When you have fish that can live from 80 to 200 years, depending on the species, recovery can be a slow process.

That’s the case with some of the 27 different rockfish (Sebastes spp.) in the Salish Sea. Many species were over-harvested and are now in need of recovery.

One important strategy is protecting the old females who produce copious young. But rockfish don't birth a big crop of babies every year. (Yes, rockfish give birth to live baby fish.) Instead they seem to have periodic "bonus" years when numerous rockfish babies are born. As a result, it is really important to know when these massive birth years of young rockfish occur and understand the type of habitats those juvenile fish need to survive.

SeaDoc is working with the Washington Department of Fish and Wildlife, REEF, and others to help NOAA design a citizen-driven project where SCUBA divers can collect data to help us learn more about newborn rockfish, known as "young of the year."

Last month, NOAA project lead Dr. Adam Obaza came up to the San Juans to dive with SeaDoc to test out the new dive protocol. Joe Gaydos, Dr. Obaza, and Jen Olson dove in kelp forests, eelgrass, flat muddy bottom sites and rocky reef sites to look for young rockfish and test out the survey methodology.

Young rockfish are rare, but we did manage to find one young of the year rockfish - a baby Copper rockfish hanging out in some Laminaria sp. kelp near a rocky shore. As things are with science sometimes, it was in the last few minutes of the last dive of the weekend.

We will keep you posted as NOAA rolls out this volunteer SCUBA opportunity in case you or friends want to be involved.

Banner photo: young of the year Copper rockfish (less than 5cm). Courtesy of Janna Nichols.

How safe is wild-harvested seaweed to eat?

Seaweeds are a nutritious source of protein, fiber, vitamins and minerals. The harvest and consumption of various species of seaweed has historically been, and continues to be, important for the Coast Salish, and is gaining in popularity with non-tribal citizens interested in wild foraging.

Unfortunately very little data are available on the levels of contaminants in local seaweeds, leaving native and non-native consumers of this food source in the dark about whether they are harvesting healthy nutritious food or are being exposed to potentially harmful contaminants.

A new SeaDoc Society study, funded by generous private donations, will test for the presence and concentration of three classes of contaminants:

• heavy metals
• organochlorine pesticides and pollutants (like DDT, PCBs, and PBDEs)
• polycyclic aromatic hydrocarbons (PAHs)

Samples will be collected from sites considered safe and those considered potentially hazardous. They will be analyzed at the California Animal Health and Food Safety Laboratory at UC Davis.

Results will be shared with volunteers, tribes, and the Washington Department of Health.

Jennifer Hahn, author of the famous wild foraging book Pacific Feast (also an Adjunct Professor at Western Washington University) and SeaDoc's Joe Gaydos are collaborating with Robert Poppenga, a toxicologist at the UC Davis School of Veterinary Medicine, on this project.

Banner photo: Bull kelp by Dan Hershman via Flickr Creative Commons 2.0

There’s convincing science that no-take marine reserves help recover rockfish, abalone, and other threatened or endangered species that call these rocky habitats home. But what are the economic costs and benefits of marine reserves?

Most of the existing data is about the costs of marine reserves. For example, marine reserves limit fishing, and therefore have a negative effect on the commercial and recreational fishing industry.

But very little is known about the economic benefits of no-take marine reserves.

A new SeaDoc project will quantify the economic benefit of appropriately designed no-take marine reserves to the SCUBA diving industry and local economies.

Over 100 dive shops in Washington and British Columbia train and equip thousands of divers annually. These recreational divers spend handsomely to maintain their certification, purchase equipment, travel to dive sites, procure lodging, and pay for dive charters. But no one has ever conducted an economic valuation of SCUBA diving in the Salish Sea.

Resource decisions are often a trade-off between benefits to the target species and economic impacts to the people that rely on them to make a living or for recreation. Missing from this trade-off is a proper accounting for the extra economic activity that can be created by an effort to save fish and wildlife.

Project results will have a direct impact on efforts by NOAA Fisheries and the Washington Department of Fish & Wildlife as they consider the merits of establishing a network of no-take reserves for rockfish recovery. Results will also be shared with the Department of Fisheries and Oceans in Canada as they re-evaluate the effectiveness of their Rockfish Conservation Areas.

This project is sponsored by a generous private contribution, without which it would not be possible.

Banner photo courtesy of Janna Nichols.