Students to compete in underwater robot contest in Lincoln City

Oregon students from elementary school through community college will compete in Lincoln City on April 29 in an underwater robotics contest that tests their engineering and problem-solving skills.

The students, who hail from 20 schools largely along the coast, will be showing off devices they built for the annual Oregon Regional MATE ROV competition, which is coordinated by Oregon Sea Grant and aims to prepare students for technical careers.

The public is invited to attend the event, which will be held from 8 a.m. to 5 p.m. in the swimming pool at the Lincoln City Community Center at 2150 N.E. Oar Place.

The event is one of about 30 regional contests around the world that are coordinated by the California-based Marine Advanced Technology Center (MATE). Top teams from Oregon qualify to compete in the International MATE ROV Competition, which will be held June 23-25 in Long Beach, Calif.

Each year a new theme is chosen. This year’s contest highlights the role of remotely operated vehicles — or ROVs — in securing the health and safety of seaports and helping lay the groundwork for “port cities of the future.” Like port managers, the students will guide their ROVs through tasks that simulate finding cargo containers that fell overboard, constructing an underwater tunnel, and cleaning up contaminated sediment. Students will also present posters or marketing displays they created and give engineering presentations.

Students are also tasked with creating mock companies, thinking like entrepreneurs and working together to “manufacture, market, and sell” their ROVs. The students gain project management and communication skills as they manage a budget, work as a team, brainstorm solutions and deliver presentations, all skills transferable to other careers.

Local marine technology professionals, engineers, and scientists from Oregon State University, the National Oceanic and Atmospheric Administration, and the Environmental Protection Agency volunteer as judges. Volunteer divers from the Oregon Coast Aquarium and OSU’s Scientific Dive Team also support the competition.

OSU to host Marine Science Day this Saturday, April 8

Oregon State University’s Hatfield Marine Science Center will hold its annual Marine Science Day on Saturday, April 8, giving visitors an opportunity to see laboratories behind the scenes, interact with student scientists and learn more about current marine research.

The event is free and open to the public, and takes place from 10 a.m. to 4 p.m. at the center, located in Newport southeast of the Highway 101 bridge over Yaquina Bay. It will feature interactive, hands-on exhibits and opportunities to talk with researchers from OSU and other federal and state agencies.

The theme is “Celebrating Student Research,” and student scientists will be among the researchers presenting exhibits on marine mammals, oyster aquaculture, ocean acidification, ocean noise, seagrass ecology, fisheries, deep-sea vents and more. Visitors can learn about research diving with the OSU Dive Team, observe microscopic plankton, tour a genetics lab and hear about the NOAA Corps’ 100th year as a commissioned service.

Special activities for children will be offered by Oregon Sea Grant and the Oregon Coast Aquarium. The Oregon Coast STEM Hub and representatives from OSU and Oregon Coast Community College will also be available to engage K-12 students interested in pursuing marine studies.

Special events include:

  • A lecture at 2:30 p.m. by José R. Marín Jarrín, Charles Darwin Foundation, Galápagos, Ecuador, on “From Hatfield to the Charles Darwin Foundation: The importance of student research experiences”
  • Opening celebration at 10:30 a.m. for the Experimental Seawater Facility, funded by the National Science Foundation
  • A public feeding of Opal the octopus at 1 p.m. in the Visitors Center

Visitors may also learn about the progress of OSU’s Marine Studies Initiative, which seeks to host 500 students-in-residence in Newport by 2025.

“With a new teaching and research facility in the fundraising and design phase, Marine Science Day offers a great opportunity to understand why we are so excited about OSU’s Marine Studies Initiative,” said Bob Cowen, director of the Hatfield Marine Science Center.

“It is also a chance to learn about our scientists – who we are, what we do, and how we, as university, state and federal partners, work together and with communities to better understand and solve our marine and coastal challenges.”

More information about the event is available here.

(From a news release provided by Maryann Bozza, HMSC)

Photo caption: An octopus will be among the many exhibits and activities during Marine Science Day at the OSU Hatfield Marine Science Center. (Photo courtesy of Oregon State University)

 

Science Pub takes on coral reef decline

CORVALLIS – Research on the worldwide decline in coral reefs will take center stage at the Corvallis Science Pub on Monday, May 9.

Rebecca Vega-Thurber investigates the microbial ecology of reefs in the Red Sea, the Caribbean and the Pacific and will describe what she has learned about how microbes influence reef health.

“Coral species differ in their susceptibility to bleaching and disease, but these differences are only partially explained by the evolutionary history of corals,” said Vega-Thurber, an assistant professor of microbiology at Oregon State University.

Science Pub is free and open to the public. It begins at 6 p.m. at the Old World Deli, 341 S.W. Second St. in Corvallis.

Learn more:

New Sea Grant publication encourages collaborative engagement

A new publication from Oregon Sea Grant, Collaborative Science-Stakeholder Engagement, encourages collaboration among scientific disciplines and extending that collaboration to include participants outside the academic world.

The 20-page publication outlines various types of collaboration, both among researchers of diverse disciplines and among reseh16001-coverarchers and stakeholders. It explores collaborations seeking to achieve different goals in natural-resource research and management (sustainability, climate change adaptive management, decision-making tool development, alternative futures exploration). In also provides examples of stakeholder engagement in these contexts for the understanding and management of various natural resources, and summarizes literature from other research on science-stakeholder engagement elements.

Finally, the guide lists the lessons learned, necessary elements and impacts from these case studies.

The guide is intended as a resource for anyone interested in connecting science producers and science users. It summarizes literature from a broad swatch of research with science-stakeholder engagement elements.

The research was conducted and text written by Laura Ferguson, Oregon State University Marine Resource Management program, with review and contributions by Samuel Chan, Mary Santelmann and Maria Wright.

Collaborative Science-Stakeholder Engagement is available as a free, downloadable PDF here.

Now available: The 2015-16 Oregon Coast Quests Book

The 2015-16 edition of Oregon Sea Grant’s popular Oregon Coasts Quests Book is now available for sale. This 216-page, spiral-bound book features:Quests-book-cover

Directions for 24 Quests
Updates to existing Quests
Two brand-new Quests
Ten Quests created by youth
Quests in four Oregon counties (Lincoln, Coos, Curry, and Benton)
One Quest with directions in both English and Spanish

The book retails for $10 and is being sold by booksellers around the state. To find out where you can buy a copy, visit the booksellers page on the Quests website: http://hmsc.oregonstate.edu/quests. If you happen to be or know of a bookseller interested in selling Quest books, please contact OregonCoastQuests@oregonstate.edu for ordering information.

Find us on Facebook
Oregon Coast Quests now has a Facebook page, where you can get updates, “like” the page, and share your Questing adventures with friends and neighbors: https://www.facebook.com/OregonCoastQuests

Happy Questing!

Call for abstracts: Ocean acidification, hypoxia and decision-making

The Coastal and Estuarine Research Foundation (CERF) invites abstracts for presentations as part of an oral session at CERF 2015 this November, highlighting opportunities for linking scientists and natural resource managers to promote effective, science-based decision making on ocean acidification and hypoxia.

Convened by the Ocean Science Trust, the Institute for Natural Resources and Oregon Sea Grant, the session is planned to include talks about ocean acidification and hypoxia in two areas:

  • Social or natural science, focusing on connecting science to ocean and coastal policy, regulation, industry and/or management
  • Decision-making in natural resource management

CERF 2015, the organization’s 23rd biennial conference, takes place in Portland, OR Nov. 8-12. For more information about the conference and registration, visit http://www.erf.org/.

Demystifying modeling

Want to predict the population of a particular whale species 50 years into the future? There’s a model for that. Want to know exactly how much water is moving around one spot of the ocean at any given time? There’s a model for that too.

Modeling has a long history in science, and advancements in technology have significantly improved the capabilities in recent years. Yet, despite our fondness for some new technology – smartphnes, for instance – many people seem to greet scientific models with more skepticism than fascination.

To find out more about modeling and how it can help researchers, Oregon Sea Grant talked with some of the scientists we fund and collaborate with who specialize in modeling.

In its simplest form, a model is a mathematical way of estimating variables that can’t readily be measured in the field.

Selina Hepp3ll teaches teachersWhen laypeople express skepticism or mistrust about models, it may be that they’re nervous or uncertain about the arithmetic.

“Most people don’t think that they can do math,” said Selina Heppell, a Fisheries and Wildlife professor at Oregon State University who specializes in population models. “When in fact they can do math. They use math all of the time although they don’t necessarily realize that they’re doing it.”

Another way to think about a model is as a laboratory experiment where you hold one variable constant and see what happens to the others.

“The point of doing a lab experiment isn’t to know what’s going to happen in the real world, it’s to control factors that you can’t control in the real world so you can see the effect of a couple of variables,” explained Julie Alexander, a postdoctoral researcher studying aquatic invertebrates. “That’s the same goal of a model, to see the effect of variables that you can’t manipulate in the lab.”

MODELS FEEDING MODELS

If you were a scientist trying to study the presence of particular larvae in Yaquina Bay, you would need information on tides, currents and more. Many of these data can be found in come from existing models, and they are combined with field data to answer research questions.

Moreover, there is a tendency to add additional factors into your system (precipitation, for example) in an attempt to make the model more accurate. In fact, Heppell explains, this approach can make the models less reliable.

“Making a more complicated model adds more parameters which adds more uncertainty,” she said. “That uncertainty can be accounted for, but adding too many details that you don’t know much about can make the model hard to understand and not very useful.”

Each model has its own level of uncertainty based on the data that went into making it. That problem only expands as you combine multiple models with the uncertainty already present in your own data.

To account for this, scientists spend a lot of time analyzing model outputs to ensure the results are reasonable. Microbiology professor Jerri Bartholomew is the lead biologist in her lab studying pathogens, and she constantly checks that the data correlates with her prior knowledge of the species.

“I think transparency is very important. You have to be very honest about what you can say with your model,” she said, adding that her lab also calibrates its models annually against new field data to ensure accuracy.

PROJECTING THROUGH TIME

Technological advancements are improving our ability to reduce uncertainty and run multiple simulations in a short period of time. But new technology does little to help explain models to the general public or decision-makers.

 A large portion of Heppell’s work is reviewing the models used to set fisheries harvest regulations and explaining the outputs to fishermen and coastal leaders. As a modeler, she puts fish life cycle information into equations and simulations to show how various species will be impacted by new policies. She uses Microsoft Excel to help managers see how the model was created and how the outputs change with new information.

“The reason I use Excel is because it’s a platform that everybody has,” she said. “I create modeling tools that I can then give to a manager and they can manipulate it and look at what if this changes and what if that changes.

As models become more widely used in science, it’s important for those who make them know where the data came from, and for those who use them to understand their limitations. Whether field data or computer-generated values are fueling the model, the strength of the source makes all the difference in the usefulness of the model.

YOU ARE A MODELER

Let’s look at a simple model. The link below will take you to an Excel worksheet with information on whale populations. Through this model you can estimate changes in whale abundance over 50 years in the face of changing survival or reproduction affected by stressors like pollution, ship traffic and climate change. By tweaking simple variables such as lifespan and number of offspring, you will be able to see first hand how we can get a sense of the impact our policies have on animals with lifespans as long as your own.

You can find the model here: Modeling Practice

Confluence: Oregon communities respond to climate change

Confluence cover

Cover by artist Earl Newman

Climate change: Some people feel overwhelmed by it, others argue about it. Oregon Sea Grant researchers, Extension specialists and communicators, meanwhile are working to better understand what a changing climate is already doing to the ocean and coast – and helping coastal communities better prepare themselves for higher and more damaging waves, stronger storms, rising sea level and other anticipated changes.

The latest issue of OSG’s Confluence magazine examines some of the issues coastal Oregon faces, and ways in which Sea Grant is helping citizens and scientists address them, from anticipating the effects of climate change to building resilience in the face of them – and better understanding how people with different backgrounds and philosophies can even communicate about the topic.

Other articles in this issue include

  • Profiles of several Oregon Sea Grant Scholars, and how their student experiences in Sea Grant internships and fellowships helped prepare them for careers in marine science and public policy
  • A new app that helps coastal visitors identify critters they find on the beach – and contribute to citizen science by reporting them.
  • A study of how juvenile Dungeness crab move through coastal waters as they mature, and an exhibit at the Hatfield Marine Science Center that explains what scientists are learning, and how it might benefit the crab fishery.

Learn more

Terra: Diving for science

Terra magazine coverTotal immersion: Researchers dive, sometimes into treacherous waters, in the search for disease-fighting compounds and solutions to crashing fisheries. Ensuring their safety is Kevin Buch’s job.

Check out the latest issue of Terra, OSU’s research magazine, for a fascinating article about marine scientists – including Sea Grant-funded Kerry McPhail – whose other “lab” is  in the deep, blue sea … and the veteran diver who trains them to stay safe in sometimes perilous waters.

Learn more:

 

Field guide helps you identify aquatic invaders

Oregon Sea Grant is pleased to announce the release of its latest field guide, On the Lookout for Aquatic Invaders: Identification Guide for the West. The guide is an updated, revised, and expanded edition of its popular predecessor, which covered aquatic invasives in the Northwest only.On-the-Lookout-cover

Nonnative species are altering freshwater and marine ecosystems in the West, and more species are introduced every year.

This identification guide was developed to help watershed councils and other community-based groups increase their understanding of aquatic invasive species, and to initiate monitoring efforts for species of particular concern to their watersheds.

The introduction provides an overview of activities that can spread invasive species, a look at their economic impacts, and suggestions for ways we can work together to prevent and control their spread. The rest of the book covers background information and key identification characteristics of many aquatic invaders that are already established or likely to become established in the West, and tells where to access additional experts and how to report sightings of invasive species.

The 92-page guide is lavishly illustrated with full-color photographs to aid identification, is coil bound to lie flat when opened, and has a laminated cover for water resistance.

On the Lookout for Aquatic Invaders is available for just $8.95 per copy, plus $4.50 for shipping and handling. You can order it here.