1. Neher, D.A., Muthumbi, A.W.N., and Dively, G.P. 2014. Impact of coleopteran-active Bt corn on non-target nematode communities in soil and decomposing corn roots. Soil Biology and Biochemistry 76: 127-135.

2. Neher, D.A., Asmussen, D., and Lovell, S.T. 2013. Roads in northern hardwood forests affect adjacent plant communities and soil chemistry in proportion to maintained roadside area. Science of the Total Environment. 449: 320-327.

3. Shao, Y., Zhang, W., Liu, Z., Sun, Y., Chen, D., Wu, J., Zhau, L., Xia, H., Neher, D.A., and Fu, S. 2012. Responses of soil microbial and nematode communities to aluminum toxicity in vegetated soil-shale-waste lands. Ecotoxicology 21: 2132-2142.

4. Lawhorn, C.N., Neher, D.A., and Dively, G.P. 2009. Impact of Coleopteran targeting toxin (Cry3Bb1) of Bt corn on microbially mediated decomposition. Applied Soil Ecology 41: 364-368.

5. Spongberg, A.L., Hartley, L., Neher, D.A., and Witter, J. 2008. Fate of heavy metal contaminants in a former sewage treatment lagoon, Hancock County, Ohio. Soil and Sediment Contamination 17:619-629.

6. Choi, W.I., Neher, D.A., and Ryoo, M.I. 2008. Life history trade-offs of Paronychiurus kimi (Lee) (Collembola: Onychiuridae) populations exposed to paraquat. Ecotoxicology and Environmental Safety 69:227-232.

7. Neher, D.A., and Strzenbaum, S.R. 2006. Extra-long PCR, an identifier of DNA adducts in single nematodes (Caenorhabditis elegans). Comparative Biochemistry and Physiology, Part C 144:279-285.

8. Choi, W.I., Moorhead, D.L., Neher, D.A., and Ryoo, M.I.  2006. A modeling study of soil temperature and moisture effects on population dynamics of Paronychiurus kimi (Collembola: Onychiuridae).  Biology & Fertility of Soils 43: 69-75.

9. Li, F., Neher, D.A., Darby, B.J., and Weicht, T.R. 2005. Observed differences in life history characteristics of nematodes Aphelenchus and Acrobeloides  upon exposure to copper and benzo(a)pyrene. Ecotoxicology 14: 419-429.

10. Blakely, J.K., Neher, D.A., and Spongberg, A. L. 2002. Microinvertebrate and microbial communities, and decomposition as indicators of polycyclic aromatic hydrocarbon contamination. Applied Soil Ecology 21: 71-88.

11. Fiscus, D.A. and Neher, D.A. 2002. Distinguishing nematode genera based on relative sensitivity to physical and chemical disturbances. Ecological Applications 12:565-575.




Ecotoxicology and Biotechnology Risk Assessment