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# '''Wilcke, 1952''' — Wilcke, D.E., 1952. Zur Kenntnis der Lumbricidenfaunen Deutschlands. Zool. Anz., 151: 104–106.
 
# '''Wilcke, 1952''' — Wilcke, D.E., 1952. Zur Kenntnis der Lumbricidenfaunen Deutschlands. Zool. Anz., 151: 104–106.
 
# '''Wills and Abbott, 2003''' — Wills, A., Abbott, I., 2003. Landscape-scale species richness of earthworms in the Porongurup Range, Western Australia: influence of aspect, soil fertility and vegetation type. Biology and Fertility of Soils, 39: 94–102.
 
# '''Wills and Abbott, 2003''' — Wills, A., Abbott, I., 2003. Landscape-scale species richness of earthworms in the Porongurup Range, Western Australia: influence of aspect, soil fertility and vegetation type. Biology and Fertility of Soils, 39: 94–102.
# '''Wilson et al., 2014''' — Wilson, W.J., Ferrara, N.C., Blaker, A.L., Giddings, C.E., 2014. Escape and avoidance learning in the earthworm ''Eisenia hortensis''. Peer J., 2: e250.
+
# '''Wilson, 1961''' — Wilson, D.M., 1961. The connections between the lateral giant fibers of earthworms. Comparative Biochemistry and Physiology, 3(4): 274–284.
 +
# '''Wilson W.J. et al., 2014''' — Wilson, W.J., Ferrara, N.C., Blaker, A.L., Giddings, C.E., 2014. Escape and avoidance learning in the earthworm ''Eisenia hortensis''. Peer J., 2: e250.
 
# '''Wironen and Moore, 2006''' — Wironen, M., Moore., T.R., 2006. Exotic earthworm invasion increases soil carbon and nitrogen in an old-growth forest in southern Quebec. Can. J. For. Res., 36: 845–854.
 
# '''Wironen and Moore, 2006''' — Wironen, M., Moore., T.R., 2006. Exotic earthworm invasion increases soil carbon and nitrogen in an old-growth forest in southern Quebec. Can. J. For. Res., 36: 845–854.
 
# '''Wood and James, 1993''' — Wood, H.B., James, S.W., 1993. Native and introduced earthworms from selected chaparral, woodland, and riparian zones in southern California. Gen.Tech. Rep. PSW-GTR-142. Albany, CA: Pacific Southwest Research Station, Forest Service, USDA, 20 pp.
 
# '''Wood and James, 1993''' — Wood, H.B., James, S.W., 1993. Native and introduced earthworms from selected chaparral, woodland, and riparian zones in southern California. Gen.Tech. Rep. PSW-GTR-142. Albany, CA: Pacific Southwest Research Station, Forest Service, USDA, 20 pp.
 
# '''Wood et al., 1997''' — Wood, H.B., Olivier, K.L., James, S.W., 1997. Relict Megascolecidae and exclusion of Lumbricidae from basalt-derived soils in Southern California. Soil Biology and Biochemistry, 29: 241-244.
 
# '''Wood et al., 1997''' — Wood, H.B., Olivier, K.L., James, S.W., 1997. Relict Megascolecidae and exclusion of Lumbricidae from basalt-derived soils in Southern California. Soil Biology and Biochemistry, 29: 241-244.
 
# '''Wroot, 1985''' — Wroot, A.J., 1985. A Quantitative Method for Estimating the Amount of Earthworm (''Lumbricus terrestris'') in Animal Diets. Oikos, 44(2): 239-242.
 
# '''Wroot, 1985''' — Wroot, A.J., 1985. A Quantitative Method for Estimating the Amount of Earthworm (''Lumbricus terrestris'') in Animal Diets. Oikos, 44(2): 239-242.

Revision as of 16:18, 24 January 2015

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  1. Waga, 1857 — Waga, A., 1857. Sprawozdanie z podrózy naturalistów odbytej w r. 1854 do Ojcowa. Bibliographie Warszawie, 2: 161–227.
  2. Wampler, 1982 — Wampler, J.E., 1982. The bioluminescence system of Microscolex phosphoreus and its similarities to those of other bioluminescent earthworms (oligochaeta). Comparative Biochemistry and Physiology Part A: Physiology, 71(4): 599-604.
  3. Wampler and Jamieson, 1980 — Wampler, J.E., Jamieson, B.G.M., 1980. Earthworm bioluminescence: comparative physiology and biochemistry. Comparative Biochemistry and Physiology, 66B: 43-50.
  4. Wampler and Jamieson, 1986 — Wampler, J.E., Jamieson, B.G.M., 1986. Cell bound bioluminescence from Pontodrilus bermudensis, and its similarities to other earthworm bioluminescence. Comparative Biochemistry and Physiology, 84A: 81-87.
  5. Wang et al., 2012 — Wang, J.H., Zhu, L.S., Liu, W., Wang, J., Xie, H., 2012. Biochemical responses of earthworm (Eisenia foetida) to the pesticides chlorpyrifos and fenvalerate. Toxicol. Mech. Methods, 22(3): 236-241.
  6. Wang H.J. and Qiu, 2005 — Wang, H.-J. and J.-P. Qiu. 2005. A Preliminary Report on Pheretimoid Earthworms from the Xingdou Mountain Nature Reserve-With Description of Two New Species and a New Subspecies of the Genera Amynthas and Metaphire. Journal of Shanghai Jiaotong University (Agricultural Science), 23(1): 23-30. [In Chinese with English summary].
  7. Wang Y. et al., 2012 — Wang, Y., Wu, S., Chen, L., Wu, C., Yu, R., Wang, Q., Zhao, X., 2012. Toxicity assessment of 45 pesticides to the epigeic earthworm Eisenia fetida. Chemosphere, 88(4): 484-491.
  8. Watanabe and Olson, 1965 — Watanabe, F.S., Olson, S.R., 1965. Test of an ascorbic acid method for determining phosphorus in water and NaHCO 3 extracts from soils. Soil Science Society of America Proceedings, 29: 677–678.
  9. Watanabe and Tsukamoto, 1976 — Watanabe, H., Tsukamoto, J., 1976. Seasonal change in size, class and stage structure of lumbricid Eisenia foetida population in a field compost and its practical application as the decomposer of organic waste matter. Rev. Ecol. Biol. Sol., 13: 141-146.
  10. Weltje, 1998 — Weltje, L., 1998. Mixture toxicity and tissue interactions of Cd, Cu, Pb and Zn in earthworms (Oligochaeta) in laboratory and field soils, a critical evaluation of data. Chemosphere, 36: 2643–2660.
  11. Wetzel, 2003 — Wetzel, M.J., 2003. The terrestrial Oligochaeta of Illinois - Annotated checklist of species. Illinois Natural History Survey, University of Illinois.
  12. Wetzel, 2004 — Wetzel, M.J., 2004. The terrestrial Oligochaeta of Illinois - Annotated checklist of species. Illinois Natural History Survey, University of Illinois.
  13. Wetzel, 2005 — Wetzel, M.J., 2005. Checklist of the aquatic and terrestrial Oligochaeta occuring in North Carolina, South Carolina, and/or Tennessee, with notations for species now known to occur in the Great Smocky Mountains National Park. Illinois Natural History Survey, University of Illinois.
  14. Wetzel, 2007 — Wetzel, M.J., 2007. The terrestrial Oligochaeta of Illinois - Annotated checklist of species. Illinois Natural History Survey, University of Illinois.
  15. Whalen and Parmelee, 1999 — Whalen, J.K., Parmelee, R.W., 1999. Growth of Aporrectodea tuberculata (Eisen) and Lumbricus terrestris L. under laboratory and field conditions. Pedobiologia, 43: 1–10.
  16. Whalen and Parmelee, 2000 — Whalen, J.K., Parmelee, R.W., 2000. Earthworm secondary production and N flux in agroecosystems: a comparison of two approaches. Oecologia, 123.
  17. Whalen et al., 1998 — Whalen, J.K., Parmelee, R.W., Edwards, C.A., 1998 Population dynamics of earthworm communities in corn agroecosystems receiving organic or inorganic fertilizer amendments. Biol. Fertil. Soils, 27: 400–407.
  18. Whalen et al., 1999 — Whalen, J.K., Parmelee, R.W., McCartney, D.A., VanArsdale, J.L., 1999. Movement of N from decomposing earthworm tissue to soil, microbial and plant N pools. Soil Biol. Biochem., 31: 487–492.
  19. Whalen et al., 2000 — Whalen, J.K., Parmelee, R.W., Subler, S., 2000. Quantification of nitrogen excretion rates for three lumbricid earthworms using 15N. Biol. Fertil. Soils, 32: 347–352.
  20. Wijnhoven, 2006 — Wijnhoven, S., Thonon, I., van der Velde, G., Leuven, R., Zorn, M., Eijsackers, H., et al., 2006. The impact of bioturbation by small mammals on heavy metal redistribution in an embanked floodplain of the river Rhine. Water Air Soil Pollut., 177: 183–210.
  21. Wilcke, 1952 — Wilcke, D.E., 1952. Zur Kenntnis der Lumbricidenfaunen Deutschlands. Zool. Anz., 151: 104–106.
  22. Wills and Abbott, 2003 — Wills, A., Abbott, I., 2003. Landscape-scale species richness of earthworms in the Porongurup Range, Western Australia: influence of aspect, soil fertility and vegetation type. Biology and Fertility of Soils, 39: 94–102.
  23. Wilson, 1961 — Wilson, D.M., 1961. The connections between the lateral giant fibers of earthworms. Comparative Biochemistry and Physiology, 3(4): 274–284.
  24. Wilson W.J. et al., 2014 — Wilson, W.J., Ferrara, N.C., Blaker, A.L., Giddings, C.E., 2014. Escape and avoidance learning in the earthworm Eisenia hortensis. Peer J., 2: e250.
  25. Wironen and Moore, 2006 — Wironen, M., Moore., T.R., 2006. Exotic earthworm invasion increases soil carbon and nitrogen in an old-growth forest in southern Quebec. Can. J. For. Res., 36: 845–854.
  26. Wood and James, 1993 — Wood, H.B., James, S.W., 1993. Native and introduced earthworms from selected chaparral, woodland, and riparian zones in southern California. Gen.Tech. Rep. PSW-GTR-142. Albany, CA: Pacific Southwest Research Station, Forest Service, USDA, 20 pp.
  27. Wood et al., 1997 — Wood, H.B., Olivier, K.L., James, S.W., 1997. Relict Megascolecidae and exclusion of Lumbricidae from basalt-derived soils in Southern California. Soil Biology and Biochemistry, 29: 241-244.
  28. Wroot, 1985 — Wroot, A.J., 1985. A Quantitative Method for Estimating the Amount of Earthworm (Lumbricus terrestris) in Animal Diets. Oikos, 44(2): 239-242.