Abstract
Market-size catfish under harvest.
Photo by Peggy Greb
Photo courtesy of USDA/ARS |
Aquaculture—the cultivation of fish and aquatic animals and plants—is expanding to meet consumer demand. This publication surveys the important considerations for planning an aquaculture enterprise. It will help you identify the production system, species, and marketing strategy most appropriate to your situation. The wide range of cultured species and production methods makes it impossible to provide a full discussion of aquaculture in a single document of this kind. Determining the best aquaculture enterprise for you will require considerable research, beginning with the list of resources and contacts listed in the Further Resources section and in the four Appendices.
Table of Contents
Introduction
Aquaculture has received considerable
interest because of increased consumer
demand for fish and shellfish,
and a declining fisheries catch. Aquaculture
is expanding to exploit the resulting market
potential. However, aquaculture producers
must compete with wild-harvested products,
as well as other farm-raised and imported
products, in a very competitive market that
includes other protein sources, such as beef,
pork, and chicken.
Many of your decisions will depend on what
you want to do with your aquaculture enterprise.
Will it be a small part of your farming
operation, or are you looking to become
a full-time aquaculturist? But whether
it is a small or a full-time operation, you
will need to treat it as a business to make a
profit. As in all businesses, you will need
to acquire knowledge, have working capital,
and provide labor and management.
In the article The Small Fish Farmer—Is
There a Niche?, James W. Avault, Jr., Louisiana
State University Professor Emeritus of
the Aquaculture Research Station, explains
that farming an aquaculture species has
many similarities to crop farming.
Simply put, aquaculture is agriculture. A simple comparison of steps involved in corn production and channel catfish farming follow:
Corn Production: 1. Secure funds to begin; 2. Plow ground; 3. Plant seeds; 4. Fertilize soil; 5. Control weeds and insects; 6. Control parasites and disease; and 7. Harvest, process, market.
Catfish Farming: 1. Secure funds and permits to begin if needed; 2. Build ponds and get a source of water; 3. Stock fingerlings; 4. Fertilize pond water and/or feed fish, and maintain good water quality; 5. Control weeds, wild fish, and pests; 6. Control parasites and diseases; and 7. Harvest, process, market. Once these concepts are understood, you must establish goals and preferably put them in writing….Once you visualize short- and long-range goals, a feasibility study should be conducted. Begin with a checklist. A partial list might include: which species to culture, where to locate, any legal constraints, marketing potential, profit outlook, and other aspects. (Avault, 2002)
The Aquaculture Site Evaluation Questionnaire from West Virginia University
Extension can be used to help determine
whether your proposed aquaculture operation will meet the basic requirements
for both natural and personal resources necessary
to operate successfully.
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Motivation and Goals
To begin, you need to ask yourself why you
want to start an aquaculture enterprise—
what are your goals? The goal of a subsistence
enterprise is to produce the amount
of fish needed by a family at minimum
cost; whereas the goal of a commercial
enterprise is to produce the greatest profit
with the available resources. Farm diversification
is a common goal of many aquaculturists.
Most aquaculture experts advise
prospective aquaculturists to set modest
initial goals (with lower resource requirements)
and expand them as they gain
experience. This advice can be followed
by starting with a small-scale subsistence
enterprise and gradually expanding it into a
small commercial operation for farm diversification.
Eventually, if the success of the
aquacultural enterprise warrants, commercial
aquaculture could become the main
farm activity.
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Organic Aquaculture
Consumer concerns over reports of contaminants
in farmed and wild seafood is leading
to increased interest in organic fish and
seafood. However, as of July 2005, there
are no organic aquaculture standards other
than the general USDA National Organic
Program (NOP) standards for organic livestock
production. The NOP standards,
including livestock standards, are available
at www.ams.usda.gov/nop/NOP/standards/StandardsNoScript.htm. These NOP livestock
standards must be followed for any
animal or product sold with the USDA
organic seal.
The Alternative Farming Systems Information
Center (AFSIC) at the USDA National
Agriculture Library published the document
Organic Aquaculture AFSIC Notes #5
in January 2005. It states:
Defining “organic aquaculture” is very much a work-in-progress and, for many reasons, an endeavor marked by controversy. Members of both the organic and the aquaculture communities disagree on how, or even if, aquatic animal and plant production systems can qualify as “organic” as the term is commonly used. Any potential definition must be a multi-faceted one. “Organic” in the context of food production connotes standards and certification—a verifiable claim for the production process and production practices—as well as more elusive characteristics such as consumer expectation for food quality and safety and general environmental, social, and economic benefits for farmers and for society. The variety of species produced in aquacultural systems and vast differences in cultural requirements for finfish, shellfish, mollusks, and aquatic plants add to the complexity of defining this sector. Some species and some production systems may prove quite difficult to adapt to a traditional “organic” system….
Interpreting practices and standards developed for terrestrial species into practices and standards relevant to aquatic species, both animal and plant, remains a major challenge for organic aquaculture. How can aquatic operations comply with the requirements for an organic system plan, for obtaining acceptable stock, for implementing health care monitoring and management, for maintaining prescribed “living conditions,” for development and acceptance of allowed and prohibited substances lists, for organic feed requirements, for controlled post-harvest processing, for nutrient management, and for required animal identification and recordkeeping?
(Boehmer et al., 2005)
Even if there are no official NOP organic
aquaculture standards, the 2001 National
Organic Standards Board’s (NOSB) Aquatic
Animal Task Force did make some recommendations. However,
it is important to remember that the NOSB
recommendations are not official until
they have been approved and adopted by
the USDA.
In addition, the NOP created the Aquatic
Animals Task Force—Aquaculture Working
Group in 2005 to provide recommendations.
The list of members on this
task force is at www.ams.usda.gov/nop/
TaskForces/AquaticAnimals.html.
For the interval, until official aquaculture
standards are approved, the USDA National
Organic Program has issued a Guidance
Statement (April 13, 2004), Topic Area—
National Organic Program Scope, explaining
that the Organic Foods Production Act
(OFPA) does provide coverage for aquatic
animals. The Guidance Statement says:
Fish and seafood, farm-raised or wildcaught. Although OFPA provided coverage for aquatic organic standards, NOP has not developed any standards for proposal to the public for comment.
The products listed above may not display the USDA organic seal and may not imply that they are produced or handled to the USDA NOP standards. Consumers should be aware that the use of labeling terms such as “100% organic,” “organic,” or “made with organic ingredients” on these products may be truthful statements. But these statements do not imply that the product was produced in accordance with the USDA NOP standards nor that the producer is certified under the NOP standards. |
This means that even if there are no
national standards for organic aquaculture,
organic certifying agencies that have aquaculture
standards and are accredited by
USDA may certify aquaculture products as
organic, but the products are not allowed to carry the USDA organic label. So, if you
are interested in pursuing an organic label,
you will need to find an accredited organic
certifying agent that has aquaculture standards.
The list of USDA accredited certifying
agents is listed at www.ams.usda.gov/
nop/CertifyingAgents/Accredited.html.
At this writing (2005), there are only
two certified organ ic aquaculture
operations in the United States, both
shrimp farms. OceanBoy in Florida and Permian Sea
in Texas
are both certified by Quality Certification
Services (QCS).
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Natural and Personal Resources
Natural resources such as water, land, soil,
and climate strongly influence the choice of
species and production system. Abundant,
high-quality water is usually the single most
crucial resource. Land can be limiting if
the topography is not favorable for the construction
of ponds, or if land is dedicated
to other productive uses. Soil properties
must be considered in pond construction,
and soil fertility will influence pond productivity.
Climate does not limit the scale of
aquaculture, but it does determine the species
that can be grown (except in the case
of closed-system aquaculture technology
described below).
Production resources—capital, labor,
and time—influence the choice of production
system and species. Generally,
the more intensive the production system (i.e.,
the more fish grown per volume of water),
the more capital, labor, and time required.
For example, lightly stocked farm
ponds practically take care of themselves,
while closed systems need almost
continuous monitoring.
Producer organizations are valuable sources of information about markets and marketing. |
Industry resources—including supplies, services,
and markets—are well developed in
some parts of the country for certain types
of aquaculture. For example, in the Mississippi
Delta Region, there are many catfish
feed manufacturers and catfish processing
facilities and a strong producer association
that supports marketing to promote catfish
consumption. If aquaculture of certain
species is less well developed in other parts
of the country, the aquaculturists in these
areas must be very resourceful. Producer
organizations are valuable sources of information
about markets and marketing.
In order for an aquaculture enterprise
to remain viable and profitable, it must
be environmentally sound. Environmental
issues, such as safety of fish and seafood;
water pollution by excess nutrients;
destruction of coastal habitats; and damage
to natural fish stocks by accidental release
of farmed, exotic, or bio-engineered species,
are major concerns for many consumers
and need to be addressed by the
aquaculture industry.
Technical resources, information, and
expertise are critical to aquaculturists. Environmental and disease problems can develop quickly and threaten an entire
crop. Quick access to professional diagnostic
services such as fish disease labs can
salvage a threatened batch of fish. Contact
your county Extension Service for information
about aquaculture in your area and for
contact information for the state Aquaculture
Specialist. Other sources of information
are your state’s Sea Grant program,
Regional Aquaculture Centers, or other
federal sources of information (see Further
Resources section for more details) about
the programs and services available in your
state or region.
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Regulatory Aspects
In the article “Legal Considerations in
Commercial Aquaculture,” James W. Avault,
Jr., Louisiana State University Professor
Emeritus of the Aquaculture Research
Station, discusses the history of laws
governing aquaculture.
Historically, wildlife and fisheries have been regulated and monitored by the U.S. Fish and Wildlife Service at the federal level and by departments of wildlife and fisheries at the state level. At both levels, laws and regulations have focused on wild populations of game and fish. As aquaculture developed in the United States, many of these laws were at odds with it. The cottage industry of aquaculture was put under the jurisdiction of federal and state agencies that historically regulated wild populations. In 1976, for example, the National Aquaculture Act recognized aquaculture as an emerging industry, but the Act placed the jurisdiction jointly with the U.S. Fish and Wildlife Service and the U.S. Department of Commerce. The U.S. Department of Agriculture was designated in a supportive role. Eventually, the U.S. Department of Agriculture was designated the lead agency for aquaculture, whereas at the state level the transition to state agriculture departments has been slower. (Avault, 2004)
Make sure that you get all state and/or federal
permits or licenses required for an
aquaculture operation in your locale. The
permit type will vary, depending upon the
species grown, culture techniques, local zoning
ordinances, public or private water use
and discharge regulations, land designated
wetland or coastal zone, and marketing
strategy. Contact your state agencies concerned
with environment, natural resources,
and agriculture for more information on the
requirements in your state and locale. The
National Association of State Aquaculture
Coordinators (NASAC) has a Directory
of State Aquaculture Coordinators. The State Coordinators are
responsible for coordinating aquaculture
programs at the state and territorial levels.
Producers need to know the laws that apply to all aspects of the aquaculture operation, including species under consideration. |
Your state Extension Aquaculture Specialists
or state fisheries department may also
be able to assist you. Remember, producers
need to KNOW THE LAWS THAT
APPLY TO ALL ASPECTS OF THE AQUACULTURE
OPERATION, INCLUDING SPECIES
UNDER CONSIDERATION. Without
proper permits, interstate transport
of a threatened or endangered species,
or a species identified as an invasive
pest fish or plant, is punishable by fine
or imprisonment.
Many federal programs work with various
aspects of aquaculture regulations,
assistance, and research. The USDA, the
Department of Commerce (DOC), the Food
and Drug Administration (FDA), and the
U.S. Department of Interior Fish and Wildlife
Service (FWS) all have certain areas of
responsibility to the aquaculture industry.
The Alternative Farming Systems Information
Center (AFSIC) at the USDA National
Agriculture Library has the Internet links for most of the U.S. Federal Government
Agencies dealing with aquaculture.
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Species
There are about 60 potential aquaculture
species that can be used for food. (Cline,
2005) The main species being raised and
marketed in the United States are channel
catfish, trout, salmon, crawfish, tilapia,
and bait species. Whatever the species
you finally decide on, you need to have
a good knowledge of their biology in order
to understand all their environmental requirements and to determine whether a
problem is developing.
Rainbow trout fingerlings.
Photo by Stephen Ausmus
Photo courtesy of USDA/ARS. |
Coldwater species such as trout and salmon
can be successfully farmed wherever water
temperature does not consistently exceed
75°F. This usually limits production of coldwater species to northern states and
mountainous areas, including the southern
Appalachians, Ozark Highlands, Rocky
Mountains, and Pacific Coast Ranges.
Idaho, North Carolina, and California are
the top three trout-producing states, and
Washington and Maine are the largest
producers of salmon. Coldwater species
can also be grown anywhere adequate cold
groundwater is available. Coolwater species
such as walleye, perch, sturgeon, and
certain shellfish tolerate warmer water than
coldwater species, but their growth is inhibited
at the optimal-growth temperatures of
warmwater species.
Striped bass.
Photo by Gerald Ludwig
Photo courtesy of USDA/ARS |
Warmwater species such as channel catfish,
striped bass, paddlefish, and most shellfish need warm water over a relatively long
growing season to be economically practical.
Some tropical exotics such as tilapia
die at water temperatures below 50° and
so can only be grown during the warm
months in most of the South or in thermal
waters elsewhere. Egg and fingerling
production has emerged as a specialty
operation in the maturing aquaculture
industry. Hatchery facilities, especially
in the South, can provide advanced
fingerlings to more northerly producers
with marginal growing seasons. Larval and immature shellfish
are also produced in
hatcheries. Hatchery
techniques are
complicated and have
many special requirements;
therefore, they
are not recommended
for the beginning
aquaculturist.
Bait production is a
very large component
of the aquaculture
industry in the United
States. Louisiana,
Minnesota, Florida,
and Arkansas are
all large producers
of bait and ornamental
species. Minnows,
suckers, goldfish, and
crawfish are some of
the commonly grown
bait animals. Sometimes
bait species
can be raised along
with food species.
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Production Systems
Extensive aquaculture is conducted
in ponds stocked at a low density that yield
small crops, but require little management.
Intensive aquaculture is practiced in
artificial systems (ponds, cages, raceways,
and tanks) stocked at a high density
that yield large crops, but require a lot
of management.
Open systems allow water to flow through
them without reusing the water. Generally,
the more intensive an aquaculture system,
the more water must flow through it. In
open systems, discharged water is lost from
the system. Because water, as well as the
cost to pump it, is becoming more of a limiting
factor, technologies that reuse part or
all of the water are being developed.
Closed systems recirculate and recondition
all of the water used, largely freeing aquaculturists
from water supply constraints.
Closed systems have the potential to allow the production of almost any species anywhere,
provided the market price can pay
for the capital and energy requirements of
the system.
Pond aquaculture is the most commonly
practiced. Most large-scale aquaculture
farmers construct levee-type ponds, but
these require large amounts of relatively
level land. Many small-scale and a few
large-scale aquaculture farms use watershed
ponds. Your local office of the Natural
Resources Conservation Service (NRCS)
will provide technical assistance for pond
siting and construction. The University of
Arkansas at Pine Bluff Aquaculture and
Fisheries Web site has the publications Recreational Fishing in Small Impoundments:
Alternative Management Options and Farm Pond Management for Recreational
Fishing.
Marketing strategy is one of the most important aspects of an aquaculture business. |
Cage culture, the growing of aquatic animals
in floating or anchored net confinements,
can be used in farm ponds or other
existing water bodies that are otherwise
unsuitable for aquaculture. Cage culture
is often more compatible with other uses of
the farm pond. Cages can be used to alternate
warmwater and coldwater species in
the same pond.
Tank culture, both open and closed systems,
can be adapted to a wide range
of species and situations. Tanks made
of steel, fiberglass, or plastic can be dismantled
and reassembled for transporting
or relocating. Advantages of tank culture
include minimal land requirements,
portability, and ease of expansion. Tanks
can be located indoors to reduce climate limitations.
High equipment cost, especially in
closed systems, is the main disadvantage of
tank culture.
Raceways—long, narrow canals with large
flows—are the most widely used production
system for the intensive culture of salmon,
trout, and charr.
Rotation systems, alternating aquatic and
field crops in levee-type ponds, can benefit
both aquacultural and agronomic crops.
Crawfish-rice and crawfish-rice-soybean
rotations are commonly practiced, but
other aquaculture-agriculture rotations have
been largely neglected, even though there is
much potential for beneficial rotation effects
in such systems. Rotation benefits are
similar to those seen in other agricultural
systems: disease and weed suppression,
reduced fertilizer and chemical inputs,
and increased biodiversity (due to the
mix of aquatic and terrestrial habitats in
the landscape).
Integrated, multiple-use systems
incorporating fish, livestock, fowl, and
horticultural production are widely
practiced in some parts of the world, but
they have been largely neglected in the
U.S. The beneficial interactions between
the different elements of such a system help
to reduce purchased inputs. Development
of polyculture in commercial U.S.
aquaculture will require finding appropriate
combinations of marketable species. Many
species used in the sophisticated polyculture
systems of Asia (e.g., various carps) are not
well accepted as food items here.
Integrated aquaculture and hydroponics—
termed aquaponics—is a subject receiving
increasing attention in the U.S. Beneficial
interactions between aquacultural and
hydroponics operations reduce some inputs,
but such technologies are capital intensive.
See ATTRA’s Aquaponics: Integration of
Hydroponics with Aquaculture for more
information on aquaponics.
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Marketing
Marketing strategy is one of the most
important aspects of an aquaculture
business. When you choose the species
you will be farming, you need to consider
the market price for it. It is important to
identify a reliable market, and even a
backup market, before making capital
investments in aquaculture. In the Langston
University publication Is Fish Farming for
Me?, the authors state, “The most often
asked question, ‘are there profits to be
made in aquaculture?’ requires a qualified answer. Yes, aquaculture can be profitable
IF the fish farmer has the right natural
resources, good management abilities
and sufficient capital available for
investment in the enterprise.” (Gebhart
and Williams, 2000)
As David J. Cline, an Extension Aquaculturist
at Auburn University, suggests in
an article entitled “Marketing Options for
Small Aquaculture Producers,” innovative
marketing can be the key to financial success
or failure.
Most producers would like to sell to one of two high-volume buyers such as a processing plant or distributor. This is a good marketing strategy if you are producing large quantities of fish. However, small-scale producers are not in the same economic level as larger producers are and, therefore, must usually sell for a higher price to remain profitable. Their best option is to establish niche markets for their products.
Niche markets have advantages and disadvantages. The main advantage in niche marketing is that producers become wholesalers, and, in some cases, retailers. Consequently, producers have more control over the prices they set for their products, and retain some portion of the profit, that otherwise would have gone to the middlemen. The main disadvantage of niche marketing is that considerable time must be spent analyzing and developing these markets. (Cline, 2005)
A successful niche marketing aquaculture
enterprise will need to exploit markets that
are not in direct competition with large-scale
aquaculture. Some of these niche
markets include selling fingerlings to other
producers; selling live or processed fish
to restaurants, grocers, ethnic markets, or
live for pond stocking; fee fishing or pay
lakes for food-size sport fish; bait fish; and
ornamental fish or aquatic plants.
Finding niche markets can be confusing,
but careful evaluation and a good understanding
of market requirements will help
producers develop marketing plans that will
fit their needs. Kenneth Williams, Langston University Fisheries Extension Program,
states in his publication Marketing Fish
in Oklahoma:
It is much more profitable to determine market demand and plan production accordingly. Raising a crop of fish first and then looking for places to sell it can result in low or no profit. To determine possible markets; begin with an inventory of your operation. Ask yourself the following questions:
- What kinds of fish can I produce?
- How many pounds of fish can I produce?
- Can fish be delivered throughout the year, or in annual batches?
- Can I tailor production schedules to produce the size of fish required for market?
- Can I transport live or processed fish?
- Is fee fishing a possibility?
- Is a processing plant located nearby?
- Am I willing to process fish? Do I have the equipment and labor force necessary?
- Can I produce fingerlings, food-size fish or a combination?
(Williams, 2000)
It is much more
profitable to
determine
market demand and
plan production
accordingly. |
Market price will vary with each marketing
strategy. Live fish sold directly to the consumer
usually bring the highest price, but
this requires much time and interaction with
the public. Live fish sold to processors usually
bring the lowest market price, but large
volumes and specific, short harvest times
somewhat offset this price difference. Selling
processed fish is a value-added strategy
that can increase market options and market
price, but it also increases labor and regulatory
requirements. The Missouri Alternatives
Center Web site has pulled together
different aquaculture marketing documents. Click on A for Aquaculture, marketing listings.
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Business Planning
Business planning is crucial to success
for both new and established enterprises.
Going through the planning process
increases the chances for success and helps
avoid costly mistakes. It can be very helpful
to have your plan evaluated by several
people to make sure that you haven’t missed any vital components or issues. This critical
evaluation will also be helpful when presenting
the plan to lenders or other potential
funders, because many financial institutes
require a formal business plan. A business
plan should be a working document that is
reviewed and updated at least a couple of
times a year.
There is a great deal of information and
assistance available for writing and using
business plans. Every state has Small Business
Development Centers and Cooperative
Extension offices that offer such assistance,
as do many state economic development
agencies. However, many producers would
like to have business plan examples and
other information that is specific to aquaculture.
The Missouri Alternatives Center
Web site has pulled together different aquaculture
business planning documents. Click on A for Aquaculture,
business plan listings.
The ATTRA publication Agricultural
Business Planning Templates and Resources does not tell you how to write a business
plan, but it does refer you to sources of
business planning information and
assistance that are more relevant to the
smaller scale or alternative agricultural/
aquacultural entrepreneur.
The Minnesota Institute for Sustainable
Agriculture publishes the 280-page Building
a Sustainable Business—A Guide to
Developing a Business Plan for Farms and
Rural Businesses. This guide will help
develop a detailed business plan and
looks at ways to take advantage of new
marketing opportunities. It is available
on-line at www.misa.umn.edu/vd/bizplan.html or can be purchased from:
Minnesota Institute for Sustainable
Agriculture
411 Borlaug Hall
1991 Upper Buford Circle
St. Paul, MN 55108
800–909–MISA (6472)
misamail@umn.edu
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Summary
There are many opportunities in the
dynamic and expanding aquaculture industry.
However, aquaculture has risks similar
to those of any farming enterprise. The
information provided here highlights many
important factors to consider before proceeding
with an aquaculture enterprise.
Should you decide to proceed with an aquacultural
enterprise, remember that technical
resources, information, and expertise are
critical to aquaculturists. Potential aquaculturists
should get information about the
specific cultural techniques and fish species
they are interested in. They should also
develop contacts with many associations
and government agencies (such as fish disease
labs) to get assistance if needed.
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Further Resources
Many electronic resources are available
to beginning aquaculturists. Excellent
starting locations are the Aquaculture
Network Information Center (AquaNIC)
Home Page and the
Delaware Aquaculture Resource Center’s
AquaPrimer: Introduction to Aquaculture. Search engines
such as Yahoo can also be used to locate
other lists on the World Wide Web.
Many federal and state agencies such as the
Cooperative Extension Service, Fish and
Wildlife Service, Department of Agriculture,
and Natural Resources Conservation
Service (NRCS) provide technical and diagnostic
services, as well as publish information
on specific aquaculture topics.
In the 1980s, the USDA established five
regional Aquaculture Research and Development
Centers. These centers develop
research and Extension education programs
and publications in aquaculture having
either regional or national applications.
These centers work in association with universities,
colleges, state agencies, and private
industry to address research priorities
and technology transfer of new research
findings. For more information about your Regional Aquaculture Center or its publications, contact
your Regional Center listed in Appendix I.
The National Sea Grant Program is a partnership
between universities and the National Oceanic and
Atmospheric Administration (NOAA) that started
in 1966. Today, the Sea Grant University programs
produce and share research information on problems
and new uses for the world's marine, Great Lakes,
and coastal resources. For more information, contact
your state's Sea Grant Program listed in Appendix II or visit the National Sea Grant Program Web site.
The Alternative Farming Systems Information Center
(AFSIC) at the USDA National Agriculture Library
(NAL) is another excellent source for aquaculture information.
The AFSIC serves as a national clearinghouse
for aquaculture information and provides materials to a
variety of clientele, including farmers, government agencies,
industry personnel, and prospective farmers. The
AFSIC has Internet links for most of the U.S. federal
government agencies dealing with aquaculture. The AFSIC
created the 48-page Organic Aquaculture AFSIC Notes
#5 in 2005. The document is available from AFSIC in
print or at their Web site. For more information about
AFSIC contact:
Alternative Farming Systems Information Center
USDA, ARS, National Agricultural Library
10301 Baltimore Ave., Room 132
Beltsville, MD 20705-2351
301–504–6559
301–504–6409 FAX
afsic@nal.usda.gov
Reference books and textbooks are useful sources of
general and technical information on various aspects of
aquaculture. Many of these are available at public and
university libraries or through inter-library loan. Additional
sources of books on aquaculture are local bookstores
and aquaculture book suppliers (see list of book
dealers in Appendix III).
Aquaculture periodicals, journals, newsletters, and
magazines are good sources on all aspects of up-todate
research and recent developments covering various
topics in aquaculture.
An excellent magazine is the bi-monthly Aquaculture
Magazine, dealing with all aspects of aquaculture.
Their Annual Buyers Guide and Industry Directory is an
excellent reference, providing information for all
people interested in aquaculture, from the expert to the
novice. An annual subscription to Aquaculture
Magazine, which includes the Annual Buyers Guide and
Industry Directory, is $24.00, or just the Annual Buyers
Guide and Industry Directory for $22.00. They are
available from:
Aquaculture Magazine
Subscription Department
P.O. Box 1409
Arden, NC 28704–9817
828–687–0011
828–681–0601 FAX
editor@aquaculture.com
There are also many state, regional, national, and
international professional and/or industry associations
that deal with aquaculture development. Many
of these associations have newsletters and other publications
available. For information on membership,
annual dues, and other services available,
contact the associations directly. Many of these associations
are listed on the electronic AquaNIC Web site, or in the Aquaculture Magazine
Annual Buyer's Guide.
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References
Avault, Jr., James W. 2004. Legal considerations
in commercial aquaculture. Two-part series.
Aquaculture Magazine. January-February,
March-April. p. 52-55, 55-58.
Avault, Jr., James W. 2002-3. The small fish
farmer—Is there a niche? Three-part series.
Aquaculture Magazine. September/October,
November/December, January/February.
p. 44-48, 48-50, 56-58.
Boehmer, S., M. Gold, S. Hauser, W. Thomas, and A.
Young. 2005. Organic Aquaculture AFSIC
Notes #5. USDA, ARS, National Agricultural
Library. January. 46 p.
www.nal.usda.gov/afsic/afsaqua.htm.
Cline, David. 2005. Marketing options for small
aquaculture producers. Aquaculture Magazine.
March/April. p. 24-32. www.aces.edu/dept/fisheries/education/ras/publications/busmark/MarketingOptions
forSmallProducersANR962.pdf. (PDF / 205 K)
Gebhart, Glen, and Kenneth Williams. 2000. Is
Fish Farming for Me? Langston University
Extension. 6 p.
www.luresext.edu/aquaculture/isfishfarmingforme.htm.
Williams, Kenneth. 2000. Marketing Fish in Oklahoma.
Langston University Extension. 4 p.
www.luresext.edu/aquaculture/marketingfishinoklahoma.htm.
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Appendix I: List of U.S. Regional Aquaculture Centers
Center for Tropical and Subtropical Aquaculture
The Oceanic Institute
41-202 Kalanianaole Hwy.
Waimanalo, HI 96795
808–259-3168
808–259-8395 FAX
North Central Regional Aquaculture Center
Michigan State University
13 Natural Resources Bldg.
East Lansing, MI 48824-1222
517–353-1962
517–353–7181 FAX
Northeast Regional Aquaculture Center
University of Massachusetts Dartmouth
Violette Building, Room 201
285 Old Westport Road
Dartmouth, MA 02747-2300
508–999–8157
866–472–6722 (toll-free)
508–999–8590 FAX
Southern Regional Aquaculture Center
127 Experiment Station Road
P.O. Box 197
Stoneville, MS 38776
662–686–3285
662–686–3320 FAX
Western Regional Aquaculture Center
School of Fishery & Aquatic Science
Box 355020
University of Washington
Seattle, WA 98195-5020
206–543–4291
206–685–4674 FAX
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Appendix II: Sea Grant Programs
(From National Sea Grant Program Web page, July 2005)
The National Sea Grant Program is a partnership
between universities and the National Oceanic and
Atmospheric Administration (NOAA) that started in
1966. Today, the Sea Grant University programs produce
and share research information on problems and
new uses for the world’s marine, Great Lakes, and
coastal resources.
Mississippi-Alabama Sea Grant Consortium
LaDon Swann
703 East Beach Drive
P.O. Box 7000
Ocean Springs, MS 39566-7000
228–818–8843
228–818–8841 FAX
swanndl@auburn.edu
Alaska Sea Grant
Brian Allee
University of Alaska Fairbanks
P.O. Box 755040
Fairbanks, AK 99775-5040
907–474–7949
907–474–6285 FAX
allee@sfos.uaf.edu
California Sea Grant
Russell A. Moll
UC– San Diego
9500 Gilman Drive
La Jolla, CA 92093-0232
858–534–4440
858–534–2231 FAX
rmoll@ucsd.edu
University of Southern California Sea
Grant Program
Linda E. Duguay
3616 Trousdale Parkway - AHF 209F
Los Angeles, CA 90089-0373
213–821–1335
213–740–5936 FAX
duguay@usc.edu
Connecticut Sea Grant
Edward C. Monahan
University of Connecticut
108 Shennecossett Road
Groton, CT 06340-6097
860–405–9110
806–405–9109 FAX
edward.monahan@uconn.edu
Delaware Sea Grant
Nancy Targett
University of Delaware
Graduate College of Marine Studies
11 Robinson Hall
Newark, DE 19716-3501
302–831–2841
302–831–4389 FAX
ntargett@udel.edu
Florida Sea Grant
James C. Cato
University of Florida
Building 803
McCarty Drive
Box 110400
Gainesville, FL 32611-0400
352–392–5870
352–392–5113 FAX
jcato@mail.ifas.ufl.edu
Georgia Sea Grant
Mac V. Rawson
University of Georgia
220 Marine Sciences Building
Athens, GA 30602-3636
706–542–6009
706–542–3652 FAX
mrawson@uga.cc.uga.edu
Hawaii Sea Grant
E. Gordon Grau
University of Hawaii
2525 Correa Road, HIG 238
Honolulu, HI 96822
808–956–7031
808–956–3014 FAX
sg-dir@soest.hawaii.edu
Illinois-Indiana Sea Grant
William Sullivan
University of Illinois Urbana-Champaign
1101 W. Peabody Drive
350 NSRC, MC-635
Urbana, IL 61801
217–333–6444
217–333–8046 FAX
wcsulliv@uiuc.edu
Louisiana Sea Grant
Charles Wilson
Louisiana State University
239 Sea Grant Building
Baton Rouge, LA 70803-7507
225–578–6710
225–578–6331 FAX
cwilson@lsu.edu
Maine Sea Grant
Paul Anderson
University of Maine
5715 Coburn Hall, Room 14
Orono, ME 04469-5715
207–581–1435
207–581–1426 FAX
panderson@maine.edu
Maryland Sea Grant
Jonathan Kramer
University of Maryland
4321 Hartwick Road, Suite 300
College Park, MD 20740
301–403–4220
301–403–4255 FAX
kramer@mdsg.umd.edu
MIT Sea Grant
Chryssostomos Chryssostomidis
Massachusetts Institute of Technology
Building E38, Room 330
Kendall Square
292 Main Street
Cambridge, MA 02139-9910
617–253–7131
617–258–5730 FAX
chrys@mit.edu
WHOI Sea Grant
Judith E. McDowell
Woods Hole Oceanographic Institution
193 Oyster Pond Road, MS #2
Woods Hole, MA 02543-1525
508–289–2557
508–457–2172 FAX
jmcdowell@whoi.edu
Michigan Sea Grant
Donald Scavia
401 E. Liberty, Suite 330, TCF Building
Ann Arbor, MI 48104-2299
734–763–1437
734–647–0768 FAX
scavia@umich.edu
Minnesota Sea Grant
Carl Richards
University of Minnesota
208 Washburn Hall
2305 E. Fifth Street
Duluth, MN 55812-1445
218–726–8710
218–726–6556 FAX
crichard@d.umn.edu
Mississippi–Alabama Sea Grant Consortium
LaDon Swann
703 East Beach Drive
P.O. Box 7000
Ocean Springs, MS 39566-7000
228–818–8843
228–818–8841 FAX
swanndl@auburn.edu
New Hampshire Sea Grant
Jonathan Pennock
University of New Hampshire
142 Morse Hall
Durham, NH 03824-3517
603–862–3517
603–862–0243
jonathan.pennock@unh.edu
New Jersey Sea Grant
Michael P. Weinstein
New Jersey Marine Sciences Consortium
Building #22
Fort Hancock, NJ 07732
732–872–1300, ext. 21
732–291–4483 FAX
mweinstein@njmsc.org
New York Sea Grant
Jack S. Mattice
State University of New York
121 Discovery Hall
Stony Brook, NY 11794-5001
631–632–6905
631–632–6917 FAX
jmattice@notes.cc.sunysb.edu
North Carolina Sea Grant
Ronald Hodson
North Carolina State University 100B
1911 Building, Hillsborough Street
Campus Box 8605
Raleigh, NC 27695-8605
919–515–2454
919–515–7095 FAX
ronald.hodson@ncsu.edu
Ohio Sea Grant
Jeffrey M. Reutter
Ohio State University
1314 Kinnear Road, Room 100
Columbus, OH 43212-1194
614–292–8949
614–292–4364 FAX
reutter.1@osu.edu
Oregon Sea Grant
Robert Malouf
Oregon State University
322 Kerr Administration Building
Corvallis, OR 97331-2131
541–737–2714
541–737–2392 FAX
Robert.Malouf@orst.edu
Pennsylvania Sea Grant
Robert W. Light
Penn State Erie
Glenhill Farmhouse
5091 Station Road
Erie, PA 16563-0101
814–898–6160
814–898–6420 FAX
rwl2@psu.edu
Puerto Rico Sea Grant
Manuel Valdes-Pizzini
University of Puerto Rico
310 Physics Building
Mayaguez, PR 00681-9011
787–832–3585
787–265–2880 FAX
mavaldes@rumac.uprm.edu
Rhode Island Sea Grant
Barry A. Costa-Pierce
University of Rhode Island
Graduate School of Oceanography
129 Coastal Institute Building
Narragansett, RI 02882-1197
401–874–6800
401–789–8340 FAX
bcp@gso.uri.edu
South Carolina Sea Grant Consortium
M. Richard DeVoe
287 Meeting Street
Charleston, SC 29401
843–727–2078
843–727–2080 FAX
Rick.Devoe@scseagrant.org
Texas Sea Grant
Robert R. Stickney
Texas A & M University
2700 Earl Rudder Freeway South
Suite 1800
College Station, TX 77845
979–845–3854
979–845–7525 FAX
stickney@tamu.edu
Vermont Lake Champlain Sea Grant
Jurij Homziak
University of Vermont
317 Aiken Center
Burlington, VT 05405-0088
802–656–0682
802–656–8683 FAX
jhomziak@zoo.uvm.edu
Virginia Sea Grant
William L. Rickards
University of Virginia
Madison House
170 Rugby Road
P.O. Box 400146
Charlottesville, VA 22904-4146
434–924–5965
434–982–3694 FAX
rickards@virginia.edu
Washington Sea Grant
Louie S. Echols
University of Washington
Box 355060
3716 Brooklyn Avenue, N.E.
Seattle, WA 98105-6716
206–543–6600
206–685–0380 FAX
echols@u.washingon.edu
Wisconsin Sea Grant
Anders W. Andren
University of Wisconsin, Madison
Goodnight Hall, 2nd floor
1975 Willow Drive
Madison, WI 53706-1177
608–263–0905
608–262–0591 FAX
awandren@seagrant.wisc.edu
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Appendix III: Aquaculture Book Dealers
(From Aquaculture Magazine Buyer’s Guide & Industry Directory 2005)
Alternative Aquaculture
P.O. Box 109
Breinigsville, PA 18031
610–393–5918
610–395–8202 FAX
altaqua@ptd.net
AquacultureCX
13727 SW 152 Street, #299
Miami, FL 33177
305–972–2960
305–242–2225
office@aquaculture.cx
Aquatic Eco-Systems, Inc.
2395 Apopka Blvd.
Apopka, FL 32703
407–886–3939
877–347–4788 (toll-free)
407–886–6787 FAX
aes@aquaticeco.com
AVA Publishing Company Inc.
P.O. Box 84060
Baton Rouge, LA 70884-4060
225–763–9656
225–766–0728 FAX
AVApub@cox.net
CropKing, Inc.
5050 Greenwich
Seville, OH 44273-9413
330–769–2002
330–769–2616 FAX
pbrent@cropking.com
Florida Aqua Farms
33418 Old Saint Joe Road
Dade City, FL 33525
352–567–0226
352–567–3742 FAX
sales@Florida-Aqua-Farms.com
Miami Aqua-culture, Inc.
4606 SW 74 Avenue
Miami, FL 33155
305–262–6605
305–262–6701 FAX
dan@miami-aquaculture.com
Old World Exotic Fish
Box 970583
Miami, FL 33197
305–248–6640
305–245–4228 FAX
Seacoast Information Services Inc.
135 Auburn Drive
Charlestown, RI 02813
401–364–6960
401–364–9757 FAX
info@aquanet.com
Shrimp News International
10845 Scripps Ranch Blvd, Suite #4
San Diego, CA 92131
858–271–6354
858–271–0324 FAX
bob@shrimpnews.com
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Appendix IV: Names of Common Aquaculture Species
Common name |
Scientific name |
Common name |
Scientific name |
Abalone |
Haliotis rufescens |
Grass shrimp |
Palaemonetes spp. |
American alligator |
Alligator mississippiensis |
Killifish |
Fundulus spp. |
American bullfrog |
Rana catesbeiana |
Koi |
Cyprinus carpio |
American crocodile |
Crocodylus acutus |
Largemouth bass |
Micropterus salmoides |
American eel |
Anguilla rostrata |
Muskellunge |
Esox masquinongy |
American lobster |
Homarus americanus |
Paddlefish |
Polyodon spathula |
American oyster |
Crassostrea virginica |
Pearl oyster |
Pinctada martensii |
Artic char |
Salvelinus alpinus |
Pike |
Esox lucius |
Atlantic salmon |
Salmo salar |
Pink salmon |
Oncorhynchus gorbuscha |
Bigmouth buffalo |
Ictiobus cyprinellus |
Pompano |
Trachinotus carolinus |
Black buffalo |
Ictiobus niger |
Pumpkinseed |
Lepomis gibbosus |
Black crappie |
Pomoxis nigromaculatus |
Rainbow trout |
Oncorhynchus mykiss |
Bloodworm |
Glycera dibranchiata |
Red drum |
Sciaenops ocellatus |
Blue crab |
Callinectes sapidus |
Red swamp crawfish |
Procambarus clarkii |
Bluegill |
Lepomis macrochirus |
Shiner |
Notropis spp. |
Bowfin |
Amia calva |
Smallmouth bass |
Micropterus dolomieu |
Brine shrimp |
Artemia salina |
Spiny lobster |
Panulirus argus |
Brook trout |
Salvelinus fontinalis |
Steelhead |
Oncorhynchus mykiss |
Bull minnow |
Fundulus grandis |
Stone roller |
Campostoma spp. |
Carp |
Cyprinus carpio |
Striped bass |
Morone saxatilis |
Channel catfish |
Ictalurus punctatus |
Threadfin shad |
Dorosoma petenense |
Chinook salmon |
Oncorhynchus tshawytscha |
Tilapia |
Tilapia mossambica |
Chub sucker |
Erimyzon spp. |
Top minnow |
Poecilia spp. |
Coho salmon |
Oncorhynchus kisutch |
Tubifex worm |
Tubifex tubifex |
Dungeness crab |
Cancer magister |
Walleye |
Stizostedion vitreum |
European eel |
Anguilla anguilla |
White bass |
Morone chrysops |
European lobster |
Homarus grammarus |
White crappie |
Pomoxis annularis |
Flathead minnow |
Pimephales promelas |
White river crawfish |
Procambarus blandingii |
Giant river prawn |
Macrobrachium rosenbergii |
White sturgeon |
Acipenser transmontanus |
Golden shiner |
Notemigonus crysoleucas |
Yellow perch |
Perca flavescens |
Goldfish |
Carassius auratus |
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Aquaculture Enterprises: Considerations and Strategies
By Lance Gegner
NCAT Program Specialist
Paul Driscoll, Editor
Tiffany Nitschke, HTML Production
CT 142
Slot 26
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