Contaminated Sediment News

Issue 36 - April 2003

Welcome to the Contaminated Sediments News, a monthly review of recent journal articles, issues in the press, upcoming conferences, and other news. This website will replace the Contaminated Sediments Newsletter, which was published quarterly through the summer of 2000. Items for the CS News are chosen from the results of a detailed search of a number of scientific and technical publication databases, as well as from searches of media publication databases (including newspapers and magazines).

Check back to this site frequently to see each new issue of the Contaminated Sediments News, and visit the CS News Archive to find past issues.

Note: The summaries found on this website are based on articles from the press and from peer-reviewed publications, and they represent the opinions of the original authors. The views of authors expressed herein do not necessarily state or reflect those of the United States Government, and shall not be used for advertising or product endorsement purposes. Reference herein to any specific commercial products, process, or service by trade name, trademark, manufacturer, or otherwise, does not necessarily constitute or imply its endorsement, recommendation, or favoring by the United States Government.

New Documents

Bioavailability of Contaminants in Soils and Sediments: Processes, Tools, and Applications

Committee on Bioavailability of Contaminants in Soils and Sediments, Water Science and Technology Board, Division on Earth and Life Studies: National Research Council of the National Academies, 2003, Bioavailability of Contaminants in Soils and Sediments: Processes, Tools, and Applications , The National Academies Press, Washington, D.C.

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Summarized Journal Articles

• Removal of ammonia toxicity in marine sediment TIEs: a comparison of Ulva lactuca, zeolite, and aeration methods – Toxicity Identification Evaluations (TIEs) can be used to determine specific toxicants, including ammonia, when toxicity is observed in marine sediments. In order to characterize and identify ammonia in marine sediment, two primary TIE manipulations can be used: Ulva lactuca addition and zeolite addition. The researchers compared the efficacy of these methods to (1) remove NHx and NH3 from overlying and interstitial waters, and (2) reduce toxicity to the amphipod Ampelisca abdita and mysid Americamysis bahia using both spiked and environmentally contaminated sediments. The utility of aeration for removing NHx and NH3 during a marine sediment TIE was also evaluated. In comparison to an unmanipulated sediment, the U. lactuca and zeolite addition methods performed about equally as well at removing spiked NHx and NH3 from overlying and interstitial waters. Using both methods, ammonia toxicity to the amphipod was reduced to about the same levels. The U. lactuca addition, however, most effectively reduced toxicity to the mysid, which indicates that this method functions best with epibenthic species exposed to ammonia in the water column. When the pH was adjusted to 10, aeration removed NHx and NH3 from seawater; very little ammonia, however, was removed at ambient pHs. In conclusion, both U. lactuca and zeolite addition methods are effective TIE tools for reducing the concentrations and toxicity of ammonia in whole sediment toxicity tests.
  
  Source: Burgess, R.M. et al.; Removal of ammonia toxicity in marine sediment TIEs: a comparison of Ulva lactuca, zeolite, and aeration methods; Marine Pollution Bulletin, In press, Available online 25 March 2003.
  
  
• Factors influencing the design of bioaccumulation factor and biota-sediment accumulation factor field studies – In order to evaluate the underlying factors and principles that drive the uncertainty in measured bioaccumulation factors (BAFs) and biota-sediment accumulation factors (BSAFs) for fish, as well as to determine which sampling designs minimize those uncertainties, a series of modeling simulations was performed. The dominant factors that influenced the field-sampling design included temporal variability of chemical concentrations in the water column, and the metabolism rate and n-octanol-water partition coefficient (Kow) for the chemical. Spatial variability of the chemical concentrations, food web structure, and the sediment-water column concentration quotient were less significant in the general design. The simulations also showed that collecting composite water samples in comparison to grab water samples resulted in reductions in the uncertainties associated with measured BAFs. Based upon the temporal variability of chemical concentrations in the water column, metabolism rate, and Kow for the chemical, some illustrative sampling design structures for BAF and BSAF measurements were developed. These illustrative designs showed how sampling design structures (the number and spacing over time of sampling events) might be influenced by differences in temporal variabilities, metabolism rates, and Kow. Although the significance of spatial variability was discounted as a major factor in the design process, successful measurements require the sampling of water and sediment across the immediate home range of the sampled organism. This is due to the poor spatial coordination of organism, water, or sediment samples that yield BAFs and BSAFs with large and unknown biases.
  
  Source: Burkhard, L.P.; Factors influencing the design of bioaccumulation factor and biota-sediment accumulation factor field studies; Environmental Toxicology and Chemistry 22 (2): 351-360, 2003.
  
  
• Solubility of metals in an anoxic sediment during prolonged aeration – The researchers analyzed the evolution of the solubility of selected metals during the aeration of an anoxic sediment. Using a metal-polluted dredged sediment, batch experiments were carried out for 76 days. The pH, Eh and concentration of Al, Cu, Fe, Hg, Pb and Zn were periodically recorded. During the early stages of aeration, the solubility of metals increased rapidly but this was then followed by quick re-adsorption. After 14 days, most of the metals, except Cu and Zn, were present at low or undetectable concentrations in solution. During the first two weeks, re-adsorption of Zn was observed to be much slower. On the other hand, during the months after land disposal, solubilization of Cu increased gradually. Using speciation calculations, Cu solubilization was partly due to complexation in solution by carbonates. For Hg, although complexation by dissolved organic matter (DOM) could be expected, re-adsorption was the dominant process. With the purpose of making more quantitative statements about the mobility of heavy metals present in dredged material, more knowledge about the behavior of the DOM present in anoxic sediments is needed.
  
  Source: Caille, N. et al.; Solubility of metals in an anoxic sediment during prolonged aeration; Science of the Total Environment 301 (1-3): 239-250, 2003.
  
  
• Toxicity of triphenyltin and tributyltin to the freshwater mudsnail Potamopyrgus antipodarum in a new sediment biotest – Using a new whole-sediment biotest with the freshwater mudsnail Potamopyrgus antipodarum (Gastropoda, Prosobranchia), this study analyzed the effects of two suspected endocrine-disrupting chemicals, the xeno-androgens triphenyltin (TPT) and tributyltin (TBT). Seven concentrations, ranging from 10 to 500 µg nominal TPT-Sn/kg dry weight and TBT-Sn/kg dry weight, were injected into artificial sediments, examining the responses of the test species after two, four, and eight weeks exposure. In comparison to the control sediment, P. antipodarum showed a sharp decline in the number of embryos sheltered in its brood pouch in a time- and concentration-dependent manner for both compounds. The most sensitive parameter was the number of new, still unshelled embryos. The lowest-observed-effect concentration (LOEC) corresponded to the lowest administered concentration for most parameters and thus the no-observed-effect concentration (NOEC) could not be established. The calculation of effect concentrations (EC10) resulted in even lower values for both substances (EC10 after eight weeks for unshelled embryos: 0.03 µg TPT-Sn/kg, EC10 after four weeks for unshelled embryos: 0.98 µg TBT-Sn/kg). In conclusion, at environmentally relevant concentrations, P. antipodarum is highly sensitive to both endocrine disruptors TPT and TBT.
  
  Source: Duft, M. et al.; Toxicity of triphenyltin and tributyltin to the freshwater mudsnail Potamopyrgus antipodarum in a new sediment biotest; Environmental Toxicology and Chemistry 22 (1): 145-152, 2003.
  
  
• Methods for selective determination of persistent organochlorine pesticide residues in water and sediments of capillary gas chromatography and electron-capture detection – In order to determine the presence of 15 organochlorine pesticides (OCPs) in water and sediments, a variety of extraction methods were evaluated. Liquid-liquid extraction (LLE) was examined for the pesticides analyses in water. Soxhlet extraction (SE) and microwave assisted extraction (MAE) methods were compared in sediment. For the OCPs, the limits of detection ranged from 5.5 to 20.6 ng/l and between 0.6 and 2.1 ng/g, respectively. Using marine and freshwater sources in the Eastern Cape Province of South Africa that receive runoffs from agricultural lands and effluents from industries, the LLE and the SE methods were applied to water and sediments samples, respectively. Some endocrine disrupting OCPs, such as DDT, DDE, heptachlor, endosulphan and the chlordanes, were noticed.
  
  Source: Fatoki, O.S., and R.O. Awofolu; Methods for selective determination of persistent organochlorine pesticide residues in water and sediments by capillary gas chromatography and electron-capture detection; Journal of Chromatography A 983 (1-2): 225-236, 2003.
  
  
• Sediment-water distribution of organic contaminants in aquatic ecosystems: the role of organic carbon mineralization – A significant role in the food-chain transfer of hydrophobic organic chemicals is the distribution of these chemicals between sediments and water. Despite many observations reporting an "enrichment" of chemical concentrations in suspended sediments, current models and assessment methods of sediment-water distribution of hydrophobic organic chemicals predominantly rely on chemical equilibrium partitioning. The researchers develop a fugacity-based model of chemical magnification due to organic carbon decomposition throughout the process of sediment diagenesis. This study compares the behavior of the fugacity-based model to observations of bottom sediment-water, suspended sediments-water, and plankton-water distribution coefficients of a range of hydrophobic organic chemicals in five Great Lakes. Observations include: (i) sediment-water distribution coefficients of organic chemicals between bottom sediments and water and between suspended sediments and water are considerably greater than expected from chemical partitioning and that the degree sediment-water disequilibrium appears to follow a relationship with the depth of the lake; (ii) concentrations increase from plankton to suspended sediments to bottom sediments and follow an inverse rather than a proportional relationship with the organic carbon content; and (iii) the degree of disequilibrium between bottom sediment and water, suspended sediments and water, and plankton and water increases when the octanol-water partition coefficient Kow drops. Using a proposed organic carbon mineralization model, the researchers show how these observations can be explained. This study concluded that sediment-water distribution is not solely a chemical partitioning process; it is primarily controlled by lake specific organic carbon mineralization processes.
  
  Source: Gobas, F., and L.G. MacLean; Sediment-water distribution of organic contaminants in aquatic ecosystems: the role of organic carbon mineralization; Environmental Science & Technology 37 (4): 735-741, 2003.
  
  
• The fate, distribution, and toxicity of lindane in tests with Chironomus riparius: effects of bioturbation and sediment organic matter content – In this study, the impact of Chironomus riparius bioturbation and sediment organic matter content on the fate, distribution, and bioavailability of 14C-lindane under standardized conditions in toxicity tests with artificial sediment is analyzed. Both C. riparius burrowing activity and sediment organic matter content strongly affect test conditions. Larval mortality and development had an inverse relationship with C. riparius densities and lindane concentration. Larval development rates, but not mortality, were impacted by sediment organic matter content. C. riparius larval densities negatively affected partitioning of lindane between the sediment, overlying water, and interstitial water. Sediment partitioning, however, was positively affected by sediment organic matter content. Bioturbation by C. riparius resulted in a remobilization of particle-associated lindane to the interstitial and overlying water, which implied an increase in the bioavailability of the test compound. C. riparius densities and lindane concentrations in interstitial water had strong positive relationships. The presence of C. riparius also resulted in lower label recovery. For initially added label in microcosms without C. riparius, label recovery on sediment particles ranged from 49 to 61%, from 41 to 56% at low larval densities, and from 15 to 50% at high larval densities. In conclusion, the study's results reveal that large discrepancies may exist between nominal test concentrations (from test compound additions) and true exposure concentrations even under standardized test conditions, which can introduce a relatively large error term in risk assessments. Calculations also show that volatilization may be a quantitatively important sink for test compounds.
  
  Source: Goedkoop, W., and M. Peterson; The fate, distribution, and toxicity of lindane in tests with Chironomus riparius: effects of bioturbation and sediment organic matter content; Environmental Toxicology and Chemistry 22 (1): 67-76, 2003.
  
  
• The use of respiratory enzymes as biomarkers of petroleum hydrocarbon exposure in Mytilus edulis planulatus – This study investigated the impact of exposure to petroleum hydrocarbons through the water column and through contaminated sediment upon changes in respiratory enzymes in the common mussel (Mytilus edulis planulatus). Mussels were exposed to three concentrations of the water-accommodated fraction (WAF) of Bass Strait crude oil. In a second study, mussels were exposed to three concentrations of crude oil-contaminated sediment for 2 weeks and 1, 2, 4 and 6 months. Measurements in the gills included activities of citrate synthase (CS) and lactate dehydrogenase (LDH). A significant decrease in CS activity was seen over time in mussels exposed to WAF. Neither treatment, nor time, had an effect on LDH activity. CS activity was not significantly affected by exposure to contaminated sediment. Time, however, had a significant effect on CS activity.

  Source: Long, S.M. et al.; The use of respiratory enzymes as biomarkers of petroleum hydrocarbon exposure in Mytilus edulis planulatus; Ecotoxicology and Environmental Safety, In press, Available online 27 March 2003.

• Bioavailability of desorption-resistant phenanthrene to the oligochaete Ilyodrilus templetoni – This study analyzed bioavailability, which is measured by the biota-sediment accumulation factor (BSAF), of reversibly sorbed and desorption-resistant phenanthrene to the deposit-feeding freshwater tubificid oligochaete Ilyodrilus templetoni. Using a sequential batch desorption method by washing with an isopropanol solution, desorption-resistant, phenanthrene-contaminated sediments were arranged. Results from the study indicated a significantly reduced bioavailability of desorption-resistant phenanthrene, which was seen in the averages of BSAFs 1.20±0.32 and 0.59±0.13 for reversibly sorbed phenanthrene and desorption-resistant phenanthrene. In the study, 91% of the variance for both measured and selected literature data of the BSAF was described in a generalized model assuming a linear relationship between pore-water concentration and normalized bioaccumulation. Physical and chemical measures of partitioning between pore water and sediment described the reduced bioavailability of desorption-resistant phenanthrene.

  Source: Lu, X. et al.; Bioavailability of desorption-resistant phenanthrene to the oligochaete Ilyodrilus templetoni; Environmental Toxicology and Chemistry 22 (1): 153-160, 2003.

• Factors affecting the distribution of benthic macrofauna in estuaries contaminated by urban runoff – In previous studies, contaminants derived from urban runoff have been shown to accumulate in estuarine sediments, reaching concentrations potentially capable of causing biological effects. Due to strong natural environmental gradients and the impacts of past or present point sources of contamination, demonstrating these effects, however, is difficult. The researchers used multivariate methods to test two hypotheses that related to the effects of urban-derived contaminants on estuarine benthic communities. The first hypothesis was to prove that patterns of distribution and abundance of benthic invertebrates in two urbanized estuaries would be different from those in two non-urbanized estuaries. The second hypothesis is that the distributions of benthic invertebrates within and among the four estuaries would be related to those of urban-derived contaminants. Contaminant concentrations were large in estuaries with urbanized catchments and concentrations of Cu, Pb, Zn and DDT in some samples exceeded those at which biological effects may be expected to appear. The two urban estuaries were not significantly different, and the two rural estuaries were also not significantly different. However, the urban estuaries were found to differ significantly from the rural estuaries. These results were attained through tests of differences in composition of benthic communities among the estuaries. Distributions of environmental variables and of benthic invertebrates were significantly related, as well as ordinated along axes that correlated with both natural environmental variables (nature of the sediment, position in estuary) and contaminants. For the two sampling episodes, differences in faunas between the urban and non-urban estuaries were not, however, readily apparent, nor were relationships between faunal assemblages and environmental variables (including contaminants) consistent.

  Source: Morrisey, D.J. et al.; Factors affecting the distribution of benthic macrofauna in estuaries contaminated by urban runoff; Marine Environmental Research 55 (2): 113-136, 2003.

• Toxicokinetics of sediment-sorbed benzo(a)pyrene and hexachlorobiphenyl using the freshwater invertebrates Hyalella azteca, Chironomus tentans, and Lumbriculus variegatus – Using three freshwater benthic invertebrates, the researchers analyzed the impact of long-term sediment aging on the toxicokinetics of benzo(a)pyrene (BaP) and hexachlorobiphenyl (HCBP). Hyalella azteca, Chironomus tentans, and Lumbriculus variegatus were exposed to BaP- and HCBP-spiked sediments that were aged for 7 d or 1.5 years. By using a two-compartment model, the toxicokinetics of the two compounds were determined for each test organism. With the inclusion of biotransformation in the model, the modeling of BaP was more complex. The researchers found that the HCBP uptake clearance rates (ks) for each species were generally an order of magnitude greater than those determined for BaP and that this difference was most likely due to preferential and rapid binding of BaP to sediment particles. Overall, based on ks values and bioaccumulation factors (BAFs), the bioavailability of HCBP in spiked sediments tended to decrease with duration of aging. The decreases in bioavailability, however, seem to be species specific. Due to its large size, benzo(a)pyrene resisted movement into the micropores of the sediment, revealing no decline in bioavailability for the species tested. In addition to the bioassays, a method for toxicokinetic modeling of biotransformed compounds and methods for statistical comparisons of kinetic parameters (i.e., ks, kd ...) and BAF values is outlined.

  Source: Schuler, L.J. et al.; Toxicokinetics of sediment-sorbed benzo(a)pyrene and hexachlorobiphenyl using the freshwater invertebrates Hyalella azteca, Chironomus tentans, and Lumbriculus variegatus; Environmental Toxicology and Chemistry 22 (2): 439-449, 2003.

• Disturbances to metal partitioning during toxicity testing of iron(II)-rich estuarine pore waters and whole sediments – When suboxic estuarine sediments containing Fe(II)-rich pore waters are disturbed during collection, preparation, and toxicity testing, metal partitioning is altered. The rates at which adsorptive losses of Cd, Cu, Ni, Mn, Pb, and Zn occur upon exposure to air were verified by experiments with model Fe(II)-rich pore waters. Experiments with Zn-contaminated estuarine sediments demonstrated large and often unpredictable changes to metal partitioning during sediment storage, removal of organisms, and homogenization before testing. Large changes to metal partitioning were caused by small modifications to conditions, such as aeration of overlying waters. Sediment collection caused disturbances that required many weeks for reestablishment of equilibrium. Benthic organisms caused bioturbation, which led to oxidation of pore-water Fe(II) and lower Zn fluxes because of the formation of Fe hydroxide precipitates that adsorb pore-water Zn. For five weeks after the addition of organisms to sediments, as the organisms established themselves in the sediments, Zn fluxes increased slowly, which indicated that the establishment of equilibrium was not rapid. The results are discussed in terms of the dynamic nature of suboxic, Fe(II)-rich estuarine sediments, how organisms perturb their environment, and the importance of understanding chemistry in toxicity testing with whole sediments or pore water. The authors provide recommendations for the handling of sediments for toxicity testing.

  Source: Simpson, S.L. et al.; Disturbances to metal partitioning during toxicity testing of iron(II)-rich estuarine pore waters and whole sediments; Environmental Toxicology and Chemistry 22 (2): 424-432, 2003.

• Predicting sediment toxicity using logistic regression: a concentration-addition approach – The study analyzed the usefulness of the chemical concentration measurements for predicting the outcome of sediment toxicity tests. The researchers investigated several approaches for predicting toxicity based on multiple logistic regressions with concentration-addition models using matched data on sediment toxicity and sediment chemical concentrations from different studies. Three models met criteria for acceptability. The first model uses individual chemicals selected using stepwise selection. The second uses derived variables to reflect combined metal contamination, polycyclic aromatic hydrocarbon (PAH) contamination, and the interaction between metals and PAHs. The third and final model is a separate species model with derived variables. The study found that although prediction is better for samples identified as nontoxic than for those known to be toxic, these models indicate that toxicity may be correctly predicted approximately 77% of the time.

  Source: Smith, E.P. et al.; Predicting sediment toxicity using logistic regression: a concentration-addition approach; Environmental Toxicology and Chemistry 22 (3): 565-575, 2003.

• The toxicity of fluoranthene to Hyalella azteca in sediment and water-only exposures under varying light spectra – The light regimen is specified as a 16:8 light dark cycle with 500-1000 lx in the US Environmental Protection Agency methods for sediment toxicity testing. This study evaluates the potential for photoinduced toxic effects from this requirement. In order to examine the effect of light spectra on the toxicity of fluoranthene, Hyalella azteca were exposed to fluoranthene in both water only and sediment. The light sources included gold fluorescent light, cool white fluorescent light, and LC50-enhanced fluorescent light. After 10 days of exposure, toxicity was determined as mortality, which the extent of mortality was defined as LC50 and LR50 (median lethal body residue). In water-only exposures, the toxicity of fluoranthene was greatest under the UV-enhanced spectra, followed by fluorescent light, and least toxic under the gold light. The same pattern was shown in both the LC50 and LR50 values. Similar to values expected for the acute toxicity of nonpolar narcotic (anesthetic) compounds, the toxicity under gold light gave an LR50 of 0.81 mmol kg-1. Under the other two light sources, the LR50 values were significantly less, 4 and 58 times lower for the fluorescent and UV-enhanced exposures, respectively. The light source did not significantly impact the toxicity in sediment. Toxicity occurred only when the body residue concentration approached that of the LR50 under gold light from the water-only exposures. By burrowing into the sediment, H. azteca were significantly protected from the light.

  Source: Wilcoxen, S.E. et al.; The toxicity of fluoranthene to Hyalella azteca in sediment and water-only exposures under varying light spectra; Ecotoxicology and Environmental Safety 54 (1): 105-117, 2003.
  

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Other Journal Titles of Interest

• In situ two-dimensional high-resolution profiling of sulfide in sediment interstitial waters. Devries, C.R.; and F. Wang. Environmental Science & Technology 37 (4): 792-797, 2003.
  
  
• Measured pore-water concentrations make equilibrium partitioning work--a data analysis. Kraaij, R.; P. Mayer; F.J.M. Busser; M. van het Bolscher; W. Seinen; J. Tolls; and A.C. Belfroid. Environmental Science & Technology 37 (2): 268-274, 2003.
  
  
• Sediment toxicity tests using benthic marine microalgae Cylindrotheca closterium (Ehremberg) Lewin and Reimann (Bacillariophyceae). Moreno-Garrido, I.; M. Hampel; L.M. Lubian; and J. Blasco. Ecotoxicology and Environmental Safety 54 (3): 290-295, 2003.
  
  
• Transport behavior of 3,3'-dichlorobenzidine in a freshwater estuary. Nyman, M.C.; K. McCord; W.L. Wood; and E.R. Blatchley. Environmental Toxicology and Chemistry 22 (1): 20-25, 2003.
  
  
• Studies on bioremediation of polycyclic aromatic hydrocarbon-contaminated sediments: bioavailability, biodegradability, and toxicity issues. Tabak, H.H.; J.M. Lazorchak; L. Lei; A.P. Khodadoust; J.E. Antia; R. Bagchi; and M.T. Suidan. Environmental Toxicology and Chemistry 22 (3): 473-482, 2003.

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Upcoming Events and Conferences

• Coastal Sediments 2003. This conference occurs May 18-23 in Clearwater Beach, FL. Coastal Sediments '03 is a multi-disciplinary international conference convened for researchers and practitioners to discuss science and engineering issues of coastal sediment processes. Visit the website for more information: http://www.coastalsediments.net/.
  

• 2nd International Symposium on Contaminated Sediments. This conference is May 26-28 in Quebec City, Canada. Conference is subtitled Characterization, Evaluation, Mitigation/Restoration, Management Strategy, and Performance. For more information, contact Helene Tremblay at 418-656-2193; e-mail: SCS2003@ggl.ulaval.ca or visit the conference website.

• In-Situ Contaminated Sediment Capping Workshop. This workshop is from May 12-14 in Cincinnati, OH. A national workshop to review the science, technology and applications of capping at contaminated sediment sites, examine lessons learned, and discuss future directions. For further information, contact Ana Montes, Electrical Power Research Institute (EPRI) at 650-855-2165. Web site: www.epri.com/default.asp and click on Events Calendar.
  
  

• North American Benthological Society's Annual Meeting. This meeting runs from May 27-31 in Athens, GA. Sessions at the conference will present case studies dealing with ecotoxicology and bioassessment. For more information, contact Anne Yount, College of Agriculture and Environmental Sciences, 204 Lumpkin House, University of Georgia, Athens, GA 30624. Website: www.benthos.org/Meeting/nabs2003/programschedule.htm.
  

• In Situ and On-Site Bioremeditation. This conference happens in Orlando, FL, June 2-5. For more information, contact the Conference Group at 800-783-6338 or 614-424-5461; e-mail: info@confgroupinc.com; or see the website: http://www.battelle.org/biosymp.

• International Association for Great Lakes Research Global Threats to Large Lakes: Managing in an Environment of Instability and Unpredictability. The conference occurs June 22-26 in Chicago, IL. For more information, contact Marc Tuchman at the EPA’s Great Lakes National Program Office at 312-353-1369 or email at tuchman.marc@epa.gov.
  
  
• Coastal Structures Conference. A Coastal Structures Conference will take place August 26-29th 2003 at Embassy Suites, Portland, Oregon. Topics to be addressed will include: functional and structural design; rubble mound breakwaters, revetments, jetties; shore protection structures; caisson breakwaters; innovative structures; wave-structure interaction; physical modeling; geotechnical design and performance; and many other subjects, including dredge disposal caps/environmental containment. For more information, contact the American Society of Civil Engineers, World Headquarters, 1801 Alexander Bell Drive Reston, Virginia 20191-4400. Phone: 800-548-2723 or 703-295-6300 or visit http://www.asce.org/conferences/coastal2003/index.cfm.
  

• Second International Conference on the Remediation of Contaminated Sediments - The Second International Sediment Remediation Conference will be held in September 30th through October 3rd in Venice, Italy. Organizers say the city is an ideal setting for a conference on this topic because of the sediments remediation efforts being exerted there by the local, regional, and national governments. For more information, contact the Conference Group at 800-783-6338 (U.S. and Canada) or 614-488-2030; e-mail: info@confgroupinc.com; or visit the Sediment Remediation Conference website.
  
  
• Contaminated Soils, Sediments, and Water. The conference is from October 20-23 in Amherst, MA. For more information, contact Denise Leonard at 413-545-1239 or info@UMassSoils.com. Web site: www.umasssoils.com.
  
  
• SETAC 24th Annual Meeting: Science Without Borders: Developing Solutions for Global Environmental Challenges. This meeting takes place November 8-13 in Austin, TX. This conference supports efforts scientists and engineers to work together to develop solutions to global problems. Topics including the factors influencing bioavailability and sediment chemistry will be addressed. For more information, contact SETAC North America, 1010 North 12th Avenue, Pensacola, FL 32501. Phone: 850-469-1500; web site: http://setac.org/austin.html.
  
  
• Specialist Dredging Techniques, Inspiring Dredging Solutions. This conference is from November 20-21 in Amsterdam, The Netherlands. The Central Dredging Association has programmed this conference to present a state of the art review of specialized dredging techniques and innovative approaches to individual dredging operations. The conference addresses techniques for core business but also from the so-called niche applications. The aim is to discuss and share ideas and to initiate the exchange of experience and technology. For more information, visit http://www.dredging.org and click on the Dredging Days 2003 link.
  
  
• Watersheds 2004. This conference takes place July 11-14, 2004 in Dearborn, Michigan. For more information contact Water Environment Federation, 601 Wythe Street, Alexandria, VA 22314-1994. Phone: 703.684.2400 x7010; Fax 703.684.2413; E-mail: watershed 04@wef.org.

  
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Calcasieu Estuary Database. The project database was updated in September 2002 to include the Phase 2 biota data. The database includes the results of the recent estuary sampling in addition to the historical sediments. http://www.epa.gov/earth1r6/6sf/sfsites/datarep.htm


The Sediment-Contaminant Database for the Upper Mississippi River System (version 2) contains reliable sediment-contaminant data of known quality in a readily accessible format. The database was compiled to facilitate the assessment of riverine contamination, to increase the availability of historic sediment-contaminant data, to facilitate responses to contaminant issues in the Upper Mississippi River System, and to focus management and scientific efforts pertaining to contaminated-sediment. http://www.umesc.usgs.gov/data_library/sediment_contaminants/sediment_contaminant_page.html


National Dredging Team implements the National Dredging Policy established in 1994. The Team works to increase communication, coordination, and timely resolution of dredging issues among participating Federal agencies. The National Dredging Team also provides guidance on formation of Local Planning Groups and development of dredged material management plans. http://www.epa.gov/OWOW/oceans/ndt/

USGS Coastal and Marine Geology Program. The Online Science Resource Locator found on this web page allows the review of publications relating to contaminated sediment. Articles describe sources, composition, and effects of sediment on aquatic habitats including coral reefs. http://marine.usgs.gov/


U.S. Navy Contaminated Sediments Website. This page provides links to Risk Assessment and Site evaluation tools available through the U.S. Navy. It also has links to other federal agencies and the programs that have been developed to reduce the amounts and effects of contaminated sediment. http://enviro.nfesc.navy.mil/erb/restoration/fcs_area/con_sed/main.htm

U.S. Army Corps of Engineers Contaminated Sediments. This page provides links to reports, technical notes, and news bulletins. Topics addressed include developing rapid and inexpensive screening tools, producing guidance for contaminant pathway assessments, developing design guidance for contaminant controls and management, demonstrating bioremediation as a cost-effective treatment option, and developing field approaches for confined facility reclamation. http://www.wes.army.mil/el/dots/doer/cs.html

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