Geoscience Reference
In-Depth Information
suspect sites to quantify the concentration of bacteria and decide if
measures to restrict access to the affected zones should be put in place
or not.
In this way, these prediction maps, initially developed within the
context of research activity for a better comprehension of the
phenomena and their dynamic, are gradually coming to be used in
information systems and to aid operational decisions.
3.5. Acknowledgments
The authors thank Bernard Baleux for his reading and informed
criticism of this chapter, as well as Sylvie Joussaume and Chantal
Pacteau from GIS “Climat, Environnement, Société”, for their help
with the meetings and discussions that enabled this chapter to be
written.
3.6. Bibliography
[AUS
05]
A
USTIN
B., “Bacterial pathogens of marine fish”, in B
ELKIN
S.,
C
OLWELL
R.R. (eds.),
Oceans and Health: Pathogens in the Marine
Environment
, Springer, New York, pp. 391-413, 2005.
[BAK
10]
B
AKER
-A
USTIN
C.,
S
TOCKLEY
L.,
R
ANGDALE
R.,
et al.
,
“Environmental occurrence and clinical impact of
Vibrio vulnificus
and
Vibrio parahaemolyticus
: a European perspective”,
Environmental
Microbiology Reports
, vol. 2, pp. 7-18, 2010.
[BAN
12]
B
ANAKAR
V.,
C
ONSTANTIN DE
M
AGNY
G.,
J
ACOBS
J.,
et al.
,
“Temporal and spatial variability in the distribution of
Vibrio vulnificus
in
the Chesapeake Bay: a hindcast study”,
EcoHealth
, vol. 8, pp. 456-467,
2012.
[BAR
99]
B
ARBIERI
E.,
F
ALZANO
L.,
F
IORENTINI
C.,
et al.
, “Occurrence,
diversity, and pathogenicity of halophilic
Vibrio
spp. and non-O1
Vibrio
cholerae
from estuarine waters along the Italian Adriatic coast”,
Applied
Environmental Microbiology
, vol. 65, pp. 2748-2753, 1999.
Search WWH ::
Custom Search