Angeloni, L. M. (2001). Mating Strategies of Simultaneously Hermaphroditic Opisthobranchs: Sexual Selection, Body Size and Sex Allocation. Biology. La Jolla, CA, University of California, San Diego: 113 pp.

Bagarinao, T. (1992). "Sulfied as an evvironmental factor and toxicant: tolerance and adaptations in aquatic organisms." Aquatic Toxicology 24: p. 21-62.

Bagarinao, T. a. R. D. V. (1989). "Sulfide tolerance and detoxification in shallow-water marine fishes." Marine Biology 103: p. 291-302.

Bagarinao, T. a. R. D. V. (1990). "Oxidative detoxification of sulfide by mitochondria of the California killifish Fundulus parvipinnis and the speckled sanddab Citharichthys stigmaeus." Journal of Comparative Physiology B 160: p. 519-527.

Bouma, A. H. (1963). "A graphic presentation of the facies model of salt marsh deposits." Sedimentology 2: p. 122-129.

Bradshaw, J. S. (1965). A multi-factor instrument for recording ecological parameters. La Jolla, CA, Marine Foraminifera Laboratory, Scripps Institute of Oceanography: 10 pp.

Bradshaw, J. S. (1968). "Environmental parameters and marsh foraminifera." Limnology and Oceanography 13(1): p. 26-38.

Brothers, S. B. (1975). The comparative ecology and behavior of three sympatric California gobies. Scripps Institution of Oceanography. La Jolla, CA, University of California, San Diego.

Cohen, J. a. K. H. N. Regulation of manganese oxidation in marine bacteria. La Jolla, CA, Scripps Institution of Oceanography.

Crooks, J. A. (1998). The Effects of the Introduced Mussel, Musculista senhousia, and other Anthropogenic Agents on Benthic Ecosystems of Mission Bay, San Diego. Oceanography. San Diego, University of California, San Diego: 223pp.

Crooks, J. A. a. H. S. K. (1999). "Biological versus structural effects of a habitat-altering, exotic mussel." Journal of Experimental Marine Biology and Ecology 240: 53-75.

Dexter, D. M. (1983). "Soft bottom infaunal communities in Mission Bay." California Fish and Game 69(1): p. 5-7.

Fleminger, A. a. S. H. K. (1988). "Recent introduction of an Asian estuarine copepod, Pseudodiaptomus marinus (Copepoda: Calanoida), into Southern California embayments." Marine Biology 98: p. 535-541.

Krug, P. J., Zimmer, Richard K. (2000). "Larval settlement: chemical markers for tracing production, transport, and distribution of a waterborne cue." Marine Ecology Progress Series 207: 283-296.

Krug, P. J. (2001). "Bet-hedging dispersal strategy of a specialist marine herbivore: a settlement dimorphism among sibling larvae of Alderia modesta." Marine Ecology Progress Series 213: 177-192.

Levin L.A., T. T. S., Crooks, J.A. (2000). Alteration of Wetland Habitat by Two Exotic Invertebrates, Sea Grant.
(a) Sphaeroma quoyanum exhibits specific microhabitat preferences within marsh edge and channel bank systems (firm sediments, vertical banks, and peaty substrate are preferred). Salicornia-vegetated habitat is preferred over Spartina-vegetated habitat.
(b) Although erosion is a natural process along salt marsh banks, enclosure experiments demonstrated that S. quoyanum activities may enhance sediment loss from banks as much as 2.5 times. In areas infested with S. quoyanum losses may exceed 100 cm of marsh edge per year.
(c) Musculista senhousia alter associated sediments and mussles through structural effects (habitat alteration) of mats and by activities of living mussles. Effects include decreased grain size, increased organic content a;tered sediment quality [C:N ratios], as well as enhancement of small infauna.
(d) When assessing the effects of habitat modifiers, it is necessary to consider the scale of the habitat and biota under examination. On small scales, mats of M. senhousia, and S. quoyanum burrows were found to enhance certain macrofauna (0.3 - 1 mm in size). On larger scales, M. senhousia inhibited larger, surface-dwelling suspension feeders and S. quoyanum burrowing increased loss of salt marsh habitat.
(e) Densities of these exotic species wre similar or higher in restored than natural marshes. This highlights the importance of understanding invasion biology for wetmland conservation.

Levin, L. A. (1980). "Life history and dispersal patterns of four infaunal polychaetes: implications for the structure of a dense assemblage." American Zoologist 20(4): p. 881.

Levin, L. A. (1981). "Dispersion, feeding behavior and competition in two spionid polychaetes." Journal of Marine Research 39(1): p. 99-117.

Levin, L. A. (1982). "Interference interactions among tube-dwelling polychaetes in a dense infaunal assemblage." Journal of Experimental Marine Biology and Ecology 65: p. 107-119.

Levin, L. A. (1982). The roles of life history, dispersal, and interference competition in the population and community structure of a dense infaunal polychaete assemblage. Scripps Institution of Oceanography. La Jolla, CA, University of California, San Diego: 339 pp.

Levin, L. A. (1983). "Drift tube studies of bay-ocean water exchange and implications for larval dispersal." Estuaries 6(4): p. 346-371.

Levin, L. A. (1984). "Multiple patterns of development in Streblospio benedicti Webster (Spinidae) from three coasts of North America." Biological Bulletin 166: p. 494-508.

Levin, L. A., T. Talley, A. Larson, and A. Jones (1997). Faunal Composition in the Tijuana River Estuarine Intertidal Habitats and the Role of Life Histories in Faunal Recovery of Southern California Restored Wetlands. La Jolla, CA, Marine Life Research Group, Scripps Institution of Oceanography: 41 pp.

Levin, L. A., J.A. Crooks, T.S. Talley and M. Saladin (1999). Alteration of California wetland habitat by invasive invertebrates. Coastal Zone '99.

Loreau, M. (1998). "Biodiversity and ecosystem functioning: a mechanistic model." Proceedings of the National Academy of Science 95: p. 5632.

Macdonald, K. B. (1967). Quantitative studies of salt marsh mollusc faunas from the North American Pacific Coast. Scripps Institution of Oceanography. La Jolla, CA, University of California, San Diego: 291 pp.

Macdonald, K. B. (1969). "Quantitative studies of salt marsh mollusc faunas from the North American Pacific Coast." Ecological Monographs 38: p. 33-60.
salt marsh, marsh, wetlands, mollusca, mollusc, molluska, mollusk, fauna, North America, Pacific, California, Kendall-Frost

McCray, A. T. (2001). Halophyte Responses to Soil Variation and Interspecific Competition in Southern California Salt Marshes. Marine Biology. La Jolla, CA, University of California, San Diego: 220.

Moran, R. (1980). "Did you say mangroves? In Mission Bay?" Environment Southwest 488(1-4): p. 1-4.

Nealson, K. H. Factors effecting managnese oxidation by bacteria. La Jolla, CA, Scripps Institution of Oceanography.

Nealson, K. H., R.R. Colwell, B. Austin, and S. Garges Isolation and characterization of marine manganese oxidizing bacteria. La Jolla, CA, Scripps Institution of Oceanography.

Nealson, K. H. a. D. S. W. Luciferase in Non-Luminous Species of Beneckea. La Jolla, CA, Scripps Institution of Oceanography.

Nealson, K. H. a. Y. C. Control of Manganese Oxidation by Marine Bacteria, Scripps Institution of Oceanography, San Diego; Marine Biology Laboratory, Eilat, Israel.

Phleger, C. F. (1964). Effect of varying salinity on lipid, protein, and mineral content of a coastal salt marsh plant, Spartina leiantha. Biology. San Diego, CA, San Diego State University.

Phleger, C. F. (1970). "Foraminiferal populations and marine marsh processes." Limnology and Oceanography 15: p. 522-534.

Phleger, F. B. a. J. S. B. Marsh foraminiferal patterns, Pacific coast of North America., Instituto de Biologia, Universidad Nacional Autonoma de Mexico.

Phleger, F. B. a. J. S. B. (1966). "Sedimentary Environments in a marine marsh." Science 154(3756): p. 1551-1553.

Rhew, R. C., B. R. Miller, et al. (2000). "Natural methyl bromide and methyl chloride emissions from coastal salt marshes." Nature 403(6767): 292-295.

Rosenfeld, B. (1990). Crabs at the Kendall-Frost Salt Marsh. La Jolla, CA, University of California, San Diego: 9 pp.

Saladin, M. (1998). The influence of the non-native mussel, Musculista senhousia, on sediment properties in Mission Bay, San Diego, CA, USA. Zurich, Switzerland, Eldgenossische Technische Hochschule.

Siegel, P. R. a. A. M. W. (1984). "Abnormal reproduction of the sand crab Emerita analoga in the vicinity of a nuclear generating station in southern California." Marine Biology 80: p. 341-345.

Talley, D. M. (2000). The Role of Resident Fishes in Linking Habitats of a Southern California Salt Marsh. Oceanography. La Jolla, University of California, San Diego: 227pp.

Talley, T. S., J.A. Crooks and L.A. (in review). "Habitat utilization and alteration by the burrowing isopod, Sphaeroma quoyanum, in California salt marshes." Marine Biology.

Tuckwell, J. (1990). Proposal for the Management, Preservation and Expansion of the Kendall-Frost Mission Bay Marsh Natural Reserve. La Jolla, CA, University of California, San Diego: 12 pp.

Wenner, A. M., H.M. Page, and P.R. Siegel Variation in size at onset of egg production. Factors in Adult Growth. A. M. Wenner. Rotterdam, A.A. Balkema.

Zedler, J. Salt Marsh Restoration: Lessons from California. Rehabilitating Damaged Ecosystems. J. J. Cairns. Boca Raton, Lewis Publishers.