General guidelines for using the sediment quality triad
暂无分享,去创建一个
Peter M. Chapman | Christopher G. Ingersoll | Michael H. Salazar | Brian S. Anderson | John H. Rodgers | Herbert L. Windom | P. Chapman | E. Long | B. Anderson | V. Engle | P. Sibley | P. Smith | R. Swartz | C. Ingersoll | P. Haverland | H. Windom | Edward R. Long | Paul J. Smith | Paul K. Sibley | Richard C. Swartz | Jeffrey L. Hyland | J. Hyland | Pamela S. Haverland | Scott Carr | Virginia D. Engle | Roger H. Green | Jawed Hameedi | Michelle Harmon | B. Thompson | B. Thompson | M. Salazar | J. Rodgers | Jawed Hameedi | Scott R. Carr | M. Harmon | J. Hameedi
[1] P M Chapman,et al. Presentation and interpretation of Sediment Quality Triad data , 1996, Ecotoxicology.
[2] F. J. Dwyer,et al. Use of benthic invertebrate community structure and the sediment quality triad to evaluate metal‐contaminated sediment in the upper clark fork river, montana , 1994 .
[3] Cincinnati Oh Gamble Co.,et al. Aquatic toxicology and environmental fate , 1988 .
[4] P. Chapman,et al. Evaluation of effects associated with an oil platform, using the sediment quality triad , 1991 .
[5] J. F. Wright,et al. Development and use of a system for predicting the macroinvertebrate fauna in flowing waters , 1995 .
[6] Peter M. Chapmen. EXTRAPOLATING LABORATORY TOXICITY RESULTS TO THE FIELD , 1995 .
[7] P. Hurk,et al. An international comparison of sediment toxicity tests in the North Sea , 1992 .
[8] Robert C. Bailey,et al. Biological guidelines for freshwater sediment based on BEnthic Assessment of SedimenT (the BEAST) using a multivariate approach for predicting biological state , 1995 .
[9] P. Chapman,et al. Limited bioavailability of sediment pah near an aluminum smelter: Contamination does not equal effects , 1996 .
[10] T. Reynoldson,et al. Macroinvertebrate Community Structure and Sediment Bioassay Results from Nearshore Areas of North American Great Lakes , 1995 .
[11] Peter M. Chapman,et al. Synoptic measures of sediment contamination, toxicity and infaunal community composition (the Sediment Quality Triad) in San Francisco Bay , 1987 .
[12] K. Takamura. Life cycle of the damselfly Calopteryx atrata in relation to pesticide contamination , 1996, Ecotoxicology.
[13] Peter M. Chapman,et al. A Sediment Quality Triad: Measures of sediment contamination, toxicity and infaunal community composition in Puget Sound , 1985 .
[14] Peter M. Chapman,et al. The sediment quality triad approach to determining pollution-induced degradation , 1990 .
[15] S. P. Ferraro,et al. Sediment toxicity, contamination and amphipod abundance at a DDT‐ and dieldrin‐contaminated site in San Francisco Bay , 1994 .
[16] A. E. Rosen,et al. Inferring population-level significance from individual-level effects: An extrapolation from fisheries science to ecotoxicology , 1988 .
[17] Pollution status of North Sea sediments - an international integrative study , 1992 .
[18] R. Green,et al. Relating sets of variables in environmental studies: The sediment quality triad as a paradigm , 1993 .
[19] P. Chapman,et al. A triad study of sediment quality associated with a major, relatively untreated marine sewage discharge , 1996 .
[20] F. J. Dwyer,et al. Assessing upper Mississippi River sediments using benthic invertebrates and the sediment quality triad , 1995 .
[21] G. A. Burton,et al. Assessing Contamination in Great Lakes Sediments Using Benthic Invertebrate Communities and the Sediment Quality Triad Approach , 1996 .