Role of container vessels in the introduction of exotic species.

Ballast water exchange practices were monitored on 28 incoming container vessels at the Port of Montreal. Measurements on 15 vessels indicated 13 of 32 tanks had salinities of <30 per thousand. The 16 transits with a North Atlantic route visited 31 of 37 ports located on freshwater or near freshwater outflows. Ballast carried by this vessel type represents an important means for the introduction of species on a global scale because of its transit routes, dockside discharge and moving ballast between tanks. Container vessels represent about 15% of the world fleet, but account for 32% of all visits to global ports, and 46% of visits to the 25 largest ports. The 10 ports that handled the largest volumes of international cargo also included 8 that handled the most cargo containers. Large ports can receive over 100,000 visits by all vessel types annually, and serve as hubs for over 500 ports in 100 countries. Secondary transport of exotic species is also a concern because of frequent visits by regional vessels.

[1]  J. Carlton,et al.  Introduction, dispersal and potential impacts of the green crab Carcinus maenas in San Francisco Bay, California , 1995, Marine Biology.

[2]  A. Ricciardi,et al.  Predicting the identity and impact of future biological invaders: a priority for aquatic resource management , 1998 .

[3]  T. Nalepa,et al.  Zebra mussels : biology, impacts, and control , 1993 .

[4]  G. van der Velde,et al.  Geographical patterns in range extension of Ponto-Caspian macroinvertebrate species in Europe , 2002 .

[5]  K. Chu,et al.  A biological survey of ballast water in container ships entering Hong Kong , 1997, Hydrobiologia.

[6]  J. Carlton Community assembly and historical biogeography in the North Atlantic Ocean: the potential role of human-mediated dispersal vectors , 2003, Hydrobiologia.

[7]  A. J. Niimi Environmental and Economic Factors Can Increase the Risk of Exotic Species Introductions to the Arctic Region Through Increased Ballast Water Discharge , 2004, Environmental management.

[8]  S. Dadzie,et al.  The food of the nile perch lates niloticus l. after the disappearance of the haplochromine cichlids in the nyanza gulf of lake victoria kenya , 1988 .

[9]  James T. Carlton,et al.  Shipping Study: The Role of Shipping in the Introduction of Non-indigenous Aquatic Organisms to the Coastal Waters of the United States (Other than the Great Lakes) and an Analysis of Control Options. , 1995 .

[10]  J. Pederson Marine bioinvasions: proceedings of the first national conference: January 24-27, 1999 , 1999 .

[11]  James T. Carlton,et al.  Transoceanic and interoceanic dispersal of coastal marine organisms: the biology of ballast water , 1985 .

[12]  A. J. Niimi,et al.  Low salinity residual ballast discharge and exotic species introductions to the North American Great Lakes. , 2003, Marine pollution bulletin.

[13]  V. Ivanov,et al.  Invasion of the Caspian Sea by the Comb Jellyfish Mnemiopsis Leidyi (Ctenophora) , 2000, Biological Invasions.

[14]  Jonathan M. Levine,et al.  Forecasting Biological Invasions with Increasing International Trade , 2003 .

[15]  M. Posey,et al.  Effects of an introduced aquatic plant, Hydrilla verticillata, on benthic communities in the Upper Chesapeake Bay. , 1993 .

[16]  Jason D. Toft,et al.  The 1998 Puget Sound Expedition: A Shallow Water Rapid Assessment Survey for Nonindigenous Species, with Comparisons to San Francisco Bay. , 1999 .