, D.E. & Proctor, H.C. (1999) Mites. Ecology, Evolution and Behaviour. CABI Publishing, Wallingford, UK.
  • Wardle, D.A., Verhoef, H.A. & Clarholm, M. (1998) Trophic relationships in the soil microfood-web: predicting the responses to a changing global environment. Global Change Biology, 4, 713727.
  • Watt, A.D. (1998) Measuring disturbance in tropical forests: a critique of the use of species–abundance models and indicator measures in general. Journal of Applied Ecology, 35, 467469.
  • Webb, N.R., Coulson, S.J., Hodkinson, I.D., Block, W., Bale, J.S. & Strathdee, A.T. (1998) The effects of experimental temperature elevation on populations of cryptostigmatid mites in high Arctic soils. Pedobiologia, 42, 298308.
  • Weigmann, G. & Kratz, W. (1987) Oribatid mites in urban zones of West Berlin. Biology and Fertility of Soils, 3, 8184.
  • Widden, P. (1986) Functional relationships between Quebec forest soil microfungi and their environment. Canadian Journal of Botany, 64, 14241432.
  • Willmann, C. (1931) Moosmilben oder Oribatiden (Oribatei). Die Tierwelt Deutschlands No. 22 (ed. F.Dahl), pp. 79200.Verlag von Gustav Fischer, Jena, Germany.
  • Woas, S. (1986) Beitrag zur Revision der Oppioidea sensu Balogh, 1972 (Acari, Oribatei). Andrias, 5, 21224.
  • Zar, J.H. (1984) Biostatistical Analysis, 2nd edn. Prentice Hall International Inc., Englewood Cliffs, NJ.