Abstract
Field and laboratory experiments were carried out to describe the effects of Aporrectodea nocturna on soil characteristics in a pre-alpine meadow and to support the development of a model of cast production. In the prealpine meadow, increased cast production, first observed about 20 years ago around a newly planted hedge, was recorded to a distance of maximal 170 m from the hedge. Numbers of A. nocturna between 130 and 165 m from the hedge decreased from 164 to 16 individuals m-2. In the same area cast production steadily decreased from about 1.5 kg m-2 week-1 to nil, the plant community structure changed and the microbial biomass decreased, but the root biomass and the moisture content did not change. Laboratory experiments demonstrated that high cast production was not a specific feature of the A. nocturna population nor of the soil in the meadow. Diapause of A. nocturna was terminated in the laboratory during September. A model of cast production potential by the earthworm A. nocturna was established using laboratory determinations of the relationships with body weight, temperature, and water potential. The model was shown to predict cast production in the field given the assumption that the water potential was 0 MPa. According to the model, 81% of surface cast production was by juveniles, and 19% by adults of A. nocturna.
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References
Anderson JM, Ingram JSI (1989) Tropical soil biology and fertility: A handbook of methods. CAB International, Wallingford
Bouché MB (1972) Lombriciens de France. Ecologie et systématique. Institut National de la Recherche Agronomique, Paris
Braun-Blanquet J (1964) Pflanzensoziologie. Grundlagen der Vegetationskunde. Springer, Wien
Cuendet G (1985) Perte de poids des lombriciens durant leur conservation dans une solution de formaldehyde et équivalents énergétique. Rev Suisse Zool 92:795–801
Daniel O (1991) Leaf-litter consumption and assimilation by juveniles of Lumbricus terrestris L. (Oligochaeta, Lumbricidae) under different environmental conditions. Biol Fertil Soils 12:202–208
Daniel O, Jager P, Cuendet G, Bieri M (1992) Sampling of Lumbricus terrestris L. (Oligochaeta, Lumbricidae). Pedobiologia 36:213–220
Daniel O, Kohli L, Bieri M (1995) Weight gain and weight loss of the earthworm Lumbricus terrestris L. at different temperatures and body weights. Soil Biol Biochem (in press)
Evans AC, Guild WJ McL (1947) Studies on the relationships between earthworms and soil fertility. I. Biological studies in the field. Appl Biol 34:307–330
Hauser S (1993) Distribution and activity of earthworms and contribution to nutrient recycling in alley cropping. Biol Fertil Soils 15:16–20
Hindell RP, McKenzie BM, Tisdall JM, Silvapulle MJ (1994) Relationships between casts of geophagous earthworms (Lumbricidae, Oligochaeta) and soil water potential. I. Cast production, water content and bulk density. Biol Fertil Soils 18:119–126
Hoogerkamp M, Rogaar H, Eijsackers HJP (1983) Effect of earthworms on grassland on recently reclaimed polder soils in the Netherlands. In: Satchell JF (ed) Earthworm ecology. Chapman and Hall, London, pp 85–105
Jäggi W, Högger C, Cuendet G (1993) Eine Regenwurmart erschwert die Bewirtschaftung von Wiesen im Toggenburg. Landwirtsch Schweiz 6:169–176
Joschko M, Diestel H, Larink O (1989) Assessment of earthworm burrowing efficiency in compacted soil with combination of morphological and soil physical measurements. Biol Fertil Soils 8:191–196
Joyner JW, Harmon NP (1961) Burrows and oscillative behavior therein of Lumbricus terrestris. Proc Indian Acad Sci 71:378–384
Lee KE (1985) Earthworms: Their ecology and relationships with soils and land use. Academic Press, Sydney
Peters RH (1983) The ecological implications of body size. University Press, Cambridge
Raw F (1962) Studies of earthworm populations in orchards I. Leaf burial in apple orchards. Ann Appl Biol 50:389–404
Reiss MJ (1989) The allometry of growth and reproduction. University Press, Cambridge
Richard F, Lüscher P, Strobel T (1978) Physikalische Eigenschaften von Böden der Schweiz. Eidgenössische Forschungsanstalt für Wald, Schnee und Landschaft, Birmensdorf
Satchell JE (1967) Lumbricidae. In: Burges A, Raw F (eds) Soil biology. Academic Press, London, pp 259–322
Scullion J, Ramshaw GA (1988) Factors affecting surface casting behaviour in several species of earthworm. Biol Fertil Soils 7:39–45
Shipitalo MJ, Protz R, Tomlin AD (1988) Effect of diet on the feeding and casting activity of Lumbricus terrestris and L. rubellus in laboratory culture. Soil Biol Biochem 20:233–237
Schnider P, Flühler H (1992) Bodenuntersuchungen. In: Förderer L (ed) Imissions-ökologische Untersuchungen im Wald des Kantons Zürich. Oberforstamt des Kantons Zürich, Zürich, pp 63–72
Stein A, Bekker RM, Blom HC, Rogaar H (1992) Spatial variability of earthworm populations in a permanent polder grassland. Biol Fertil Soils 14:260–266
Stinner RE, Gutierrez AP, Butler GD (1974) An algorithm for temperature-dependent growth rate simulation. Can Entomol 106:519–524
Stockdill SMJ (1982) Effects of introduced earthworms on the productivity of New Zealand pastures. Pedobiologia 24:29–35
Vance ED, Brookes PC, Jenkinson DS (1987) An extraction method for measuring soil microbial biomass C. Soil Biol Biochem 19:703–707
Zar JH (1984) Biostatistical analysis. Prentice Hall, Englewood Cliffs, NJ
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Daniel, O., Kohli, L., Schuler, B. et al. Surface cast production by the earthworm Aporrectodea nocturna in a pre-alpine meadow in Switzerland. Biol Fert Soils 22, 171–178 (1996). https://doi.org/10.1007/BF00384451
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DOI: https://doi.org/10.1007/BF00384451