Fish and Fishery Products Hazards and Controls Guidance PDF June 2022 Edition

Summary

This document provides guidance on the hazards and controls associated with fish and fishery products. It's a June 2022 edition, and is intended for use by food industry professionals.

Full Transcript

SGR 129

Fish and Fishery Products
Hazards and Controls Guidance
June 2022 Edition

DEPARTMENT OF HEALTH AND HUMAN SERVICES
PUBLIC HEALTH SERVICE
FOOD AND DRUG ADMINISTRATION
CENTER FOR FOOD SAFETY AND APPLIED NUTRITION
OFFICE OF FOOD SAFETY
 Fish and Fishery Products Hazards and
Controls Guidance
June 2022 Edition

Additional copies may be purchased from:

Florida Sea Grant
IFAS - Extension Bookstore
University of Florida
P.O. Box 110011
Gainesville, FL 32611-0011
(800) 226-1764
www.ifasbooks.com

Copies of this guidance document may be downloaded from:
www.FDA.gov/Seafood

U.S. Department of Health and Human Services
Food and Drug Administration
Center for Food Safety and Applied Nutrition
(240) 402-2300

JUNE 2022
 TABLE OF CONTENTS: FISH AND FISHERY PRODUCTS HAZARDS
AND CONTROLS GUIDANCE - JUNE 2022 EDITION

Section Page
Guidance for Industry: Fish and Fishery Products Hazards and Control Guidance G-1
CHAPTER 1: General Information 19
CHAPTER 2: Conducting a Hazard Analysis and Developing a HACCP Plan 21
CHAPTER 3: Potential Species-Related and Process-Related Hazards 3–1
CHAPTER 4: Pathogens from the Harvest Area 75
CHAPTER 5: Parasites 91
CHAPTER 6: Natural Toxins 6–1
CHAPTER 7: Scombrotoxin (Histamine) Formation 113
CHAPTER 8: Other Decomposition-Related Hazards 153
CHAPTER 9: Environmental Chemical Contaminants Including Pesticides 9–1
CHAPTER 10: Methylmercury 181
CHAPTER 11: Aquaculture Drugs 11 – 1
CHAPTER 12: Pathogenic Bacteria Growth and Toxin Formation (Other than Clostridium botulinum)
209
as a Result of Time and Temperature Abuse
CHAPTER 13: Clostridium botulinum Toxin Formation 245
CHAPTER 14: Pathogenic Bacteria Growth and Toxin Formation as a Result of Inadequate Drying 293
CHAPTER 15: Staphylococcus aureus Toxin Formation in Hydrated Batter Mixes 309
CHAPTER 16: Pathogenic Bacteria Survival Through Cooking or Pasteurization 315
CHAPTER 17: Pathogenic Bacteria Survival Through Processes Designed to Retain Raw Product
331
Characteristics
CHAPTER 18: Introduction of Pathogenic Bacteria After Pasteurization and Specialized Cooking
345
Processes
CHAPTER 19: Undeclared Major Food Allergens and Certain Food Intolerance Substances 19 – 1
CHAPTER 20: Metal Inclusion 385
CHAPTER 21: Glass Inclusion 395
APPENDIX 1: Forms A1 – 1
APPENDIX 2: Product Flow Diagram – Example A2 – 1

Table of Contents.
1 (June 2022).
Section Page

APPENDIX 3: Critical Control Point Decision Tree A3 – 1
APPENDIX 4: Bacterial Pathogen Growth and Inactivation 417
APPENDIX 5: FDA and EPA Safety Levels in Regulations and Guidance A5 – 1
APPENDIX 6: Japanese and Hawaiian Vernacular Names for Fish Eaten Raw 443
APPENDIX 7: Bacterial and Viral Pathogens of Greatest Concern in Seafood Processing-Public Health
451
Impacts

APPENDIX 8: Procedures for Safe and Sanitary Processing and Importing of Fish and Fishery Products A8 – 1

APPENDIX 9: Allergen Cross-Contact Prevention A9 – 1
APPENDIX 10: Allergen Cleaning and Sanitation for the Control of Allergens A10 – 1
APPENDIX 11: Approved Aquaculture Drugs A11 – 1
APPENDIX 12: Unapproved Aquaculture Drugs A12 – 1
ADDENDUM 1: Fish and Fishery Products (21 CFR 123) and Control of Communicable Diseases (21
AD1 – 1
CFR 1240.60)

ADDENDUM 2: current Good Manufacturing Practices (cGMPs) AD2 – 1

Table of Contents.
2 (June 2022).
 GUIDANCE FOR THE INDUSTRY: FISH AND FISHERY PRODUCTS HAZARDS
AND CONTROLS GUIDANCE, JUNE 2022 EDITION

This guidance represents the Food and Drug Administration’s (FDA’s) current thinking on this topic. It does not create or
confer any rights for or on any person and does not operate to bind FDA or the public. You can use an alternative approach
if the approach satisfies the requirements of the applicable statutes and regulations. If you want to discuss an alternative
approach, contact the FDA staff responsible for implementing this guidance. If you cannot identify the appropriate FDA staff,
call the telephone number listed on the title page of this guidance.

I. INTRODUCTION II. DISCUSSION
This guidance is intended to assist processors of A. Scope and Limitations
fish and fishery products in the development of
their Hazard Analysis Critical Control Point (HACCP) The control strategies and practices provided in
plans. Processors of fish and fishery products will this guidance are recommendations to the fish
find information in this guidance that will help and fishery products industry unless they are
them identify hazards that are associated with required by regulation or statute. This guidance
their products and help them formulate control provides information that would likely result in a
strategies. The guidance will help consumers and HACCP plan that is acceptable to FDA. Processors
the public generally to understand commercial may choose to use other control strategies, as
seafood safety in terms of hazards and their long as they comply with the requirements of
controls. The guidance does not specifically address the applicable food safety laws and regulations.
safe handling practices by consumers or by retail However, processors that chose to use other control
establishments, although many of the concepts strategies (e.g., critical limits) should scientifically
contained in this guidance are applicable to both. establish their adequacy.
This guidance is also intended to serve as a tool to
be used by federal and state regulatory officials in The information contained in the tables in Chapter 3
the evaluation of HACCP plans for fish and fishery and in Chapters 4 through 21 provide guidance for
products. determining which hazards are “reasonably likely
to occur” in particular fish and fishery products
FDA’s guidance documents, including this guidance, under ordinary circumstances. However, the tables
do not establish legally enforceable responsibilities. should not be used separately for this purpose. The
Instead, guidance describes the Agency’s current tables list potential hazards for specific species and
thinking on a topic and should be viewed only as finished product types. This information should be
recommendations, unless specific regulatory or combined with the information in the subsequent
statutory requirements are cited. The use of the chapters to determine the likelihood of occurrence.
word “should” in Agency guidance means that
something is suggested or recommended, but not The guidance is not a substitute for the per-
required. formance of a hazard analysis by a processor of
fish and fishery products, as required by FDA’s
This guidance has been prepared by the Division regulations. Hazards not covered by this guidance
of Seafood Safety in the Center for Food Safety may be relevant to certain products under certain
and Applied Nutrition at the U.S. Food and Drug circumstances. In particular, processors should
Administration. be alert to new or emerging problems (e.g., the
occurrence of natural toxins in fish not previously
associated with that toxin).

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FDA announced its adoption of final regulations recommendations for allergen cleaning and
to ensure the safe and sanitary processing of fish sanitation, and allergen cross-contact through
and fishery products in the Federal Register of two new appendixes (Appendix 9 and 10) since
December 18, 1995 (60 FR 65096) (hereinafter normal cleaning and sanitation does not necessarily
referred to as the Seafood HACCP Regulation). This address allergen residues.
guidance, the Seafood HACCP Regulation (21 CFR
123), and the Control of Communicable Diseases This guidance does not describe corrective action
regulation (21 CFR 1240) apply to all aquatic animal or verification records, because these records
life, other than birds and mammals, used as food are not required to be listed in the HACCP plan.
for human consumption. For example, in addition Nonetheless, such records must be maintained,
to fresh and saltwater finfish and crustaceans, where applicable, as required in § 123.7 and §
this guidance applies to echinoderms such as 123.8. Additionally, this guidance does not restate
sea cucumbers and sea urchins; reptiles such as the general requirements for records that are set
alligators and turtles; amphibians such as frogs; out in § 123.9(a).
and to all mollusks, including land snails (escargot).
It also applies to extracts and derivatives of fish, This guidance does not cover reassessment of the
such as eggs (roe), oil, cartilage, and fish protein HACCP plan and/or the hazard analysis or review
concentrate. In addition, this guidance applies to of consumer complaints, as mandated by § 123.8.
products that are mixtures of fish and non-fish
This guidance also does not provide specific
ingredients, such as tuna sandwiches and soups.
guidance to importers of fish and fishery products
Addendum 1, § 123.3, lists the definitions for “fish”
for the development of required importer verification
and “fishery product” used in the Seafood HACCP
procedures. However, the information contained in
Regulation.
the text, and, in particular, in Appendix 5 (“FDA and
This guidance covers safety hazards associated EPA Safety Levels in Regulations and Guidance”),
with fish and fishery products only. It does not should prove useful for this purpose.
cover most hazards associated with non-fishery
ingredients (e.g., Salmonella enteritidis in raw B. Chapter Modifications
eggs). However, where such hazards are presented
The following is a summary of the most significant
by a fishery product that contains non-fishery
changes made to this guidance. Moving forward,
ingredients, control must be included in the
FDA will publish this guidance as a living document
HACCP plan (§ 123.6). Processors may use the
on the FDA Seafood website (www.fda.gov/
principles included in this guidance for assistance in
seafood). This guidance will now reference the
developing appropriate controls for these hazards.
date of publication as the edition of the document.
This guidance does not cover the hazard associated Each chapter, appendix, and/or addendum will
with the formation of Clostridium botulinum (C. also reference the date (month and year) the
botulinum) toxin in low-acid canned foods (LACFs) most recent changes were made and published.
or shelf-stable acidified foods. Mandatory controls Additionally, the “Guidance for Industry” section
for this hazard are contained in the Thermally will identify the specific changes in the header
Processed Low-Acid Foods Packaged in Hermetically with the date of publication. You should carefully
Sealed Containers regulation (hereinafter referred review the chapters applicable to your product and
to as the LACF Regulation, 21 CFR 113) and the process in addition to using this summarized list
Acidified Foods regulation (21 CFR 114). Such of significant changes.
controls may be, but are not required to be,
included in HACCP plans for these products.

This guidance does not cover all sanitation controls
required by the Seafood HACCP Regulation. The
maintenance of a sanitation monitoring program
is an essential prerequisite to the development of
a HACCP program. When sanitation controls are
necessary for food safety, but are not included
in a sanitation monitoring program, they must
be included in the HACCP plan (21 CFR 123.6).
However, this guidance document does contain

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The following changes have been made throughout Chapter 3, Table 3-3: “Potential Invertebrate Species-
this guidance document: Related Hazards” has been modified with the
following recommendations as of June 2021:
Chapter 1: “General Information” has been modified
Barnacles, Gooseneck (Pollicipes polymerus)
with the following recommendations as of April – Has been added with the hazards of natural
2011: toxins and environmental chemicals.
Sea Cucumber – The following changes have
Chapter 2: “Conducting a Hazard Analysis and
been made:
Developing a HACCP plan” has been modified
o Aquacultured species have been identified
with the following recommendations as of April
with the hazards of environmental chemicals
2011: and aquaculture drugs;
Chapter 3: “Potential Species-Related and Process- o Stichopus japonicus is synonymous with
Apostichopus japonicus and has been
Related Hazards” Introduction has been modified
removed.
with the following recommendations as of June
Seabob (Xiphopenaeus kroyeri)– Shrimp has
2021:
been added as a market name.
The following notes were added: Shrimp – The following changes have been
made:
o For endangered and threatened species:
refer to NOAA and the U.S. Fish and o Acetes japonicus has been added with the
Wildlife Services to identify endangered hazard of environmental chemical.
and threatened species with hyperlinks; Snail or Escargot – The following changes have
been made:
o Identifying “The Seafood List” as the
reference to consult for naming of seafood o Cornu aspersa, Elona quimperiana,
species; Helix lucorum, and Pila polita have been
added with the hazards of parasites and
o Identifying that the tables in Chapter 3 environmental chemicals.
should be used in conjunction with Chapters Squid or Calamari – Nomenclature change from
4 – 21 in the development of a HACCP plan. Loligo opalescens to Doryteuthis opalescens.

Chapter 3, Table 3-2: “Potential Vertebrate Species- Chapter 3, Table 3-4: “Potential Process-Related
Related Hazards” has been modified with the Hazards” has been modified with the following
following recommendations as of June 2021: recommendations as of August 2019:
Crocodile – The following changes have been Footnote 2 has been removed.
made:
Footnotes 3, 4, 5, 6, and 7 have been
o Wild and aquacultured species have been renumbered as a result of footnote 2 being
identified; removed.
o Associated hazards have been added. Header – Allergens and Food Intolerance
Oreo Dory – Allocyttus spp., Neocyuttus spp., Substances – Chapter 19 – The following
Oreosoma spp. and Pseudocyttus spp. have changes have been made:
been added with the hazard of GFP. o Chapter title updated to remove “Prohibited
Roughy, Orange – Hoplostethus atlanticus has Food and Color Additives;”
been added with the hazard of GFP. o Footnote 5 has been added to the header.
Scad (Selar crumenophthalmus) – The following Smoked Fish (Other than ROP) – New listing
change has been made: for Chap 16 with Footnote 6 has been added.
o Scombrotoxin (histamine) hazard has been Dried Fish (All) - Footnote 7 for Chapter 13
added. has been added.

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 Battered or Breaded Finished Product Food – at least to some extent, the nature of the
The following changes have been made: controls for this pathogen in HACCP plans;
o “Package Type” has been divided into two The control strategy examples are restructured
types; for improved clarity: one for source controls
(e.g., tagging, labeling, source waters, harvester
o New listing for Chapter 13 for the ROP
licensure, and raw consumption advisory) and
Package Type has been added.
a second for time from harvest to refrigeration
Raw oysters, clams, and mussels (ROP) – The controls.
following changes have been made:
o “Hot Fill” and “Steam Flush” has been Chapter 5: “Parasites” has been modified with the
removed from the Package Type description; following recommendations as of April 2011:
o The hazard of undeclared allergen has been It is now recognized that the parasite hazard
removed. may be reasonably likely to occur in fish raised
Raw oysters, clams, and mussels (other than in freshwater containing larvae of pathogenic
ROP) – The following changes have been made: liver, lung and intestinal flukes because these
parasites enter the fish through the skin rather
o “Hot Fill” and “Steam Flush” has been
than in the food.
removed from the Package Type description;
o The hazard of undeclared allergen has been Chapter 6: “Natural Toxins” has been modified with
removed. the following recommendations as of August
Footnotes – Footnotes 5, and 6 have been 2019:
added.
The information in the Chapter has been
reorganized into two categories in each section.
Chapter 4: “Pathogens from the Harvest Area”
has been modified with the following o “Fish other than molluscan shellfish” and
recommendations as of April 2011: o “Molluscan Shellfish.”
Hydrostatic pressure, individual quick freezing Natural Toxin Detection Section was removed.
(IQF) with extended storage, and irradiation are This information is utilized to confirm illnesses/
now identified as processes that are designed outbreaks, inform advisories for at risk harvest
to retain raw product characteristics and that areas, and/or make a determination for harvest
can be used to reduce Vibrio vulnificus (V. area closures. This information was never
vulnificus) and Vibrio parahaemolyticus (V. intended for a processor to include in the HACCP
parahaemolyticus) to non-detectable levels; plan as a control measure. The information has
been relocated to Appendix 5.
It is now recognized that a tag on a container of
shellstock (in-shell molluscan shellfish) received Ciguatera Fish Poisoning (CFP) – The following
from another dealer need not identify the changes have been made:
harvester; o Additional locations were included based on
Critical limits relating to control of pathogen scientific discovery of the toxin;
growth prior to receipt of raw molluscan shellfish o Areas included are Florida, Hawaii, and
by the primary processor are now linked to Puerto Rico;
monitoring the time that the shellfish are
exposed to air (i.e., by harvest or receding o Addition of finfish to contain CFP – lionfish,
tide) rather than to the time that the shellfish mackerel and tang;
are harvested; o Finfish previously listed in Chapter 3 are
Reference is now made to the role of the Federal, now included in Chapter 6.
state, tribal, territorial and foreign government Tetrodotoxin – Symptomology development has
shellfish control authorities in determining been updated to align with the Bad Bug Book.
whether the hazard of V. parahaemolyticus
is reasonably likely to occur in raw molluscan
shellfish and in the development of a V.
parahaemolyticus control plan that will dictate,

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 Natural Toxins addition – The following changes Control Strategy Example 1 – Source control
have been made: for fish other than molluscan shellfish – The
following changes have been made:
o Clupeotoxin has been added as a natural
toxin with associated information; o Critical Limit – “ASP for consumption
advisory” was added;
o Ichthyohemotoxin has been added as a
natural toxin with associated information; o Establish Verification procedures – “Periodic
verification of harvest locations” was added.
o Seafood-associated rhabdomyolysis (some-
times referred to as Haff disease) has been Control Strategy Example 2 – Harvest Area for
added as a natural toxin with associated Molluscan Shellfish – The following changes
information. have been made:
A “Note” was added to the chapter regarding o Critical Limit –
venomous fish. This was to correspond to the  Update made to align with the NSSP and
Bad Bug Book’s new chapter to address the regulations for shellfish and HACCP, and
potential concern and FDA’s thoughts.
 A note was added regarding dockside
Amnesic shellfish poisoning (ASP) – Additional screening to align with NSSP;
species of lobster, sardine, white mullet,
menhaden, and predatory species, such as o Monitoring Procedures –
Florida pompano, Gulf Kingfish and spot, were  Update made to include information
included. that would be required for monitoring
Diarrhetic shellfish poisoning (DSP) – Addition as identified through the regulation
locations for the toxin were included such as and NSSP;
Puget Sound and the west coast of Canada, Bibliography was updated to reflect the additions
Texas, Washington State, Alabama, Maryland, throughout the chapter.
Massachusetts, and New York.
Paralytic shellfish poisoning (PSP) – The Chapter 7: “Scombrotoxin (Histamine) Formation”
following additions were made: has been modified with the following
o Molluscan shellfish examples of clams, recommendations as of April 2011:
cockles, mussels, oysters, and scallops; Information is now provided about the potential
o Information regarding retention of the toxin for scombrotoxin (histamine) formation in
and depuration; products like tuna salad that have been allowed
to become recontaminated and then subjected
o Expanded the information regarding
to time and temperature abuse;
gastropod accumulation of the toxin;
The recommendations regarding on-board
o Addition of finfish species where the toxin
chilling of scombrotoxin-forming species of
has been found in the viscera such as
fish are now listed as follows:
mackerel, Dungeness crab, tanner crab
and red rock crab. o Fish exposed to air or water temperatures
above 83°F (28.3°C) should be placed in
Natural Toxin Control Section – The following
ice, or in refrigerated seawater, ice slurry,
changes have been made: in the Natural Toxin
or brine of 40°F (4.4°C) or less, as soon as
Control Section:
possible during harvest, but not more than
o ASP and PSP in fish other than molluscan 6 hours from the time of death, or
shellfish – An example was added of
o Fish exposed to air and water temperatures
the adductor muscle from the scallop to
of 83°F (28.3°C) or less should be placed in
eliminate the toxin;
ice, or in refrigerated seawater, ice slurry,
o Molluscan Shellfish – The statement: “States or brine of 40°F (4.4°C) or less, as soon as
must have a Biotoxin Contingency Plan” possible during harvest, but not more than
was added. 9 hours from the time of death, or
o Fish that are gilled and gutted before chilling
should be placed in ice, or in refrigerated
seawater, ice slurry, or brine of 40°F (4.4°C)

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 or less, as soon as possible during harvest, The recommended level at which a lot should
but not more than 12 hours from the time be rejected based on sensory examination when
of death, or 118 fish are examined is now corrected to be
no more than 2 fish to coincide with the goal
o Fish that are harvested under conditions
of less than 2.5% decomposition in the lot;
that expose dead fish to harvest waters
of 65°F (18.3°C) or less for 24 hours or It is now recommended that the number of fish
less should be placed in ice, refrigerated subjected to sensory examination be increased
seawater, ice slurry, or brine of 40°F (4.4°C) if there is likely to be greater than normal
or less, as soon as possible after harvest, variability in the lot, and that only one species
but not more than the time limits listed constitute a lot for sampling purposes;
above, with the time period starting when When histamine analysis is performed as a
the fish leave the 65°F (18.3°C) or less corrective action, it is now recommended
environment; that any fish found to exceed the internal
Cautions are now provided that handling temperature at receiving critical limit be
practices and processing controls that are included in the sample;
recommended as suitable for preventing the When the sensory critical limit has not been
formation of scombrotoxin may not be sufficient met, it is now recommended that the processor
to prevent fish from suffering quality or shelf-life perform histamine analysis of a minimum of 60
degradation (i.e., decomposition) in a way that fish, collected representatively from throughout
may otherwise render it adulterated under the the lot, including all fish in the lot that show
Federal Food, Drug, and Cosmetic Act; evidence of decomposition, and reject the lot
The lower anterior portion of the loin is now if any fish are found with a histamine level
identified as the best place to collect a sample greater than or equal to 50 ppm;
from large fish for histamine analysis; Subdividing and retesting for histamine is no
Fermenting, pickling, smoking, and drying are longer recommended after an initial failed
now identified as likely critical control points histamine test;
(CCPs) for this hazard; It is now recommended that employees who
When fish are checked for internal temperature conduct sensory screening receive adequate
at off-loading, it is now recommended that: training;
o For fish held iced or refrigerated (not frozen) It is now recommended that for shipments
onboard the vessel and off-loaded from the of scombrotoxin-forming species received
vessel by the processor 24 or more hours under ice on open-bed trucks be checked for
after death, the internal temperature should both sufficiency of ice and internal product
be 40°F (4.4°C) or below, temperature;
OR It is now recommended that shipments of
scombrotoxin-forming species received under
o For fish held iced or refrigerated (not frozen)
gel packs be checked for both adequacy of gel
onboard the vessel and off-loaded from the
packs and internal product temperature;
vessel by the processor from 15 to less
than 24 hours after death, the internal It is now recommended that if only the internal
temperature should be 50°F (10°C) or temperature of fish is checked at receipt by a
below, secondary processor because the transit time
is no more than 4 hours, calculation of transit
OR
time should include all time outside a controlled
o For fish held iced or refrigerated (not frozen) temperature environment;
onboard the vessel and off-loaded from the
It is now recommended that if only the internal
vessel by the processor from 12 to less
temperature of fish is checked at receipt by a
than 15 hours after death, the internal
secondary processor because the transit time is
temperature should be 60°F (15.6°C) or
no more than 4 hours, a temperature-indicating
below;
device (e.g., a thermometer) should be used
to determine internal product temperatures in
a minimum of 12 fish, unless there are fewer

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 than 12 fish in a lot, in which case all of the High-temperature alarms are no longer
fish should be measured; recommended for monitoring temperatures in
coolers or processing areas;
When checks of the sufficiency of ice or chemical
cooling media, such as gel packs, or internal When the adequacy of ice is established as the
product temperatures are used at receipt of fish critical limit for refrigerated storage, it is now
from another processor, it is now recommended recommended that monitoring be performed
that the number of containers examined and with sufficient frequency to ensure control
the number of containers in the lot be recorded; rather than at least twice per day.
Control of scombrotoxin (histamine) formation
during processing and storage are now provided Chapter 8: “Other Decomposition-Related
as separate control strategy examples, and Hazards” has been modified with the following
examples of HACCP plans are now provided recommendations as of April 2011:
for both strategies;
It is now noted that FDA has received consumer
The extended exposure times during processing complaints concerning illnesses associated
(more than 12 hours, cumulatively, if any with the consumption of decomposed salmon,
portion of that time is at temperatures above attributable to the production in the fish of
70°F (21.1°C); or more than 24 hours, toxins other than histamine (e.g., biogenic
cumulatively, as long as no portion of that amines, such as putrescine and cadaverine);
time is at temperatures above 70°F (21.1°C))
It is now noted that there are also some
previously recommended for fish that have been
indications that chemicals formed when fats
previously frozen are now also recommended
and oils in foods oxidize may contribute to
for fish that have been previously heat treated
long-term detrimental health effects.
sufficiently to destroy scombrotoxin-forming
bacteria and are subsequently handled in a
Chapter 9: “Environmental Chemical Contaminants
manner where there is an opportunity for
recontamination with scombrotoxin-forming Including Pesticides” has been modified with the
bacteria; following recommendations as of June 2022:
It is now acknowledged that it may be possible Title of the Chapter has changed from: “and
to control scombrotoxin formation during Pesticides” to “Including Pesticides” since
unrefrigerated processing using a critical pesticides are a subset of chemicals.
limit that is time of exposure only (i.e., no Language in the chapter has been updated to
temperature component), if it is developed with reflect the chapter title change.
an assumption that worst-case temperatures
(e.g., in excess of 70°F (21.1°C)) may occur; The following changes have been made to
“Understand the Potential Hazard” section:
Chemical coolants (e.g., gel packs) are no
longer recommended for control of temperature o Added the explanation of sources of
during in-plant storage; contamination with environmental chemicals
including pesticides;
For control of time and temperature during
refrigerated storage, it is now noted that o Updated links;
critical limits that specify a cumulative time o Added information on EPA requirements for
and temperature of exposure to temperatures registered pesticides;
above 40°F (4.4°C) are not ordinarily suitable
o Explanation of regulatory approach to
because of the difficulty in determining when
environmental contaminates in fish
specific products have entered and left the
components utilized for other products
cooler and the time and temperature exposures
intended for human consumption has been
to which they were subjected. However, there
provided; and
may be circumstances where this approach is
suitable. It is also noted that minor variations o Removed Table 9-1 (action and tolerance
in cooler temperature measurements can be levels) which has been included as a
avoided by submerging the sensor for the reference in Appendix 5.
temperature-recording device in a liquid that
mimics the characteristics of the product;

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 The following changes have been made to Chapter 11: “Aquaculture Drugs” has been modified
“Determine Whether the Potential Hazard Is with the following recommendations as of June
Significant” section:
2021:
o Added the description of “residue”; and
The following have been added to the
o Added a paragraph on common food “Understand the Potential Hazard” section:
processing activities and preparation
o The explanation of residue and its
techniques and their impact on the presence
metabolite(s);
of animal drug residues in the product.
o A Note stating that aquaculture plants,
The following changes have been made to the
seaweed and algae are not covered by the
“Identify Critical Control Points” section:
Seafood HACCP regulation;
o Add a description of on-farm visits
o The explanation of the FFD&C Act
conducted by the processor to review
requirement for animal drug sell and use;
farming conditions, land use practices, and
pesticides utilization; o The reference to New Animal Drug
Application Guidance;
o Additional explanation for supplier’s
certification or letter of guarantee control o Information regarding the use of medically
strategy was provided; and important antimicrobials (Veterinary Feed
Directive and prescriptions) and issue of
o “Third-Party Farm Certification Program”
antimicrobial resistance;
has replaced “Quality Assurance Program”
as control strategy 5. o Reference to CVM website for more
information regarding judicious use of
The following changes have been made to the
therapeutic antimicrobials;
“Develop a Control Strategy” section:
o Hyperlink to the Drug Indexing;
o Added examples of factors to be considered
when determining the appropriate o Additional information regarding conditions
preventative control and verification strategy of extra-label drug use (EDLU);
by the processor; o A Note to foreign farmers to consult with
o Add a recommendation for a secondary their country competent authority for
processor; information on prescription requirements
and technical support as well as provided
o Revised paragraph regarding concentration
OIE definition of veterinarian;
of environmental contaminants including
pesticides in pond water; and o Header “Unapproved Animal Drugs” with
an explanation of unapproved drug; and
o Control strategies 1 through 7 have been
re-numbered and formatted. o Information regarding FDA import tolerances
and listed animal drugs with established
The following change has been made to the
import tolerances.
“Bibliography” section:
The following have been added to the
o Updated to reflect the changes in the guide
“Determine Whether the Potential Hazard is
with website links as deemed appropriate.
Significant” section:
Chapter 10: “Methylmercury” has been modified o Provided the overview of preventive
with the following recommendations as of April measures for the hazard of aquaculture
drugs used in aquaculture operations that
2011: can be employed by the processor;
Has been rewritten to acknowledge that FDA o Information regarding aquaculture drug
is receiving comments on a draft quantitative testing strategy and its importance as the
risk assessment for methylmercury, which may verification of control limits established for
result in a reassessment of its risk management aquaculture drug hazards; and
strategies

Guidance for the Industry: Fish and Fishery Products Hazards and Controls Guidance, June 2022 Edition.
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 o Paragraph regarding common food Chapter 12: “Pathogenic Bacteria Growth and
processing activities and preparation Toxin Formation (Other than Clostridium
techniques and their impact on the presence
of animal drug residues in the product.
botulinum) as a Result of Time and Temperature
Abuse” has been modified with the following
The following have been added and/or modified
recommendations as of April 2011:
in the “Identify Critical Control Points” section:
It is now recognized that V. vulnificus, V.
o Description of on-farm visit conducted by the
parahaemolyticus, and Vibrio cholarae non-O1
processor to review farming conditions and
and non-0139 are generally associated with
the farm’s aquaculture drug use program;
marine and estuarine species of fish and may
o The “letter of guarantee” term to the not be reasonably likely to occur in freshwater
“Supplier’s Certification” control strategy; species or non-fishery ingredients, unless they
o The example of control strategy that have been cross-contaminated;
includes “Processor’s Pre-Qualified Supplier It is now clarified that products that are partially
Program” as example 3; cooked to set the batter or breading or stabilize
o Control strategy “Farm’s Records of Drug the product shape (e.g., fish balls, shrimp
Use” example 3 changed to example 4; egg rolls, and breaded fish portions) are not
considered to be ready to eat;
o Control strategy “Drug Residue testing by
Processor” example 4 changed to example Information is now provided on the
5; determination of CCPs for products that are a
combination of raw, ready-to-eat and cooked,
o Control strategy “Quality Assurance ready-to-eat fishery ingredients;
Program” replaced with “Third-Party Farm
Certification Program” and is listed as Control of time and temperature abuse at
example 6; and receipt, during cooling after cooking, during
unrefrigerated processing, and during
o Control strategy “Control During Holding or refrigerated storage and processing are now
Transport” example 6 changed to example 7. provided as four separate control strategy
The following have been added and/or modified examples. Examples of HACCP plans are now
in the “Develop a Control Strategy” section: provided for all four strategies;
o Examples of factors to be considered when For control of transit conditions at receipt of
determining the appropriate preventative ready-to-eat fish or fishery products delivered
control and verification strategy by the refrigerated (not frozen), it is now recommended
processor; that all lots be accompanied by transportation
records that show that the fish were held at or
o Recommendation for a secondary processor; below an ambient or internal temperature of
and 40°F (4.4°C) throughout transit or, for transit
o Examples of control strategy 1-7 have been times of 4 hours or less, that the internal
re-numbered and formatted. temperature of the fish at time of receipt was
at or below 40°F (4.4°C);
The following have been modified in the
“Bibliography” section: For control of time and temperature during
refrigerated storage and refrigerated processing,
o Links have been updated.
it is now noted that critical limits that specify a
cumulative time and temperature of exposure
to temperatures above 40°F (4.4°C) are not
ordinarily suitable because of the difficulty
in determining when specific products have
entered and left the cooler and the time
and temperature exposures to which they
were subjected. However, there may be
circumstances where this approach is suitable.
It is also noted that minor variations in cooler
temperature measurements can be avoided by
submerging the sensor for the temperature-

Guidance for the Industry: Fish and Fishery Products Hazards and Controls Guidance, June 2022 Edition.
G - 9 (June 2022).
 recording device in a liquid that mimics the should be limited to 5 hours (12 hours if S.
characteristics of the product; aureus is the only pathogen of concern),
It is now recommended that if only the internal OR
temperature of the fishery product is checked o The product is held at internal temperatures
at receipt, because the transit time is no more below 50°F (10°C),
than 4 hours, calculation of transit time should
include all time outside a controlled temperature OR
environment; o Alternatively, the product is held at ambient
It is now recommended that if only the internal air temperatures below 50°F (10°C)
temperature of product is checked at receipt throughout processing;
by a secondary processor because the transit For cooked, ready-to-eat products:
time is no more than 4 hours, a temperature-
indicating device (e.g., a thermometer) o If at any time the product is held at
should be used to determine internal product internal temperatures above 80°F (27.2°C),
temperatures in a minimum of 12 containers exposure time (i.e., time at internal
(e.g., cartons and totes), unless there are fewer temperatures above 50°F (10°C) but below
than 12 containers in a lot, in which case all of 135ºF (57.2ºC)) should be limited to 1 hour
the containers should be measured; (3 hours if S. aureus is the only pathogen
of concern),
When checks of the sufficiency of ice or chemical
cooling media, such as gel packs, or internal OR
product temperatures are used at receipt of fish o Alternatively, if at any time the product is
from another processor, it is now recommended held at internal temperatures above 80°F
that the number of containers examined and (26.7°C), exposure time (i.e., time at
the number of containers in the lot be recorded; internal temperatures above 50°F (10°C)
Chemical coolants (e.g., gel packs) are no but below 135ºF (57.2ºC)) should be limited
longer recommended for control of temperature to 4 hours, as long as no more than 1 of
during in-plant storage; those hours is above 70°F (21.1°C),

Recommended cumulative exposure times and OR
temperatures (i.e., critical limits) are now listed o If at any time the product is held at internal
as follows: temperatures above 70°F (21.1°C), but
For raw, ready-to-eat products: never above 80°F (26.7°C), exposure time
at internal temperatures above 50°F (10°C)
o If at any time the product is held at should be limited to 2 hours (3 hours if S.
internal temperatures above 70°F (21.1°C), aureus is the only pathogen of concern),
exposure time (i.e., time at internal
temperatures above 50°F (10°C) but below OR
135ºF (57.2ºC)) should be limited to 2 o Alternatively, if the product is never held at
hours (3 hours if Staphylococcus aureus (S. internal temperatures above 80°F (26.7°C),
aureus) is the only pathogen of concern), exposure times at internal temperatures
OR above 50°F (10°C) should be limited to 4
hours, as long as no more than 2 of those
o Alternatively, exposure time (i.e., time at hours are above 70°F (21.1°C),
internal temperatures above 50°F (10°C)
but below 135ºF (57.2ºC)) should be limited OR
to 4 hours, as long as no more than 2 of o If the product is held at internal
those hours are between 70°F (21.1°C) and temperatures above 50°F (10°C), but never
135ºF (57.2ºC), above 70°F (21.1°C), exposure time at
OR internal temperatures above 50°F (10°C)
should be limited to 5 hours (12 hours if S.
o If the product is held at internal aureus is the only pathogen of concern),
temperatures above 50°F (10°C), but never
above 70°F (21.1°C), exposure time at OR
internal temperatures above 50°F (10°C)

Guidance for the Industry: Fish and Fishery Products Hazards and Controls Guidance, June 2022 Edition.
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 o The product is held at internal temperatures High-temperature alarms are no longer
below 50°F (10°C), recommended for monitoring temperatures in
coolers or processing areas;
OR
Chemical coolants (e.g., gel packs) are no
o Alternatively, the product is held at ambient
longer recommended for control of temperature
air temperatures below 50°F (10°C)
during in-plant storage;
throughout processing;
When the adequacy of ice is established as the
High-temperature alarms are no longer
critical limit for refrigerated storage, it is now
recommended for monitoring temperatures in
recommended that monitoring be performed
coolers or processing areas;
with sufficient frequency to ensure control
When the adequacy of ice is established as the rather than at least twice per day;
critical limit for refrigerated storage, it is now
It is now recommended that a water phase
recommended that monitoring be performed
salt level of 20% be achieved in shelf-stable,
with sufficient frequency to ensure control
reduced oxygen packaged products in which
rather than at least twice per day;
salt is the only barrier to pathogenic bacteria
It is now recommended that monitoring growth and toxin formation;
shipments received under gel packs include
It is now recommended that monitoring
both adequacy of gel packs and internal product
shipments received under gel packs include
temperature.
both adequacy of gel packs and internal product
temperature;
Chapter 13: “Clostridium botulinum Toxin
Formation” has been modified with the following It is now recommended that if only the internal
temperature of the fishery product is checked
recommendations as of April 2011:
at receipt, because the transit time is no more
Information is now provided on Time- than 4 hours, calculation of transit time should
Temperature Indicator (TTI) performance and include all time outside a controlled temperature
suitability; environment;
A control strategy is now provided for application It is now recommended that if only the internal
of TTIs on each of the smallest package units temperature of product is checked at receipt
(i.e., the unit of packaging that will not be by a secondary processor because the transit
distributed any further, usually consumer or time is no more than 4 hours, a temperature-
end-user package), where refrigeration is the indicating device (e.g., a thermometer)
sole barrier to prevent toxin formation; should be used to determine internal product
It is no longer recommended that consideration temperatures in a minimum of 12 containers
be given to whether the finished product will be (e.g., cartons and totes), unless there are fewer
stored and distributed frozen when determining than 12 containers in a lot, in which case all of
whether the hazard is significant. A control the containers should be measured;
strategy is now provided to ensure that frozen A control strategy example is now provided for
products are properly labeled when freezing receipt by a secondary processor of refrigerated
is the sole barrier to prevent toxin formation; reduced oxygen packaged products that may
Processors are now advised to take particular be stored and further distributed or used as an
care in determining the safety of a packaging ingredient for further processing;
material for a product in which (1) the spoilage It is now clarified that brining time should be
organisms have been eliminated or significantly monitored during the processing of smoked fish;
reduced by such processes as high-pressure
It is now recommended that brine be treated
processing and (2) refrigeration is the sole
to minimize microbial contamination or be
barrier to toxin formation. The generally
periodically replaced as a good manufacturing
recommended 10,000 cc/m2/24 hours at 24ºC
practice control.
oxygen transmission rates may not be suitable
in this case;

Guidance for the Industry: Fish and Fishery Products Hazards and Controls Guidance, June 2022 Edition.
G - 11 (June 2022).
Chapter 14: “Pathogenic Bacteria Growth and For surimi-based products, soups, or sauces,
Toxin Formation as a Result of Inadequate the following pasteurization process is now
recommended: a minimum cumulative, total
Drying” has been modified with the following lethality of F194°F (F90°C) = 10 minutes, where z =
recommendations as of April 2011: 12.6°F (7°C) for temperatures less than 194°F
(90°C), and z = 18°F (10°C) for temperatures
It is no longer recommended that consideration
above 194°F (90°C);
be given to whether the finished product will
be stored and distributed frozen (in the case For Dungeness crabmeat, the following
of reduced oxygen packaged products) or pasteurization process is now recommended:
refrigerated (in the case of aerobically packaged a minimum cumulative total lethality of F194°F
products) when determining whether the hazard (F90°C) = 57 minutes, where z = 15.5°F (8.6°C);
is significant. A control strategy to ensure that Information concerning levels of Listeria
refrigerated dried products are properly labeled monocytogenes (L. monocytogenes) in foods
when refrigeration is the sole barrier to toxin is now updated based on the final FDA/U.S.
formation is now provided. A control strategy Department of Agriculture L. monocytogenes
to ensure that frozen products are properly risk assessment.
labeled when freezing is the sole barrier to
toxin formation is now provided in Chapter 13. Chapter 17: “Pathogenic Bacteria Survival Through
Processes Designed to Retain Raw Product
Chapter 15: “Staphylococcus aureus Toxin Formation
Characteristics” has been modified with the
in Hydrated Batter Mixes” has been modified
following recommendations as of April 2011:
with the following recommendations as of April
2011: A new chapter that contains guidance for the
The number of S. aureus organisms normally control of pathogen survival through processes
needed to produce toxin is now listed as designed to retain raw product characteristics,
500,000 to 1,000,000 per gram; including high hydrostatic pressure processing,
mild heat processing, IQF with extended frozen
High-temperature alarms are no longer storage, and irradiation. At present, the
recommended for monitoring temperatures in chapter applies exclusively to the processing
processing areas. of molluscan shellfish products for which there
is a desire to retain raw product characteristics.
Chapter 16: “Pathogenic Bacteria Survival Through However, these technologies may have other
Cooking or Pasteurization” has been modified applications.
with the following recommendations as of April
2011: Chapter 18: “Introduction of Pathogenic Bacteria
After Pasteurization and Specialized Cooking
The separate chapters that previously covered
pathogen survival through cooking and Processes” has been modified with the following
pathogen survival through pasteurization are recommendations as of April 2011:
now combined;
It is no longer recommended that consideration
Pasteurization is now defined as a heat be given to whether the finished product will be
treatment applied to eliminate the most stored and distributed frozen when determining
resistant pathogen of public health concern whether the hazard is significant. A control
that is reasonably likely to be present in food; strategy to ensure that frozen products are
Information is now provided for an option to properly labeled when freezing is the sole
monitor End-Point Internal Product Temperature, barrier to prevent C. botulinum toxin formation
instead of continuous time and temperature is now provided in Chapter 13.
monitoring during cooking or pasteurization,
when a scientific study has been conducted to
validate that it will provide a 6D process for
the target pathogen;

Guidance for the Industry: Fish and Fishery Products Hazards and Controls Guidance, June 2022 Edition.
G - 12 (June 2022).
Chapter 19: “Undeclared Major Food Allergens and detector or separated from the product stream
Certain Food Intolerances Causing Substances” by magnets, screens, or other devices, the
source of the fragment is located and corrected.
has been modified with the following
recommendations as of August 2019: Chapter 21: “Glass Inclusion” has been modified with
the following recommendations as of April 2011:
The language regarding allergen cross-
contact has been enhanced; This chapter is no longer identified as a draft;

The language regarding allergen sanitation The use of x-ray detection devices is no
and cleaning has been enhanced; longer recommended as a reliable method for
controlling glass inclusion;
The examples have been consolidated for The recommended critical limit for the glass
relevance; container cleaning and visual inspection
Unnecessary examples have been removed; control strategy has been expanded to read,
“All container pass through an operating glass
“Prohibited additives” have been removed container inspection or cleaning process,”
from the title and chapter since they are and “No detectable glass fragments in glass
prohibited; containers passing the CCP.” As a result, the
Label review for the appropriate identification recommended monitoring procedures are also
of the allergen and being applied to the expanded so that they now are designed to
appropriate product has been added; and also ensure that the processes are in place
and operating;
CFP and other regulatory references have
The monitoring procedures for the glass
been removed.
container cleaning and visual inspection control
strategy now include a recommendation that
Chapter 20: “Metal Inclusion” has been modified a representative sample of the cleaned or
with the following recommendations as of April inspected containers be examined at the start
2011: of processing, every 4 hours during processing,
Foreign objects less than 0.3 inch (7 mm) are at the end of processing, and after any
now identified as having a potential for causing breakdowns;
trauma or serious injury to persons in special It is now recommended that monitoring for
risk groups, such as infants, surgery patients, the presence of glass be performed at the
and the elderly; start of each production day and after each
Additional information on calibration and shift change.
validation of electronic metal detectors is now It is now recommended that a representative
provided; sample of cleaned or inspected glass containers
Wire mesh baskets are no longer used as be examined daily, at the start of processing,
an example of an unlikely source of metal every 4 hours during processing, at the end of
fragments; processing, and after any breakdowns.

The recommended critical limit for the metal Appendix 1: “Forms” has been modified with the
detection or separation control strategy has
following recommendations as of June 2021:
been expanded to read, “All product passes
through an operating metal detection or Updated for new page format and made 508
separation device,” and “No detectable metal compliance.
fragments in a product passing through the
metal detection or separation device.” As a Appendix 2: “Sample Product Flow Diagram”
result, the recommended monitoring procedures
has been modified with the following
are also expanded so that they now are designed
to also ensure that the processes are in place recommendations as of June 2021:
and operating;
Updated for new page number format and made
It is now recommended that when metal 508 compliance.
fragments are found in a product by a metal

Guidance for the Industry: Fish and Fishery Products Hazards and Controls Guidance, June 2022 Edition.
G - 13 (June 2022).
Appendix 3: “Critical Control Point Decision Appendix 5: Table A-5, “FDA and EPA Safety Levels in
Tree” has been modified with the following Regulations and Guidance,” has been modified
recommendations as of June 2021: with the following recommendations as of
June 2021:
Updated for new page number format and made
508 compliance. Chemical Safety Levels – The following changes
have been made:
Appendix 4: “Bacterial Pathogen Growth and o Removal for lack of approved safety levels:
Inactivation,” has been modified with the  Fluzapyroxad for freshwater finfish,
following recommendations as of April 2011: shellfish, crustacean, and molluscs;
Recommended summary cumulative exposure o Addition of the following:
times and temperatures are now listed as
described above for Chapter 12;  Bensulfuron methyl for use in crayfish;

The maximum water phase salt level for growth  Chlorantraniliprole for use in crayfish;
of Campylobacter jejuni is now listed as 1.7%;  Deltamethrin for use in freshwater
The maximum level of acidity (pH) for growth finfish, farm raised finfish, saltwater
of pathogenic strains of Escherichia coli (E. coli) finfish, tuna and other;
is now listed as 10;  Imazethapyr for use in crayfish;
The maximum recommended cumulative  Imidacloprid for use in fish, shellfish
exposure times for Bacillus cereus are now listed and molluscs;
as follows: 5 days at temperatures of 39.2 to
 Pendimethalin for use in crayfish;
43°F (4 to 6°C); 1 day at temperatures of 44
to 59°F (7 to 15°C); 6 hours at temperatures  Propanil for use in crayfish;
of 60 to 70°F (16 to 21°C); and 3 hours at  Quizalofop ethyl for use in shellfish and
temperatures above 70°F (21°C); crustacean;
The maximum cumulative exposure times for  Triclopyr and its metabolites for use in
E. coli, Salmonella, and Shigella spp. are now fish and shellfish.
listed as follows: 2 days for temperatures from
their minimum growth temperature 41.4 to 50°F Appendix 6: “Japanese and Hawaiian Vernacular
(10°C); 5 hours for temperatures of 51 to 70°F
Names for Fish Eaten Raw” has been modified
(11 to 21°C); and 2 hours for temperatures
above 70°F (21°C); with the following recommendations as of April
2011:
The maximum cumulative exposure times
for Listeria monocytogenes are now listed as No longer lists food allergens.
follows: 7 days for temperatures of 31.3 to It now contains a table of Japanese and Hawaiian
41ºF (-0.4 to 5ºC); 1 day for temperatures of 42 vernacular names and their corresponding U.S.
to 50°F (6 to 10°C); 7 hours for temperatures market names.
of 51 to 70°F (11 to 21°C); 3 hours for
temperatures of 71 to 86°F (22 to 30°C); and Appendix 7: Bacterial and Viral Pathogens of
1 hour for temperatures above 86°F (30°C);
Greatest Concern in Seafood Processing-Public
The maximum cumulative exposure times Health Impacts” has been modified with the
for Vibrio cholerae, V. vulnificus, and V.
parahaemolyticus are now listed as follows:
following recommendations as of April 2011:
21 days for temperatures from their minimum No longer lists the bibliography.
growth temperature to 50°F (10°C); 6 hours It now contains information regarding the public
for temperatures of 51 to 70°F (11 to 21°C); health impacts of bacterial and viral pathogens
2 hours at temperatures of 71 to 80°F (22 to of greatest concern in seafood processing
26.7°C); and 1 hour at temperatures above
80°F (26.7°C), with the last temperature range
applying only to cooked, ready-to-eat products.

Guidance for the Industry: Fish and Fishery Products Hazards and Controls Guidance, June 2022 Edition.
G - 14 (June 2022).
Appendix 8: “Procedures for Safe and Sanitary To ensure the regulations are maintained as
Processing and Importing of Fish and Fishery the last sections of the Guide
Products” has been modified with the following
Addendum 2: “Current Good Manufacturing
recommendations as of June 2021:
Practices (cGMPs)” has been modified with the
Moved information to Addendum 1 to ensure the following recommendations as of June 2021:
regulations are maintained in the last sections
of the Guide. New section

Statement referring to Addendum 1 added Addition of 21 CFR 117 subpart B current Good
Manufacturing Practices for quick reference.
Appendix 9: “Allergen Cross-Contact Prevention” To ensure the regulations are maintained as
has been modified with the following the last sections of the Guide.
recommendations as of August 2019:
New appendix with recommendations for
establishing controls to prevent allergen cross-
contact in a facility has been added.

Appendix 10: “Cleaning and Sanitation for the
Control of Allergens” has been modified with
the following recommendations as of August
2019:
New appendix with recommendations for
establishing allergen cleaning and sanitation
program has been added.

Appendix 11: “Approved Aquaculture Drugs”
has been modified with the following
recommendations as of June 2021:
New appendix with information on FDA approved
animal drugs for aquaculture use.

The approved drugs list has been formatted.

Appendix 12: “Unapproved Aquaculture Drugs”
has been modified with the following
recommendations as of June 2021:
New appendix with information on unapproved
drugs including examples of FDA’s high
enforcement priority drugs.

Addendum 1: “Regulations: Fish and Fishery Products
(21 CFR 123) and Control of Communicable
Diseases (21 CFR 1240.60)” has been modified
with the following recommendations as of June
2021:
New section
Movement of regulation out of Appendix 8 to
Addendum

Guidance for the Industry: Fish and Fishery Products Hazards and Controls Guidance, June 2022 Edition.
G - 15 (June 2022).
 NOTES:

Guidance for the Industry: Fish and Fishery Products Hazards and Controls Guidance, June 2022 Edition.
G - 16 (June 2022).
 CHAPTER 1: General Information

This guidance represents the Food and Drug Administration’s (FDA’s) current thinking on this topic. It does not create
or confer any rights for or on any person and does not operate to bind FDA or the public. You can use an alternative
approach if the approach satisfies the requirements of the applicable statutes and regulations. If you want to discuss
an alternative approach, contact the FDA staff responsible for implementing this guidance. If you cannot identify the
appropriate FDA staff, call the telephone number listed on the title page of this guidance.

THE GUIDANCE
This is the fourth edition of the Food and Drug Copies of the training document may be
Administration’s (FDA’s) “Fish and Fishery Products purchased from:
Hazards and Controls Guidance.” This guidance
Florida Sea Grant
relates to FDA’s Fish and Fishery Products
IFAS - Extension Bookstore
regulation (called the Seafood HACCP Regulation,
University of Florida
21 CFR 123, in this guidance document) and the
P.O. Box 110011
Control of Communicable Diseases regulation,
Gainesville, FL 32611-0011
21 CFR 1240, that require processors of fish
(800) 226-1764
and fishery products to develop and implement
HACCP systems for their operations. Those final Or
regulations were published in the Federal Register www.ifasbooks.com
on December 18, 1995, and became effective on
December 18, 1997. The codified portion of the Or you may download a copy from:
regulations is included in Appendix 8. http://www.fda.gov/FoodGuidances
This guidance is being issued as a companion
document to “HACCP: Hazard Analysis Critical
Control Point Training Curriculum,” which was
developed by the Seafood HACCP Alliance
for Training and Education. The Alliance is an
organization of federal and state regulators,
including FDA, academia, and the seafood
industry. FDA recommends that processors of
fish and fishery products use the two documents
together in the development of a HACCP system.
This guidance document will be maintained on
the FDA.GOV website, which should be consulted
for subsequent updates.

CHAPTER 1: General Information

19
 NOTES:

CHAPTER 1: General Information

20
 CHAPTER 2: Conducting a Hazard Analysis and Developing a HACCP Plan

This guidance represents the Food and Drug Administration’s (FDA’s) current thinking on this topic. It does not create
or confer any rights for or on any person and does not operate to bind FDA or the public. You can use an alternative
approach if the approach satisfies the requirements of the applicable statutes and regulations. If you want to discuss
an alternative approach, contact the FDA staff responsible for implementing this guidance. If you cannot identify the
appropriate FDA staff, call the telephone number listed on the title page of this guidance.

THE HACCP PLAN FORM THE HAZARD ANALYSIS WORKSHEET

This guidance document is designed to walk In order to complete the HACCP Plan Form,
you through a series of 18 steps that will yield a you will need to perform a process called
completed Hazard Analysis Critical Control Point hazard analysis. The Seafood HACCP Regulation
(HACCP) plan. A blank HACCP Plan Form is requires that all seafood processors conduct,
contained in Appendix 1. Note that this is a two- or have conducted for them, a hazard analysis
page form, with the second page to be used if to determine whether there are food safety
your process has more critical control points than hazards that are reasonably likely to occur in
can be listed on one page. The Procedures for their product and to the preventive measures that
the Safe and Sanitary Processing and Importing a processor can apply to control those hazards
of Fish and Fishery Products regulation, 21 CFR (21 CFR 123.6(a)). FDA has found that the use
123 (hereinafter, the Seafood HACCP Regulation), of a standardized Hazard Analysis Worksheet
requires that you prepare a HACCP plan for fish assists with this process. A blank Hazard Analysis
and fishery products that you process if there are Worksheet is contained in Appendix 1. Note that
significant food safety hazards associated with the this is also a two-page form, with the second page
products. The regulation does not require that you to be used if your process has more processing
use the form included in Appendix 1. However, steps than can be listed on one page. The Seafood
using this standardized form may help you develop HACCP Regulation does not require that the
an acceptable plan and will expedite regulatory hazard analysis be kept in writing. However,
review. A separate HACCP plan should be FDA expects that a written hazard analysis will
developed for each location where fish and fishery be useful when you perform mandatory HACCP
products are processed and for each kind of fish plan reassessments and when you are asked by
and fishery product processed at that location. You regulators to justify why certain hazards were or
may group products together in a single HACCP were not included in your HACCP plan.
plan if the food safety hazards and controls are the
same for all products in the group.

CHAPTER 2: Conducting a Hazard Analysis and Developing a HACCP Plan

21
THE STEPS PRELIMINARY STEPS

Following is a list of the steps that this guidance STEP 1: Provide general information.
uses in HACCP plan development:
Record the name and address of your processing
Preliminary Steps
facility in the spaces provided on the first page
° Provide general information; of both the Hazard Analysis Worksheet and the
° Describe the food; HACCP Plan Form (Appendix 1).
° Describe the method of distribution and
STEP 2: Describe the food.
storage;
° Identify the intended use and consumer; Identify the market name or Latin name (species)
° Develop a flow diagram. of the fishery component(s) of the product.

Hazard Analysis Worksheet Examples:
° Set up the Hazard Analysis Worksheet; Tuna (Thunnus albacares);
Shrimp (Pandals spp.);
° Identify potential species-related hazards;
Jack mackerel (Trachurus spp.).
° Identify potential process-related hazards;
° Understand the potential hazard; Fully describe the finished product food.

° Determine whether the potential hazard Examples:
is significant; Individually quick frozen, cooked, peeled
° Identify critical control points. shrimp;

HACCP Plan Form Fresh tuna steaks;
Frozen, surimi-based, imitation king crab
° Set up the HACCP Plan Form;
legs;
° Set critical limits;
Fresh, raw drum, in-the-round;
° Establish monitoring procedures:
Raw shrimp, in-shell;
What, Raw, shucked clams;
How, Fresh seafood salad, with shrimp and blue
Frequency, crabmeat;
Frozen, breaded pollock sticks;
Who;
Frozen crab cakes.
° Establish corrective action procedures;
Describe the packaging type.
° Establish a recordkeeping system;
Examples:
° Establish verification procedures.
Vacuum-packaged plastic bag;
Aluminum can;
Bulk, in wax-coated paperboard box;
Plastic container with snap lid.
Record this information in the space provided
on the first page of both the Hazard Analysis
Worksheet and the HACCP Plan Form.

CHAPTER 2: Conducting a Hazard Analysis and Developing a HACCP Plan

22
STEP 3: Describe the method of distribution STEP 5: Develop a flow diagram.
and storage.
The purpose of the diagram is to provide a
Identify how the product is distributed and stored clear, simple description of the steps involved in
after distribution. the processing of your fishery product and its
associated ingredients as they “flow” from receipt
Examples:
to distribution. The flow diagram should cover
Stored and distributed frozen; all steps in the process that your firm performs.
Distributed on ice and then stored under Receiving and storage steps for each of the
refrigeration or on ice. ingredients, including non-fishery ingredients,
Record this information in the space provided should be included. The flow diagram should be
on the first page of both the Hazard Analysis verified on-site for accuracy.
Worksheet and the HACCP Plan Form. Figure A-1 (Appendix 2) is an example of a flow
diagram.
STEP 4: Identify the intended use and
consumer. HAZARD ANALYSIS WORKSHEET
Identify how the product will be used by the end
user or consumer. STEP 6: Set up the Hazard Analysis
Examples: Worksheet.
To be heated (but not fully cooked) and Record each of the processing steps (from
served;