SEAMAP – Page 3 – NOAA Teacher at Sea Blog

July 3, 2015August 21, 2021

David Walker: Equilibrium at Sea (Days 6-9), July 3, 2015

NOAA Teacher at Sea
David Walker
Aboard NOAA Ship Oregon II
June 24 – July 9, 2015

Mission: SEAMAP Bottomfish Survey
Geographical Area of Cruise: Gulf of Mexico
Date: July 3, 2015

Weather Data from the Bridge

Weather has fortunately continued to be calm. The only main deviation from clear skies has been haziness (symbolized “HZ” on the above weather log from 7/2/15). On 7/2/15, sky condition varied from FEW (3-4 octas) in the very early morning, to SCT (3-4 octas) and BKN (5-7 octas) at midday and afternoon, to SCT (3-4 octas) in the evening and night. Swell waves have varied throughout the past couple of days, from less that 1 meter to around 3 meters in height.

Science and Technology Log

The past few days honestly blend completely together in my mind. I feel as though I have reached an equilibrium of sorts on the boat. The night shift has proceeded normally – station to station, trawl to trawl, CTD data collection at each station, plankton collected periodically throughout the shift. Certain trawl catches have been exceptionally muddy, which poses a further task, as the organisms must first be separated from all of the mud and cleaned, before they can be identified.

A fairly standard catch, loaded onto the belt, yet to be sorted

Sorted Catch — A sorted catch, ready for measuring and weighing

In addition, on Day 6, the trawl net was damaged on a couple of occasions. I’ve realized that a trawl rig is quite the complicated setup. The trawling we are doing is formally called “otter trawling”. Two boards are attached at the top of the rig to aid in spreading out the net underwater. To allow the net to open underwater, one of the two lead lines of the net contains floats to elevate it in the water column. A “tickler chain” precedes the lead lines to stir fish from the sea floor and into the net. The fish collected by the net are funneled into the terminating portion of the net, called the “cod end”. FMES Warren Brown is an expert when it comes to this entire rig, and he is in charge of fixing problems when they arise. On Day 6, Warren had to fix breaks in the net twice. With help from Lead Fisherman Chris Nichols and Skilled Fisherman Chuck Godwin, new brummel hooks were attached to the head rope for one of the door lifting lines, and a new tickler chain was installed.

Otter Trawl — Cross-sectional diagram of an otter trawl (Image Source – Penobscot Marine Museum)

New Tickler — FMES Warren Brown measuring out a new “tickler chain” for the net

Brummel Hook — Lead Fisherman Chris Nichols and Skilled Fisherman Chuck Godwin installing a new brummel hook to the head rope for one of the door lifting lines (caption source – FMES Warren Brown)

I also learned a lot more of the specifics involved in the workup of the plankton catch. The dual bongo contains two collection nets in parallel. Plankton is removed from the cod ends of these nets, but not combined. The plankton from the left bongo is transferred to a mixture of formaldehyde (10% v/v) and sea water for preservation. The plankton from the right bongo is transferred to 95% ethanol. The reason for this is that different solvent mixtures are needed to best preserve different parts of the plankton in the sample. The formaldehyde solution is best for fixing tissue, yet it tends to dissolve hard parts (for example, otoliths, discussed below). The ethanol solution is better for preserving hard parts (bones, cartilage, etc.). This explains the need for two bongos. Workup of collected plankton from the Neuston net is similar, except many non-plankton species are often collected, which have to be removed from the sample. Highlight non-plankton species from the past couple days have been sailfin flyingfish (Parexocoetus brachypterus) and a juvenile billfish (Istiophoridae). Neuston-collected plankton is transferred to 95% ethanol. This solvent is the only one needed here, as only DNA analysis and stock assessment are conducted on Neuston-collected plankton. All plankton is shipped to Poland, where a lab working in collaboration with NOAA will analyze it. Samples are broken down according to a priority species list sent by NOAA.

Lowering Bongo — Fisheries biologist Kevin Rademacher and Skilled Fisherman Chuck Godwin lower to bongo nets into the water for data collection

Bongo Plankton — Plankton from the left bongo, preserved in a mixture of formaldehyde (10% v/v) and sea water

Plankton from the right bongo, preserved in 95% ethanol

Neuston Plankton — Plankton from the neuston net, preserved in 95% ethanol

Sailfin Flyingfish (Parexocoetus brachypterus) — A sailfin flyingfish (Parexocoetus brachypterus) caught with the Neuston net

Juvenile Billfish (Istiophoridae), — A juvenile billfish (Istiophoridae) caught with the Neuston net. It has been placed in a disposable plastic spoon for scale.

The CTD survey is coming along nicely. Progress through July 1 is shown on the below bottom dissolved oxygen contour. Similar trends to those commented on in my last blog post continue to be observed, as a further area of hypoxia has been exposed near the coastline. You can see that our survey is progressing east toward Mississippi (we will finish this leg in Pascagoula, MI, though the survey will continue on to the Florida coast during Leg 3).

CTD Data — Updated bottom dissolved oxygen contour map, from CTD data (progress through July 1, 2015)

Rinsing CTD — Rinsing off the CTD instrument with fresh water after data collection

A couple of other distinct memories stand out in my mind from the past couple of days:

Sexing “ripe” fish. Sometimes, certain species of fish are so fertile over the summer that certain individuals are deemed “ripe”. Instead of cutting into these fish, they can be more easily sexed by applying pressure toward that anus and looking for the expression of semen or eggs. One of the species for which this technique is most often applied this time of year is the Atlantic cutlassfish (Trichiurus lepturus). One must be careful, however, for as I found out, the gametes sometimes emit from the anus with much force, shooting across the room. It only takes wiping fish semen off of your face once to remember this forever.

Flying fish. I saw my first flyingfish (Exocoetidae) during a plankton collection with the neuston net. The net would scatter the fish, and they would fly for cover, sometimes 10-15 meters in distance. Amazing.

Preparing sand dollars. Interestingly, the sand dollars we caught (Clypeaster ravenelii) looked brown/green when they came out of the ocean. Sand dollars are naturally brownish, and in the ocean, they are most often covered in algae. We kept a couple of these organisms to prepare. To prepare, we first placed the sand dollars in a dilute bleach solution for awhile. We then removed them and shook out the sand and internal organs. We then placed them back in the bleach for a little longer, until they looked white, with no blemishes. The contrast between the sand dollar, as removed from the ocean, and this pure white is quite remarkable.

Sand Dollar (Clypeaster ravenelii) — Sand dollar (Clypeaster ravenelii), as removed from the ocean

Cleaning Sand Dollars — Fisheries Biologist Kevin Rademacher rinsing off sand dollars (Clypeaster ravenelii) before placing them in bleach solution

Sand Dollar — Sand dollar (Clypeaster ravenelii), after bleach treatment

Otoliths. Fisheries biologist Kevin Rademacher showed me a nifty way to remove the otoliths from fish. Otoliths, “commonly known as ‘earstones,’ are hard calcium carbonate structures located behind the brain of bony fishes,” which “aid fish in balance and hearing” (Florida Fish and Wildlife Conservation Commission). When viewed under microscope and refracted light, otoliths show a pattern of dark translucent zones (representing period of quick growth) and white opaque zone (representing periods of slower growth). By counting the white opaque zones (called “annuli”), fisheries biologists can estimate the age of the fish. Granted, this process differs for different fish, as different fish species have different otolith size. Accordingly, a species standard is always prepared (usually a fish raised from spawn, from which the otoliths are taken at a known age) to estimate the growth time associated with one whole annulus for the particular species. Sample otoliths are compared to the standard to estimate age. Otolith analysis also allows scientists to estimate “growth rates,…age at maturity, and trends of future generations” (Florida Fish and Wildlife Conservation Commission). On this survey, we only take otoliths from fish that are wanted for further laboratory analysis, but are too large to store in the freezer. On some surveys, however, otoliths are removed from all fish caught. I got to remove the otoliths from a large red snapper (Lutjanus campechanus). The first step is to make an incision to separate the tongue and throat from the lower jaw. The hand is then inserted into the hole created, and using a fair bit of force, the throat and gills are ripped away from the head to expose the vertebrae. The gills are then cut from the base of the vertebrae, to expose the bony bulb containing the sagittal otoliths. Diagonal cutters are then used to crack open the boney bulb containing the sagittal otoliths, and the otoliths are removed using forceps.

Cutting off the gills form the base of the vertebrae to expose the boney bulb containing the sagittal otoliths

Using diagonal cutters to crack open the boney bulb containing the sagittal otoliths

Personal Log

I am still feeling great on the boat. The work is quite tiring, and I usually go straight to the shower and the bed after my shift ends. Interestingly, I think I’m actually gaining quite a bit of weight. The work is hard and the food is excellent, so I’ve been eating a bunch. I’ve been getting 7-8 hours of sleep a night, which is more than I normally get when I am at home, especially during the school year. One thing I have been noticing ever since the trip started is that I have been having quite nightmarish dreams every night. This is rare for me, as I usually either don’t have dreams or can’t remember the ones that occur. I initially thought that this might be due to the rocking of the boat, or maybe to the slight change in my diet, but I think I’ve finally found the culprit – Dramamine®. Research has indicated that this anti-motion sickness drug can cause “disturbing dreams” (Wood, et al., 1966), and I have been taking this medication since the trip started. This hypothesis is consistent with the observation that my nightmares lessened when I reduced my daily Dramamine® dose from 2 pills to one. I finished Everything is Illuminated and have begun a new novel (Tender is the Night, by F. Scott Fitzgerald). I am now well into the second week of my trip!

Did You Know?

Earrings can be made from fish otoliths (ear stones). These seem to be quite popular in many port cities. Check out this article from the Juneau (Alaska) Empire Newspaper.

Notable Species Seen

Longspine Swimming Crab (Achelous spinicarpus)

Furcate Spider Crab (Stenocionops furcata coelata)

Scaled Slipper Lobster (Scyllarus depressus) — Commonly called “bulldozers” by fishermen

Barnacles (Cirripedia) on the back of a blue crab (Callinectes sapidus)

Octopus Suckers — Suckers on the limb of a common octopus (Octopus vulgaris)

Cobia (Rachycentron canadum) — Commonly called “ling” or “lemon fish”

Planehead Filefish (Stephanolepis hispidus)

Iridescent Swimming Crab (Portunus gibbesii)

Atlantic Spadefish (Chaetodipertus faber)

Singlespt Frogfish (Antennarius radiosus)

Spanish Mackrel (Scomberomorus maculatus)

June 22, 2015August 21, 2021

David Walker: Introduction, June 22, 2015

NOAA Teacher at Sea
David Walker
Anticipating Departure on NOAA Ship Oregon II
June 24 – July 9, 2015

Mission: SEAMAP Bottomfish Survey
Geographical Area of Cruise: Gulf of Mexico
Date: June 22, 2015

Introduction

Greetings from Austin, Texas. My name is David Walker, and I will be posting here over the next couple of weeks to chronicle my participation in the second leg of the NOAA (National Oceanic and Atmospheric Administration) SEAMAP Summer Bottomfish Survey in the Gulf of Mexico. I leave for Galveston tomorrow and could not be more excited.

Backpacking Big Bend — On a recent backpacking trip to Big Bend National Park

About Me: I am about to begin my sixth year as a high school teacher at the Liberal Arts and Science Academy (LASA) in Austin, Texas. LASA is a public magnet school which draws students from the entirety of Austin Independent School District. Currently, I teach three courses — Planet Earth, Organic Chemistry, and Advanced Organic Chemistry. Planet Earth is a project-based geobiology course with a major field work component, which consists of the students completing field surveys of organisms in local Austin-area parks and preserves. Organic Chemistry is an elective course which covers the lecture and laboratory content of the first undergraduate course in organic chemistry. Advanced Organic Chemistry is an elective course framed as an independent study, in which students address the content of the second undergraduate course in organic chemistry. I also sponsor our school’s Science Olympiad team, and we compete around the nation in this science and engineering competition. This year, LASA Science Olympiad placed third in the nation, this representing the best any team from Texas has ever performed! Outside of teaching, my interests include backpacking, fly fishing, ice hockey, birding, record collecting, photography, dancing, and karaoke, in no particular order.

About NOAA: The National Oceanic and Atmospheric Administration (NOAA) is a scientific agency of the United States government whose mission focuses on monitoring the conditions of the ocean and the atmosphere. More specifically, NOAA defines its mission as Science, Service, and Stewardship — 1) To understand and predict changes in climate, weather, oceans, and coasts, 2) To share this knowledge and information with others, and 3) To conserve and manage coastal and marine ecosystems and resources. NOAA’s vision of the future consists of healthy ecosystems, communities, and economies that are resilient in the face of change [Source — NOAA Official Website].

About TAS: The Teacher at Sea Program (TAS) is a NOAA program which provides teachers a “hands-on, real-world research experience working at sea with world-renowned NOAA scientists, thereby giving them unique insight into oceanic and atmospheric research crucial to the nation” [Source — NOAA TAS Official Website]. NOAA TAS participants return from their time at sea with increased knowledge regarding the world’s oceans and atmosphere, marine biology and biodiversity, and how real governmental field science is conducted. This experience allows them to enhance their curriculum by incorporating their work at sea into project-based activities for their students. They are also able to share their work with their local community to increase awareness and knowledge of the state of the world’s oceans and atmosphere, and current research in this field.

My Mission: I will be participating in the second leg of the 2015 SEAMAP (SouthEast Area Monitoring and Assessment Program) Summer Bottomfish Survey in the Gulf of Mexico, aboard the NOAA Ship Oregon II. The survey will span two weeks, from June 24 – July 7, 2015, beginning in Galveston, Texas, and ending in Pascagoula, Mississippi

The Oregon II research vessel was built in 1967 and transferred to NOAA in 1970. Its home port is Pascagoula, Mississippi, at the National Marine Fisheries Service (NMFS) Mississippi Laboratories. More information about the ship can be found here.

The Chief Scientist for the survey is Kim Johnson (NOAA Biologist), and the Field Party Chief for my leg of the survey is Andre DeBose (NOAA Biologist). According to Ms. Johnson, the survey has three main objectives — shrimp data collection, plankton data collection, and water column environmental profiling.

1) Shrimp data collection involves catching shrimp in a 40 foot shrimp net, towed at 2.5 knots. Caught shrimp will all be weighed, measured, sexed, and taxonomically categorized. This is completed for 200 individuals in each commercial shrimp category, and real-time data is distributed weekly (see SEAMAP Real-Time Plots). This data is of incredible importance to the commercial fishing industry, especially considering that the season-opening is in late July.

SEAMAP shrimp survey data from 2014
[Source — GSMFC Website]

2) Plankton are drifting animals, protists, archaea, algae, or bacteria that live in the ocean water column and cannot swim against the current [Source — Plankton]. Regarding plankton data collection, the Oregon II houses two types of collection nets — dual bongos and a neuston net. As many plankton are microscopic in size, these nets contain a very fine mesh. The dual bongos are used to sample the water column at an oblique angle, while the neuston net is used to collect surface organisms (“neuston” is a term used for organisms that float on top of the water or exist right under the water surface — see Neuston). This data is used to “build a long term fishery-independent database on the resource species important to the economy of the Gulf of Mexico” [Source — NOAA Plankton Surveys].

3) The third mission of the survey is water column environmental profiling. These profiles are completed using a CTD (conductivity-temperature-depth) device, which is sent back and forth between the surface and the ocean floor (the entire water column) and allows for the collection of real-time data. The main focus of this survey is the measuring of dissolved oxygen levels in the water to identify and monitor areas of hypoxia. In aquatic ecosystems, hypoxia “refers to waters where the dissolved oxygen concentration is below 2 mg/L. Most organisms avoid, or become physiologically stressed, in waters with oxygen below this concentration. Also known as a dead zone, hypoxia can also kill marine organisms which cannot escape the low-oxygen water, affecting commercial harvests and the health of impacted ecosystems” [Source — Gulf of Mexico Hypoxia Watch]. NOAA has partnered with the National Coastal Data Development Center (NCDDC) and other agencies to centralize this data, which has been collected and analyzed for 15 years. This summer’s survey is quite important, as the large amount of rainfall over the past two months could have significantly affected levels of dissolved oxygen in the ocean, and accordingly, zones of hypoxia.

My Goals: Through this program, I hope to accomplish four main objectives —

1) Learn as much as I can about the biology I encounter, especially in terms of taxonomic classification and biodiversity. This will be directly applicable to the biodiversity unit and project in my Planet Earth class.

2) Understand in detail the methods by which NOAA real-time data is collected, plotted, and presented to the public. This will be directly applicable to updating the data analysis and presentation portions of the biodiversity project in my Planet Earth class.

3) Upon my return, create a project-based activity for my Planet Earth students, based on the research I conduct aboard the ship. Students will use the real-time data from my leg of the survey (to be posted online) to come to conclusions regarding the biologic and environmental profile of the Gulf of Mexico. This will become part of the Planet Earth course unit global biodiversity.

4) Present my research experience and resulting project-based curriculum to the science faculty of LASA High School, emphasizing the value of research-based activities and projects in high school science.

That’s it from me. My next post will be from the Gulf of Mexico!

David Walker
NOAA Teacher at Sea
LASA High School
Austin, Texas

March 23, 2015August 21, 2021

Julia West: Bongos! March 22, 2015

NOAA Teacher at Sea
Julia West
Aboard NOAA ship Gordon Gunter
March 17 – April 2, 2015

Mission: Winter Plankton Survey
Geographic area of cruise: Gulf of Mexico
Date: March 22, 2015

Weather Data from the Bridge

Time 1700; clouds 100%, stratus; wind 325° (NNW), 9 knots; air temperature 22°C, sea temperature 25°C

Science and Technology Log

Here’s what we have covered as of Sunday evening, 3/22. I’m getting quite the tour of the Gulf! Notice we are going back and forth across the shelf break (the edge of the continental shelf), as that is our area of interest.

Stations covered 3/22 — This is what we’ve covered so far. We’re doing well!

Again, thanks to all of you who are reading and asking questions. One recent question had to do with whether we are bringing specimens back. So let me explain what we do with them. Most plankton are so small that you see them best through a microscope. So the “specimens” that we are bringing back are all in jars – thousands of organisms per jar! Every time we collect samples, we get at least three jars – two from the bongo nets and one (or more) from the neuston net. That’s not including the CUFES samples described earlier, which are only big enough for a tiny bottle. Here are some pictures:

Kim labeling a sample — Kim Johnson (scientist) in the wet lab, labeling a sample. Notice the cardboard boxes – they are all full of sample jars, both empty and full.

Bongo sample — This is a nice sample from one of the bongo nets. Lots of little guys in there!

These samples get brought back to shore for analysis in the NOAA lab. Oddly, many of the samples get sent to Poland to be analyzed! Why Poland, you ask? Well, for a few decades we have had a cooperative agreement with the Polish sorting and identification center. They remove the fish and eggs from all samples, as well as select invertebrates. These specimens and the data get sent back to US for analysis. We double check some of the IDs, and plug the data into models. (If you are a biology student, this is an example of how models get used!) The information then goes to fisheries managers to use to help form fishing regulations. This division of NOAA is called the National Marine Fisheries Service (NMFS), which manages stocks of fish populations.

NOAA has been doing spring and fall plankton sampling for 30 years now. Winter sampling is newer; it started in 2007. SEAMAP (SouthEast Area Monitoring and Assessment Program) is cooperative agreement between the Gulf states, federal (NOAA), and university programs. The samples from the states and universities get sent to Poland with our samples. The the timing of the surveys is to target specific species when they are spawning. This winter survey is targeting grouper, tilefish, and other winter spawning species. The other surveys target bluefin tuna, red drum, red snapper, and mackerels, which spawn at other times of the year. The invertebrate data is used to build an understanding of invertebrate community structure throughout the Gulf.

In science, research is cumulative. We know, from past research, what the mortality rate of some fish species is. So if we get a fish larva or fry that is a certain size, we can estimate the percentage of that size larvae that will reach adulthood, and back calculate to see how much mortality has already happened to get fish of that size. All this allows us to get a peek into the size of adult population.

The first piece of equipment that we use when we get to each station is the bongo nets. You can see how they got their name!

Here are the bongos ready to be deployed:

Bongos ready to deploy — These bongos are ready to go as soon as we get the OK.

Flow meter for bongos — This little whirlybird is the flow meter.

The flow meter is inside each bongo net, near the top. We read the numbers on it before the net goes out, and after it comes back. Using this information – the rate of flow, together with the area of the opening, we can calculate the volume of water filtered. The SeaCAT is a nifty unit that measures conductivity (salinity), temperature, and depth. Since we have a much fancier unit to measure these factors, we use this primarily for depth, so we know when we are getting to 200 meters (or the bottom, whichever comes first). We go to 200 meters because that is the lowest effective light penetration. Phytoplankton need light, and zooplankton need phytoplankton! What’s more, larval fish have not yet developed their lateral line (the organ that many fish use to sense vibrations in the water around them), so they feed visually. Even if they want to eat something below the photic zone, they wouldn’t be able to “see” it yet.

I, of course, am full of questions, and knowing that I’m supposed to identify every acronym I write, I asked what SeaCAT stands for. The unit is made by a company called SBE (Sea Bird Enterprises), so is the CAT just a fun name that they came up with? Nobody knew the answer! But everyone was curious, and Tony and Steve (both electronics technicians) did some emailing and got the answer straight from SBE. CAT stands for “Conductivity And Temperature” (seems we could have figured that out). And the Sea? Could be for Seabird, Seattle, or just the plain ol’ sea!

Deploying the bongos — Here I am holding the “codends,” ready to drop them over the side. The crane does all the heavy lifting. Photo by Andy Millett

Once we get the nets in the water, the crane operator monitors the speed that it is lowered. Our job is to communicate the “wire angle” constantly to the bridge and the lab. Here’s how this is done:

Measuring wire angle — Measuring the wire angle (angle of the cable) with the inclinometer. Photo by Madalyn Meaker.

The angle of the cable is important because it allows the nets to sweep the desired amount of water as they are pulled up. If the wire angle is too high (above 55°), the crew on the bridge slows the ship down just a bit. The perfect angle is 45°. Many other factors can mess this up, most notably current. The ship has to be facing the right direction, for example, so the current isn’t coming toward the ship (have you ever been fishing and had your line swept under the boat?). It’s tricky business, requiring constant communication between bridge, lab, and deck! Oh, and by the way, the cable is a “smart wire,” meaning it has electrical flow through it, which is how the depth gets communicated to the computers. Fascinating technology, both on the micro and macro scale!

Once we pull in the bongos, we hose them off very thoroughly, to get any of the little plankton that are stuck to the net. They are all funneled into the codend, which is a PVC cylinder. From there, we dump the sample into a sieve, and transfer it into a jar, and get read to do it again in 3 hours or so.

Bongo cod end — This is a close-up of the “cod end” of the bongo, where the plankton get funneled into.

Plankton from the bongo — This is the sample from one of the bongo nets. Can you see why it’s hard to come up with pictures of individual organisms? There are thousands in here!

Did I tell you that sampling goes on 24/7? Perhaps you figured that out when you heard the shift times. It costs a lot to run a ship; operations continue whether it’s night or day.

Personal Log

Now, to keep people happy when they are living in close quarters, far from home, and working strange shifts, what’s the most important thing of all? FOOD! The Gunter is well known among NOAA circles for having fantastic food for people of all diet types and adding ethnic flavor to her meals. The person responsible for our good and abundant food is Margaret, our Chief Steward. She has worked for NOAA for ten years, and says it’s the best job she has ever had. Her husband is now retired from the Coast Guard, so they moved around a lot. Margaret worked for the Coast Guard for four years, then went back to cooking school, and had various other jobs before signing on with NOAA. She has a few years left before she retires, and when she does, what will she do? She wants to do subsistence farming! This is right up my alley – Margaret and I have a lot to talk about! Not to mention the fact that Margaret makes her own juices, some amazing homemade hummus, AND dries her own fruit (dried cherries -yum!).

Margaret, chief steward — Margaret, assembling some spinach lasagna rolls while talking about her life.

Margaret also has a helper, Mike, who was reluctant to have his picture taken. He’s not the usual assistant steward, but sure seems highly capable! It always sounds like a lot of fun is being had in the galley.

Gunter dining room — The dining room, or “mess deck.”

condiment selection — World’s largest selection of condiments, including anchovy sauce and REAL maple syrup!

That’s it for this post – I’m getting hungry. Time to eat!

Challenge Yourself

What executive branch of the U.S. government does NOAA belong to? Is it the same branch that oversees our national parks? How about our national forests?

Did You Know?

There are nearly 4000 active oil and gas platforms in the U.S. Gulf of Mexico (NOAA), and more than 27,000 abandoned oil and gas wells (Assoc. Press, 2010)

Oil and gas platforms in the Gulf — Locations of the active oil and gas platforms in the Gulf of Mexico. From http://oceanexplorer.noaa.gov/

March 11, 2015August 21, 2021

Julia West: Getting Ready to Head South to the Gulf of Mexico! March 11, 2015

NOAA Teacher at Sea
Julia West
(Almost!) Aboard NOAA Ship Gordon Gunter
March 17 – April 2, 2015

Mission: Winter Plankton Survey
Geographic area of cruise: Gulf of Mexico
Date: March 11, 2015

Introduction

Hello from the frozen north! From the Adirondack Mountains of northern New York, and from almost as cold southern Vermont, I welcome you to this blog of my new adventure. My name is Julia West, and in just a few short days I will be embarking on a new journey, leaving this place where the average temperature last month was a cozy 5°F (-15°C) and joining the crew and scientists aboard the NOAA Ship Gordon Gunter in the Gulf of Mexico, where it will be more like 60°F (15°C).

The Gordon Gunter

NOAA Ship Gordon Gunter — The Gordon Gunter, length 224′, first launched in 1989 as the U.S. Naval ship Relentless, and converted to its present configuration for NOAA in 1998. Photo courtesy of NOAA.

First of all, if you’re the type who asks as many questions as I do (and I hope you are – questions are good!), you might be wondering why am I saying hello from two places, both NY and VT. Well, Oak Meadow School, “where” I teach, is in Brattleboro, VT. I live in NY, 3 hours away. And the students? They are everywhere! But of course if you are an Oak Meadow student, you already know all this. So I will say I am from both places, and I represent homeschooled students throughout the world, who will hopefully be tuning into this blog and adding comments. I invite everyone reading this to ask questions and share comments – I don’t need to know who you are, but hope you will introduce yourself.

I teach high school science, mostly biology and environmental science, and health, to homeschooled students through our distance learning program. I have been working for Oak Meadow for 22 years now. I am always looking for ways to bring our students together in our global community, and what better way to do that but to go out into the one “world ocean” that we all share. I’m passionate about science and scientific research, and very excited to share with you all that I learn. And believe me, I have much to learn. It’s been a long time since I’ve done any real field work, and the technology has changed so much that I am getting into student mode!

More About Me

Julia West - skiing Feb 2015 — This is me on a backcountry ski tour last week here in the Adirondacks

I would have to say I’m a landlubber who loves oceans. I’m more comfortable in the mountains where I can range far and wide, yet the unknown has a strong pull on me – I love new challenges. Living in a small floating space will be my first entry into a whole new world, which I hope will lead to more sailing experiences in the future. I don’t even know yet if I get seasick! I grew up with small boats on the many lakes we have here; I’ve taken plenty of ferries in various oceans, but I’ve never spent real time at sea. I love the outdoors – I am an avid cross-country skier, biker, hiker, and whitewater raft guide.

I don’t know the Gulf of Mexico; I have spent very little time in the south. We all hear about the Gulf in the news, and often not in a good way: hurricanes, BP oil spill, the dead zone…. I teach about these topics. I’m excited to get a firsthand perspective on the important research being done there. More on that soon, but first, I have to share this picture of some of the cool NOAA goodies that came in the mail last week! I have to admit – I really like the NOAA logo.

NOAA TAS goodies — The cool TAS swag that came from NOAA!

What I Know about NOAA

When most people think about NOAA, they are probably thinking about the National Weather Service forecast. NOAA is so much more! I have used the website as an incredible resource on meteorology, anything related to the oceans or atmosphere, fisheries, and climate science. As a science geek, I just have fun clicking around the NOAA website, checking it all out. It is NOAA scientists who map the ocean floor, providing safe passage for shipping. NOAA’s National Marine Fisheries Service takes the lead in stewardship of the marine ecosystems in the U.S. And if you want the latest in climate monitoring and predictions, look to NOAA.

I also have learned a little bit about NOAA through my daughter, Joy. She was a Hollings scholar in college, which opened the door to employment with NOAA in Woods Hole, MA. Now a PhD candidate in marine biology, she still does some research on NOAA ships. Here is a picture of Joy on the R/V Auk a few years ago. The yellow creature is called a marine autonomous recording unit (MARU), otherwise known as a pop-up. It is deployed into waters of the continental shelf to record the sounds of marine mammals. These units are anchored to the bottom, and in six months, when it is time to retrieve them, an acoustic signal triggers the cable to release, and the unit “pops up” to the surface, where it is found and picked up.

Joy doing NOAA research — My daughter Joy (see any resemblance?) ready to deploy a pop-up in the Stellwagen Bank National Marine Sanctuary off of Cape Cod. Photo credit: Denise Risch.

It was partly through Joy that I heard about the Teacher at Sea program, and I also have to credit her for reviving my interest in field science. So here I am!

What I Will Be Doing

What is a winter plankton survey anyway? I will be sharing lots of details about that in the next few weeks, as I learn. The fish resources in the Gulf (or anywhere) are important to humans, and it is through constant monitoring that we keep up on the status and health of fish populations. This data informs fishing regulations. The status of non-fishery species (those not used by humans) is equally important, as you know, because all species are necessary for a healthy ecosystem.

We will be sampling fish eggs, larvae, and juveniles, as well as their zooplankton predators and prey, to determine their abundance and distribution. We will be measuring physical properties of their habitat, as well as primary productivity. That’s about as far as I will go right now, at the risk of giving you incorrect information! I’ll be sharing details about the tools and methods used in upcoming blog posts.

Meanwhile, this map below shows the sampling locations – if you need me, you can look for me in one of these spots!

SEAMAP monitoring stations in the Gulf of Mexico. You can be sure to find us around here somewhere! Photo credit: SEFSC (NOAA website)

New? Terms

If you can’t remember what plankton is, it’s time to look it up! How about primary productivity? Feel free to share your definitions by leaving a comment.

Today’s Question (leave a reply in the comment section with your answer!)

Who was Gordon Gunter?

Lastly

I love maps, and couldn’t help adding one. First stop Pascagoula, MS NOAA lab, where the ship will be waiting. Next “stop,” Gulf of Mexico!

July 7, 2014August 21, 2021

Crystal Davis, When Science Goes Wrong, July 6 2014

NOAA Teacher at Sea

Crystal Davis

Aboard NOAA Ship Oregon II

June 23 – July 7, 2014

Mission: SEAMAP Groundfish Survey

Geographical area of cruise: Gulf of Mexico

Date: Sunday July 6, 2014

Weather: Clear and Sunny

Waves: 1-2 feet

Science and Technology Log:

The title of this post should actually be, “when science doesn’t go exactly as planned,” but that doesn’t sound quite as dramatic.

If you have ever written a lab report, you know that there is a section for procedures (what you did). The procedures need to be explicit so that they can be replicated by another individual who will obtain the same results. If your experiment cannot be replicated, your experiment is not valid and is useless. While it is okay for your hypothesis to be different than your expected outcomes, you always have to follow your procedure.

But . . . what if you’re in the middle of the ocean potentially hundreds of miles away from shore and on a deadline? You can’t go back to shore. There are at least thirty people on your boat and a lot of money invested in this data collection. Yet you still have to come up with a way to complete your survey. The events that follow are incidents that occurred on the Oregon II from July 26-July 6 and how the scientists coped with these situations.

Sharks

Juvenile Hammerhead Shark — Hammerhead Shark, Courtesy of Robin Gropp

In August, NOAA conducts a Longline Survey surveying sharks. Sharks are captured, identified and many are tagged with tracking devices to monitor the location and population density of sharks. Other sharks are sampled to determine age, analyze growth, sexual maturity and study stomach contents.

When sharks are captured in the trawl net on the Groundfish Survey, Robin (the intern) has been releasing them back into the Gulf after collecting data. However, not all of the sharks survive being pulled up in the net. The picture to the left is of a juvenile Hammerhead that did not survive. While this saddens me, he has been frozen and will be used to educate students in the outreach programs that NOAA participates in.

Nature vs Science

Waves crashing on the bow of the Oregon II. This picture was not taken on my survey, but this is what the weather felt like to me.

Sometimes mother nature interferes with the survey and things don’t go exactly as planned. For the first week of my trip we ran into some bad weather. There was a series of storms that came off the coast bringing rain, thunder, lightning and waves that were five to seven feet high. The weather conditions were so bad that the day shift couldn’t immediately collect data at a number of stations. They spent a lot of time waiting for the squalls to pass until it was safe to collect data. In fact, the weather in the Fall Groundfish Survey is so bad that there are a few extra days built in to run from hurricanes.

This morning we were trawling off the mouth of the Mississippi River and brought up a net full of sargassum (seaweed). The entire net, all 42 feet of it, was completely full of sargassum and very little marine life. No one on the boat had seen this much sargassum in the net before. This catch had to be thrown back overboard because the data is not usable. Basically, with that much sargassum in the net, the scientists are not sure if the trawl was fished properly. There is the possibility that because the net was so heavy, it was bogged down, uneven or not scraping the bottom of the ocean floor evenly.

The beginning of a squall courtesy of Andre DeBose

Squall moving the doors on the trawl net courtesy of Andre DeBose

Trawl Net filled with Sargassum

Warren and Mike checking to see if we are keeping the trawl

Mike and Eloy checking out the Sargassum

Formalin

On the Oregon II, plankton samples are preserved in Formalin (40% Formaldehyde). Formalin is a clear substance that stops cells from breaking down. A few days ago we noticed that the Formalin was no longer clear, it was in fact opaque. You can see this in the picture on the left. My night shift crew was worried that it was no longer useful and that we could not bring planktons samples back to the lab in Pascagoula. However, our chief scientist assured us that we could still use the Formalin and that it would be effective. The color change indicated that the base in the mixture was breaking down but since we only have a couple more days of plankton sampling, that it will be fine.

Personal Log:

I arrived back home last night and let me tell you it is strange to be back on land. I was never seasick on the Oregon II, but I am 100% landsick now. I find myself swaying from side to side anytime I’m standing still (Dock Rock is the official term). And when I woke up last night to get a glass of water, I fell over because I was swaying so much. It’s actually pretty funny but I will be glad once this goes away.

I’m still taking in my experience from the last two weeks but I am so grateful for the people I met and was able to work with. Everyone on the Oregon II was helpful, accommodating, friendly and made me feel at home. They took time out of their day to answer my questions, give me tours, tell me stories about their history and adventures on board, go over their research and they were genuinely interested in what I do in my classroom. XO (Executive Officer) LCDR Eric Johnson spent a good chunk of his time telling me about the NOAA Corps and made me want to sign up. Although I’m not too old to apply, (I have too many attachments at home to do so) if I could do the last ten years over I would apply to their program. I will definitely make sure my students know that the NOAA Corps is an option for them and am hoping to make a trip down to San Diego to take them on one of the boats next year.

I’m particularly grateful to the Chief Scientist Andre DeBose and Watch Leader Taniya Wallace who made sure I knew I was not going to die at sea. As the boat was leaving Galveston I could not stop crying because I was 100% certain I was never coming back ( I may have watched The Perfect Storm too many times). Andre and Taniya were so reassuring and comforting and I can never thank them enough for that.

I’m looking forward to using the knowledge, pictures and data from this trip in my classroom next year. I’m also excited because I heard that I can apply to be a volunteer on a NOAA cruise and am looking forward to this in the future.