Summary of the most significant changes in the FDA's Fish & Fisheries Products Hazards & Controls Guidance, 3rd ed. (June 2001).

The information contained in Table 3-1 ( Potential Vertebrate Species Related Hazards) is modified as
follows:
° Dace (Rhinichthys spp.) is now listed as having a potential pesticides and environmental contaminants
hazard;
° Alewife or river herring (Alosa pseudoharengus) is now listed as having a potential scombrotoxin
(histamine) hazard;
° Wild-caught freshwater salmon (Oncorhynchus spp., Salmo salar) is no longer listed as having a
potential aquaculture drug hazard, an error in the Second Edition;
° Mackerel (Scomber scombrus) is no longer listed as having a potential natural toxin (PSP) hazard.

The information contained in Table 3-3 ( Potential Process Related Hazards) is modified as follows:
° Smoked fish is now listed as having a potential C. botulinum hazard only when it is reduced oxygen
packaged and distributed or stored refrigerated;
° A number of products are now listed in Table 3-3 as having potential glass inclusion hazards;
° Dried fish is now listed as having a potential C. botulinum hazard;
° Fully cooked prepared foods are now listed as having potential pathogen survival through
pasteurization and pathogen contamination after pasteurization hazards.

The recommendations in Chapter 4 for the control of pathogens from the harvest area are changed as
follows for consistency with 1998 and 1999 Interstate Shellfish Sanitation Conference actions:
° Raw consumption warnings on tags of molluscan shellfish shellstock containers are now recommended
only if the shellstock is intended for raw consump-tion and the recommended language has been
modified;
° Additional information is included about the control of Vibrio parahaemolyticus in shellstock
intended for raw consumption, including information about water sampling for Vibrio parahaemolyticus
performed by Shellfish Control Authorities under certain conditions;
° Specific controls are now recommended for the control of Vibrio parahaemolyticus in oyster
shellstock intended for raw consumption if the oysters are harvested in an area which has been
confirmed as the original source of oysters associated with two or more V. parahaemolyticus illnesses
in the past three years. The new control strategy example relies on the following critical limits for the time
from harvest to refrigeration, and is based on the Average Monthly Maximum Air Temperature
(AMMAT):
-For AMMAT of less than 66°F
(less than 19°C): 36 hours
-For AMMAT of 66°F to 80°F
(19°C to 27°C): 12 hours
-For AMMAT greater than 80°F
(greater than 27°C): 10 hours;
° For the control of Vibrio vulnificus, the critical limits recommended for the time from harvest to
refrigeration for shellstock intended for raw consumption, based on Average Monthly Maximum
Water Temperature (AMMWT), are now:
-For AMMWT of less than 65°F
(less than18°C): 36 hours
-For AMMWT of 65 to 74 F (18 to 23 C): 14 hours;
-For AMMWT of greater than 74 to 84 F (greater than 23 to 28 C): 12 hours;
-For AMMWT of greater than 84 F (greater than 28 C): 10 hours;
° For the control of pathogens other than Vibrio parahaemolyticus and Vibrio vulnificus, the
critical limits recommended for the time from harvest to refrigeration for shellstock intended for
raw consumption are now:
-For AMMAT of less than 66 F
(less than 19 C): 36 hours;
-For AMMAT of 66 to 80 F
(19 to 27 C): 24 hours;
-For AMMAT of greater than 80 F
(greater than 27 C): 20 hours.

The recommendations in Chapter 4 for the control of pathogens from the harvest area are additionally
changed as follows:
° The information on pathogens in molluscan shellfish is now more clearly divided into two
categories:
-The control of pathogens of human or animal origin;
-The control of naturally occurring pathogens;
° The recommended goal of pasteurization for the control of Vibrio vulnificus is now more clearly
defined as the reduction of the pathogen to nondetectable levels [i. e., less than 3 MPN/ gram, as
defined by the National Shellfish Sanitation Program (NSSP)].

The recommendations in Chapter 5 for the control of parasites are changed as follows:
° The results of a survey of U. S. gastroenterologists on U. S. seafood-borne parasitic infections
are now cited;
° The recommended freezing times/ temperatures are now:
-Freezing and storing at -4°F (-20°C) or below
for 7 days (total time); or
-Freezing at -31°F (-35°C) or below until solid
and storing at -31°F (-35°C) or below for 15 hours; or
-Freezing at -31°F (-35°C) or below until solid and storing at -4°F (-20°C) or below for 24
hours;
° Because of the changes in the recommended critical limits, the recommended control strategies now
refer only to external temperatures during freezing and to the length of time that the fish is held at the
appropriate freezer temperature or the length of time that the fish is held after it is solid frozen,
whichever is appropriate;
° The parasite hazard is no longer considered reasonably likely to occur if the finished product is
fish eggs that have been removed from the skein and rinsed.

The recommendations in Chapter 6 for the control of natural toxins are changed as follows:
° PSP in lobster is no longer considered a significant hazard because the levels found in lobster tomale
are not likely to pose a health hazard unless large quantities are eaten from a heavily contaminated
area.

The recommendations in Chapter 7 for the control of scombrotoxin formation are changed as follows:
° Information is now provided about the salt-tolerant and facultative anaerobic nature of some of the
histamine-forming bacteria, raising concern for scombrotoxin formation in some salted and smoked
fishery products and in fishery products packed in reduced oxygen environments (e. g. vacuum
packaging);
° The on-board chilling recommendations are significantly modified as follows:
-Generally, fish should be placed in ice or in refrigerated seawater or brine at 40°F (4.4°C)
or less within 12 hours of death, or placed in refrigerated seawater or brine at 50°F (10°C)
or less within 9 hours of death;
-Fish exposed to air or water temperatures above 83°F (28.3°C), or large tuna (i. e., above 20 lbs.)
that are eviscerated before on-board chilling, should be placed in ice (including packing the
belly cavity of large tuna with ice) or in refrigerated seawater or brine at 40°F (4.4°C) or
less within 6 hours of death;
-Large tuna (i. e., above 20 lbs.) that are not eviscerated before on-board chilling should
be chilled to an internal temperature of 50°F (10°C) or less within 6 hours of death;
° It is now recommended that, when refrigerated brine or seawater is used for chilling fish on the
harvest vessel, the temperature of the cooling media be monitored and recorded (harvest vessel
control strategy only);
° It is now recommended that the critical limits at receiving from the harvest vessel include a
requirement that the chilling of fish on the harvest vessel be continued to bring the internal temperature
of the fish to 40°F (4.4°C) or less (harvest vessel control strategy only);
° It is now recognized that certain data previously expected to be recorded by the harvester on harvest
vessel records may, under certain circumstances, be more efficiently recorded by the primary (first)
processor on receiving records (harvest vessel control strategy only), such as:
-Method of capture;
-Air and water temperature;
-Method of onboard cooling;
-Estimated date and time of death;
° It is now recognized that, as an alternative to the primary processor receiving harvest vessel records
that are maintained by the vessel operator, certain harvest operations may lend themselves to
monitoring and record keeping entirely by the primary processor. This arrangement is suitable only if
the primary processor has direct knowledge about those aspects of the harvesting practices that must
be controlled to ensure that the appropriate critical limits are met. For example, if the harvest vessel
leaves from the processor's facility and returns with the iced or refrigerated catch to the processor's
facility within the appropriate time limits for on board icing or refrigeration of the catch, under
certain circumstances it may be possible for the processor to perform all of the monitoring and record
keeping functions ordinarily performed by the harvester;
° It is now recommended that the critical limits at receiving from the harvest vessel include a
requirement that fish delivered in less than 12 hours after death should exhibit evidence that chilling
began on the harvest vessel (e. g. at receipt the internal temperature of the fish is below ambient air
and water temperature);
° It is now recommended that the date and time of off-loading be recorded on receiving records
maintained by the primary processor;
° It is no longer recommended that primary (first) processors check for the adequacy of ice,
refrigerated seawater, refrigerated brine, or other cooling media at receipt from the harvest vessel;
° It is no longer recommended that secondary processors check the internal temperature of fish
received from other processors. However, it is now recommended that the checks for the adequacy of
ice or other cooling media at receiving be verified periodically by measuring the internal temperature of
the fish to ensure that it is at or below 40°F (4.4°C);
° It is now recommended that the accuracy of time/temperature data loggers or recorder thermometers
on vehicles delivering fish to secondary processors be checked on all new suppliers' vehicles and at
least quarterly thereafter;
° The table of approximate safe shelf-life for scombrotoxin-forming species which was previously
present is replaced with more generalized guidance because the values contained in the table were
apparently being misused as binding limits;
° The recommended critical limits for storage and processing are significantly modified as follows:
-For fish that have not been previously frozen: the fish are not exposed to ambient temperatures
above 40°F (4.4°C) for more than 4 hours, cumulatively, if any portion of that time is at
temperatures above 70°F (21°C); or the fish are not exposed to ambient temperatures above 40°F
(4.4°C) for more than 8 hours, cumulatively, as long as no portion of that time is at temperatures
above 70°F (21°C);
-For fish that have been previously frozen: the fish are not exposed to ambient temperatures above
40°F (4.4°C) for more than 12 hours, cumulatively, if any portion of that time is at temperatures
above 70°F (21°C); or the fish are not exposed to ambient temperatures above 40°F (4.4°C)
for more than 24 hours, cumulatively, as long as no portion of that time is at temperatures above
70°F (21°C);
° There is no longer a minimum length of frozen storage in the definition of "previously frozen
product;"
° It is now recommended that ambient air temperature be monitored at the processing and
packaging critical control points;
° A new concept is introduced to assist in the assessment of whether the hazard is significant at
receiving by the primary (first) processor: the hazard may not be significant if the worst case
environmental conditions (i.e. air and water temperatures) during the harvest season in a particular
region would not permit the formation of histamine during the time necessary to harvest and
transport the fish to the primary processor;
° The recommendations previously provided for refrigerated storage are now also recommended
for refrigerated processing;
° For purposes of selecting fish for histamine analysis and sensory examination it is now
recommended that lots be identified that contain only one species;
° It is now recommended that the number of fish tested for internal temperature at receipt by the
primary (first) processor be one per ton for lots of 10 tons or more, and one per 1000 lbs. for lots
of under 10 tons, as long as at least 12 fish per lot are examined;
° It is now recommended that no less than 18 fish per lot be analyzed for histamine at receipt by
the primary (first) processor except where the lot is smaller than 18 fish (histamine testing control
strategy only). The fish collected for analysis may be composited for analysis if the critical limit is
reduced accordingly;
° A sample size of 60 fish and a reject level of any fish at or above 50 ppm histamine is now
recommended as one option for corrective action when the processing critical limits have been
violated;
° Another option is now provided for corrective action when the sensory critical limit has been
violated (primary processor):
-Perform histamine analysis on the lot (i.e. fish of common origin) by analyzing 60 fish (or the
entire lot for lots smaller than 60 fish) and rejecting the lot if any are found with histamine greater
than or equal to 50 ppm. If found, the lot may be subdivided and reanalyzed at the same rate,
rejecting those portions where a unit greater than or equal to 50 ppm is found. The fish collected
for analysis may be composited for analysis if the critical limit is reduced accordingly;
AND
-Perform a sensory examination of all fish in the lot;
° It is now recognized that when refrigerated fish are transported only short distances (4 hours
or less) from processor to processor, a suitable alternative to requiring continuous monitoring
during transit may be for the secondary processor to check the internal temperature of the fish
upon receipt;
° It is no longer recommended that maximum indicating thermometers be used to monitor ambient
air temperature in storage coolers;
° It is now recommended that high temperature alarms used to monitor ambient air temperature in
storage coolers be connected to a 24-hour monitoring service.

The recommendations in Chapter 11 for the control of aquaculture drugs are changed as follows:
° Additional information is now provided about the labeling of approved conditions of use on
aquaculture drugs;
° Information is now included about the newly approved drug, chorionic gonadotropin;
° Information is now included about additional approved uses for formalin solution;
° An additional approved manufacturer of tricaine methansolfonate is now listed;
° Thiamine hydrochloride is now listed as a low regulatory priority drug for treatment of thiamine
deficiency in salmonids;
° Discontinued use of the supplier until corrections are made is now recommended as a corrective
action for all control strategy examples in which aquacultured fish are received from the producer.

The recommendations in Chapter 12 for the control of pathogen growth and toxin formation (other than
Clostridium botulinum) as a result of time/ temperature abuse are changed as follows:
° A third set of recommended critical limits is now provided for control during processing steps: If the
product is held at internal temperatures both above and below 70°F (21.1°C), exposure times above
50°F (10°C) should ordinarily be limited to 4 hours, as long as no more than 2 of those hours are
above 70°F (21.1°C);
° Additional information and guidance is now provided to assist in the development of critical limits
during processing and storage, including:
-Examples of product time/ temperature profiles;
-A recommendation that most microbiologically sensitive products be stored at or below 40°F
(4.4°C), except where control of nonproteolytic C. botulinum by refrigeration is necessary, in
which case storage at 38°F (3.3°C) is usually appropriate;
° Additional verification is now recommended, as follows:
-The accuracy of recorder thermometers and other instruments used to monitor temperature in
transportation cargo areas should be checked on new suppliers' vehicles and at least quarterly for
each supplier thereafter;
-When visual checks of ice or cooling media are used to monitor the adequacy of coolant,
the internal temperatures of the fish should be periodically checked to ensure that the ice or
cooling media is sufficient to maintain product temperatures at 40°F (4.4°C) or less;
° There is now a specific acknowledgement that frozen product storage and receipt of frozen
raw materials are not likely CCPs;
° Background information on the pathogens of concern now indicates that the infective doses of
Listeria monocytogenes and Vibrio parahaemolyticus are unknown;
° The example HACCP plans in Tables 12-1 and 12-2 are modified to correct an error in the
Second Edition, in which the cooked crab cooler step was inadvert-ently included as a CCP in
the Gulf Coast blue crab processing method (Table 12-1), rather than the East Coast blue crab
processing method (Table 12-2).
° It is now recognized that when refrigerated fishery products are transported only short
distances (4 hours or less) from processor to processor, a suitable alternative to requiring
continuous monitoring during transit may be for the secondary processor to check the internal
temperature of the fish upon receipt;
° It is no longer recommended that maximum indicating thermometers be used to monitor ambient
air temperature in storage coolers;
° It is now recommended that high temperature alarms used to monitor ambient air temperature in
storage coolers be connected to a 24-hour monitoring service.

The recommendations in Chapter 13 for the control of C. botulinum toxin formation are changed
as follows:
° The introductory material is extensively reorga-nized and revised to provide greater clarity;
° Information is now provided on a recommended minimum oxygen transmission rate for
oxygen-permeable packages (10,000 cc/m²/24 hrs);
° Fishery products packaged in deep containers from which the air is expressed are now identified
as presenting a C. botulinum toxin formation hazard;
° Hot smoked product in aerobic packaging is no longer identified as presenting a C. botulinum toxin
formation hazard sufficient to require preventive controls in a HACCP plan. However, note that the
Association of Food and Drug Officials recommends a minimum water phase salt content of 2.5% in
aerobically-packaged smoked fish;
° Controls are no longer recommended specifically for the control of C. botulinum toxin formation
as a result of time/ temperature abuse during the processing of unpackaged product. Instead it is
now recommended that the controls recommended for pathogens other than C. botulinum be
applied as appropriate. The chapter also acknowledges that C. botulinum toxin formation is
possible in unpackaged or aerobi-cally packaged product, but that, under those conditions,
it requires the type of severe temperature abuse that is not reasonably likely to occur in most food
processing environments;
° It is now recognized that when refrigerated fishery products are transported only short distances
(4 hours or less) from processor to processor, a suitable alternative to requiring continuous
monitoring during transit may be for the secondary processor to check the internal temperature
of the fish upon receipt;
° It now states that 20% salt is the level needed to ensure the safety of a shelf stable product relative to
all pathogens (based on the maximum salt level for growth of S. aureus), rather than providing the
apparently misleading statement that 10% salt is the level needed in a shelf stable product for the
control of C. botulinum type A and proteolytic types B and F;
° It now provides instruction to consult Chapter 12 for information on refrigerated storage temperature
critical limits suitable for the control of pathogens other than C. botulinum, rather than providing the
apparently misleading statement that 50°F (10°C) is an appropriate critical limit for the control of
C. botulinum type A and proteolytic types B and F. Refrigeration at or below 40°F (4.4°C) is
recommended for the control of all pathogens;
° Specific guidance is now provided for control of C. botulinum toxin formation in refrigerated, reduced
oxygen packaged, pasteurized fishery products, including: 1) those that receive a nonproteolytic
C. botulinum pasteurization process in the final container; and 2) those that receive a nonproteolytic
C. botulinum cook and are then hot filled into the final container;
° Specific guidance is now provided for control of C. botulinum toxin formation in refrigerated, reduced
oxygen packaged pasteurized surimi-based products, including a recommended control of 2.5% salt in
combination with a pasteurization process in the finished product container of 185°F (85°C) (internal
temperature) for at least 15 minutes;
° The use of recorder thermometers or digital time/temperature data loggers throughout distribution and
retail storage and sales is no longer recommended as an alternative to a second barrier to toxin formation
by C. botulinum type E and nonproteolytic types B and F;
° It is now acknowledged that, for refrigerated products that are packaged in oxygen-permeable
packaging, an oxygen-impermeable overwrap may be used to extend shelf life while the product is
under the control of the processor, as long as the overwrap is removed before the product leaves the
processor's control;
° It is now recommended that nitrite analysis accompany water phase salt analysis, as appropriate,
when such analysis is used as the means of monitoring the brining, dry salting and/or drying steps;
° It is now recommended that the accuracy of time/ temperature data loggers or recorder thermometers
on vehicles delivering fish to secondary processors be checked on all new suppliers' vehicles and at least
quarterly thereafter;
° It is no longer recommended that maximum indicating thermometers be used to monitor ambient air
temperature in storage coolers;
° It is now recommended that high temperature alarms used to monitor ambient air temperature
in storage coolers be connected to a 24-hour monitoring service.

The recommendations in Chapter 14 for the control of pathogen growth and toxin formation as a result of
inadequate drying are changed as follows:
° Controls are now provided for partial drying of refrigerated, reduced oxygen packaged foods, where
drying is targeted for the control of C. botulinum type E and nonproteolytic types B and F. The controls are
designed to ensure that the water activity of the finished product is below 0.97;
° The importance of packaging in preventing rehydration of dried products is now noted.

The recommendations in Chapter 16 for the control of pathogen survival through cooking are changed as
follows:
° The concept of exceptionally lethal cooking processes is eliminated;
° Information is now provided about the target organism and degree of destruction for cooking
processes, including recommendations that:
-The target organism should ordinarily be L. monocytogenes;
-The cook should ordinarily provide a 6D process;
° Information is now provided about cooking processes that are designed to eliminate the spores of
Clostridium botulinum type E and nonproteolytic types B and F, such as cooking of soups and sauces
that will be reduced oxygen packaged (e. g. vacuum packaged) and distributed refrigerated. The
information includes the recommendation that such products be hot filled in a continuous filling system
to minimize the risk of recontamination between cooking and finished product packaging.

The recommendations in Chapter 17 for the control of pathogen survival through pasteurization are changed
as follows:
° Information is now provided about the target organism and degree of destruction for pasteurization
processes, including recommendations that:
-The target organism should ordinarily be Clostridium botulinum type E and nonproteolytic types
B and F if the product is reduced oxygen packaged (e. g. vacuum packaged), does not contain
other barriers that are sufficient to prevent growth and toxin formation by this pathogen, and is stored
or distributed refrigerated (not frozen);
-The target organism should ordinarily be L. monocytogenes for other products (e. g. frozen products);
-The pasteurization process should ordinarily provide a 6D reduction in the numbers of the
target pathogen.

The recommendations in Chapter 18 for the control of pathogen introduction after pasteurization are
changed as follows:
° Information is now provided on hot filling products such as soups and sauces that are cooked to
eliminate the spores of Clostridium botulinum type E and nonproteolytic types B and F, and then
reduced oxygen packaged (e. g. vacuum packaged) and then distributed refrigerated (not frozen).
The minimum recommended hot fill temperature, 185°F (85°C), is designed to minimize the risk of
recontamination between cooking and finished product packaging;
° It is now recommended that cooling water flow rate be controlled when UV treatment is used to
treat container cooling water.

The recommendations in Chapter 19 for the control of allergens, food intolerance substances and
prohibited food and color additives are changed as follows:
° Controls similar to those previously recommended for use by primary processors are now
recommended for use by secondary processors, except that reliance on raw material labeling or
documents accompanying the raw material shipment (in the case of unlabeled product) are included
as recommended control strategies when the raw material is received from another processor;
° Undeclared sulfiting agents are now identified as a potential hazard in cooked octopus;
° General information is now provided on the control of allergenic proteins in foods. Controls similar to
those previously recommended to ensure proper labeling for certain food and color additives are now
recommended if foods that contain allergenic proteins are part of or are directly added to a fishery
product. Additionally, reference is made to controlling inad-vertent introduction of allergenic proteins,
because of cross-contact, through a rigorous sanitation regime, either as part of a prerequisite program
or as part of HACCP itself.

The recommendations in Chapter 20 for the control of metal inclusion are changed as follows:
° The reference to the point at which FDA's Health Hazard Evaluation Board has supported regulatory
action is corrected to indicate a metal fragment of between 0.3" [7 mm] and 1.0" [25 mm];
° The recommended corrective actions to regain control over the operation after metal is detected in
the product now include:
-Locating and correcting the source of the metal fragments; and
-Making adjustments to the materials, equipment, and/ or process, as needed, to prevent future
introduction of metal fragments;
° Injection needles and metal ties are now identified as additional sources of metal fragments in the
processing environment;
° It is now recognized that visually inspecting equipment for damage or missing parts may only be
feasible with relatively simple equipment, such as band saws, small orbital blenders, and wire-mesh
belts.

Chapter 21 has been added to provide guidance on the control of glass inclusion as a result of the use of
glass containers.

The recommendations in the Appendices are changed as follows:
° The maximum water phase salt level for growth of Bacillus cereus is now given as 10 percent;
° The maximum water phase salt level for growth of Staphylococcus aureus is now given as 20 percent;
° The minimum temperature for growth of pathogenic strains of Escherichia coli is now given as
43.7°F (6.5°C);
° The maximum temperature for growth of Vibrio parahaemolyticus is now given as 113.5°F
(45.3°C);
° Maximum cumulative exposure times are now provided for Bacillus cereus, as follows: 5 days at
temperatures between 39.2 and 43°F (4-6°C); 17 hours at temperatures between 44 and 50°F
(7-10°C); 6 hours at temperatures between 51 and 70°F (11-21°C); and 3 hours at temperatures
above 70°F (above 21°C);
° Maximum cumulative exposure times are now provided for Clostridium perfringens, as follows:
21 days at temperatures between 50 and 54°F (10-12°C); 1 day at temperatures between 55 and
57°F (13-14°C); 6 hours at temperatures between 58 and 70°F (15-21°C); and 2 hours at
temperatures above 70°F (above 21°C);
° The maximum cumulative exposure times for proteolytic Clostridium botulinum are now given as:
11 hours for temperatures between 50 and 70°F (10-21°C); and 2 hours for temperatures above
70°F (above 21°C);
° The maximum cumulative exposure times for nonproteolytic Clostridium botulinum are now given
as: 7 days for temperatures between 37.9 and 41°F (3.3 -5°C); 2 days for temperatures between 42 and
50°F (6-10°C); 11 hours for temperatures between 51 and 70°F (11-21°C); and 6 hours for
temperatures above 70°F (above 21°C);
° The maximum cumulative exposure times for Listeria monocytogenes are now given as:
7 days for temperatures between 31.3 and 41°F (-0.4 -5°C); and 2 days for temperatures between
42 and 50°F (6-10°C);
° The maximum cumulative exposure time for Shigella spp. is now given as 12 hours for temperatures
between 51 and 70°F (11-21°C);
° Tables of lethal rates and process times for 6D cooks for a range of internal product temperatures are
now provided for Listeria monocytogenes and nonproteolytic Clostridium botulinum type B (Tables
A-3 and A-4, respectively).
° The FDA guideline for hard or sharp objects, found in Compliance Policy Guide #555.425, is
included in the listing of FDA and EPA guidance levels -- generally 0.3" [7 mm] to 1.0"
[25 mm] in length;
° A listing of the most common food allergens is included (Appendix 6).

Numerous additional references are now included in the Bibliography, and a number of the original refer-
ences are corrected.

In addition to using the above listing to direct you to relevant changes in this guidance, you should
carefully review the chapters that are applicable to your product and process.

Additional Copies

Single copies of this guidance may be obtained as long as supplies last from FDA district offices
and from:

U. S. Food and Drug Administration
Office of Seafood
200 C St., S. W.
Washington, D. C. 20204
Phone: 202-418-3133  Fax: 202-418-3196

Multiple copies of this guidance may be obtained from:
Florida Sea Grant
IFAS -Extension Bookstore
University of Florida
P. O. Box 110011
Gainesville, FL 32611-0011
Phone: 352/392-1764  Fax: 352/392-2628
Credit card orders only, phone: 1-800/226-1764
http://ifasbooks.ufl.edu/merchant2/merchant.mv