SEARCH

SEARCH BY CITATION

REFERENCES

  • 1
    Adams W, Burgess RM, Gold-Bouchot G, LeBlanc L, Liber K, Williamson B. 2001. Porewater chemistry: Effects of sampling, storage, handling and toxicity testing. In Carr RS, Nipper M, eds, Porewater Toxicity Testing: Biological, Chemical and Ecological Considerations With a Review of Methods and Applications, and Recommendations for Future Areas of Research. Summary of a SETAC Technical Workshop. SETAC, Pensacola, FL, USA.
  • 2
    Baudo R, Giesy J, Muntau H, eds. 1990. Sediments: Chemistry and Toxicity of In-Place Pollutants. Lewis, Chelsea, MI, USA.
  • 3
    O'Connor TP. 1991. Concentrations of organic contaminants in Mollusks and sediments at NOAA National Status and Trend Sites in the coastal and estuarine United States. Environ Health Perspect 90:6973.
  • 4
    Daskalakis KD, O'Connor TP. 1995. Distribution of chemical concentrations in US coastal and estuarine sediment. Mar Environ Res 40:381398.
  • 5
    Long ER. 2000. Spatial extent of sediment toxicity in U.S. estuaries and marine bays. Environ Monitor Assess 64:391407.
  • 6
    Liu M, Hou IJ, Yang Y, Zou HX, Lu JH, Wang XR. 2001. Distribution and sources of polycyclic aromatic hydrocarbons in intertidal flat surface sediments from the Yangtze Estuary, China. Environ Geol 41:9095.
  • 7
    Stronkhorst J, Schipper C, Brils J, Dubbeldam M, Postma J, van de Hoeven N. 2003. Using marine bioassays to classify the toxicity of Dutch harbor sediments. Envion Toxicol Chem 22:15351547.
  • 8
    Long ER, Robertson A, Wolfe DA, Hameedi J, Sloane GM. 1996. Estimates of the spatial extent of sediment toxicity in major U.S. estuaries. Environ Sci Technol 30:35853592.
  • 9
    Hyland JL, Dolah RFV, Snoots TR. 1999. Predicting stress in benthic communities of southeastern U.S. estuaries in relation to chemical contamination of sediments. Environ Toxicol Chem 18:25572564.
  • 10
    Bailey RC, Day KE, Norris RH, Reynoldson TB. 1995. Macroinvertebrate community structure and sediment bioassay results from nearshore areas of North American Great Lakes. J Great Lakes Res 21:4252.
  • 11
    Kuhn A, Munns WRJ, Serbst J, Edwards P, Cantwell MG, Gleason T, Pelletier MC, Berry W. 2002. Evaluating the ecological significance of laboratory response data to predict population-level effects for the estuarine amphipod Ampelisca abdita. Environ Toxicol Chem 21:865874.
  • 12
    Burgess RM, Berry WJ, Mount DR, Di Toro DM. 2013. Mechanistic sediment quality guidelines based on contaminant bioavailability: Equilibrium partitioning sediment benchmarks. Environ Toxicol Chem 32:102114.
  • 13
    Anderson B, Hunt J, Phillips B, Tjeerdema R. 2006. Navigating the TMDL Process: Sediment Toxicity. 02-WSM-2. Final Report. Water Environment Research Foundation, Alexandria, VA, USA.
  • 14
    US Environmental Protection Agency. 1989. Methods for aquatic toxicity identification evaluations: Phase II toxicity identification procedures. EPA 600/3/88/035. Final Report. Duluth, MN.
  • 15
    US Environmental Protection Agency. 1991. Methods for aquatic toxicity identification evaluations: Phase I toxicity characterization procedures, 2nd ed. EPA 600/6/91/003. Final Report. Duluth, MN.
  • 16
    US Environmental Protection Agency. 1993. Methods for aquatic toxicity identification evaluations: Phase III toxicity confirmation procedures for samples exhibiting acute and chronic toxicity. EPA 600/R-92/081. Final Report. Duluth MN.
  • 17
    US Environmental Protection Agency. 2007. Sediment toxicity identification evaluation (TIE) phases I, II, and III guidance document. EPA 600/R-07/080. Final Report. Washington DC.
  • 18
    US Environmental Protection Agency. 1996. Marine toxicity identification evaluation (TIE) procedures manual: Phase I guidance document. EPA 600/R-96/054. Washington DC.
  • 19
    US Environmental Protection Agency. 1992. Sediment toxicity identification evaluation: Phase I (characterization), phase II (identification) and phase III (confirmation) modifications of effluent procedures. EPA 08-91. Draft technical report. Duluth, MN.
  • 20
    Bosch C, Olivares A, Faria M, Navas JM, del Olmo I, Grimalt JO, Piña B, Barata C. 2009. Identification of water soluble and particle bound compounds causing sublethal toxic effects. A field study on sediments affected by a chlor-alkali industry. Aquat Toxicol 94:1627.
  • 21
    Burgess RM, Hawthorne SB, Perron MM, Cantwell MG, Grabanski CB, Miller DJ, Ho KT, Pelletier MA. 2011. Assessment of supercritical fluid extraction use in whole sediment toxicity identification evaluations. Environ Toxicol Chem 30:819827.
  • 22
    Kwok YC, Hsieh DPH, Wong PK. 2005. Toxicity identification evaluation (TIE) of pore water of contaminated marine sediments collected from Hong Kong waters. Mar Pollut Bull 51:10851091.
  • 23
    Perron MM, Burgess RM, Ho KT, Pelletier MC, Cantwell MG, Shine JP. 2010. Bioavailability assessment of a contaminated field sediment from Patrick Bayou, Texas, USA: Toxicity identification evaluation and equilibrium partioning. Environ Toxicol Chem 29:742750.
  • 24
    Phillips BM. 2010. The contribution of pyrethroid pesticides to sediment toxicity in four urban creeks in California, USA. J Pesticide Sci 35:302.
  • 25
    Picone M, Bergamin M, Volpato E, Delaney E, Turetta C, Ranaldo M, Capodaglio G, Nasci C. 2009. Sequential toxicity identification evaluation (TIE) for characterizing toxicity of Venice Lagoon sediments: Comparison of two different approaches. Ecotoxicol Environ Saf 72:538545.
  • 26
    Stronkhorst J, Schot ME, Dubbeldam MC, Ho KT. 2003. A toxicity identification evaluation of silty marine harbor sediments to characterize persistent and non-persistent constituents. Mar Pollut Bull 46:5664.
  • 27
    Van Sprang PA, Janssen CR. 1997. Identification and confirmation of ammonia toxicity in contaminated sediments using a modified toxicity identification evaluation approach. Environ Toxicol Chem 16:25012507.
  • 28
    Zhang L-J, Ying G-G, Chen F, Zhao J-L, Wang L, Fang Y-X. 2012. Development and application of whole-sediment toxicity test using immobilized freshwater microalgae Pseudokirchneriella subcapitata. Environ Toxicol Chem 31:377386.
  • 29
    Ho KT, Burgess RM, Pelletier MC, Serbst JR, Ryba SA, Cantwell MG, Kuhn A, Raczelowski P. 2002. An overview of toxicant identification in sediments and dredged materials. Mar Pollut Bull 44:286293.
  • 30
    Weston DP, Lydy MJ. 2009. Focused toxicity identification evaluations to rapidly identify the cause of toxicity in environmental samples. Chemosphere 78:368374.
  • 31
    Amweg EL, Weston DP. 2007. Whole sediment toxicity identification evaluation tools for pyrethroid inscticides: 1. Piperonyl butoxide addition. Environ Toxicol Chem 26:23892396.
  • 32
    Weston DP, Lydy MJ. 2010. Urban and Agricultural Sources of Pyrethroid Insecticides to the Sacramento–San Joaquin Delta of California. Environ Sci Technol 44:18331840.
  • 33
    Hunt J, Anderson B, Phillips B, Tjeerdema R, Largay B, Beretti M, Bern A. 2008. Use of toxicity identification evaluations to determine the pesticide mitigation effectiveness of on-farm vegetated treatment systems. Environ Poll 156:348358.
  • 34
    Mackenzie CL, Pikanowski R, McMillan DG. 2006. Ampelisca amphipod tube mats may enhance abundance of northen quahogs Merceneria merceneria in muddy sediments. J Shellfish Res 25:841847.
  • 35
    Burton AG, Doe K, Ho KT. 2002. Sediment porewater toxicity testing: Methodological uncertainties and confounding factors. In Carr RS, Nipper M, eds, Porewater Toxicity Testing: Biological, Chemical, and Ecological Considerations With a Review of Methods and Applications, and Recommendations for Future Areas of Research. Summary of a SETAC Technical Workshop. SETAC, Pensacola, FL, USA.
  • 36
    Anderson BS, Phillips BM, Hunt JW, Voorhees J, Clark S, Mekebri A, Crane D, Tjeerdema RS. 2008. Recent advances in sediment toxicity identification evaluations emphasizing pyrethroid pesticides. In Gan J, ed, Synthethic Pyrethroids: Occurence and Behavior in Aquatic Environments. American Chemical Society, Washington, DC.
  • 37
    Kuwabara JS, Van Geen A, McCorkle DC, Bernhard JM. 1999. Dissolved sulfide distributions in the water column and sediment pore waters of the Santa Barbara Basin. Geochim Cosmochim Acta 63:21992209.
  • 38
    Anderson BS, Phillips BM, Hunt JW, Connor V, Richard N, Tjeerdema RS. 2006. Identifying primary stressors impacting macroinvertebrates in the Salinas River (California, USA): Relative effects of pesticides and suspended particles. Environ Pollut 141:402408.
  • 39
    Anderson BS, Phillips BM, Hunt JW, Worcester K, Adams M, Kapellas N, Tjeerdema RS. 2006. Evidence of pesticide impacts in the Santa Maria River Watershed, California, USA. Environ Toxicol Chem 25:11601170.
  • 40
    Ho KT, Gielazyn ML, Pelletier MC, Burgess RM, Cantwell MC, Perron MM, Serbst JR, Johnson RL. 2009. Do toxicity identification and evaluation laboratory-based methods reflect causes of field impairment? Environ Sci Technol 43:68576863.
  • 41
    Ho KT, McKinney RA, Kuhn A, Pelletier MC, Burgess RM. 1997. Identification of acute toxicants in New Bedford Harbor sediments. Environ Toxicol Chem 16:551558.
  • 42
    Phillips BM, Anderson BS, Hunt JW, Huntley SA, Tjeerdema RS, Kapellas N, Worcester K. 2006. Solid-phase sediment toxicity identification evaluation in an agricultural stream. Environ Toxicol Chem 25:16711676.
  • 43
    Ho KT, Pelletier MC, Campbell DE, Burgess RM, Johnson RL, Rocha KJ. 2012. Diagnosis of potential stressors adversely affecting benthic communities in New Bedford Harbor, MA (USA). Integr Environ Assess Manag 8:685702.
  • 44
    US Environmental Protection Agency. 2006. Conceptual models and methods to guide diagnostic research. EPA 600/R-06/024. Final. Washington, DC.
  • 45
    US Environmental Protection Agency. 2000. Stressor identification guidance document. EPA 822/B-00/025. Washington, DC.
  • 46
    Ankley GT, Collyard SA. 1995. Influence of piperonyl butoxide on the toxicity of organophosphate insecticides to three species of freshwater benthic invertebrates. Comp Biochem Physiol C Comp Pharmacol Toxicol 110:149155.
  • 47
    Kakko I, Toimela T, Tähti H. 2000. Piperonyl butoxide potentiates the synaptosome ATPase inhibiting effect of pyrethrin. Chemosphere 40:301305.
  • 48
    Wheelock CE, Miller JL, Miller MJ, Gee SJ, Shan G, Hammock B. 2004. Development of toxicity identification evaluation procedures for pyrethroid detection using esterase activity. Environ Toxicol Chem 23:26992708.
  • 49
    Wheelock CE, Miller JL, Miller MJ, Phillips BM, Huntley SA, Gee SJ, Tjeerdema RS, Hammock BD. 2006. Use of carboxylesterase activity to remove pyrethroid-associated toxicity to Ceriodaphia dubia and Hyalella azteca in toxicity identification evaluations. Environ Toxicol Chem 25:973984.
  • 50
    Weston DP, You J, Harwood AD, Lydy MJ. 2009. Whole sediment toxicity identification evaluation tools for byrethroid insectides: III. Temperature manipulation. Environ Toxicol Chem 28:173180.
  • 51
    Kolpin DW, Furlong ET, Meyer MT, Thurman EM, Zaugg SD, Barber LB, Buxton HT. 2002. Pharmaceuticals, hormones, and other organic wastewater contaminants in U.S. streams 1999–2000 : A national reconnaissance. Environ Sci Technol 36:12021211.
  • 52
    US Environmental Protection Agency. 2007. Nanotechnology white paper. EPA 100/B-07/001. Washington, DC.
  • 53
    Nakata H, Kannan K, Sasaki H, Takemura A, Yoshioka M, Kajiwara N, Tanabe S. 2007. Bioaccumulation, temporal trend and geographical distribution of synthetic musk fragrances in the marine environment. Abstracts. 27th Annual Meeting, Society of Environmental Toxicology and Chemistry, Montreal, QC, Canada, November 5–9, 2006, p 61.
  • 54
    Burgess RM, Ho KT, Biales AD. 2011. Recent developments in whole sediment toxicity identification evaluations (TIEs): Innovations in manipulations and endpoints. In Brack W, ed, Effect Directed Analysis of Complex Environmental Contamination—The Handbook of Environmental Chemistry. Springer-Verlag, Berlin, Germany, pp 1940.
  • 55
    Biales A, Kostich M, Burgess R, Ho KT, Bencic D, Flick R, Portis L, Pelletier M, Perron M, Reiss M. 2013. Linkage of genomic biomarkers to whole organism endpoints in a toxicity identification evaluation (TIE). Environ Sci Technol 47:13061312.
  • 56
    Heinis LJ, Highland TL, Mount DR. 2004. Method for testing the aquatic toxicity of sediment extracts for use in identifying organic toxicants in sediments. Environ Sci Technol 38:62566262.
  • 57
    Perron MM, Burgess RM, Ho KT, Pelletier MC, Friedman CL, Cantwell MG, Shine JP. 2009. Development and evaluation of reverse polyethylene samplers for marine phase II whole-sediment toxicity identification evaluations. Environ Toxicol Chem 28:749758.
  • 58
    Brown RS, Akhtar P, Akerman J, Hampel L, Kozin IS, Villerius LA, Klamer HJC. 2001. Partition controlled delivery of hydrophobic substances in toxicity tests using poly(dimethylsiloxane) (PDMS) films. Environ Sci Technol 35:40974102.
  • 59
    Bandow N, Altenburger R, Lübcke-von Varel U, Paschke A, Streck G, Brack W. 2009. Partitioning-based dosing: An approach to include bioavailability in the effect-directed analysis of contaminated sediment samples. Environ Sci Technol 43:38913896.
  • 60
    Birch H, Gouliarmou V, Holten Lützhøft H-C, Mikkelsen PS, Mayer P. 2010. Passive dosing to determine the speciation of hydrophobic organic chemicals in aqueous samples. Anal Chem 82:11421146.
  • 61
    Smith KEC, Dom N, Blust R, Mayer P. 2010. Controlling and maintaining exposure of hydrophobic organic compounds in aquatic toxicity tests by passive dosing. Aquat Toxicol 98:1524.
  • 62
    Brack W, ed. 2011. Effects-Directed Analysis of Complex Environmental Contamination—The Handbook of Environmental Chemistry. Springer-Verlag, Berlin, Germany.
  • 63
    Ferretti JA, Calesso DF, Hermon TR. 2000. Evaluation of methods to remove ammonia interference in marine sediment toxicity tests. Environ Toxicol Chem 19:19351941.
  • 64
    Amweg EL, Weston DP, Johnson CS, You J, Lydy MJ. 2006. Effect of piperonyl butoxide on permethrin toxicity in the amphipod Hyalella azteca. Environ Toxicol Chem 25:18171825.
  • 65
    Weston DP, Amweg EL. 2007. Whole-sediment toxicity identification evaluation tools for pyrethorid insecticides: II Esterase addition. Environ Toxicol Chem 26:23972404.
  • 66
    Weston DP, Jackson CJ. 2009. Use of engineered enzymes to identify organophosphate and pyrethroid-related toxicity in toxicity identification evaluations. Environ Sci Technol 43:55145520.
  • 67
    Wheelock CE, Phillips BM, Anderson BS, Miller JL, Miller MJ, Hammock B. 2008. Applications of carboxylesterase activity in environmental monitoring and toxicity identification evaluations (TIEs). In Whitacre DM, ed, Reviews of Environmental Contamination and Toxicology, Vol 195. Springer-Verlag, New York, USA, pp 117178.
  • 68
    Boucher AM, Watzin MC. 1999. Toxicity identification evaluation of metal-contaminated sediments using an artificial pore water containing dissolved organic carbons. Environ Toxicol Chem 18:509518.
  • 69
    Burgess RM, Konovets IM, Kipnis LS, Lyashenko AV, Grintsov VA, Petrov AN, Terletskaya AV, Milyukin MV, Povolotskii MI, Demchenko VY, Bogoslovskaya TA, Topkin YV, Vorobyova TV, Portis LM, Ho KT. 2011. Distribution, magnitude and characterization of the toxicity of Ukrainian estuarine sediments. Mar Pollut Bull 62:24422462.
  • 70
    Anderson BS, Phillips BM, Hunt JW, Clark SL, Voorhees JP, Tjeerdema RS, Casteline J, Stewart M, Crane D, Mekebri A. 2010. Evaluation of methods to determine causes of sediment toxicity in San Diego Bay, California, USA. Ecotoxicol Environ Saf 73:534540.
  • 71
    Zhang L-J, Ying G-G, Chen F, Zhao J-L, Wang L, Fang Y-X. 2012. Development and application of whole-sediment toxicity test using immobilized freshwater microalgae Pseudokirchneriella subcapita. Environ Toxicol Chem 31:377386.
  • 72
    Mehler WT, Maul JD, You J, Lydy MJ. 2010. Identifying the causes of sediment-associated contamination in the Illinois River (USA) using a whole-sediment toxicity identification evaluation. Environ Toxicol Chem 29:158167.
  • 73
    Kay DP, Newsted JL, Benkinney MT, Iannuzzi TJ, Giesy JP. 2008. Passaic river sediment interstitial water phase I toxicity identification evaluation. Chemosphere 70:17371747.
  • 74
    Kuhn A, Ho KT, Pelletier M, Burgess RM. 1995. Phase I Toxicity identification evaluation (TIE) for New York–New Jersey Harbor Estuary sediments. Draft. US Environmental Protection Agency, Narragansett, RI.
  • 75
    Carr RS, Biedenbach JM, Hooten RL. 2001. Sediment quality assessment survey and toxicity identification evaluation studies in Lavaca Bay, Texas, a marine Superfund site. Environ Toxicol 16:2030.
  • 76
    Carr RS, Nipper M, Biedenbach JM, Hooten RL, Miller K, Saepoff S. 2001. Sediment toxicity identification evaluation (TIE) studies at marine sites suspected of ordnance contamination. Arch Environ Contam Toxicol 41:298307.
  • 77
    Thomas KV, Barnard N, Collins K, Eggleton J. 2003. Toxicity characterisation of sediment porewaters collected from UK estuaries using a Tisbe battagliai bioassay. Chemosphere 53:11051111.
  • 78
    Schubauer-Berigan MK, Ankley GT. 1991. The contribution of ammonia, metals and nonpolar organic compounds to the toxicity of sediment interstitial water from an Illinois River tributary. Environ Toxicol Chem 10:925939.
  • 79
    Karuppiah M, Gupta G. 1996. Impact of point and nonpoint source pollution on pore waters of two Chesapeake Bay tributaries. Ecotoxicol Environ Saf 35:8185.
  • 80
    Gupta G, Karuppiah M. 1996a. Toxicity identification of Pocomoke River porewater. Chemosphere 33:939960.
  • 81
    Phillips BM, Anderson BS, Hunt JW, Nicely PA, Kosaka RA, Tjeerdema RS, DE Vlaming V, Richard N. 2004. In situ water and sediment toxicity in an agricultural watershed. Environ Toxicol Chem 23:435442.
  • 82
    Araujo RPA, Botta-Paschoal CMR, Silverio PF, Almeida FV, Rodrigues PF, Umbuzeiro GA, Jardim WF, Mozeto AA. 2006. Application of toxicity identification evaluation to sediment in a highly contaminated water reservoir in southeastern Brazil. Environ Toxicol Chem 25:581588.
  • 83
    Burton GA, Nordstrom JF. 2004. An in situ toxicity identification evaluation method part II: Field validation. Environ Toxicol Chem 23:28512855.
  • 84
    Phillips BM, Anderson BS, Hunt JW, Thompson B, Lowe S, Hoenicke R, Tjeerdma R. 2003. Causes of sediment toxicity to Mytilus galloprovincialis in San Francisco Bay. Arch Environ Contam Toxicol 45:492497.
  • 85
    Anderson B, Hunt J, Phillips B, Thompson B, Lowe S, Taberski K, Scott Carr R. 2007. Patterns and trends in sediment toxicity in the San Francisco Estuary. Environ Res 105:145155.
  • 86
    Wenholz M, Crunkilton R. 1995. Use of toxicity identification evaluation procedures in the assessment of sediment pore water toxicity from an urban stormwater retention pond in Madison, Wisconsin. Bull Environ Contam Toxicol 54:676682.
  • 87
    Schubauer-Berigan MK, Amato JR, Ankley GT, Baker SE, Burkhard LP, Dierkes JR, Jenson JJ, Lukasewycz MT, Norberg-King TJ. 1993. The behavior and identification of toxic metals in complex mixtures: Examples from effluent and sediment pore water toxicity identification evaluations. Arch Environ Contam Toxicol 24:298306.
  • 88
    Gupta G, Karuppiah M. 1996. Toxicity study of a Chesapeake Bay tributary—Wicomico River. Chemosphere 32:11931215.
  • 89
    Van Sprang PA, Janssen CR, Sabayasachi M, Benijts F, Persoone G. 1996. Assessment of ammonia toxicity in contaminated sediments of the Upper Scheldt (Belgium): The development and application of toxicity identification evaluation procedures. Chemosphere 33:19671974.
  • 90
    Ankley GT, Katko A, Arthur J. 1990. Identification of ammonia as an important sediment-associated toxicant in the lower Fox River and Green Bay, Wisconsin. Environ Toxicol Chem 9:312322.