Survey shows impact of sea star wasting disease in Salish Sea

October 26, 2016

Sea star wasting disease has devastated intertidal populations of these animals on the West coast from Mexico to Alaska. But what about sea stars that live below the low tide line, mostly out of sight? An analysis of data collected by divers in the Salish Sea shows severe impacts on some species, especially the sunflower sea star, Pycnopodia helianthoides.

"Sunflower stars are major predators. This is probably going to change the shape of the ecosystem," said Joe Gaydos, wildlife veterinarian and chief scientist with the UC Davis School of Veterinary Medicine's SeaDoc Society, which carried out the analysis with colleagues from Cornell University. The findings, published Oct. 26 in the journal PLOS One, reflect anecdotal reports from elsewhere on the West coast, he said.

Sea star wasting disease broke out in 2013, causing massive death of several species of sea stars. Infected animals develop lesions that eat away tissue, with limbs dropping off as the animals die. The disease has been linked to a virus, although environmental factors may also be involved.

"The sunflower star is the most susceptible species, so we were concerned that it could be driven way down by this non-specific virus", said coauthor Drew Harvell, professor of ecology and evolutionary biology at Cornell University.

The Salish Sea, which straddles the U.S./Canadian border and includes Puget Sound and the waters east of Vancouver Island, is home to a diverse population of sea stars. The animals are important predators, eating urchins and other animals.

"The Salish Sea is known world-wide for sea star diversity, so we wanted to know, what is the impact on different species?" Gaydos said.

The researchers used a combination of data collected by scientific divers during 2014 - 2015 and long term data collected by trained recreational scuba divers through the Reef Environmental Education Foundation (REEF).

"The REEF data were amazing. We were able to compare eight years of pre-epidemic data to the outbreak to show how devastating declines were for the sunflower stars," said Diego Montecino-Latorre, UC Davis graduate student, veterinarian and lead author on the study.

Sunflower Sea Stars Hit Hard

The results showed some species were hit hard, while others actually increased in number. Populations of sunflower sea stars dropped dramatically after the beginning of the epidemic, and several other sea star species, including the spiny pink star, Pisaster brevispinus, also declined. Numbers of the less-common leather star (Dermasterias imbricata) and two species of sea urchin, which are prey for sea stars, increased after 2013.

The virus outbreak continues, and will have lasting effects on the ecosystem. Sunflower sea stars have effectively disappeared from the Salish Sea, the study concludes. Likely as a result, numbers of urchins have increased, which in turn will lead to more browsing on kelp. Gaydos said that he and his colleagues are in discussions with the National Marine Fisheries Service to get the sunflower sea star listed as a "species of concern."

"This study revealed the need to generate a plan supporting the persistence of what used to be the most common sea star species in the Salish Sea," said Montecino-Latorre.
-end-
The SeaDoc Society is a program of the Karen C. Drayer Wildlife Health Center, UC Davis School of Veterinary Medicine.

Other authors on the study are: Morgan Eisenlord and Reyn Yoshioka, Cornell University; Margaret Turner, Northeastern University, Nahant, Mass.; and Christy Pattengill-Semmens and Janna Nichols, REEF Environmental Education Foundation, Key Largo, Florida.

University of California - Davis

Related Virus Articles from Brightsurf:

Researchers develop virus live stream to study virus infection
Researchers from the Hubrecht Institute and Utrecht University developed an advanced technique that makes it possible to monitor a virus infection live.

Will the COVID-19 virus become endemic?
A new article in the journal Science by Columbia Mailman School researchers Jeffrey Shaman and Marta Galanti explores the potential for the COVID-19 virus to become endemic, a regular feature producing recurring outbreaks in humans.

Smart virus
HSE University researchers have found microRNA molecules that are potentially capable of repressing the replication of human coronaviruses, including SARS-CoV-2.

COVID-19 - The virus and the vasculature
In severe cases of COVID-19, the infection can lead to obstruction of the blood vessels in the lung, heart and kidneys.

Lab-made virus mimics COVID-19 virus
Researchers at Washington University School of Medicine in St. Louis have created a virus in the lab that infects cells and interacts with antibodies just like the COVID-19 virus, but lacks the ability to cause severe disease.

Virus prevalence associated with habitat
Levels of virus infection in lobsters seem to be related to habitat and other species, new studies of Caribbean marine protected areas have shown.

Herpes virus decoded
The genome of the herpes simplex virus 1 was decoded using new methods.

A new biosensor for the COVID-19 virus
A team of researchers from Empa, ETH Zurich and Zurich University Hospital has succeeded in developing a novel sensor for detecting the new coronavirus.

How at risk are you of getting a virus on an airplane?
New 'CALM' model on passenger movement developed using Frontera supercomputer.

Virus multiplication in 3D
Vaccinia viruses serve as a vaccine against human smallpox and as the basis of new cancer therapies.

Read More: Virus News and Virus Current Events
Brightsurf.com is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to Amazon.com.