Environmental Engineering Reference
In-Depth Information
Acknowledgements
The research leading to part of these results has received funding from the
European Community's Seventh Framework Programme (FP7/2007-2013) under Grant Agreement
No. [266445] for the project Vectors of Change in Oceans and Seas Marine Life, Impact on
Economic Sectors (VECTORS). Part of this publication has been produced with the fi nancial
assistance of the IPA Adriatic Cross-Border Cooperation Programme - strategic project Ballast
Water Management System for Adriatic Sea Protection (BALMAS). The contents of this publica-
tion are the sole responsibility of authors and can under no circumstances be regarded as refl ecting
the position of the IPA Adriatic Cross-Border Cooperation Programme Authorities.
References
AQIS (1994) Bio-economic risk assessment of the potential introduction of exotic organisms
through ship's ballast water. Australian Quarantine and Inspection Service (AQIS), Report No.
6 of the Ballast Water Research Series. Australian Government Publishing Service, Canberra
Awad A, Clarke C, Greyling L, Hilliard R, Polglaze T, Raaymakers S (2004) Ballast water risk
assessment, port of Saldanha Bay, Republic of South Africa, November 2003: fi nal report,
GloBallast monograph series No. 13. IMO, London
Bailey SA, Deneau MG, Jean L, Wiley CJ, Leung B, MacIsaac HJ (2011) Evaluating effi cacy of
an environmental policy to prevent biological invasions. Environ Sci Technol 45:2554-2561
Behrens HL, Haugom GP, Mordal Bakke S (2002) EMBLA concept; risk assessment methodology
and impact and consequence methodology scheme. DNV Rep. No. 2002-1269, Det Norske
Veritas, Høvik, Norway
Bleich S (2006) Messung der
-Diversität entlang eines Salzgehaltsgradienten anhand von
Makrozoobenthoszönosen der Ostsee. Master of Science thesis. Universität Rostock, Rostock
Briggs JC (1974) In: Beach RE, Laufer RS, Willey WJ (eds) Marine zoogeography. McGraw-Hill,
New York
Briggs JC, Bowen BW (2012) A realignment of marine biogeographic provinces with particular
reference to fi sh distributions. J Biogeogr 39:12-30
Briski E, Bailey SA, Casas-Monroy O, DiBaccio C, Kzaczmarska I, Levings C, MacGillvary ML,
McKindsey CW, Nasmith LE, Parenteau M, Piercey GE, Rochon A, Roy S, Simard N, Villac
MC, Weise AM, MacIsaac HJ (2012) Relationship between propagule pressure and coloniza-
tion pressure in invasion ecology: a test with ships' ballast. Proc R Soc B 279:2990-2997
Campbell ML, Gould B, Hewitt CL (2007) Survey evaluations to assess marine bioinvasions. Mar
Pollut Bull 55:360-378
Carlton JT (1985) Transoceanic and interoceanic dispersal of coastal marine organisms: the biol-
ogy of ballast water. Annu Rev Oceanogr Mar Biol 23:313-374
Carlton JT (2001) Introduced species in U.S. coastal waters: environmental impacts and manage-
ment priorities. Pew Oceans Commission, Arlington
Carter MQ, Louie JW, Fagerquist CK, Sultan O, Miller WG, Mandrell RE (2012) Evolutionary
silence of the acid chaperone protein HdeB in enterohemorrhagic
Escherichia coli
O157:H7.
Appl Environ Microbiol 78:1004-1014
Chan FT, Bailey SA, Wiley CJ, MacIsaac HJ (2013) Predictive relative risk assessment for ballast-
mediated invasions at Canadian Arctic Ports. Biol Invasion 15(2):295-308
Cothern CR (1996) Handbook for environmental risk decision making: values, perceptions and
ethics. Lewis Publishers/CRC Press LLC, Boca Raton
Darling JA, Herborg L-M, Davidson IC (2012) Intracoastal shipping drives patterns of regional
population expansion by an invasive marine invertebrate. Ecol Evol 2(10):2552-2561
David M (2007) A decision support system model for ballast water management of vessels:
doctoral dissertation. University of Ljubljana, Portorož
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