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Research

Food Choices and Location Influence California Sea Otter Exposure to Disease


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A tagged sea otter feeds on a rock crab
Above: A tagged sea otter feeds on a rock crab near Monterey, California. By carefully studying the diet, movements, and health of radiotagged sea otters like this one, researchers have found that individual food preferences and locations are good predictors of disease exposure. Photograph by Tania Larson, USGS. [larger version]

Generalized map of California coast, showing spatial variation in population density of sea otters as determined from the spring 2008 sea otter census
Above: Generalized map of California coast, showing spatial variation in population density of sea otters as determined from the spring 2008 sea otter census (see "California Sea Otters: Population Recovery Continues at Slower Rate"). Population growth has been sluggish in the center of the range (Monterey to Cambria), where sea otter densities are highest and most reproduction occurs. Dietary diversification in densely populated areas may be making sea otters there more vulnerable to infectious diseases. [larger version]

Sea otters living along the central California coast risk higher exposure to disease-causing parasites as a consequence of the food they eat and where they feed.

Sea otters that eat small marine snails are at a higher risk of exposure to Toxoplasma gondii, a potentially deadly protozoal pathogen, than animals that feed exclusively on other prey, while sea otters living along the coast near San Simeon and Cambria are more at risk than otters that live outside this area.

Similarly, sea otters that commonly feed on clams and fat innkeeper worms at the southern end of Monterey Bay have a higher risk of exposure to another dangerous protozoal pathogen, Sarcocystis neurona. On the other hand, sea otters whose diet includes significant amounts of abalone, a preferred prey species when sufficiently abundant, have a very low risk of infection with either pathogen.

"Recovery of the sea otter in California has been especially sluggish at the center portion of its range, where sea otter densities are highest and where most of the reproduction occurs," said Tim Tinker, a U.S. Geological Survey (USGS) sea otter expert at Santa Cruz, California, and co-lead of a new study led by the University of California, Davis (UC Davis) and the USGS. "Where food resources are limited, individual sea otters tend to become diet specialists, and the specific skills used to secure food are passed on from mother to pup."

The result is that individual otters inhabiting the same area can have very different diets from one another, and it now appears that high levels of infection with T. gondii or S. neurona may be a consequence of this dietary diversification. "Our findings indicate that prey choice in sea otters has very real implications for their health," said Christine Johnson, co-lead author and epidemiologist at UC Davis. "Depleted resources and high rates of infectious disease may be acting in concert to limit the recovery of this threatened species."

T. gondii and S. neurona both have complex life cycles involving multiple hosts. They complete their life cycle in their respective final hosts, cats (T. gondii) and opossums (S. neurona), which then shed new infective life stages of the parasites into the environment. These infective oocysts can persist for months in the environment outside a host. Although these parasites are believed to have land origins, many oocysts end up in the marine environment, where they can be consumed by invertebrates in the marine food web, Tinker said. While invertebrates are not themselves affected by the parasites, invertebrates can act as intermediate or transport hosts, and sea otters that become infected from consuming infected prey may eventually die from protozoal encephalitis (inflammation of the brain).

A key challenge for scientists has been to determine exactly how the parasites are getting to sea otters. Identifying specific routes of infection has been difficult because it is almost impossible to detect the parasites in the environment. "What we have done with this work is demonstrate how sea otters themselves can show us how they are becoming infected," says Tinker. "By studying relationships between sea otter behavioral patterns and disease exposure, we can infer a great deal about the mechanisms of exposure, in much the same way as human-disease specialists investigate how certain behaviors, such as smoking, increase our risk of disease."

Complete findings appear in the Proceedings of the National Academy of Sciences. The article, titled "Prey choice and habitat use drive sea otter pathogen exposure in a resource-limited coastal system" (v. 106, no. 7, p. 2242-2247, URL http://dx.doi.org/10.1073/pnas.0806449106), was authored by Christine K. Johnson, University of California, Davis; Martin T. Tinker, U.S. Geological Survey; James A. Estes, University of California, Santa Cruz; Patricia A. Conrad, University of California, Davis; Michelle Staedler, Monterey Bay Aquarium; Melissa A. Miller, California Department of Fish and Game; David A. Jessup, California Department of Fish and Game; and Jonna A.K. Mazet, University of California, Davis.



Related Sound Waves Stories
California Sea Otters: Population Recovery Continues at Slower Rate
Sepetember 2008

Related Web Sites
Sea Otter Studies at WERC
USGS
Prey choice and habitat use drive sea otter pathogen exposure in a resource-limited coastal system
Proceedings of the National Academy of Sciences

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Fieldwork
cover story:
Barrier Island Evolution: Ship and Horn Islands

Manatee Health Assessment

Research Food and Location Influence Sea Otter Exposure to Disease

Outreach Three New Marine National Monuments

Staff New Engineering Technician Joins WCMG Team

Publications New Report on Sea-Level Rise

Tagging and Tracking Marine Animals

March 2009 Publications List


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