SEARCH

SEARCH BY CITATION

REFERENCES

  • Adams WJ, Rowland CD. 2003. Aquatic toxicology test methods. In: HoffmanDJ, RattnerBA, BurtonGA, CairnsJ, editors. Handbook of Ecotoxicology. Boca Raton (FL): CRC. p 1945.
  • Bielmyer GK, Grosell M, Brix KV. 2006. Toxicity of silver, zinc, copper, and nickel to the copepod Acartia tonsa exposed via a phytoplankton diet. Environ Sci Technol 40: 20632068.
  • Borgmann U, Norwood WP, Babirad IM. 1991. Relationship between chronic toxicity and bioaccumulation of cadmium in Hyalella azteca. Can J Fish Aquat Sci 48: 10551060.
  • Brown CL, Luoma SN. 1995. Use of the euryhaline bivalve Potamocorbula amurensis as a biosentinel species to assess trace metal contamination in San Francisco Bay. Mar Ecol Prog Ser 124: 129142.
  • Brown CL, Parchaso F, Thompson JK, Luoma SN. 2003. Assessing toxicant effects in a complex estuary: A case study of effects of silver on reproduction in the bivalve, Potamocorbula amurensis, in San Francisco Bay. Int J Hum Ecol Risk Assess 9: 96119.
  • Bryan GW, Langston WJ, Hummerstone LG. 1980. The use of biological indicators of heavy metal contamination in estuaries. Occasional Publ Mar Biol Assoc 1: 173.
  • Buchwalter DB, Cain DJ, Clements WH, Luoma SN. 2007. Using biodynamic models to reconcile differences between laboratory toxicity and field biomonitoring with aquatic insects. Environ Sci Technol 41: 48214828.
  • Buck KN, Bruland KW. 2005. Copper speciation in San Francisco Bay: A novel approach using multiple analytical windows. Mar Chem 96: 185198.
  • Cade BS, Noon BR. 2003. A gentle introduction to quantile regression for ecologists. Front Ecol Environ 1: 412421.
  • Cain DJ, Luoma SN, Carter JL, Fend SV. 1992. Aquatic insects as bioindicators of trace element contamination in cobble-bottom rivers and streams. Can Fish Aquat Sci 49: 21412154.
  • Cain DJ, Luoma SN, Axtmann EV. 1995. Influence of gut content in immature aquatic insects on assessments of environmental metal contamination. Can J Fish Aquat Sci 52: 27362746.
  • Cain DJ, Luoma SN, Wallace WG. 2004. Linking metal bioaccumulation of aquatic insects to their distribution patterns in a mining-impacted river. Environ Toxicol Chem 23: 14631473.
  • Cain DJ, Luoma SN. in preparation The response of stream benthic invertebrate assemblages to metal exposure in the Clark Fork River, USA.
  • Cairns J, Mount DI. 1990. Aquatic toxicology. Environ Sci Technol 24: 154161.
  • Campbell PGC, Hontela A, Rasmussen JB, Giguère A, Gravel A, Kraemer L, Kovesces J, Lacroix A, Levesque H, Sherwood G. 2003. Differentiating between direct (physiological) and food-chain mediated (bioenergetic) effects on fish in metal-impacted lakes. Hum Ecol Risk Assess 9: 847866.
  • Clements WH. 2000. Integrating effects of contaminants across levels of biological organization: An overview. J Aquat Ecosyst Stress Recovery 7: 113116.
  • Clements WH. 2004. Small-scale experiments support causal relationships between metal contamination and macroinvertebrate community responses. Ecol Appl 14: 954957.
  • Croteau MN, Hare L, Tessier A. 1998. Refining and testing a trace metal biomonitor (Chaoborus) in highly acidic lakes. Environ Sci Technol 32: 13481353.
  • Croteau MN, Luoma SN. 2007. Characterizing dissolved Cu and Cd uptake in terms of the biotic ligand model and biodynamics using enriched stable isotopes. Environ Sci Technol 41: 31403415.
  • Croteau MN, Luoma SN. 2009. Predicting dietborne metal toxicity from metal influxes. Environ Sci Technol 43: 49154921.
  • David CP. 2003. Establishing the impact of acid mine drainage through metal bioaccumulation and taxa richness of benthic insects in a tropical Asian stream (The Philippines). Environ Toxicol Chem 22: 29522995.
  • De Schamphelaere KAC, Lofts S, Janssen CR. 2005. Bioavailability models for predicting acute and chronic toxicity of zinc to algae, daphnids, and fish in natural surface waters. Environ Toxicol Chem 24: 11901197.
  • Di Toro DM. 2003. Executive summary. In: ReileyMC, StubblefieldWA, AdamsWJ, Di ToroDM, HodsonPV, EricksonRJ, KeatingFJ, editors. Reevaluation of the state of the science for water-quality criteria development. Pensacola (FL): SETAC. p xxixxv.
  • Gordon M, Knauer GA, Martin JH. 1980. Mytilus californianus as a bioindicator of trace metal pollution: Variability and statistical considerations. Mar Poll Bull 11: 195198.
  • Hansen JA, Lipton J, Welsh PG, Cacela D, MacConnell B. 2004. Reduced growth of rainbow trout (Oncorhynchus mykiss) fed a live invertebrate diet pre-exposed to metal-contaminated sediments. Enviorn Toxicol Chem 23: 19021911.
  • Hare LA. 1992. Aquatic insects and trace metals: Bioavailability, bioaccumulation and toxicity. Crit Rev Toxicol 22: 327369.
  • Hook SE, Fisher NS. 2001. Reproductive toxicity of metals in calanoid copepods. Mar Biol 138: 11311140.
  • Hornberger MI, Luoma SN, Cain DJ, Parchaso F, Brown CL, Bouse RM, Wellise C, Thompson JK. 2000. Linkage of bioaccumulation and biological effects to changes in pollutant loads in South San Francisco Bay. Environ Sci Technol 34: 24012409.
  • Hornberger MI, Luoma SN, Johnson MJ, Holyoak M. 2009. The influence of remediation in a mine-impacted river: Do improvements upstream impact metal trends over large spatial and temporal scales? Ecol Appl 19: 15221535.
  • Kiffney PM, Clements WH. 1994. Effects of heavy metals on a macroinvertebrate assemblage from a Rocky Mountain stream in experimental microcosms. J N Am Benth Soc 13: 511523.
  • Luoma SN. 1995. Prediction of metal toxicity in nature from bioassays: Limitations and research needs. In TessierA, TurnerD, editors. Metal speciation and bioavailability in aquatic systems. London (UK): John Wiley and Sons. p 609646.
  • Luoma SN. 1996. The developing framework of marine ecotoxicology: Pollutants as a variable in marine ecosystems? J Exp Mar Biol Ecol 200: 2955.
  • Luoma SN. 2008. Silver nanotechnologies and the environment: Old problems or new challenges. Publication #15, Project for Emerging Nanotechnologies, Woodrow Wilson International Center for Scholars and PEW Charitable Trusts, Washington DC. 71 p.
  • Luoma SN, Rainbow PS. 2005. Why is metal bioaccumulation so variable? Biodynamics as a unifying concept. Environ Sci Technol 39: 19211931.
  • Luoma SN, Rainbow PS. 2008. Metal contamination in aquatic environments: Science and lateral management. Cambridge (UK): Cambridge Univ. 573 p.
  • Luoma SN, Clements WH, DeWitt T, Gerritsen J, Hatch A, Jepson P, Reynoldson T, Thom R. 2001. Role of environmental variability in evaluating stressor effects (Chapter 5). In: BairdDJ, BurtonGAJr, editors. Ecological variability: Separating natural from anthropogenic causes of ecosystem impairment. Pensacola (FL): SETAC.
  • Maret TR, Cain DJ, MacCoy DE, Short TM. 2003. Response of benthic invertebrate assemblages to metal exposure and bioaccumulation associated with hard-rock mining in northwestern streams, USA. J No Am Bentholog Soc 22: 598620.
  • Martin C, Luoma SN, Cain DJ, Buchwalter DB. 2007. Cadmium ecophysiology in seven stonefly (Plecoptera) species: Delineating sources and estimating susceptibility. Environ Sci Techol 41: 71717777.
  • McGuire DL. 2004. Clark Fork River macroinvertebrate community biointegrity: 2003 assessments. Helena, (MT): State of Montana. 42 p and appendices.
  • Moore JN, Luoma SN. 1990. Hazardous wastes from large-scale metal extraction. Environ Sci Technol 24: 12791285.
  • Niyogi S, Wood CM. 2003. Effects of chronic waterborne and dietary metal exposure on gill metal-binding: Implications for the biotic ligand model. Hum Ecol Risk Assess 9: 813846.
  • O'Connor TP. 1996. Trends in chemical contamination in mussels and oysters collected along the U.S. coast 1986–1993. Mar Environ Res 41: 183200.
  • Ohlendorf HM. 2003. Ecotoxicology of selenium. In: HoffmanDJ, RattnerBA, BurtonGA, CairnsJJr, editors. Handbook of ecotoxicology 2nd ed. New York (NY): Lewis. p 465500.
  • Palace VP, Halden NM, Yang P, Evans RE, Sterling G. 2007. Determining residence patterns of rainbow trout using laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) analysis of selenium in otoliths. Environ Sci Technol 41: 36793683.
  • Phillips DJH, Rainbow PS. 1994. Biomonitoring of trace aquatic contaminants 2nd ed. London: Chapman and Hall.
  • Rainbow PS. 2002. Trace metal concentrations in aquatic invertebrates: Why and so what? Environ Pollut 120: 497507.
  • Ramsey PW, Rillig MC, Feris KP, Moore JN, Gannon JE. 2005. Mine waste contamination limits soil respiration rates: A case study using quantile regression. Soil Biol Biochem 37: 11771183.
  • Roy I, Hare L. 1999. Relative importance of water and food as cadmium sources to the predatory insect Sialis velata. Can J Fish Aquat Sci 56: 11431149.
  • Salazar MH, Salazar SM. 1995. In situ bioassays using transplanted mussels: Estimating chemical exposures and bioeffects using bioaccumulation and growth. In: StavelyJS, BiddingerGR, MonesE, editors. Environmental toxicology and risk assessment. Philadelphia: American Society for Testing and Materials. Publication 040-01280-16L. p 216242.
  • Solà C, Burgos M, Plazuelo A, Toja J, Plans M, Prat N. 2004. Heavy metal bioaccumulation and macroinvertebrate community changes in a Mediterranean stream affected by acid mine drainage and an accidental spill (Guadiamar River, SW Spain). Sci Total Environ 333: 109126.
  • Strong CR, Luoma SN. 1981. Variations in correlation of body size with concentrations of Cu and Ag in the bivalve Macoma balthica. Can J Fish Aquat Sci 38: 10591064.
  • [USEPA]. US Environmental Protection Agency. 2001. Update of ambient water quality criteria for cadmium. Washington DC: US Environmental Protection Agency. EPA 822-R-01-001. p. 166.
  • [USEPA]. US Environmental Protection Agency. 1999. Clark Fork River ecological risk assessment. Helena (MT): USEPA. Available at http://epa.gov/region8/superfund/sites/mt/milltowncfr/millterap.html. 851 p.
  • Winner RW, Boesel MW, Farrel MP. 1980. Insect community structure as an index of heavy-metal pollution in lotic ecosystems. Can J Fish Aquat Sci 37: 647655.