Sawfish CSI: using DNA to unravel the past and protect the future
Dr Nicole Phillips and Kelcee Smith
The
most distinct part of a sawfish is undeniably its saw. But this saw is also the
Achilles heel of the sawfish, because it makes this iconic creature so
susceptible to capture in fishing lines or nets and valued as trophies by
recreational fishers. It is largely agreed on by experts that sawfishes have
undergone substantial declines in range and abundance due to human activities,
but the evidence for these declines is largely anecdotal. There is little
information regarding past abundances of most sawfish populations, and it would
seem impossible to go back in time to determine how large sawfish populations
may have once been. It also seems impossible to know how ‘healthy’ these past
populations were compared to the sawfish populations of today. But is it
impossible? And why is it important to compare past and present populations of
sawfishes?
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| A historic photo of a large number of sawfish captured by fishers. |
Declines
in abundance are typically also accompanied by declines in genetic diversity.
Genetic diversity, in essence, is variations in DNA sequences, and when talking
about genetic diversity in populations, this refers to animals in a population with
different DNA sequences. Maintaining moderate to high levels of genetic
diversity in a population is important because it allows a population to change
and adapt to changes in the environment. Populations that have undergone
drastic and sudden declines in abundance tend to have lower levels of genetic
diversity, which may be less ‘fit’, more susceptible to disease, and less able
to adapt in a changing environment. If a
population is very small, there may also be a risk of inbreeding, which is when
close relatives mate and produce offspring that could have reduced fitness and possible
birth defects, such as deformities.
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| These peppered moths are the same species but differences in their DNA sequence has resulted in different physical appearances, making each more 'fit' or better suited for different environments. Genetic differences within a population may be relatively small and are not always observable. |
It is important to have an understanding of the
levels of genetic diversity in present day sawfish populations so we can identify
and protect populations that are genetically less diverse. It is also important to understand how the levels of genetic
diversity in present sawfish populations compare to those in the past to determine if these levels have
declined over time. We are fortunate to
have old sawfish saws available in museums, and sometimes in private
collections, as these saws can be used as a resource for studying past sawfish populations. Some of these
saws date back to the 1800’s and are the only remaining evidence that sawfish
once existed in certain locations around the world. These old saws not only provide insights into
the levels of genetic diversity of past populations, but the DNA can even be used
to estimate past population sizes, which can be compared to current day sawfish
population sizes to look for evidence of declines in abundance.
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| A sawfish saw that was kept as a fishing trophy. |
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| Dr. Phillips taking tissue samples from an old sawfish saw in northern Australia. |
Dr. Sabrina
Taylor and Kelcee Smith at Louisiana State University are currently tackling the
question of whether there has been a loss of genetic diversity, and by extension,
effective population size in the smalltooth sawfish (Pristis pectinata) in Florida. They are
collaborating with scientists from the National Marine Fisheries Service (NMFS)
and the Field Museum of Natural History. The smalltooth sawfish is currently the only species of
sawfish found in U.S. waters and is listed as Endangered (since 2003) under the
Endangered Species Act. If this research finds that there has been a
substantial loss in genetic diversity over time, then management efforts should focus on maintaining and increasing abundances of these sawfish, particularly
in a variety of locations and habitats across their distribution in Florida.
These
research projects may demonstrate
that genetic diversity in sawfish populations have declined, indicating that there
have been substantial decreases in abundance of sawfishes. Alternatively, we may
find that the current levels of diversity have been maintained throughout the
1900’s despite the anecdotal evidence of large declines
during this time period. Regardless, the opportunity to use sawfish saws in
genetic analyses provides us with a glimpse into the past and provides
information vital to the conservation and recovery of these sawfish species.
