It’s simply impossible to accurately count each individual
fish swimming in the Gulf of Mexico, but not for lack of desire. The size,
depth, and diversity of the Gulf makes accounting for every single fish
unmanageable using current technology.
use fisheries-dependent data collection to monitor fish populations by tracking
harvest and fishing effort. While fisheries-dependent information is important
for management and plays a role in stock assessments, it has its limitations.
To use an analogy: you can’t estimate the amount of water in a well by simply
looking in the bucket. Likewise, you can’t assess a fish stock by simply
looking at what is being caught – you have to study the fish directly.
federal, and university-based fisheries scientists directly sample fish
populations in a variety of ways to collect information about the life history
and abundance of each species.
a species survives and reproduces plays a major role in its ability to sustain
a healthy population. Fisheries scientists use the following techniques to
study the life history of fishes in the Gulf of Mexico:
|Photo: Amy Piko|
An otolith is a bone found in the fish’s ear. Much like counting the rings of a
tree trunk, the age of a fish can be determined by counting the rings on an
otolith. This information, paired with information about the length of a fish,
is used to determine the growth rates of fish and estimate the percent of fish
at each age in a stock.
|Photo: Karen Burns|
Gonad Analysis –
Gonads, or the reproductive organs of a fish, can be analyzed to determine the
potential for spawning success. Reproductive information collected from gonads
includes the age at
which a fish first spawns, the male to female ratio within
a population, and the number of eggs produced by a female each year.
|Photo: Emily Muelstein|
A couple different techniques are used to study the death rates, growth rates,
and movement of fish. Scientists catch fish, tag them, and ask anglers who recapture
them to report information about location and size of the fish.
fitted with acoustic tags that monitor movement, or they are placed in
underwater cages and revisited after a few days time.
studies collect information on how many fish are in an area. The techniques
used to study abundance all measure the amount of fish caught per unit of
effort. When compared year after year, these studies can show trends in population
size and location.
Trawl Surveys – Researchers
pull large nets behind a research vessel and observers are sometimes placed aboard
shrimp vessels to monitor bycatch. These survey techniques are used mostly to estimate the amount of juvenile fish of a particular species that can potentially grow
large enough for harvest (often red snapper).
Traps – Baited
fish traps are placed in different types of habitat (artificial structures,
natural reefs, and sand bottom, among others) to compare which species are
present at each type of location.
SCUBA Divers survey different areas and count fish.
Video cameras are placed in different habitats to record and measure the amount
|Photo: Emily Muelstein|
Hook and Line –
Scientists also collect information about fish by fishing with standardized
gear and sometimes using electric reels. This is an effective way to collect
samples around structures that would interfere with nets and other types of
|Photo: Kathy Hoak|
Longlines – A
longline is a very long fishing line with multiple hooks branching off the main
Longlines can be miles long and rigged with hundreds of hooks at a time. Longlines
that fish vertically can be used around structure, but lines fished at the surface
or along the bottom are intentionally set to avoid it.
Plankton Tows –
Bongo nets are used to collect small organisms drifting in the water. Tiny fish
found in the plankton samples can indicate the number of young born each year,
and scientists can estimate their potential to grow into adults that can later
studies is vast, difficult to access, and exists in an ever-changing
environment. The wide variety of fisheries-independent and fisheries-dependent
studies performed in the Gulf of Mexico provide us with snapshots of different
aspects of the fishery. The conclusions drawn from each individual study have
value on their own, but assessing a stock throughout the entire Gulf requires a
combination of all of these studies in order to formulate a comprehensive
understanding of what’s going on.
individual studies for use in a Stock Assessment, which gives fisheries
managers the information they need on a stock’s status so they can make