Hi My Friends: A VUELO DE UN QUINDE EL BLOG., Study of new parasitic coral reef species advances understanding of factors influencing disease transmission in oceans
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President Barack Obama has one. Comedian Stephen Colbert has one.
Elvis Presley has one. Even computer software magnate Bill Gates has
one. And now, Bob Marley--the late popular Jamaican singer and
guitarist--also has one. So what is it that each of these luminaries
has? The answer: they each have a biological species that has been named
after them.
Paul Sikkel, an assistant professor of marine ecology
and a field marine biologist at Arkansas State University, discovered
and just named after Marley a "gnathiid isopod"--a small parasitic
crustacean blood feeder that infests certain fish that inhabit the coral
reefs of the shallow eastern Caribbean. Sikkel named the species Gnathia marleyi.
All of the life stages of Gnathia marleyi are described by Sikkel and his research team in the June 6th issue of Zootaxia. This research was partly funded by the National Science Foundation (NSF).
Sikkel
said, "I named this species, which is truly a natural wonder, after
Marley because of my respect and admiration for Marley's music. Plus,
this species is as uniquely Caribbean as was Marley."
Gnathia marleyi
is a new species within the gnathiid family, and the first new species
to be described in the Caribbean in more than two decades.
By concealing themselves within coral rubble, sea sponge or algae, juvenile Gnathia marleyi
are able to launch surprise attacks on fish and then infest them.
Sikkel explained that adult gnathiids do not feed at all. "We believe
that adults subsist for two to three weeks on the last feedings they had
as juveniles and then die, hopefully after they have reproduced."
There
have been increasing numbers of reports that the health of Caribbean
coral reef communities is declining due to diseases. "We are currently
researching the relationships between the health of coral reef
communities and gnathiid populations," said Sikkel.
"Gnathiids, in
general, are the most common external parasites found on coral reefs
and are ecologically similar to land-based blood-sucking ticks or
disease-carrying mosquitoes," Sikkel said. "Gnathiids live on the ocean
floor from pole to pole, and from shallow reefs to the abyss--and
everywhere between. They are also the most important food item for
cleaner fishes and thus key to understanding marine cleaning symbioses."
Sikkel
explained that his research group is interested in the combined
ecological effects of fishing pressure and reef degradation. "We suspect
that coral degradation leads to more available habitat for external
parasites to ‘launch attacks' on host fishes," he said. "And as the
number of potential host fish decreases, each remaining host will become
more heavily parasitized."
"Our current work is focused on how
changes in coral reef environments, such as coral bleaching, influences
interactions between hosts and parasites," said Sikkel. "We're including
in our studies any effects on cleaning organisms that remove parasites
from hosts."
About 80 percent of all organisms found on coral
reefs are parasites. The gnathiid isopods are among the most
ecologically important of them, according to biologists, because many
diseases afflicting desirable fish are either caused by, or are
transmitted by gnathiids. In addition, the immune system of fish also
depends on the overall health of coral reefs, which are known as the
"rainforests of the sea" because of their vast biodiversity.
At
the end of the day, it comes down to simple oceanic economics: the more
parasites there are, the fewer fish there are--at least until the
parasites run out of hosts to infect. And fewer fish in the sea can
cause significant losses to the populations that depend on them.
Studying
the effects of changes in sea-bottom communities associated with coral
and sponge diseases and their interactions among other species will
advance knowledge of blood-borne pathogens. Sikkel suspects that Gnathia marleyi may be a vector in transmission of these diseases.
Sikkel
says his team's current funding through NSF's Ecology and Evolution of
Infectious Diseases (EEID) initiative and Biological Oceanography is
enabling the team to study precisely which species of Caribbean reef
fish harbor these blood parasites. "We are determining the role of Gnathia marleyi,
which will help us understand the impacts of changes in coral reef
habitat on the transmission of a fish disease called haemogregarines--a
type of fish malaria that may weaken their immune systems through a
reduction in certain blood cells."
"Disease ecology is a rapidly
maturing field in marine science," said Michael Lesser, a program
director in NSF's Biological Oceanography Program. "To advance this
field, scientists must identify which organisms are the main players in
disease transmission in oceans."
Lesser continued: "With so much
marine diversity yet to be described, parasitic species don't always get
the attention they deserve. But Sikkell and his team have taken an
important step by helping to analyze the ecological effects of a
parasite on Caribbean coral reef fish populations by describing this
previously unknown species."
Sikkel initially discovered Gnathia marleyi
about 10 years ago in the U.S. Virgin Islands where it is relatively
common--so common, in fact, that Sikkel had assumed for years that the
species had previously been described. Nevertheless, compelled by a
hunch, Sikkel ultimately sent a specimen of the species to Nico J. Smit
of North-West University in South Africa, a member of Sikkel's research
team, who confirmed that the species had, in fact, previously been
overlooked by taxonomists. With the help of Whitney Sears, one of
Sikkel's students, the research team raised the isopod from its juvenile
stage through adulthood, a laborious task that was necessary because
most taxonomy descriptions of gnathiids are based on adult males, which
usually differ in appearance and other ways from juvenile gnathiids.
Specimens of Gnathia marleyi
will be housed indefinitely at the American Museum of Natural History
in New York City. "We are currently discussing with AMNH the possibility
of creating an exhibit featuring this species that could be viewed by
the public," said Sikkel.
Sikkel's research team includes Charon Farquharson of the University of Johannesburg in South Africa and Smit.
And
by the way, if you are wondering, President Obama has a lichen named
after him; Colbert has a beetle; Gates has a flower fly, and Elvis has a
wasp.
-NSF-
GuillermoGonzalo Sánchez Achutegui
ayabaca@gmail.com
ayabaca@hotmail.com ayabaca@yahoo.com
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