Abstract
In this work a non-parametric multivariate analysis was used to assess the impact of metals and organic compounds in the macro infaunal component of the mollusks benthic community using surface sediment data from several monitoring programs collected over 20 years in Salina Cruz Bay, Mexico. The data for benthic mollusks community characteristics (richness, abundance and diversity) were linked to multivariate environmental patterns, using the Alternating Conditional Expectations method to correlate the biological measurements of the mollusk community with the physicochemical properties of water and sediments. Mollusks community variation is related to environmental characteristics as well as lead content. Surface deposit feeders are increasing their relative density, while subsurface deposit feeders are decreasing with respect to time, these last are expected to be more related with sediment and more affected then by its quality. However gastropods with predatory carnivore as well as chemosymbiotic deposit feeder bivalves have maintained their relative densities along time.
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References
Abbott, R. T. (1974). American sea shells. The marine Mollusca of the Atlantic and Pacific Coasts of North America (p. 663). New York: Van Nostrand Reinhold.
American Public Health Association (APHA), American Water Works Association, Water Pollution and Control Federation (1995). Standard methods for the examination of water and wastewater. Total suspended solids dried at 103°–105°C. Method 2540D (pp. 2–56). Washington, DC: American Public Health Association.
Andersen, V., Maage, A., & Johannessen, P. J. (1996). Heavy metals in blue mussel (Mytilus edulis) in the Bergen Harbor area, western Norway. Bulletin of Environmental Contamination and Toxicology, 57, 589–596.
Blanchard, A. L., Feder, H. M., & Shaw, D. G. (2003). Variations in benthic fauna underneath an effluent mixing zone at a marine oil terminal in Port Valdez, Alaska. Marine Pollution Bulletin, 46, 1583–1589.
Blanck, H., & Wangberg, S. (1988). Induced community tolerance in marine periphyton established under arsenate stress. Canadian Journal of Fisheries and Aquatic Sciences, 45, 1816–1819.
Breiman, L., & Friedman, H. (1985). Estimating optimal transformations for multiple regression and correlation. Journal of the American Statistical Association, 80(391), 580–619.
Britton, J. C., & Morton, B. (1994). Marine carrion and scavengers. Oceanography and Marine Biology. An Annual Review, 32, 369–434.
Brower, J. E., & Zar, J. H. (1977). Field and laboratory methods for general ecology (p. 194). Dubuque, IA: Brown.
Brusca, C. R., & Brusca, G. J. (1990). The invertebrates (p. 922). Sutherland, MA: Sinahuer.
Bryan, G. W., Langston, W. J., Hummerstone, L. G., & Burt, G. R. (1985). A guide to the assessment of heavy metal contamination in estuaries using biological indicators (pp. 1–92). Plymouth, UK: Marine Biological Association of the United Kingdom.
Chapman, P. M. (2004). Indirect effects of contaminants. Marine Pollution Bulletin, 48, 411–412.
Chapman, P. M., Wang, F., Janssen, C., Goulet, R. R., & Kamunde, C. N. (2003). Conducting ecological risk assessments of inorganic metals and metalloids—Current status. Human and ecological risk assessment, 9, 641–697.
Chaudhuri, P., & Marron, J. S. (1999). SiZer for exploration of structure in curves. Journal of the American Statistical Association, 94(447), 807–823.
Chelton, D. F., Freilich, M. H., & Esbensen, S. K. (2000). Satellite observations of the wind jets off the Pacific Coast of Central America. Part II: Regional relationships and dynamical considerations. Monthly Weather Review, 128, 2019–2043.
Claisse, D., Cossa, D., Bretaudeau-sanjuan, J., Youchard, G., & Bombled, B. (2001). Methylmercury in molluscs along the French coast. Marine Pollution Bulletin, 42, 329–332.
Cohen, J., & Cohen, P. (1983). Applied multiple regression/correlation analysis for the behavioral sciences. Hillsdale, NJ: Erlbaum.
Cossa, D. (1988). Cadmium in Mytilus spp.: Worldwide survey and relationship between seawater and mussel content. Marine Environmental Research, 26, 265–284.
Dallinger, R., & Rainbow, P. (Eds) (1993). Ecotoxicology of metals in invertebrates. Lewis, Chelsea, MI: SETAC Special Publications.
Dauer, S. M. (1993). Biological criteria environmental health and estuarine macrobenthic community structure. Marine Pollution Bulletin, 26, 249–257.
de Astudillo, L. R., Yen, I. C., Agard, J., Bekele, I., & Hubbard, R. (2002). Heavy metals in green mussel (Perna viridis) and oysters (Crassostrea sp.) from Trinidad and Venezuela. Archives of Environmental Contamination and Toxicology, 42, 410–415.
Fisher, N. S. (1986). On the reactivity of metals for marine phytoplankton. Limnology and Oceanography, 31, 443–449.
Fleeger, J. W., Carman, K. R., & Nisbet, R. M. (2003). Indirect effects of contaminants in aquatic systems. Science of the Total Environment, 317, 207–233.
Folk, R. L. (1974). Petrology of sedimentary rocks (p. 154). Austin, TX: Hempill.
French, D. P. (1991). Estimation of exposure and resulting mortality of aquatic biota following spills of toxic substances using a numerical model. In M. A. Mayes & M. G. Barron (Eds.), Aquatic toxicology and risk assessment, ASTM STP 1124 (vol. 14, (pp. 35–47)). Philadelphia, PA: American Society for Testing and Materials.
Godtliebsen, F., Olsen, L. R., & Winther, J.-G. (2003). Recent developments in statistical time series analysis: Examples of use in climate research. Journal of Geophysical Research, 30(12), 1654–1657.
González-Macías, C., Schifter, I., Lluch-Cota, D. B., Méndez-Rodríguez, L., & Hernández-Vázquez, S. (2006). Distribution, enrichment and accumulation of heavy metals in coastal sediments of Salina Cruz Bay, México. Environmental Monitoring and Assessment, 118, 211–230.
González-Macías, C., Schifter, I., Lluch-Cota, D. B., Méndez-Rodríguez, L., & Hernández-Vázquez, S. (2007). Environmental assessment of aromatic hydrocarbons—Contaminated sediments of the Mexican Salina Cruz Bay. Environmental Monitoring and Assessment, 133, 187–207.
Gray, J. S. (1981). The ecology of marine sediments. An introduction to the structure and function of benthic communities. Cambridge studies in modern biology 2 (p. 261). England: Cambridge University Press.
Gray, J. S., Clarke, K. R., Warwick, R. M., & Hobbs, G. (1990). Detection of initial effects of pollution on marine benthos: An example from the Ekofisk and Eldfisk oilfields, North Sea. Marine Ecology Progress Series, 66, 285–299.
Gundacker, C. (2000). Comparison of heavy metal bioaccumulation in freshwater molluscs of urban river habitats in Vienna. Environmental Pollution, 110, 61–71.
Holmström, L., & Erästö, P. (2001). Using the SiZer method in Holocene temperature reconstruction. Research Reports A36, Rolf Nevanlinna Institute. Finland: University of Helsinki.
Hughes, R. N. (1980). Optimal foraging theory in the marine context. Oceanography and Marine Biology. An Annual Review, 18, 423–481.
Islam, M. D., & Tanaka, M. (2004). Impact of pollution on coastal and marine ecosystems including coastal and marine fisheries and approach for management: A review and synthesis. Marine Pollution Bulletin, 48, 624–649.
Jumars, P. A., Mayer, L. M., Deming, J. W., Baross, J. A., & Wheatcroft, R. A. (1990). Deep-sea deposit-feeding strategies suggested by environmental and feeding constraints. Philosophical Transactions of the Royal Society of London, Series A, Mathematical and Physical Sciences, 331, 85–101.
Kamermans, P. (1994). Similarity in food source and timing of feeding in deposit- and suspension-feeding bivalves. Marine Ecology Progress Series, 104, 63–75.
Keen, M. A. (1963). Marine molluscan genera of Western North America (p. 126). Stanford, CA: Stanford University Press.
Keen, M. A. (1971). Sea shells of tropical West America (marine mollusks from Baja California to Peru) (p. 1064). Stanford, CA: Stanford University Press.
Keen, M. A., & Coan, E. (1974). Marine molluscan genera of Western North America: An illustrated key (p. 208, 2nd ed.). Stanford, CA: Stanford University Press.
Krebs, J. C. (1989). Ecological methodology (p. 654). USA: Harper Collins.
Liang, L. N., He, B., Jiang, G. B., Chen, D. Y., & Yao, Z. W. (2004). Evaluation of mollusks as biomonitors to investigate heavy metal contaminations along the Chinese Bohai Sea. Science of the Total Environment, 324, 105–113.
MacDonald, D., Carr, R. S., Calder, F. D., Long, E. R., & Ingersoll, C. G. (1996). Development and evaluation of sediment quality guide lines for Florida coastal waters. Ecotoxicology, 5, 253–278.
Millet, B., & Guelorget, O. (1994). Spatial and seasonal variability in the relationships between benthic communities and physical environment in a lagoon ecosystem. Marine Ecology Progress Series, 108, 161–174.
Millward, R. N., & Grant, A. (1995). Assessing the impact of copper on nematode communities from a chronically metal-enriched estuary using pollution-induced community tolerance. Marine Pollution Bulletin, 30, 701–706.
Montagna, P. A., & Harper, D. E. (1996). Benthic infaunal long-term response to offshore production platforms in the Gulf of Mexico. Canadian Journal of Fisheries and Aquatic Sciences, 53, 2567–2588.
Neff, J. M., & Stubblefield, W. A. (1995). Chemical and toxicological evaluation of water quality following the Exxon Valdez oil spill. In P. G. Wells, J. N. Butler, & J. S. Hughes (Eds.), Exxon Valdez oil spill: Fate and effects in Alaskan Waters, ASTM STP 1219 (pp. 141–117). Philadelphia, PA: American Society for Testing and Materials.
Nieboer, E., & Richardson, D. H. (1980). The replacement of the nondescript term “heavy metals” by a biological and chemically significant classification of metal ions. Environmental Pollution B, 1, 3–26.
Olsgard, F., & Gray, J. S. (1995). A comprehensive analysis of the effects of offshore oil and gas exploration and production on the benthic communities of the Norwegian continental shelf. Marine Ecology Progress Series, 122, 277–306.
Pearson, T. H., & Rosenberg, R. (1978). Macrobenthic succession in relation to organic enrichment and pollution of the marine environment. Oceanography and Marine Biology Annual Review, 16, 229–311.
Pelletier, M. C., Burgess, R. M., Ho, K. T., Kuhn, A., McKinney, R. A., & Ryba, S. A. (1997). Phototoxicity of individual PAHs and petroleum to marine invertebrate larvae and juveniles. Environmental Toxicology and Chemistry, 16, 2190–2199.
Phillips, D. J. H. (1980). Quantitative aquatic biological indicators: Their use to monitor trace and organochlorine pollution. London: Applied Science.
Philips, D. J. H., & Rainbow, P. S. (1993). Biomonitoring of trace aquatic contaminants. London: Elsevier.
Rakocinski, C. F., Brown, S. S., Gaston, G. R., Heard, R. W., Walker, W. W., & Summers, J. K. (2000). Species-abundance-biomass responses by estuarine macrobenthos to sediment chemical contamination. Journal of Aquatic Ecosystem Stress and Recovery, 7, 201–214.
Saunders, G. R., & Moore, C. G. (2004). In situ approach to the examination of the impact of copper pollution on marine meiobenthic copepods. Zoological Studies, 43(2), 350–365.
Scanes, P. (1996). Oyster watch: Monitoring trace metal and organochlorine concentrations in Sydney’s coastal waters. Marine Pollution Bulletin, 33(7–12), 226–238.
Smith, R. W., Bernstein, B. B., & Cimberg, R. L. (1988). Community–environmental relationships in the benthos: Applications of multivariate analytical techniques. In D. F. Soule & G. S. Kleppel (Eds.), Marine organisms as indicators (pp. 247–326). New York, NY: Springer.
Stanley, S. M. (1970). Relation of shell form to life habits of the Bivalvia (Mollusca). Geological Society of America Bulletin, 125, 1–296.
Statistica (1998). Statistica for Windows (volume I).General conventions and statistics I (2nd ed.). StatSoft, Tulsa, OK, USA.
Steichen, D. J., Jr., Holbrook, S. J., & Osenberg, C. W. (1996). Distribution and abundance of benthic and demersal macrofauna within a natural hydrocarbon seep. Marine Ecology Progress Series, 138, 71–82.
Surfer® version 8.01.2002. Golden Software, CO, USA.
Szefer, P., Frelek, K., Szefer, K., Lee, Ch.-B., Kim, B.-S., Warzocha, J., et al. (2002). Distribution and relationships of trace metals in soft tissue, byssus and shells of Mytilus edulis trossulus from the southern Baltic. Environmental Pollution, 120, 423–444.
Tapp, J. R., Shillabeer, N., & Ashman, C. M. (1993). Continued observation of the benthic fauna of the industrialized Tees estuary, 1979–1990. Journal of Experimental Marine Biology and Ecology, 172, 67–80.
Trasviña, A., Barton, E. D., Brown, J., Velez, H. S.,Kosro, P. M., & Smith, R. L. (1995). Offshore wind forcing in the Gulf of Tehuantepec, México. The asymmetric circulation. Journal of Geophysical Research, 100(20), 649–663.
Usero, J., Morillo, J., & Gracia, I. (2005). Heavy metal concentrations in molluscs from the Atlantic coast of southern Spain. Chemosphere, 59, 1175–1181.
Warwick, R. M., & Clarke, K. R. (1993). Increased variability as a symptom of stress in marine environments. Journal of Experimental Marine Biology and Ecology, 172, 215–226.
Warwick, R. M., & Clarke, K. R. (1994). Relearning the ABC: Taxonomic changes and abundance/biomass relationships in disturbed benthic communities. Marine Biology, 118, 739–744.
Warwick, R. M., & Clarke, K. R. (1995). “New biodiversity” measures reveal a decrease in taxonomic distinctness with increasing stress. Marine Ecology Progress Series, 129, 301–305.
Weisberg, S. B., Ranasinghe, J. A., Dauer, D. M., Schaffner, L. C., Diaz, R. J., & Frithsen, J. B. (1997). An estuarine benthic index of biotic integrity (B-IBI) for Chesapeake Bay. Estuaries, 20, 149–158.
Whitfield, M., & Turner, D. R. (1987). The role of particles in regulating the composition of seawater. In W. Stumm (Ed.), Aquatic surface chemistry: Chemical processes at the particle–water interface (pp. 457–493). New York: Wiley.
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González-Macías, C., Schifter, I., Lluch-Cota, D.B. et al. Assessment of benthic changes during 20 years of monitoring the Mexican Salina Cruz Bay. Environ Monit Assess 149, 113–132 (2009). https://doi.org/10.1007/s10661-008-0187-8
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DOI: https://doi.org/10.1007/s10661-008-0187-8