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  1. Easton, 1979 — Easton, E.G., 1979. A revision of the "acaecate" earthworms of the Pheretima group (Megascolecidae: Oligochaeta): Archipheretima, Metapheretima, Planapheretima, Pleinogaster and Polypheretima. Bull. Brit. Mus. Nat. Hist. (Zool.), 35 (1): 1-126.
  2. Easton, 1981 — Easton, E.G., 1981. Japanese earthworms: a synopsis of the Megadrile species (Oligochaeta). Bulletin of the British Museum (Natural History), 40(2): 33-65.
  3. Easton, 1983 — Easton, E.G., 1983. A guide to the valid names of Lumbricidae (Oligochaeta). In "Earthworm Ecology, from Darwin to Vermiculture." by Satchell, J.E., Chapmann and Hall, pp. 475-485.
  4. Easton, 1984 — Easton, E.G., 1984. Earthworms (Oligochaeta) from islands of the south-western Pacific, and a note on two species from Papua-New Guinea. New Zealand J. Zool., 11: 111-128.
  5. Edmonds and Jamieson, 1973 — Edmonds, S.J., Jamieson, B.G.M., 1973. A new genus and species of earthworm (Megascolecidae: Oligochaeta) from South Australia. Transactions of the Royal Society of South Australia, 97: 23-27.
  6. Edwards, 1988 — Edwards, C.A., 1988. Breakdown of animal, vegetable and industrial organic wastes by earthworms. In "Earthworms in Waste and Environmental Management" by Edwards, C.A. and Neuhauser, E.F. (Eds.), SPB, The Hague, pp. 21-31.
  7. Edwards, 2004 — Edwards, C.A., 2004. Earthworm ecology. CRC Press, Taylor and Francis Group, 448 pp.
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  9. Edwards et al., 2010 — Edwards, C.A., Arancon, N.Q., Sherman, R.L., 2010. Vermiculture Technology: Earthworms, Organic Wastes, and Environmental Management. CRC Press, Taylor and Francis Group, 623 pp.
  10. Eijsackers, 1983 — Eijsackers, H., 1983. Development of earthworm populations in abandoned arable fields under grazing management. In "Earthworm Ecology. From Darwin to Vermiculture", by Satchell, J.E. (ed.), Chapman and Hall, London, pp. 241–246.
  11. Eijsackers, 2010 — Eijsackers, H., 2010. Earthworms as colonisers: Primary colonisation of contaminated land, and sediment and soil waste deposits. Science of the Total Environment, 408: 1759–1769.
  12. Eijsackers et al., 2001 — Eijsackers, H., van Gestel, C.A.M., de Jonge, S., Muijs, B., Slijkerman, D.M.E., 2001. Polycyclic aromatic hydrocarbon-polluted dredged peat sediments and earthworms: a mutual interference. Ecotoxicology, 10: 35-50.
  13. Eijsackers et al., 2005 — Eijsackers, H., Beneke, P., Maboeta, M., Louw, J.P.E., Reinecke, A.J., 2005. The implications of copper fungicide usage in vineyards for earthworm activity and resulting sustainable soil quality. Ecotoxicol. Environ. Saf., 62: 99-111.
  14. Eijsackers et al., 2009 — Eijsackers, H., Bruggeman, J., Harmsen, J., Kort, Th., De Schakel, A., 2009. Colonization of PAH-contaminated dredged sediment by earthworms. Appl. Soil Ecol., 43: 216–25.
  15. Eisen, 1871 — Eisen, G., 1871. Bidrag till Skandinaviens Oligochaet-fauna. Ofv. Vet. Akad. Forh. Stockholm, 27(10): 953-971.
  16. Eisen, 1872 — Eisen, G., 1872. Om nagra arkiska Oligochaeter. Ofv. Vet. Akad. Forh. Stockholm, 29(1): 119-124.
  17. Eisen, 1873 — Eisen, G., 1873. Om Skandinaviens Lumbricider. Öfversigt af Kongliga Vetenskaps-Akademiens Förhandligar, 30 (8): 43–56.
  18. Eisen, 1874 — Eisen, G., 1874. New Englands och Canadas lumbricides. Öfversigt af Kongliga Vetenskaps-Akademiens Förhandlingar Stockholm, 31 (2): 41–49.
  19. Eisen, 1878 — Eisen, G., 1878. On the anatomy of Ocnerodrilus. Nova Acta R. Soc. Scient. Upsal., 10 (3): 18.
  20. Eisen, 1895 — Eisen, G., 1895. Pacific Coast Oligochaeta. I. Mem. Calif. Acad. Sci., 2: 63-123.
  21. Eisen, 1895b — Eisen, G., 1895. Pacific coast Oligochaeta. II, Benhamia, Acanthodrilus, Aleodrilus, Sparganophilus, Deltania, Phoenicodrilus. Mem. Calif. Acad. Sci., 2(5): 123-198.
  22. Eisen, 1896 — Eisen, G., 1896. 'Pontoscolex lilljeborgi with notes on auditory sense cells of Pontoscolex corethrurus. Festsch. Wilhelm Lilljeborg: 1-16, pl. 1-2.
  23. Eisen, 1900 — Eisen, G., 1900. Researches in the American Oligochaeta with special reference to those of the Pacific Coast and Adjacent Island. Proc. Calif. Acad. Sci., 2(3): 85-276, pls. 1-10.
  24. Eisenhauer, 2010 — Eisenhauer, N., 2010. The action of an animal ecosystem engineer: Identification of the main mechanisms of earthworm impacts on soil microarthropods. Pedobiologia, 53: 343-352.
  25. Eisenhauer and Scheu, 2008 — Eisenhauer, N., Scheu, S., 2008. Invasibility of experimental grassland communities: The role of earthworms, plant functional group identity, and seed size. Oikos, 117: 1026-1036.
  26. Eisenhauer and Scheu, 2008b — Eisenhauer, N., Scheu, S.,2008. Earthworms as drivers of the competition between grasses and legumes. Soil Biology and Biochemistry, 40: 2650-2659.
  27. Eisenhauer et al., 2007 — Eisenhauer, N., Partsch, S., Parkinson, D., Scheu, S., 2007. Invasion of a deciduous forest by earthworms: Changes in soil chemistry, microflora, microarthropods and vegetation. Soil Biology and Biochemistry, 39: 1099-1110.
  28. Eisenhauer et al., 2008 — Eisenhauer, N., Marhan, S., Scheu, S., 2008. Assessment of anecic behavior in selected earthworm species: Effects on wheat seed burial, seedling establishment, wheat growth and litter incorporation. Applied Soil Ecology, 38: 79-82.
  29. Eisenhauer et al., 2009 — Eisenhauer, N., König, S., Sabais, A.C.W., Renker, C., Buscot, F., Scheu, S., 2009. Impacts of earthworms and arbuscular mycorrhizal fungi (Glomus intraradices) on plant performance are not interrelated. Soil Biology and Biochemistry, 41: 561-567.
  30. Eisenhauer et al., 2009b — Eisenhauer, N., Milcu, A., Nitschke, N., Sabais, A.C.W., Scherber, C., Scheu, S., 2009. Earthworm and belowground competition effects on plant productivity in a plant diversity gradient. Oecologia, 161: 291-301.
  31. Eisenhauer et al., 2009c — Eisenhauer, N., Milcu, A., Sabais, A.C.W., Bessler, H., Weigelt, A., Engels, C., Scheu, S., 2009. Plant community impacts on the structure of earthworm communities depend on season and change with time. Soil Biology and Biochemistry, 41: 2430-2443.
  32. Eisenhauer et al., 2009d — Eisenhauer, N., Milcu, A., Sabais, A.C.W., Scheu, S., 2009. Earthworms enhance plant regrowth in a grassland plant diversity gradient. European Journal of Soil Biology, 45: 455-458.
  33. Eisenhauer et al., 2009e — Eisenhauer, N., Schuy, M., Butenschoen, O., Scheu, S., 2009. Direct and indirect effects of endogeic earthworms on plant seeds. Pedobiologia, 52: 151-162.
  34. Eisenhauer et al., 2010 — Eisenhauer, N., Butenschoen, O., Radsick, S., Scheu, S., 2010. Earthworms as seedling predators: Importance of seeds and seedlings for earthworm nutrition. Soil Biology and Biochemistry, 42: 1245-1252.
  35. Eisenhauer et al., 2011 — Eisenhauer, N., Schlaghamerský, J., Reich, P.B., Frelich, L.E., 2011. The wave towards a new steady state: effects of earthworm invasion on soil microbial functions. Biological Invasions, 13: 2191-2196.
  36. Eisenhauer et al., 2012 — Eisenhauer, N., Reich, P.B., Isbell, F., 2012. Decomposer diversity and identity influence plant diversity effects on ecosystem functioning. Ecology, 93: 2227-2240.
  37. Elmer and Palmer, 2012 — Elmer, J., Palmer, A.F., 2012. Biophysical Properties of Lumbricus terrestris Erythrocruorin and Its Potential Use as a Red Blood Cell Substitute. Journal of Functional Biomaterials, 3(4): 49-60.
  38. El-Temsah and Joner, 2012 — El-Temsah, Y.S., Joner, E.J., 2012. Ecotoxicological effects on earthworms of fresh and aged nano-sized zero-valent iron (nZVI) in soil. Chemosphere, 89(1): 76–82.
  39. Elvira et al., 1996 — Elvira, C., Domínguez, J., Briones, M.J., 1996. Growth and reproduction of Eisenia andrei and E. fetida (Oligochaeta, Lumbricidae) in different organic residues. Pedobiologia, 40: 377-384.
  40. Elvira et al., 1997 — Elvira, C., Domínguez, J., Mato, S., 1997. The growth and reproduction of Lumbricus rubellus and Dendrobaena rubida in cow manure mixed cultures with Eisenia andrei. Applied Soil Ecology, 5(1): 97-103.
  41. Emmerling and Strunk, 2012 — Emmerling, C., Strunk, H., 2012. Active dispersal of the endo-anecic earthworm Aporrectodea longa (Ude) in an experimental box. Soil Organisms, 84(3): 491–498.
  42. Engelstad and Stenersen, 1991 — Engelstad, F., Stenersen, J., 1991. Acetylesterase pattern in the earthworm genus Eisenia (Oligochaeta, Lumbricidae): implications for laboratory use and taxonomic status. Soil Biology and Biochemistry, 23(3): 243–247.
  43. Ermakov and Golovanova, 2010 — Ermakov, A.I., Golovanova, E.V., 2010. Species composition and abundance of earthworms in the tundra biocenoses of Denezhkin Kamen’ Mountain (Northern Urals). Contemporary Problems of Ecology, 3 (1): 10-14.
  44. Erseus, 2005 — Erséus, C., 2005. Phylogeny of oligochaetous Clitellata. In “Morphology, Molecules, Evolution and Phylogeny in Polychaeta and Related Taxa” by Bartolomaeus, T. and Purschke, G. (eds.). Developments in Hydrobiology, 179: 357-372.
  45. Erseus and Allersjo, 2004 — Erséus, C., Ällersjö, M., 2004. 18S rDNA phylogeny of Clitellata (Annelida). Zoologica Scripta, 33(2): 187-196.
  46. Evans, 1948 — Evans, A.C., 1948. Studies on the relationships between earthworms and soil fertility. II. Some effects of earthworms on soil structure. Ann. appl. biol., 35(1): 1-13.
  47. Ezzatpanah, 2010 — Ezzatpanah, S., 2010. Earthworms of the Markazi province, Iran (Annelida: Oligochaeta: Lumbricidae). Calodema, 122: 1-9.