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March 10, 2000
NC State Scientists Confirm Second Toxic Pfiesteria Species
FOR IMMEDIATE RELEASE
This image of Pfiesteria shumwayae in its zoospore stage is available by
e-mail from NC State News Services, 919/515-3470, or [EMAIL PROTECTED]
Scientists at North Carolina State University have confirmed the existence of
a second species of Pfiesteria, a toxic microbe linked to fish kills -- and,
in some cases, to human health problems -- along the mid-Atlantic coast.
Researchers from NC State�s Aquatic Botany Laboratory will present their
findings, including a description of the new species, Pfiesteria shumwayae,
on Saturday, March 11, at the Southeastern Estuarine Research Society (SEERS)
conference in Wilmington, N.C.
Dr. JoAnn M. Burkholder, NC State professor of aquatic botany and marine
sciences, says P. shumwayae is the second species identified from "the toxic
Pfiesteria complex," a group of closely related dinoflagellate marine
organisms believed responsible for killing millions of fish from the
Chesapeake Bay to the Gulf of Mexico.
"As our knowledge of these organisms grows and improved techniques become
available to detect them, we�ll probably identify a dozen separate species,"
said Burkholder, the world�s leading Pfiesteria expert. "We�re still just
knocking on the door with this discovery."
Burkholder co-discovered the first Pfiesteria species, Pfiesteria piscicida,
in 1989. "Piscicida" in Latin means "fish killer."
Research under Burkholder�s direction at the NC State Aquatic Botany Lab
found that P. shumwayae -- pronounced "shum-way-eye" -- is genetically and
structurally different from its better-known cousin, P. piscicida.
Additionally, the two species appear to respond somewhat differently to the
enrichment of nutrients that are often overabundant in coastal waters: P.
shumwayae appears to thrive best in waters with high levels of nitrogen,
while P. piscicida seems to prefer increased phosphorus levels, although both
nitrogen and phosphorus can stimulate it to grow.
Scientists first detected P. shumwayae -- which they suspected to be a new
species -- during a 1995 fish kill in North Carolina�s New River estuary,
following a major spill of effluent from a hog waste lagoon. During two years
of testing by Burkholder and associate Howard Glasgow Jr.�s lab, as well as
by an independent lab for careful corroboration, all the tests confirmed that
the organism is toxic.
Researchers have discovered other Pfiesteria "lookalike" organisms, but P.
shumwayae is the first truly Pfiesteria-like organism -- besides P. piscicida
-- to be found harmful to fish.
Burkholder said that the life cycle and behavior of P. shumwayae are
identical to those of P. piscicida. Like P. piscicida, the newly described
species has a complex series of life stages, most of which are nontoxic. "So
far, we�ve confirmed that 19 of its stages are similar to those of piscicida,
and we believe that it�s only a matter of time before we verify that the
other stages are also the same," she said.
Most of those stages are nontoxic in both species. In the presence of live
fish, however, several stages of both species generate toxins that stun the
fish and cause open sores on their skin; the microbes then feed on the fish
tissue and blood. Both also prefer to prey on the same kinds of algae when
fish are not available, and can "steal" plant-like organelles from algae to
masquerade as microscopic plants.
NC State researchers, however, found dissimilarities in the structure and the
genetic makeup of the two species. Molecular probes identified a 3 percent
difference between the two species� DNA.
Glasgow spent 200 hours over two years mapping the surface of hundreds of
Pfiesteria zoospores using a scanning electron microscope. In so doing, he
found that many specimens had a different "fingerprint" -- they had a
four-sided structural plate on the outside of the cells where P. piscicida
had a three-sided plate.
"The difference between these species is the difference between a diamond and
a triangle," Burkholder explained.
Thus far, P. shumwayae has been found to overlap the geographic distribution
of P. piscicida: The single-celled organisms inhabit the brackish waters of
estuaries from the Chesapeake Bay and Pamlico Sound south to the Gulf Coast
of Florida and Alabama.
Burkholder named the new species in honor of Dr. Sandra E. Shumway, professor
of biology and marine science at Southampton College in New York. "Dr.
Shumway is a premier scientist studying harmful algal blooms," she said.
"She�s done some of the most significant pioneering research on how toxic
algal blooms impact wild and cultured shellfish populations."
-- potter --
EDITOR�S NOTE: In the days before the SEERS meeting, Burkholder and Glasgow
will be at a conference in Baltimore, where they can be reached at
919/218-5028.
The abstract of the Pfiesteria presentation at the SEERS meeting follows.
"A second, newly described toxic Pfiesteria species from estuaries of the
mid-Atlantic and southeastern U.S."
By: H.B. Glasgow Jr., J.M. Burkholder, J. Springer, North Carolina State
University; S. Morton, Center for Coastal Environmental Health and
Biomolecular Research, National Ocean Service, Charleston, S.C.
Presented: March 11, 2000, at the Southeastern Estuarine Research Society
conference, in Wilmington, N.C.
Abstract: We describe a second ichthyotoxic species within the genus
Pfiesteria, and will present its soon-to-be-formal species name in honor of a
scientist who has contributed greatly to toxic dinoflagellate research. The
2nd known toxic Pfiesteria species has a complex life cycle with an array of
flagellated, amoeboid, and cyst stages. Its life cycle and behavior are
similar to those of Pfiesteria piscicida, except that it responds more
strongly to N enrichment and less strongly to P enrichment than P. piscicida.
This species is a heterotroph that can become mixitrophic with
kleptochloroplasts. Its cellulose plates are arranged in a Kofoidian series
as Po, cp, X, 4�, la, 6", 6c, 4s, 5"�, 2"". The 2nd toxic Pfiesteria species
is distinguishable from P. piscicida both morphologically (plate structure)
and genetically (18S ribosomal DNA sequence). Like P. piscicida, its toxicity
is triggered by live fish, and subsequent toxicity varies depending on its
history of access to live fish.
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