Dm. Lavoie et al., The potential for intracoastal transfer of non-indigenous species in the ballast water of ships, EST COAST S, 48(5), 1999, pp. 551-564
A principal mechanism for the transfer of non-indigenous species among aqua
tic ecosystems has been through the movement of ships' ballast water. To da
te, most ballast water studies have focused on the transoceanic movement of
organisms while ignoring the potential for spread by intracoastal traffic.
This study measured the transfer of estuarine and coastal species by domes
tic ship traffic between Somerset, Massachusetts and Norfolk, Virginia, U.S
.A. Plankton diversity and abundance in the ballast water of a coal carrier
at the beginning and end of seven replicate voyages were estimated. These
data, collected over a 1-year period, were used to (1) characterize plankto
n assemblages in the ballast water, (2) assess survivorship of ballasted or
ganisms for the voyages by comparing initial and final abundances, and (3)
test for differences in survival as a function of voyage or taxonomic group
. A diverse assemblage of organisms was transported intracoastally that was
dominated by dinoflagellates, diatoms and copepods. In four of seven voyag
es, total abundance declined significantly over the 36-h journey; however,
considerable within- and among-voyage variation in numerical response among
major taxonomic groups was observed. Despite a general decline in abundanc
e, millions of organisms nevertheless survived each voyage and were release
d into the receiving harbor. These data indicate that ballast water carried
by domestic ships is potentially an important vector for transferring aqua
tic non-indigenous and native nuisance species. Thus, future management dec
isions concerning ballast water transport should consider the role of domes
tic traffic in promoting invasions.