MEES608F Literature
Overview
Boynton, W. R., W.Boicourt, S.Brant, J.Hagy, L. W.Harding, E.Houde, D. V.Holliday, M.Jech, W. M.Kemp, C.Lascara, S. D.Leach, A. P.Madden, M.Roman, L. P.Sanford, E. M.Smith. 1997. Interactions between physics and biology in the estuarine turbidity maximum (ETM) of Chesapeake Bay, USA. International Council for the Exploration of the Sea CM 1997/S:11.
Jassby, A. D., W. J. Kimmerer, S. G. Monismith, C. Armor, J. E. Cloern, T. M. Powell, J. R. Schubel, and T. J. Vendlinski. 1995. Isohaline position as a habitat indicator for estuarine populations. Ecological Applications 5(1):272-289.
Kimmerer, W. J. 2004. Open water processes of the San Francisco Estuary: from physical forcing to biological responses. San Francisco Estuary and Watershed Science 2(1):1-142 (online journal D. J., and J. Donovan. 1994. The character and composition of the Columbia River estuarine turbidity maximum. In: Dyer KR, Orth RJ (eds). Olsen & Olsen, Fredensborg, Denmark, pp 445-450.
Biogeochemistry/Community Metabolism
Goni, M. A., M. W. Catheya, Y. H. Kima, and G. Voulgaris. 2005.Fluxes and sources of suspended organic matter in an estuarine turbidity maximum region during low discharge conditions. Estuarine, Coastal and Shelf Science 63: 683-700.
Herman, P. M. J., and C. H.R. Heip. 1999.Biogeochemistry of the MAximum TURbidity Zone of Estuaries (MATURE): some conclusions. Journal of Marine Systems 22: 89–104
Irigoien, X., J. Post, J. Castel, K.F. Pfeiffer, B. Hellmann. 1999. Nycthemeral variations of the dissolved oxygen concentration in the turbidity maximum of three European estuaries: biological vs. physical processes. Journal of Marine Systems 22:173–177
Sobczak, W. V., J. E. Cloern, A. D. Jassby, and A. B. Muller-Solger. 2002. Bioavailability of organic matter in a highly disturbed estuary: The role of detrital and algal resources. Proceedings of the NationalAcademy of Sciences of the United States of America 99: 8101-8105
Circulation/Sediment Transport
Allen, G. P., G. Sauzay, P. Castaing, and J. M. Jouanneau. 1977. Transport and deposition of suspended sediment in the Gironde estuary, France, p. 63-81. In: M. Wiley (ed.), Estuarine Processes, Volume II. Academic Press, New York.
Brenon, I., and P. Le Hir. 1999. Modelling the turbidity maximum on the Seine estuary (France): identification of formation processes. Estuarine, Coastal and Shelf Science 49:525-544.
Burchard, H., and H. Baumert. 1998. The formation of estuarine turbidity maxima due to density effects in the salt wedge. A hydrodynamic process study. Journal of Physical Oceanography 28:309-321.
Cancino, L, R. Neves. 1999b. Hydrodynamic and sediment suspension modelling in estuarine systems Part II: Application to the Western Scheldt and Gironde estuaries. Journal of Marine Systems 22(2-3):117-131
Elliott AJ, Wang DP, et al. (1978). The circulation near the head of Chesapeake Bay. J. Mar. Res. 36(4): 643-655
FugateDC, Friedrichs CT (2003) Controls on suspended aggregate size in partially mixed estuaries. Estuarine, Coastal and Shelf Science 58(2): 389-404
Geyer WR (1993) The importance of suppression of turbulence by stratification on the estuarine turbidity maximum. Estuaries 16(1): 113-125
Geyer, W. R., J. D. Woodruff, and P. Traykovski. 2001. Sediment transport and trapping in the Hudson River estuary. Estuaries 24(5):670-679.
North EW, Chao S-Y, Sanford LP, Hood RR (2004) The influence of wind and river pulses on an estuarine turbidity maximum: numerical studies and field observations. Estuaries 27: 132-146
Sanford LP, Yates M, et al. (in press). Variability of suspended particle concentrations, sizes and settling velocities in the Chesapeake Bay turbidity maximum. Flocculation in Natural and Engineered Environmental Systems. Droppo IG, Leppard GG, Liss P, Milligan T (eds). Boca Raton, Florida, CRC Press, LLC
Sanford LP, Suttles SE, Halka JP (2001) Reconsidering the physics of the Chesapeake Bay estuarine turbidity maximum. Estuaries 24(5):655-669
Schubel JR (1968) Turbidity maximum of northern Chesapeake Bay. Science 161:1013-
Schubel JR (1971) Tidal variation of the size distribution of suspended sediment at a station in the Chesapeake Bay turbidity maximum. Netherlands Journal of Sea Research 5:252-266
Schubel JR, Biggs RB (1969) Distribution of seston in upper Chesapeake Bay. Chesapeake Science 10:18-23
Schubel J, Pritchard D (1986) Responses of upper Chesapeake Bay to variations in discharge of the Susquehanna River. Estuaries 9(4A): 236-249
Uncles, R. J., and J. A. Stephens. 1993. The freshwater-saltwater interface and its relationship to the turbidity maximum in the Tamar estuary, United Kingdom. Estuaries 16(1):126-141.
Wang, H. V. C., and S.-Y. Chao. 1996. Intensification of subtidal surface currents over a deep channel in the upper Chesapeake Bay. Estuarine, Coastal and Shelf Science 42:771-785.
Bacteria
CrumpBC, Armbrust EV, Baross JA (1999) Phylogenetic analysis of particle-attached and free-living bacterial communities in the Columbia River, its estuary, and the adjacent coastal ocean. Applied and Environmental Microbiology 65:3192-3204
CrumpBC, Baross JA (2000) Characterization of the bacterially-active particle fraction in the Columbia River estuary. Marine Ecology Progress Series 206:13-22
CrumpBC, Baross JA, SimenstadCA (1998) Dominance of particle-attached bacteria in the Columbia River estuary, USA. Aquatic Microbial Ecology 14:7-18
Ploug, H., H. Zimmermann-Timm, B. Schweitzer. 2002. Microbial communities and respiration on aggregates in the Elbe Estuary, Germany. Aquatic Microbial Ecology 27: 241–248.
Phytoplankton
Anderson, G. F. 1986. Silica, diatoms, and a freshwater productivity maximum in Atlantic coastal plain estuaries, Chesapeake Bay. Estuarine, Coastal and Shelf Science 22: 183-197.
Goosen, N. K., J. Kromkamp, J. Peene, P. van Rijswijk, P. van Breugel. 1999. Bacterial and phytoplankton production in the maximum turbidity zone of three European estuaries: the Elbe, Westerschelde and Gironde. Journal of Marine Systems 22: 151–171
Muylaert, K., and K. Sabbe. 1999. Spring phytoplankton assemblages in and around the maximum turbidity zone of the estuaries of the Elbe (Germany), the Schelde
(Belgium/The Netherlands) and the Gironde (France). Journal of Marine Systems 22: 133–149.
Vincent WF, Dodson JJ, Bertrand N, Frenette JJ (1996) Photosynthetic and bacterial production gradients in a larval fish nursery: The St Lawrence river transition zone. Marine Ecology Progress Series 139:227-238
Zooplankton
Fockedey, N., and J. Mees. 1999. Feeding of the hyperbenthic mysid Neomysis integer in the maximum turbidity zone of the Elbe, Westerschelde and Gironde estuaries. Journal of Marine Systems 22: 207–228
Kimmel DG, Roman MR. 2004. Long-term trends in mesozooplankton and community composition in the Chesapeake Bay: influence of freshwater input. Marine Ecology Progress Series 267: 71-83
Kimmerer WJ, Burau JR, Bennett WA.1998. Tidally oriented vertical migration and position maintenance of zooplankton in a temperate estuary. Limnology and Oceanography 43:1697-1709
Roman MR, Holliday DV, Sanford LP. 2001. Temporal and spatial patterns of zooplankton in the Chesapeake Bay turbidity maximum. Marine Ecology Progress Series 213:215-227
SimenstadCA, Morgan CA, Cordell JR, Baross JA. 1994. Flux, passive retention and active residence of zooplankton in Columbia River estuarine turbidity maxima. In: Changes in Fluxes in Estuaries. Olsen and Olsen, Fredensborg, Denmark, pp 473-482
Winkler, G., P. Sirois, L. E. Johnson, and J. J. Dodson. 2005. Invasion of an estuarine transition zone by Dreissena polymorpha veligers had no detectable effect on zooplankton community structure. Can. J. Fish. Aquat. Sci. 62: 578–592.
Larval Fish
Bennett WA, Kimmerer WJ, Burau JR (2002) Plasticity in vertical migration by native and exotic estuarine fishes in a dynamic low-salinity zone. Limnology and Oceanography 47:1496-1507
Dauvin JC, Dodson JJ (1990) Relationship between feeding incidence and vertical and longitudinal distribution of rainbow smelt larvae (Osmerus mordax) in a turbid well-mixed estuary. Marine Ecology-Progress Series 60:1-12
Dodson JJ, Dauvin JC, Ingram RG, Dangeljan B (1989) Abundance of larval rainbow smelt (Osmerus mordax) in relation to the maximum turbidity zone and associated macroplanktonic fauna of the middle St Lawrence Estuary. Estuaries 12:66-81
Jaureguizar, A. J., J. Bava, C. R. Carozza, C. A. Lasta. 2003. Distribution of whitemouth croaker Micropogonias furnieri in relation to environmental factors at the Río de la Plata estuary, South America. Marine Ecology Progress Series 255: 271–282.
Laprise R, Dodson JJ (1989) Ontogeny and importance of tidal vertical migrations in the retention of larval smelt Osmerus mordax in a well-mixed estuary. Marine Ecology Progress Series 55:101-111
North EW, Houde ED (in press) Retention mechanisms of white perch and striped bass early-life stages in an estuarine turbidity maximum: an integrative mapping and Eulerian approach. Fisheries Oceanography
North EW, Houde ED (2001) Retention of white perch and striped bass larvae: Biological- physical interactions in Chesapeake Bay estuarine turbidity maximum. Estuaries 24:756-769
North EW, Houde ED (2003) Linking ETM physics, zooplankton prey, and fish early-life histories to white perch (Morone americana) and striped bass (M. saxatilis) recruitment success. Marine Ecology Progress Series 260: 219-236.
North EW, Hood RR, Chao S-Y, Sanford LP (submitted) The influence of episodic events on transport of striped bass eggs to the estuarine turbidity maximum nursery area. Estuaries
Shoji J, North EW, Houde ED (2004) The feeding ecology of white perch Morone americana (Pisces) larvae in the upper Chesapeake estuarine turbidity maximum: the influence of physical conditions and prey concentrations. Journal of Fish Biology
Sirois P, Dodson JJ (2000a) Critical periods and growth-dependent survival of larvae of an estuarine fish, the rainbow smelt Osmerus mordax. Marine Ecology Progress Series 203:233-245
Sirois P, Dodson JJ (2000b) Influence of turbidity, food density and parasites on the ingestion and growth of larval rainbow smelt Osmerus mordax in an estuarine turbidity maximum. Marine Ecology Progress Series 193:167-179
Trophic transfer
David, V., B. Sautour, R. Galois, P. Chardy. 2006. The paradox high zooplankton biomass–low vegetal particulate organic matter in high turbidity zones: What way for energy transfer? Journal of Experimental Marine Biology and Ecology 333: 202–218.
Winkler, G., J.J. Dodson, N. Bertrand, D. Thivierge, W.F. Vincent. 2003. Trophic coupling across the St. Lawrence River estuarine transition zone. Marine Ecology Progress Series 251:59-73
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