Tag: lobster survey

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Chris Monsour, June 28, 2007

NOAA Teacher at Sea
Chris Monsour
Onboard NOAA Ship Oscar Elton Sette
June 12 – July 12, 2007

Mission: Lobster Survey
Geographical Area: Northwestern Hawaiian Islands
Date: June 26, 2007

An eel that was captured during lobster trapping on board OSCAR ELTON SETTE is held in a can until it can be released.
An eel that was captured during lobster trapping is held in a can until it can be released.

Science and Technology Log 

My science logs will not have as much science for the next few days as there has been a change in plans. NOAA Ship OSCAR ELTON SETTE is currently responding to a medical emergency within the Monument, which may delay operations for six days.  I am not sure what our course of action will be, but the circumstance has shown me just how vast these islands are and how I am essentially in a liquid desert.  When I look at a map of all the Hawaiian Islands, it does not seem that big, but if placed over a map of the U.S. mainland, the island of Hawai’i would be in Georgia, along the coast, and Kure Atoll would be in the northeast corner of Utah.

I did some research and found that during the winter storms, which bring about quick currents and dangerous waves in shallow waters, juvenile spiny lobsters leave their shallow reef habitat and travel over 30 miles (19 km) to a deep reef habitat where they will live for their adult life.  Spiny lobsters line up in single file when they migrate or move to another area, touching their antennae to the tail of the lobster in front of them. As many as 100,000 lobsters will get in this line, which is thought to look like one long eel or snake.  If the lobsters are attacked, they gather in a circle with their tails pointing inward, displaying all of their spines outward.  For the science part of this log I will highlight two of the juvenile spiny lobster predators. Essentially, everything is connected out here, and what happens to one eventually will happen to the other.

Hapu’u, a predator of the spiny lobster, caught during bottom fishing
Hapu’u, a predator of the spiny lobster, caught during bottom fishing

One predator of juvenile spiny lobsters is the eel. The three species of eels that I have seen are the conger eel, lemonhead eel, and the steiny eel.  Most often these eels have been in the traps and are regarded with much disdain when the traps are opened.  The lemonhead and the steiny are moray eels while the conger is in its own group.  Moray eels are numerous in Hawaii, found in holes and under large rocks during the day.  They usually hunt in the open under cover of night but will during the day if the opportunity arises. Morays have thick leathery skin that envelops the continuous marginal fin and lack pectoral fins.  Morays are rarely consumed by humans since they are likely to cause ciguatera poisoning, a serious neurological condition that can be contracted by eating certain kinds of reef fish.

The two Morays, the lemonhead and steiny attain about 3 feet. I have seen both species at varying lengths and they have an aggressive demeanor.  Today one fell on deck as we were removing it from a trap and we were all glad to see it go over board on its own. The conger eels have smooth scaleless skin, large pectoral fins, and the continuous marginal fin rays are easily visible.  They are much less common than moray eels in Hawaii. The generic Hawaiian name for eels is Puhi. Another predator of juvenile spiny lobster is the hapu’u, also called the Hawaiian grouper. Groupers are bottom fish, lying in wait near the ocean floor to ambush passing fish or invertebrates. When a likely meal gets close, the grouper opens its expandable mouth and inhales, sucking in both water and prey. As you might suspect, this action takes place with lightning-strike efficiency.

NOAA Teacher at Sea Chris Monsour captured this image of a Galapagos shark during a feeding frenzy. These followers of the ship are one of the reasons that swimming is not permitted.
Chris Monsour captured this image: Galapagos shark during a feeding frenzy. These followers of the ship are one of the reasons that swimming is not permitted.

Personal Log 

As mentioned earlier with the change in plans, I will have a lot more time on my hands and will have to find other activities on the ship until we resume operations.  We’ll return to Necker Island as soon as we can and begin setting traps.  We did not put fresh bait in the traps and we secured all of our equipment on deck.  For the next few days I will have time to review some of the data with the scientists, research the other animals we’ve collected, read more books and watch some movies.  I have read five books so far and in reality, what else would I be doing?  I just wish we could get in the water, but there is this little problem, sharks. The sharks follow the ship at times and I am sure they would love to snack on human if given the chance.

Did You Know?  

1. Lobsters can cast off a leg if a predator bites it. This strategy helps to prevent the lobster from getting an infection in a bite wound and it is better to lose a leg than a life.

2. Spiny lobsters produce noises to warn other lobsters to stay out of their territory. They rub the hard area at the bottom of their antennae against ridges on their head. It makes a grating noise that warns others to stay away.

Malama pono….

Chris

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Chris Monsour, June 26, 2007

NOAA Teacher at Sea
Chris Monsour
Onboard NOAA Ship Oscar Elton Sette
June 12 – July 12, 2007

Mission: Lobster Survey
Geographical Area: Northwestern Hawaiian Islands
Date: June 26, 2007

Above is an example of the bluestriped snapper that was caught off of Necker Island. This species has become a nuisance since it was introduced to the Hawaiian Islands.
Bluestriped snapper that was caught off of Necker Island. This species has become a nuisance since introduced to the Hawaiian Islands.

Science and Technology Log 

Today we hauled our first set of lobster traps at Necker Island.  I must say the Chief Scientist was right when he said there would be less lobster here.  I think we may have caught 25 lobsters out of 160 traps. Very disappointing numbers, less than one lobster per trap. It is possible that the traps were in too deep of water and the substrate being sand made conditions unfavorable. We will be here for 13 more days or for 13 more sets, depending on how you want to look at it. A majority of what we caught today were different types of crustaceans and bluestriped snapper.

The bluestriped snapper is a non-native species that was brought to Hawaii from French Polynesia in the 1950’s. The fish’s native distribution is the Indo-Pacific from east Africa – Tuamotus; north to southern Japan; south to New Caledonia. The fish was brought to Hawaii to fill a vacant niche in the reef community, a shallow water snapper.  The bluestriped snapper does not have a good reputation.  In Hawaii, the bluestriped snapper share the same habitat with native fishes and this may result in competition for habitat use and food sources. Evidence has been documented which suggests that bluestriped snapper may displace native fish from important refuge habitat.  However this remains a controversial topic and more research investigating the ecological niche of L. kasmira is needed. From what I saw today though, the most common fish brought up from the traps was the bluestriped snapper.

NOAA Teacher at Sea Chris Monsour holds up an example of a sponge crab that was captured off Necker Island.
Chris Monsour holds up an example of a sponge crab that was captured off Necker Island.

When I searched the internet for “bluestriped snapper” and “Hawaii”, I found that many of the links discussed the fish as being a great aquarium fish and really no other use.  Yes, I will admit the fish are great to look at, but what will be the future impact?  The discussion of the bluestriped snapper led into the problems which exists in Lake Erie with the invasive round gobi, zebra mussel, and purple loosestrife.  The main difference here in Hawaii is that this species was introduced intentionally and the impact is yet to be seen. Granted, it has been over 50 years since the bluestriped snapper was introduced, but most of the people I have talked to on the ship see it as a nuisance and not a threat.

Today, as mentioned earlier, I saw more species of crustaceans, especially crabs. There were two groups that I have been seeing quite a bit and that is hermit crab and sponge crab.  Anyone who has explored a tide pool is familiar with the hermit crab.  Although an external skeleton like other crabs covers their front parts, their long soft tails are not protected.  Hence, they use empty snail shells for protection and are very difficult to remove.

One of the many hermit crabs that was caught during OSCAR ELTON SETTE’s cruise of the North West Hawaiian Islands poses for a picture.
One of the many hermit crabs that was caught during the cruise poses for a picture.

The other species that has really caught my attention is the sleepy sponge crab. The sleepy sponge crab is considered to be the most evolutionary primitive of the true crabs. As I found out, they are very slowing moving and nocturnal. They use their hindmost legs to carry a piece of sponge over its back. The crab uses the sponge for camouflage and within the sponge is living a whole myriad of other organisms like sea stars and forminifera (algae).  Unfortunately as I found out, when the sponge comes off the back of the crab, you can’t put it back on.

Personal Log

I was posed this question by the CO (commanding officer) of the ship: What does a Teacher at Sea do on a transit day after a hard week of lobstering at Maro Reef? 

Transit days are spent catching up on reading, laundry and rest.  I finished up one book and read the first half on another. On Sunday at twilight we had a pyrotechnic display on the fantail of the ship. Essentially we had to get rid of the expired flares, so we had a good time setting them off.  Then on Monday before we set the gear, we had four sets of drills which included a quarters escape drill.  Right now though, I am glad to see Necker Island, the first land I have seen in a long time (it resembles Abe Lincoln’s profile).  So with this I will be posting another log in a few days.

Questions of the Day 

1. What type of relationship exists between the sponge crab, the sponge on it’s back , and anything living in the sponge?  Commensalism, mutualism, or parasitism?

A hui hou,… Chris

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Maggie Flanagan, June 26, 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: June 26, 2007

NOAA Teacher at Sea, Maggie Flanagan, repairs a trap aboard NOAA Ship OSCAR ELTON SETTE.
NOAA Teacher at Sea, Maggie Flanagan, repairs a trap aboard NOAA Ship OSCAR ELTON SETTE.

Science and Technology Log 

We just spent an exciting week setting lobster traps at Maro Reef. Sliced mackerel is our preferred bait, and we scrub the bloody patches that drip to deck every day. We hauled back many lobsters, as well as eels, crabs, urchins, and fish. Shark and Octopus can really break up the traps, and ocean conditions can be hard on the gear, so we make repairs as needed. I was proud to put my sailor skills to work helping to splice new bridles on traps.  (Splicing is weaving a line back into itself to create a loop, which is used to attach the trap to a fishing line).  In the past week our Commanding Officer, Karl F. Mangels, shared a little history on The Marine National Monument area created out of the Northwest Hawaiian Islands.  This status is the most protected, but also complex to initiate.  The US Fish and Wildlife Service, NOAA, and the State of Hawaii, among others, have targeted this area for preservation for many years.  Recently President Bush moved quickly to legalize the Monument status, but it is taking time to work out the details of regulations and procedures, considering the multiple jurisdictions involved.

Regulations indicate all activities must be approved by permit, including scientific research, and all ships must have vessel monitoring systems.  But, access for native Hawaiian cultural activities is preserved as several of the islands are ancient holy sites.  Midway Atoll retains special status and will be open to more public visitation. All commercial fishing in the Monument waters will be phased out by 2011, and oil and gas exploration and extraction is prohibited. Having been part of a research crew in the Monument for a week now, I appreciate all these efforts at conservation. There is little dry land surfacing out of the Pacific here, but the bird life and sea life are precious, including rare seals, sea turtles, and albatrosses.

Watch out when there’s an eel in your trap! Most of the local species have sharp teeth, and are quick and eager to use them to gain their freedom.
Watch out when there’s an eel in your trap! Most of the local species have sharp teeth, and are quick and eager to use them to gain their freedom.

Personal Log

Working at sea makes me think often of the legacy of sailors before me.  Though he was a global voyager, Captain James Cook’s influence is heavily felt in the Pacific.  He honed his seamanship skills in the coasting collier (coal cargo) trade in Britain and honed his surveying skills in Canada, helping the British Navy fight the French.  He charted the St. Lawrence River and the coast of Newfoundland, but was a surprise choice among his contemporaries for the Pacific voyages due to his lack of noble title and lack of Royal Navy training. His first command aboard Endeavour in 1768 was to observe the transit of Venus viewable from Tahiti.  A replica of Endeavour now sails out of Australia, and for $1,000 Aussie you can too! The mission of Cook’s second voyage to the Pacific in 1772 was to “complete the discovery of the Southern Hemisphere.”  He took command of Resolution and penetrated the Antarctic circle several times.

Both Endeavour and Resolution were converted North Sea colliers, sturdy vessels familiar to Cook from his merchant marine experience. For the third voyage, Resolution also carried the latest equipment, including a Gregory Azimuth Compass, apparatus for distilling fresh water from seawater, and a new five inch marine chronometer, the K1, by Larcum Kendall.  The chronometer provided for even better chart making as it was easier to use than lunar measurements and proved more accurate for finding longitude.  In 1778, sailing to find a northwest passage between the Atlantic and Pacific, Cook encountered the Hawaiian Islands. Natives were friendly to the Captain and his crew, and when Resolution’s foremast cracked badly in February 1779, they returned to Kealakekua Bay on the big island of Hawaii to down rig the mast and float it to the beach for repairs.  Misunderstandings developed as from both sides, resources were taken and tempers flared.

When Cook went ashore with marines to seek settlement, a crowd gathered and became aggressive. Cook shot a Hawaiian, and in the retreat to the bay, Cook was clubbed and stabbed from behind, dying in the surf.  Two other important figures were also witnesses that day in Kealakekua Bay.  William Bligh of Bounty infamy was one of the ship’s officers, and Kamehameha, who unified the islands to become the first King of Hawaii, was nobility of the village ashore. Cook left quite a legacy of knowledge with his charts and logs, and a legacy of British influence around the globe.  He accomplished surveys of the Pacific from Australia to Alaska.  Resolution’s officers demanded Cook’s body be returned, but it came back as pieces of bone and flesh, which were buried at sea.  There is a monument to Captain Cook in the form of an obelisk on Kealakekua Bay, and it’s curious to think that perhaps missing parts of his remains are buried there.  Interestingly, that little part of Hawaii is technically British soil even to this day.  Now, Kealakekua Bay is also a Marine Life Conservation District filled with coral, schools of tropical fish, and even spinner dolphins – another legacy this historic site can offer for the future.

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Chris Monsour, June 23, 2007

NOAA Teacher at Sea
Chris Monsour
Onboard NOAA Ship Oscar Elton Sette
June 12 – July 12, 2007

Mission: Lobster Survey
Geographical Area: Northwestern Hawaiian Islands
Date: June 23, 2007

NOAA Teacher at Sea Chris Monsour is all smiles as he pulls up two Ehu during bottom fishing. This was the first time Monsour ever bottom fished.
Chris Monsour is all smiles as he pulls up two Ehu during his first bottom fishing experience.

Science and Technology Log 

Today was our last day at Maro Reef and now we are making the 36-hour trip to Necker Island 350 miles to the east southeast.  We finished up trapping today early as the number of lobsters collected was greatly reduced by the time we got to the sets of 20’s.  I had the job of assisting in the lab today. I would collect the lobsters from the buckets, identify the sex, and then hold in place so they could be measured.  In the morning, we collected a lot of slipper lobsters, sometimes as many as 19 or 20 in a trap. There were some spiny, but not nearly as many as the slipper. After lunch we collected the sets of 20 and found quite a difference. Instead of lobsters, we were collecting hermit crabs, spider crabs, sea anemone, and other types of crabs.  The differences may have to do with the sandy bottom or the greater deep of the traps.  I have tomorrow off to do whatever, which may include finishing up the book I started 8 days ago.

In this log I am going to talk about bottom fishing, which is one of the activities we get to do during the evening. Bottom fishing is the name given to line-fishing with baited hooks on or very close to the sea bottom. This is a fishing method, which catches predatory fish that feed on bottom-living crustaceans, fish, etc. One or more hooks may be used. Deep-bottom fishing has been known for many years in the Pacific region, and has been practiced for generations in some of the remote island communities of the Pacific. In the old days fishing was carried out from paddling canoes using gear made from locally-available materials, and was a challenge to even the most experienced fisherman.  We however have the luxury of modern bottom fishing gear such as a winch to help bring up our catch.

One of the reasons for the popularity in the fish that are caught by bottom fishing is the species caught never carry ciguatera fish poisoning. This is a type of natural toxicity, which originates from reef and lagoon fish that feed on toxic reef algae. Ciguatera fish poisoning causes illness and makes the affected person unable to eat seafood for a long time. The possible presence of ciguatera is a major cause of concern for many consumers of reef and lagoon fish. The fact that it never occurs in deepwater fish, due to their diet, makes these fish all the more valuable.  Some of the fish we have caught include Ehu, Uku, Opakapaka, Kahala, Butaguchi and Gindai. (have fun pronouncing these).

Deep-bottom fishing gear can be made from a range of materials, but the basic structure  is generally the same:

  • a mainline, several hundred meters long, to lower the hooks to the bottom.
  •  a terminal rig, usually 2–5 m in length, with attachment points for the mainline,  several hooks, and a sinker. The terminal rig can be made of nylon, or steel cable to resist cutting by the sharp teeth of fish or rough rocks and corals on the sea floor. The attachment points may be loops made on the ends of the terminal rig and at intervals along its length, or may be swivels knotted or crimped into the rig.
  •  several hooks, each fixed to a short trace , which can be connected to or disconnected from the attachment points along the terminal rig. This allows the traces to be changed quickly and easily when damaged or when the size of the fish being caught calls for smaller or larger hooks.
  • a heavy sinker, 0.5–2 kg in weight depending on the strength of the current, to get the rig down to the bottom quickly. I do enjoy the bottom fishing and to date I have caught 3 bottom fish, 1 Kahala and 2 Ehu. In fact I have the record on the boat for the largest Ehu at 54.6 centimeters!
Teacher at Sea Chris Monsour holds up two examples of fish caught during bottom fishing on board OSCAR ELTON SETTE. The fish on the left is a Ehu and the fish on the right is a Uku.
Chris Monsour holds up two fish caught during bottom fishing; Ehu (left) and Uku (right).

Personal Log 

I am glad to have tomorrow off so to speak.  It will be good to sleep in and catch up on all the e-mails I have gotten.  As mentioned before, Necker Island in the past has been slow because of its proximity to the inhabited islands. The bottom fish we are collecting are being used to get an idea of the health of the reefs.  During the processing of the fish, we collect weight, length, gonads, liver, fin, and bones from the skull.  Ryan is collecting these for his research. It is a very interesting process and bloody one too.

Animals Seen Today 

Spiny lobster, Slipper lobster, Ridgeback lobster (type of spiny), Sea anemone, Hermit Crab, and Spider Crab.

Questions of the Day 

  1. What can we learn from Hawaiian values and practices to guide our interactions  with the land and sea today?
  2. What can we do to help restore declining fish populations?

A hui hou,… Chris

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Chris Monsour, June 21, 2007

NOAA Teacher at Sea
Chris Monsour
Onboard NOAA Ship Oscar Elton Sette
June 12 – July 12, 2007

Mission: Lobster Survey
Geographical Area: Northwestern Hawaiian Islands
Date: June 21, 2007

A juvenile spiny lobster is a welcome sign on the board OSCAR ELTON SETTE. This was the smallest spiny lobster caught to date.
A juvenile spiny lobster is a welcome sign on the board OSCAR ELTON SETTE. This was the smallest spiny lobster caught to date.

Science and Technology Log 

We have been trapping for 5 days now and I have been the cracker twice, runner, and setter twice. The days are going by very quick and I find it harder and harder to write because by the time I get done, I am exhausted and then it is time to bottom fish.  We have been having good days in terms of the number of lobsters we are collecting and returning. Just by what I have seen, the slipper lobster is the most numerous and I really can’t seem to find the answer to why.  I do know that I would rather tangle with a slipper lobster than a spiny.  The focus of this log will be on the spiny lobster and what makes it such an interesting organism. As with most lobsters, the spiny lobster is important in the reef community.  I have learned that the spiny lobsters are usually found under ledges or in caves with only their antennae sticking out. The term stridulation comes from the lobster’s ability to rub its antennae to warn other animals away.  I finally understand why we are setting the traps at night. Lobsters remain in their shelters during the day and emerge at night to forage over the reef and in our case for mackerel within the traps.

Teacher at Sea Chris Monsour captured this image of spiny and slipper lobsters waiting to be processed on board OSCAR ELTON SETTE. All of the lobsters were released back to a spot near to where they were captured.
Chris Monsour captured this image of spiny and slipper lobsters waiting to be processed. All of the lobsters were released near the spot where they were captured.

The spiny lobster does not have the large chelipeds that the Maine lobster has.  The first thing I asked about was what do we do about the crusher and pincher (terms used to describe the front appendages of Maine lobster and crayfish). The spiny lobster does not have them; instead they have the spines that point forward that cover their antennae and dorsal surface.  During the reproductive period, which occurs during summer, male lobsters seek out females.  The males attach a sticky packet of sperm near the female’s reproductive opening and her eggs are fertilized as they leave her body.  The female attaches the fertilized eggs to the delicate limbs on the underside of her abdomen.  She aerates the developing embryos by fanning her abdominal limbs through the water.  Females with eggs are called “berried” females because the eggs resemble tiny, reddish or blackish berries. The embryos hatch months later and take up life in the plankton as wafer-thin phyllosome larvae.  The larvae spend up to 9 months in the plankton before settling out to begin life on the bottom.

As I have found through discussion with members of the crew, spiny lobsters are a popular food item in Hawaii.  Just as we have been doing, the commercial fishermen catch them using baited wire traps set on the seafloor.  Recreational fishermen, scuba divers, and snorkelers around the main Hawaiian Islands can only capture lobsters by hand (no nets or spears are allowed), and because of the long reproductive period, it is illegal to catch spiny lobsters during the summer months (May through August).  Females with eggs are protected throughout the year.

Teacher at Sea Chris Monsour holds up a Grey Reef Shark that was caught during the lobster cruise. Data such as the stomach contents will be used to further understand the dynamics that occur on the Maro Reef. Two of Chris’ shipmates, Ryan and Garrett show their excitement over Chris’s first shark encounter.
Chris Monsour holds up a Grey Reef Shark that was caught during the lobster cruise. Stomach contents will be used to further understand what occurs on the Maro Reef. Two of Chris’ shipmates show their excitement over Chris’s first shark encounter.

Personal Log 

As mentioned earlier I am worn out by the end of the day, but it is nice that I have gotten into a routine. We have 2 more days left here at Maro Reef then it is onto Necker Island for 2 weeks. I have been told that Necker Island is not as exciting because it was where more of the trapping occurred in the past and so the numbers are not as high. We will see what happens.

Animals Seen Today 

Uku albatross Ehu terns Reef sharks frigate birds Galopogos Sharks lemonhead eel Spiny Lobster conger eel Slipper lobster Hermit crab Spider crab Sponge crab

Questions of the Day 

  1. How does human debris have a negative impact on marine life, and what can we do       to solve this problem?
  2. What can we learn from a bolus about seabirds and human impact on their habitat?
  3. How do products we use on land affect our ocean and beaches?
  4. How effective are some alternative products that have less impact on the environment?

A hui hou… (Until we meet again) Chris