teacher at sea – Page 8 – NOAA Teacher at Sea Blog

March 18, 2013August 11, 2021

Kaitlin Baird, Women in an H2O world: Girl Power in Science (5), March 18, 2013

Fernanda Giannini

Job Title:
PhD student at University of São Paulo – Oceanography Institute

What She does:
I am a first year PhD student in the Biological Oceanography Program and I am developing my field and laboratory work at the Marine Biology Center, located in São Sebastião (northern coast of São Paulo State – Brazil).

My project looks at the estimates of primary production and analysis of photosynthetic rates of the phytoplankton community in the São Sebastião channel. This channel deserves special attention due to the presence of the Port of São Sebastião, which presents potential environmental impacts for this coastal region. Furthermore, there is an important ecosystem located in the continental portion of the channel, the Araça Bay, which presents a very high biodiversity and it is an ecosystem under different types of human pressure.

The project approaches the use of techniques to estimate physiological rates and primary production from the fluorescence emitted by chlorophyll molecules as part of the photosynthesis process in the phytoplankton cells. Several studies on how to accurately estimate primary production rates from the fluorescence data has been developed around the world in order to provide a faster and less invasive method to obtain this kind of data.

Favorite Aspect of job:
For me, the most exciting aspect of being in this type of research is to have the opportunity to be in contact with so many different people, sharing experiences and moving to work in different places, from which you can establish networks and good research groups. The second aspect I consider really important is that, different of other jobs, you have the liberty and independence to work on issues and projects that suit you best, and this makes the job much more rewarding. Also, as an oceanography researcher, I am fascinated with being out on the ocean in research vessels.

What type of schooling/experience do you think best set you up for this job:
I got my degree in Marine Biology in 2007, when I decided to focus in oceanography, applying for a master degree program in Biological Oceanography in 2008. Then, I have spent two years to get my degree and, during this time, I had great experiences in the oceanography field, participating of different projects, cruises, conferences and so on. By the end of my masters, I was selected to join the Training Program in Observational Oceanography at the Bermuda Institute of Ocean Sciences (BIOS). I have spent 10 months at this training and the course provided great experience and knowledge about different areas of oceanography, such as physical and chemical oceanography, data management, remote sensing, etc. As soon as I got back home, I joined the PhD program, also in Biological Oceanography at University of São Paulo. In summary, that was my schooling and experiences which made me end up at my current position, and that I hope will help to set me up for a good job in a near future.

Lisa Bourassa

Job Title:
Research Associate, Phycologist
Louisiana State University
Sea Grant Oyster Hatchery

What She does:
I work at an oyster hatchery operated by LSU Sea Grant. Here we grow polyploid Crassostrea virginica oysters for research and development for the oyster industry, as well as restoration working with the Louisiana Department of Wildlife and Fisheries (LDWF). As the Phycologist I am responsible for culturing all of the microalgae that is fed to our broodstock and larval oysters (our system can generate up to 2800 L of algae a day). I also help spawn oysters, culture the larvae, and many other miscellaneous tasks that need to be completed in the hatchery.

Favorite Aspect of job:
My favorite aspect my job is that I’m not chained to a desk! I get to work outside, get my hands dirty, and every day is different! It’s also great to be part of restoration efforts. Our hatchery works with LDWF researching different methods for oyster restoration, so it’s great to be part of something that strives to restore the oyster populations to benefit the environment as well as the industry, which many people rely on for their livelihood.

What type of schooling/experience do you think best set you up for this job:
While a background in marine biology is very important, I think the experience that set me up best for this job was working in the aquaculture laboratory as a tech at Roger Williams University. Here I learned many of the skills I execute on a daily basis, but I really learned how to manage my time, figure out what needs to be done, and get it done. Because this job was mostly taking care of animals, I learned quickly that when you work with live animals, the animals must come first and be cared for, regardless of weekends or holidays. This experience also taught me how to roll with the punches, and troubleshoot any problems that I encounter throughout the day, and it’s always okay to ask for some help if you need it.

Another experience that set me up best for this job was my time spent as a Girl Scout. Although being a Scout may not have given me the technical knowledge for my job, it taught me how to think on my own, work individually, the value of teamwork, and how to use my resources effectively. I also learned that hard work and challenges are not something to be feared, but instead to embrace the opportunities that they provide.

Kate Degnan

Job Title:
Educator
Education Department
North Carolina Aquarium at Roanoke Island

What She Does:
Kate conducts public education programs at the North Carolina Aquarium on Roanoke Island. The mission of the aquarium is to promote awareness, understanding, and appreciation of the natural resources of North Carolina. Kate facilitates this type of learning by introducing the public to live animals, using the Science on a Sphere technology developed by the National Oceanic and Atmospheric Association (NOAA), playing educational games, or speaking with aquarium divers. Kate has other tasks as well; occasionally she works with the aquarium husbandry staff to help with animal care, each week she dives in the aquariums 285,000 gallon shark tank, and she also helps develop new programs.

Favorite Aspect of Job
Each day is different! Typically within a week, Kate will only teach the same program once or twice since the schedule is so varied. However, no matter how many times Kate teaches a program the delivery and execution of each program is different. Due to the location of the aquarium, people from all over the United States and from different parts of the world visit. Each person who visits has some interest, curiosity, or fear of the animals they encounter. As an educator you must understand their reaction and impart some knowledge so they might be less afraid or more interested and educated. The people make the program.

What type of schooling/experience do you think best set you up for this job?
Kate has found that having experience working with various age groups of students and being able to modify what you teach to suit the audience is extremely important. Kate has a background in marine biology and education psychology; this combination of education has provided Kate with a scientific background but also the understanding of how people learn. Communicating scientific information is important you must be able to translate that information in a way that the public can relate to it and care about it.

Sarah Fawcett

Job Title:
Postdoctoral Research Associate, Department of Geosciences, Princeton University

What She does:
Sarah is a Chemical Oceanographer studying the interactions between the ocean’s major chemical cycles (specifically nitrogen and carbon) and phytoplankton, the floating single-celled plants that generate chemical energy by photosynthesis and support all of ocean life. Photosynthesis is the biological process that converts carbon dioxide into organic carbon, and nitrogen is essential for photosynthesis. One major consequence of phytoplankton photosynthesis is that it lowers the carbon dioxide content of the atmosphere by storing it in the deep sea. Changes in the efficiency of this storage likely explain past changes in atmospheric carbon dioxide, which in turn have affected climate. We know surprisingly little about which phytoplankton in the surface ocean are responsible for taking up the nitrogen mixed into the surface from depth, and for transporting organic matter back into the deep ocean, or if indeed all phytoplankton participate equally in this process. Sarah’s interest is in discovering the sources of nitrogen that different types of phytoplankton use for growth, with a view to understanding whether phytoplankton diversity is important for ocean processes such as carbon storage in the deep ocean, and how this might change if phytoplankton communities change in the future.

Favorite Aspect of job:
I love going out on the ship to collect samples at sea. Being out on the open ocean reminds me of the “big picture”, of the important reasons why I’m doing the research I do. It’s easy to forget that when I spend long periods of time in the lab. I also really enjoy deploying all the different types of instruments that we use to collect scientific samples at sea; some of the engineering that goes into making oceanography happen is genius!

What type of schooling/experience do you think best set you up for this job:
I got my bachelor’s degree in Earth and Planetary Science, and was first introduced to marine chemistry during the two summers I spent as an undergraduate on the Great Barrier Reef, reconstructing El Niño signals recorded in 10,000 year-old corals. This experience cemented my fascination with how our planet – and particularly our oceans – work. Ultimately, however, taking math and science courses, and taking advantage of field trip and lab work opportunities was the best preparation for this job.

Ali Hochberg

Job Title:
Education and Communications Coordinator
Bermuda Institute of Ocean Sciences

What She does:
Varies from day to day, but includes writing press releases, newspaper articles, newsletter articles; managing social media accounts; assisting with the creation of short- and long-term audience and donor development and communication strategies; working with faculty to highlight current and future science endeavors; identifying new avenues of publication and promotion within local and international circles; website content and design development; creation and design of new marketing materials.

Favorite Aspect of job:
Using my science background to translate the work of science faculty and staff into materials that can be understood by wider audiences.

What type of schooling/experience do you think best set you up for this job:
A science background is crucial, otherwise I wouldn’t be able to understand the details of the research taking place, but experience in public education/outreach, marketing/advertising, and writing are also invaluable.

September 25, 2012August 11, 2021

Kaitlin Baird: Did You Know? September 25, 2012

NOAA Teacher at Sea
Kaitlin Baird
Aboard NOAA Ship Henry B. Bigelow
September 4 – 20, 2012

Mission: Autumn Bottom Trawl Survey with NOAA’s Northeast Fisheries Science Center
Geographical Area: Back in port! Newport Rhode Island
Date: September 21st
.

Location Data:
Latitude: 41’53.04
Longitude: 71’31.77

Weather Data:
Air Temperature: 13.8 (approx.57°F)
Wind Speed: 10.01 kts
Wind Direction: North
Surface Water Temperature: 19.51 °C (approx. 67°F)
Weather conditions: overcast

Science and Technology Log:

I thought I would end my trip on the Henry B. Bigelow with some fun facts!

Did you know?

The Fisheries Scientific Computer System (FSCS) is able to prompt the data recorders with all actions needing to be performed for a particular species. It is coded with unique barcodes for every sample taken. Back in the laboratory all scientists receiving samples can receive all the information taken about the given organism by scanning this unique barcode!

barcoding for species caught on cruise for further analysis — Barcoding for species caught on cruise for further analysis

Did you know?
Science crew operating on the back deck are required to wear an Overboard Recovery Communications Apparatus (ORCA). This system if it is activated sends a signal by way of radio frequency to a receiver on the ship’s bridge. This system responds immediately to the ship receiver and has a direction finder to help locate the man overboard.

Me getting ready to head to the back deck with my positioning system around my neck — Me getting ready to head to the back deck with my ORCA around my neck

Personal Log:

It would take me hours to go through all of the amazing creatures we caught and surveyed on this trip, so I thought I would write some fast facts about some of my favorites! Enjoy!

Did you know?

The male spoon arm octopus has a modified arm that passes spermatophores into the oviducts of the female. Pretty neat stuff!

Did you know?
Stargazers, like this one, have an electric organ and are one of few marine bony fish species that are able to produce electricity. This is known as Bioelectrogenesis. They also hide beneath the sand with just their eyes sticking out and ambush their prey!

Did you know?
This fish, the Atlantic midshipman, has bioluminescent bacteria that inhabit these jewel–like photophores that emit light! It also interestingly enough uses this function in fairly shallow waters!

midshipman photophores — Midshipman photophores

Did you know?
Sea spiders like this one have no respiratory organs. Since they are so small gasses diffuse in and out of their bodies, how cool is that!

Did you know?
The flaming box crab, Calappa flammea, uses its scissor-like claws that act as a can opener. It has a special modified appendage to open hermit crabs like a can opener!

Did you know?
A female Atlantic angel shark like this one can have up to 13 pups!

Did you know?
Seahorses suck up their food through their long snout, and like the flounders I talked about at the beginning of the cruise, their eyes also move independently of each other!!

Did you know?
Horseshoe crabs, like this one, have blue blood. Unlike the blood of mammals, they don’t have hemoglobin to carry oxygen, instead they have henocyanin. Because the henocyanin has copper in it, their blood is blue!

Last but NOT least, Did you know?
According to the Guiness Book of World Records the American Lobster has been known to reach lengths over 3 ft (0.91 m) and weigh as much as 44 lb (20 kg) or more. This makes it the heaviest marine crustacean in the world! This one was pretty large!!

A big farewell to everyone on the Henry B. Bigelow! Thanks so much, i had a great time and learned a lot! Thanks for reading!

September 22, 2012August 11, 2021

Allan Phipps: From Unalaska to Un-Alaska, September 21, 2012

NOAA Teacher at Sea
Allan Phipps
Aboard NOAA Ship Oscar Dyson
July 23 – August 11, 2012

OLYMPUS DIGITAL CAMERA — The bow of NOAA Ship *Oscar Dyson*!


Mission: Alaskan Pollock Mid-water Acoustic Survey
Geographical Area: Bering Sea
Date: September 1, 2012
.

Location Data
Latitude: N 26° 03.476′
Longitude: W 080° 20.920′

Weather Data from home
Wind Speed: 7.8 knots (9 mph)
Wind Direction: East
Wave Height: 2 ft
Surface Water Temperature: 28.9°C (84°F)
Air Temperature: 30°C (86 °F)
Barometric Pressure: 1016 millibars ( 1 atm)

Science and Technology Log:

Below are the numbers that Johanna (my fellow Teacher at Sea) put together at the end of our mission.

We completed 44 hauls in our leg of the survey and caught approximately 118,474 pollock. All of those pollock weighed a collective 24,979.92 kg (= 25 tons)! Last year’s official total allowable catch (called a quota) for all commercial fishermen in Alaska was 1.17 million tons!

So, we only caught 25 tons/ 1,170,000 tons = 0.00002 = 0.002% of the yearly catch in our study.

The estimated population of pollock in the Bering Sea is 10 million tons (10,000,000 T). This means we caught only 0.00025% of the entire pollock population!

So, as you can see, in the big picture, our sampling for scientific analysis is quite TINY!

Continuing with more cool pollock data…

We identified 7,276 males and 7,145 females (and 2,219 were left unsexed)
We measured 16,640 pollock lengths on the Ichthystick!
Pollock lengths ranged from 9cm to 74cm
We measured 260 lengths of non-pollock species (mostly jellyfish, pacific herring, and pacific cod)
We collected 1,029 otoliths for analysis

Personal Log:

After two full days of travel including a long red-eye flight across country, I am back in Ft Lauderdale, Florida. I had the most incredible experience as a NOAA Teacher at Sea on the Oscar Dyson! The trip was absolutely amazing! Here are some parting shots taken on my last day in Dutch Harbor, Alaska.

In closing, I would like to thank a few people. The NOAA Corps officers and deck crew are wonderful and do a great job running a tight ship. I would like to thank them all for keeping me safe, warm, dry, and well fed while out at sea. They all made me feel right at home.

The NOAA scientists Taina, Kresimir, Rick and Darin did a fabulous job patiently explaining the science occurring onboard and I appreciate them letting me become a part of the team! I loved immersing myself back in the practice of real scientific inquiry and research!

I would like to thank the NOAA Teacher at Sea program for allowing me to take part in this incredible research experience for teachers! Teachers and students in my district are very excited to hear about my experiences and I look forward to continuing to share with them about NOAA Teacher at Sea! Sign me up, and I’d be happy to “set sail” with NOAA again.

Finally, I would like to thank my readers. I truly enjoyed sharing my experiences with you and hope that, through my blog, you were able to experience a bit of the Bering Sea with me.

September 20, 2012August 11, 2021

Kaitlin Baird: Women in a H2O World: Girl Power in Science, September 19, 2012

NOAA Teacher at Sea
Kaitlin Baird
Aboard NOAA Ship Henry B. Bigelow
September 4 – 20, 2012

Mission: Autumn Bottom Trawl Survey with NOAA’s Northeast Fisheries Science Center
Geographical Area: Off the Coast of Long Island
Date: September 19th
.

Location Data:
Latitude: 40’54.90
Longitude: 73’30.18

Weather Data:
Air Temperature: 18.4 (approx.65°F)
Wind Speed: 10.64 kts
Wind Direction: Northwest
Surface Water Temperature: 20.08 °C (approx. 68°F)
Weather conditions: sunny and fair

Science and Technology Log:

Ocean acidification have been the buzz words in the shellfish and coral reef world for the last few decades, but how will changes in our ocean’s pH affect our coastal fisheries resources? The Henry B. Bigelow is host to another project to help monitor this very question. The ship has an automated system that draws in surface seawater through an uncontaminated line and feeds it to a spray head equilibrator (seen in photo). Here, this instrument measures the partial pressure of carbon dioxide through an infrared analyzer. Standards are used to automatically calibrate the instrument periodically so it can take data while the fish are being counted and measured. How great is that!

Partial pressure Carbon Dioxide system schematic

It has already been shown and well documented that our oceans are getting more acidic. Something to remember is that our ocean and atmosphere are always in equilibrium in terms of carbon dioxide. Therefore, if we emit more carbon dioxide some of that will be absorbed by the ocean. The rapid changes in development since the industrial revolution have led to more carbon dioxide in our atmosphere and therefore, over time, more diffusing into the ocean. The amount of carbon dioxide our ocean is absorbing has changed its chemistry. Increasing partial pressure of carbon dioxide (through several chemical reactions) makes the carbonate ion less available in the ocean (especially the upper layers where much aquatic life abounds).

This does not mean the ion isn’t there, it just means it is less available. Now why is this important to fisheries? Well, many organisms are dependent on this carbonate ion to make their tests, shells, and skeletons. They combine it with the calcium ion to make calcium carbonate (calcite, aragonite and other forms). If they can’t properly calcify this affects a large range of functions. In terms of commercial fisheries, scientists want to know more how acidification will affect commercial species that make their own shells, but also the fish who call them dinner. Ocean acidification has also been shown to affect other food sources for fish and reproductive patterns of the fish themselves. The fish research at NOAA will concentrate on the early life history stages of fish, as this is their most vulnerable phase. The research priority is analyzing responses in important calcifying shellfish and other highly productive calcareous phytoplankton (base of the food chain). To learn more in detail from NOAA please read this. By monitoring the partial pressure of carbon dioxide at fisheries stations over time, scientists can compare this data with the health, location, and fitness of much of the marine life they survey.

Personal Log:
As my time on the Bigelow is drawing to a close, I wanted to highlight some of the amazing women in science on board the ship who play key roles in the research and upkeep of the ship. I have asked them all a few questions about their job and for some advice for young women who would like to take on these various roles in the future! Since we have so many talented women on the ship, please stay tuned for another addition!

Amanda Tong

Job Title:
Fisheries Data Auditor with the Fisheries Sampling Branch
Program: Northeast Fisheries Observer Program
NOAA Fisheries Service
National Oceanic and Atmospheric Administration

What she does:
Amanda is responsible for working with the Fisheries Data Editor to be the collator of information received from the Fisheries Observers and more specifically the Fisheries data editors. She is looking for any errors in data reporting from the Fisheries Observer Program and working with the editors who are in direct contact with them.

If you remember in my last blog, I talked about the otolith and length information going to the Population Dynamics group who make models of fisheries stocks. The data from the Fisheries Biology program is also given to this end user. This way the models take into account actual catches as well as bycatch. Other end users of the data are graduate students, institutions and other researchers.

Amanda’s favorite aspect of her job:
Amanda likes being the middle person between the fishing industry while also working for the government. She likes seeing how the data change over the years with changes in regulation and gear types. She finds it interesting to see how the fisheries change over time and the locations of the fish change over time. She also loves hearing the amazing stories of being at sea.

What type of schooling/experience do you think best set you up for this job: Amanda received a degree in marine biology, which she thinks set her up perfectly. She suggests however that the major doesn’t have to be so specific as long as it has components of biology. The most important aspect she feels was volunteering and learning how to do field work with natural resource management, even if on land. Learning how to properly sample in the field was really important. Amanda is a former Fisheries Observer so she also knows the ins and outs of the program that collects the data she is auditing. This helps her look for easily recognizable errors in the data sets from all different gear types. By gear types I mean trawls vs. gill nets vs. long lines etc.

Robin Frede

Robin- Fisheries Data Editor — Robin — Fisheries Data Editor

Job Title:
Fisheries Data Editor
Branch: Fisheries Sampling Branch
Program: Northeast Fisheries Observer Program
NOAA Fisheries Service
National Oceanic and Atmospheric Administration

What she does:
Robin deals directly with the Fisheries Observers. Fisheries observers are assigned to different boats and gear types up and down the eastern seaboard to record catches and bycatch as well as run sampling protocols. After each trip Robin checks in with the observer for a debrief and they send on their data to her. It is her responsibility to take a good look at the data for any recognizable errors in measurement or sampling error. Since she was a fisheries observer herself, she can coach the observers and help mentor them in sampling protocol and general life at sea. Once she reviews the data set it gets collated and sent off for review by the Fisheries Data Auditor.

Favorite part of her job:
Robin’s favorite part of her job is being a mentor. Having done the program herself previous to her current job she has a full understanding of the logistical difficulties that observers face at sea. She also is well versed in all of the aspects of sampling with different gear types. Since she is no longer at sea on a regular basis one of her favorite aspects is getting to go to sea on a shadow trip to help out new observers. She also participates in one research trip (currently on the Bigelow now), and one special training trip each year.

What type of schooling/experience do you think best set you up for this job:
Robin suggests a Biology basis for this type of job and lots of experience volunteering with field work. Understanding the methodology and practicing are very important to accurate data collection. Accuracy and practice make her job as an editor a lot easier. If you think you might be interested in this type of career Robin suggests the Fisheries Observer Internship. You can find out if you like spending a lot of time at sea, and this line of work, plus get exposure to many sampling protocols.

Amanda Andrews

Job Title:
Survey Technician
Office of Marine and Aviation Operations
National Oceanic and Atmospheric Administration

What she does:
Amanda wears many hats and goes wherever the Henry B. Bigelow goes. She is in charge of supervising data collection and analysis. She is the liaison between the ship’s crew and the scientific crew. She is in charge of the scientific equipment function and maintenance. Amanda is the go-to person on each survey during sampling. She also is responsible for helping crew on the back deck.

Favorite Part of her Job:
Amanda’s favorite part of her job is that the ocean is her office. She lives aboard the Bigelow and where it goes, she goes.

What type of schooling/experience do you think best set you up for this job:
Amanda started out working on the back deck of NOAA ships and progressed to become a survey technician. She suggests having a good background in marine biology and biology in school, but more importantly always be willing to learn.

Nicole Charriere

Job Title:
Aboard the ship currently: Day Watch Chief
Official title: Sea-Going Biological Technician
Branch: Ecosystem Survey Branch
Northeast Fisheries Science Center
National Oceanic and Atmospheric Administration

What she does:
Nicole’s job entails being at sea between 120 and 130 days a year! She specifically goes out on Ecosystem Survey cruises that she can do some choosing with. She goes out on bottom trawling, scallop, and clam survey trips. Her job is to help the scientific party either as a watch chief or chief scientist. She has to handle all sampling as well as fully understand all of the survey techniques. She is well versed in the Fisheries Scientific Computer System (FSCS) and needs to know her fish and critter ID. She is the one responsible for sending down all the species already pre-tagged with their ID. On top of all that she is also responsible for monitoring the censors on the net and regularly replacing them.

Favorite part of her job:
Nicole’s favorite part of her job is not being in an office and being at sea. Her work environment is always changing, as the scientific crew is always changing and so are the species she works with. She enjoys working and meeting new people each cruise.

What type of schooling/experience do you think best set you up for this job:

Nicole says to get to where she is you have to work hard. You might not be the one with the most experience, but if you work hard, it doesn’t go unnoticed. She also suggests networking as much as possible. Get to know what people do and learn from them. She says studying biology was helpful, but not an absolute necessity. Above all, make sure you love what you do and make sure you are excited to go to work.

Caitlin Craig

Job Title
Diadromous Fish Department Intern
Department of Environmental Conservation (DEC)
State of New York

What she does:
Caitlin participates in field surveys twice a week that target striped bass. The data are used to look at their migration patterns in Long Island waters. While at DEC she was also looking at the juvenile fish species in the bays and estuaries of Long Island sounds. Her job entails collecting data in the field, entering it and collating data for the various projects.

Her favorite aspect of the job:
She really enjoys that her job is a mix of office and field work where she can put some of the research and management skills she learned at Stonybrook University into practice. She also really enjoys seeing the many species that call Long Island Sound home.

What type of schooling/experience do you think best set you up for this job:
Caitlin suggests trying to make as many connections as possible, and not to be afraid to ask questions. Programs are always looking for volunteers and interns. If you are interested in working at the governmental level she suggests a postgraduate work in Marine Conservation and Policy (she attended Stonybrook University).

Thanks for reading! Stay tuned for my final blog with lots of critters from the cruise!

August 24, 2012August 11, 2021

Deb Novak: Shark Survey, August 23, 2012

NOAA Teacher at Sea
Deb Novak
Aboard NOAA Ship Oregon II
August 10 – 25, 2012

Mission: Shark Longline Survey
Geographical Area: Gulf of Mexico
Date: Thursday,August 23 , 2012

Weather Data from the Bridge:
Air temperature: 28.2 degrees C
Sea temperature: 28.7 degrees C
1/2 cloud cover
5 miles of visibility
1.5 foot wave height
Wind speed 4.75 knots
Wind direction ESE

Science and Technology Log:

So now for the sharks and other fish caught on our survey long lines…

Like all science experiments this survey started with a general question. What fish are in the Gulf of Mexico? NOAA developed the Longline Survey procedure that I described in my last blog. This is the data collection part of the experiment.

When there is a large shark on a line it becomes like a dance as everyone performs their part of getting the needed data while taking care of the shark and staying out of other people’s way.

Just like the name says, these tags can track where the shark travels. These tags were placed by Jennifer who works for the Louisiana Fish and Game Department. They are trying to answer the question – Do large sharks in the Gulf stay in the Gulf? I look forward to finding out more about where these sharks travel over the next few years.

leaving — My favorite part is when the shark swims away into the depths.

It was really fascinating when we caught large sharks. It was also an uncommon event. Over this trip we caught Tiger sharks, Sandbar sharks, Nurse sharks, a Great Hammerhead, a Scalloped Hammerhead (I never knew that there were different species of Hammerheads!), a Lemon shark and a Bull shark. I am getting good at telling types of sharks but still need my Science Team for confirmation.

shark_measure1_small — Most of the sharks we caught were Atlantic Sharpnose. They are small reaching a maximum length of about 3 feet.

The small sharks can still bite and give a painful wallop if you are not careful. I avoided both by following all of my teammates precautions. We still worked quickly to get needed data so that the sharks could be released ASAP.

Me tagging a small shark. It was like a heavy duty hole punch.

Some of the little sharks are tagged with a little plastic tag. If the shark is caught again new data can be collected to see if the shark moved to a new area and if its measurements have changed.

We caught fish like groupers and the Red Snapper on the far left.

With a hundred hooks, I thought we would be catching a hundred fish. The reality is that we had some Haul backs where there were no fish at all. It was exciting to see the variety of what we caught and what might appear on the end of each line. Sometimes there would be several fish in a row and we would scramble to get all of the data collected. All of the information will be analyzed from this survey and compared with previous data and NOAA will come to a conclusion in a report in the future.

Personal Log:

I have my sea legs and can find my way around the ship pretty well now. I have moved to a noon to midnight schedule which still seems a little strange. I don’t know if I would have been good at the midnight to noon shift. I feel like I am contributing to the team effort with setting lines and hauling them back. The ocean got a little choppier for a few days, but it cleared quickly. I can’t believe that this adventure is almost over.

The Oregon II

Most of the work takes place on the deck, but some time is spent in the various Science Lab spaces.

Computers for data collection and route information in the Science Lab.

If there was time when the boat needed to move to another location we could relax in the Lounge.

P1010892 — Relaxing in the lounge. Movies and tv help to pass the time.

I watched a few movies but spent more time watching the water. I will miss these endless expanses of blue when I return to Albuquerque.

We are watching what is happening with Tropical Storm Isaac. The next few days schedules may change. NOAA is very careful with safety and that will be the first priority.