Tag: Marine Protected Areas

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Marsha Skoczek: Preparing to Set Sail Aboard NOAA Ship Pisces! June 5, 2012

NOAA Teacher at Sea
Marsha Skoczek
Soon to be Aboard NOAA Ship Pisces
July 6 – 19, 2012

Mission: Marine Protected Areas Survey
Geographic area of cruise:  Subtropical North Atlantic, off the east coast of Florida
Date:  June 5, 2012

Personal Log

touch tank picture
Me at our saltwater touch tank.

Greetings from Olathe, Kansas!  My name is Marsha Skoczek and I am an instructor in the Geoscience Program at Olathe North High School.  High school students from all over Olathe apply to be a part of the Geoscience Program because they have a passion for the earth sciences.  Many of my students want to become a marine biologist or some type of ocean research scientist.  I teach Marine Biology and Oceanography, yes from the middle of the country, so in order to have a better understanding of the material I teach I applied to and was accepted for the NOAA Teacher at Sea Program.  I am fortunate enough to be preparing to set sail aboard the NOAA Ship Pisces as part of a research team investigating the Marine Protected Areas (MPA) off the Southeastern Atlantic states.

In 2009 The National Oceanic and Atmospheric Administration (NOAA) established eight Marine Protected Areas to protect the spawning grounds for several species of Grouper, Snapper, and Tilefish.  These reef dwelling species are slow growing fish often not spawning until they are four or five years old.  Some species such as the Yellowedge Grouper can live to be as much as 80 years old!  Several other species such as the Snowy Grouper and the Speckled Hind Grouper are all born as females and do not change into males until they are older, making it a high priority that we protect their habitat so these species can live long enough to reproduce.

As fish are being harvested from the water beyond many of the species’ maximum sustainable yield, it is imperative that the natural habitats of these species are protected, not only so the fish populations can continue to thrive, but also so that scientists can have the time to research the life cycles of these fish in order to establish yearly limits based on scientific data before they are fished to extinction.

I am fortunate enough to be a part of a research expedition doing just that, we will be studying the habitat and fish population of five Marine Protected Areas (MPAs) to see if closing these areas to bottom fishing is a beneficial step in preventing the extinction of these species.

NOAA Ship Pisces

The team I will be working with is made up of scientists from the Panama City NOAA Fisheries Lab, the Harbor Branch Oceanographic Institute, University of North Carolina Wilmington, and the National Centers for Coastal Ocean Science.  Preparations for this research expedition began over a year ago when the scientists had to begin writing their proposal to fund this trip.  As you can imagine, working with scientists from multiple institutions takes time and careful planning.  Conference calls were made with the crew of the Pisces so details could be discussed about the operations needed to be performed, as well as other long distance communications with the Remotely Operated Vehicle (ROV) pilots and the mapping scientist from Charleston, South Carolina.

Data on our expedition will be collected by ROV to capture on video the fish and invertebrate populations in each MPA; water column data on temperature, pressure and conductivity will be collected by CTD profiling; and night time sonar mapping will be used to determine the most beneficial areas to launch the ROV on the following day.

As you can see, there is a lot of work to do during our two weeks at sea.  I am anxiously awaiting our departure next month so that I can witness first hand real ocean research.  This information will be invaluable as I prepare my students for their future careers as marine biologist and oceanographers!  Please follow along as we set sail on this most important adventure!

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Maggie Flanagan, July 9, 2007

NOAA Teacher at Sea
Maggie Flanagan
Onboard NOAA Ship Oscar Elton Sette
June 12 – July 12, 2007

Mission: Lobster Survey
Geographical Area: Pacific Ocean; Necker Island
Date: July 9, 2007

Meaghan Darcy with a 70.2cm opakapaka (Pristopimoides filamentosus).
Meaghan Darcy with a 70.2cm opakapaka (Pristopimoides filamentosus).

Science and Technology Log – Interview with Meaghan Darcy, scientist 

Meaghan Darcy, from Rhode Island, is a research technician for our lobster survey.  We spend our days helping with lobster traps, but in the evenings our science work includes sampling the many species of bottomfish in the Hawaiian Islands.  Meaghan is a Ph.D. candidate working with the Fisheries Center and Department of Zoology at the University of British Columbia in Vancouver, Canada, specializing in Hawaiian bottomfish.  Meaghan has always been interested in biology, but a semester of study in the Caribbean  included research with fisherman and inspired her to pursue the science of fisheries.

What is the focus of your current research? 
Meaghan is working on a management strategy evaluation for the Hawaiian bottomfish fishery.  The bottomfish fishery targets about 13 different species across 3 designated zones, which are fished at depths of 50 to 600+ feet using hydraulic hand lines with up to 10 hooks per line. The targeted bottomfish include several snappers (ehu, opakapaka, onaga, kalekale, gindai, and lehi), grouper (hapu`upu`u), and jacks (kahala, butaguchi, and ulua). One reason bottomfish are popular as a commercial product is that they don’t feed much on reefs, and so are less likely to carry ciguatera poisoning, however, kahala has been associated with ciguatera and is no longer highly sought after. The first step in evaluation is to use a simulation model to simulate the data gathering process (i.e., simulate catch and effort data that would be similarly collected for the commercial fishery). Meaghan will then use an estimation model to estimate bottomfish abundance relative to a target abundance using the simulated catch and effort data.  Based on the results from the assessment model, a management policy is set and applied to the simulation and estimation models to determine the policies impact.  Using this approach, the potential success of a variety of different possible fishery management strategies can be evaluated.  Meaghan will also apply this approach using the Hawaiian bottomfish commercial fishery data and her conclusions will offer insight on best management practices for the Hawaiian bottomfish fishery. 

Teacher at Sea Maggie Flanagan with a 71.2cm hapu`upu`u (Epinephelus quernus)
Teacher at Sea Maggie Flanagan with a 71.2cm hapu`upu`u (Epinephelus quernus)

What are the challenges in your research? 
The Hawaiian bottomfish is a multi-species fishery, where several different species may come up on the same line. This simultaneous capture makes scientific evaluation of the fishery more difficult.  The reported catch per unit effort (CPUE) data is not species specific, and this grouping ignores differences in the life histories and catchabilities of different species. Different habitats preferred by juveniles and different ages of maturity and breeding lumped together in management may influence decline of one bottomfish species, while not another.

Some of the management strategies have drawbacks along with potential benefits. Currently in the Main Hawaiian Islands, the bottomfish fishery is being managed under a seasonal closure policy during peak spawning periods (May 15, 2007 – October 1, 2007) to maximize the number of fish breeding. Over the next couple of years Hawaii is moving towards a quota system where a total allowable catch (TAC) will be set. Under a quota system when the TAC is reached, the fishery is closed for the remainder of the year.  In practice, TAC can produce a “race for the fish” which encourages competition at the expense of conservation while fishing. Quotas can be effective, but require the infrastructure for widespread monitoring in real time and making annual assessments.  Size limits are another possible strategy, which could be complicated by the multi-species nature of the fishery.

Another possible strategy would be to establish marine protected areas,where commercial fishing isn’t allowed.  This may lead to increased pressure on other marine areas, if fishing effort isn’t reduced, but just forced to relocate.  Now that the North West Hawaiian Islands have become part of the Marine National Monument, commercial fishing is being phased out of those waters and the management strategies evaluated in Meaghan’s thesis will be mainly relevant to the Main Hawaiian Islands, which already suffer from overfishing. Through acknowledging these challenges in her research, Meaghan is developing novel approaches to management strategy evaluation.  Her objectives include modeling the fishermen’s behavior to better understand how they will respond to different management strategies, and identifying effective management tactics for the multi-species nature of this fishery.

What inspires you about your work? 
Meaghan is excited to be working on real issues in fisheries, where her efforts are applied to real situations. She’s interested in quantitative expertise and population dynamics as tools for her work. Hawaii has recently begun expanding management of the bottomfish fishery, and recommendations through Meaghan’s evaluation will be very relevant for developing policy.

Personal Log 
Besides teaching me about the Hawaiian bottomfish fishery, Meaghan also taught me how to work the fishing gear. She is a wonderful role model for women in science, and a great crewmate!