We tested the hypothesis that currents, waves, and sediment grain size affect the dispersal of seeds and seedlings of the submersed angiosperms Ruppia maritima, Potamogeton perfoliatus and Stuckenia pectinata. Seed settling velocities and initiation of motion of seeds and seedlings and distance transported were quantified on four sediment types under a range of currents and waves in a flume. The rapid settling velocities of R. maritima and S. pectinata seeds and the increased settling velocity of P. perfoliatus in currents above 8 cm/second suggest that primary dispersal of these species is localized to the general area colonized by their parents. Once settled within a bed, seeds are exposed to weak currents and waves, and are likely to be subject to sediment deposition which may further limit dispersal. In contrast, in restoration projects, the absence of vegetation is likely to make seeds more vulnerable to grazing and transport, and may contribute to the lack of plant establishment. If seeds germinate without being buried, they are susceptible to secondary dispersal at relatively low current velocities and small wave heights due to the drag exerted on the cotyledon. Sand grains tend to stick to the seed coat and rootlet of P. perfoliatus seedlings, perhaps a mechanism to reduce the chances of being displaced following germination. These data reveal the close links between sediment, water flow, and submersed angiosperm seedling establishment; these parameters should be considered when using seeds for restoration of submersed angiosperms.
American oysters Crassostrea virginica have significant effects on ecosystem structure and function and may potentially determine whether coastal systems are dominated by either benthic or pelagic primary production. Field experiments were used to determine the effect of oyster density on the abundance and growth rate of shoalgrass Halodule wrightii in Mississippi Sound, Alabama, USA. Oysters were deployed at densities of 0, 15, 75, and 150 ind. m-2 in 1 m 2 plots of H. wrightii in September 2004. Changes in shoalgrass shoot density, growth rate, total suspended solids (TSS), porewater nutrients, light transmittance, and epiphyte loads were all measured from October-November 2004, and June-July 2005. Results showed no significant relationship between oyster density, light transmittance, TSS, or epiphyte loading. However, there was a significant positive relationship between oyster density and porewater NH 4 and PO 4. Seagrass growth rates were highest at intermediate oyster densities, while high oyster densities negatively affected growth rates, shoot density, and plant biomass.
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