Onaga dai Bonkei!

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During 2017, the Pacific Islands Fisheries Science Center partnered with the Pacific Islands Fisheries Group to conduct an oral history of bottomfishing in Hawai‘i. The purpose of the Hawai‘i Bottomfish Heritage project was to document the rich culture and traditions of this fishery. Earlier this year, we talked about the project on Mike Buck’s radio show, and wrote about what it means to be a bottomfisher on Hawai‘i Island and on Kaua‘i Island.

Master Chef Kazuhiro Mitake

Master Chef Kazuhiro Mitake (Kazu) from Tokurri Tei Japanese Restaurant and Sushi Bar in Honolulu presents an onaga “bonkei” (Photo courtesy of the Pacific Islands Fisheries Group).

The following story traces the cultural importance and preparation of one of Hawai‘i’s prized “Deep 7” bottomfish, onaga (Etelis coruscans). The story was provided by Pacific Islands Fisheries Group, modified from a story first printed in their Lawai‘a Magazine.

Due to its delicate flavor, onaga is often prepared raw as sashimi. Some of Hawai‘i’s best chefs are able to create a sashimi dinner with the beautiful red fish that is a truly a work of art.

Hawai‘i’s celebrated deep water bottomfish, such as onaga and opakapaka, is rooted in tradition and culture that has evolved to become part of makes Hawai‘i special. In the late 1880s, early “Isseior first generation immigrants from Japan and Okinawa brought with them traditions and practices reflective of the time and place from which they came. One such tradition is the decorative onaga sashimi display that is often the centerpiece of special celebrations such as weddings and special birthdays.

Master Chef Kazuhiro Mitake (Kazu) from Tokurri Tei Japanese Restaurant and Sushi Bar in Honolulu prepares this special dish for weddings and other events. Chef Kazu clarifies that this tradition is really a Hawai‘i thing that you probably won’t find today in Japan. “It’s a remnant of the Onaga quote 1past and something that evolved based on the local resources available at the time,” Kazu explains. During the sugarcane and pineapple plantation days, everyone was struggling to make a living and celebrations were rare and likely structured around the idea of today’s potluck. People would bring food dishes from products they had available at the time. Deep sea fish, such as bottomfish and tuna, were particularly prized and difficult to get. Serving onaga or red snapper sashimi was considered a very special delicacy for any celebration back then and carries on today.

Onaga bonkei

Artistic “bonkei” with onaga bottomfish created by Master Chef Mitake (Photo courtesy of the Pacific Islands Fisheries Group).

Onaga is bright red with nice firm white meat. Its sleek body with large bright eyes and long whisking tail also said to represent longevity. The elegant display of onaga sashimi is skillfully arranged back within the filleted onaga, then adorned with specially-carved daikon (turnip), carrots, cucumbers, and other vegetables. This presentation is known as “bonkei,” a display made of food depicting decorative scenery. There are many types of bonkei. The fish display is one example of this type of food art. Kazu explained that the first part of the word “bon” literally means tray with the second part “kei” meaning scenery.

When it all comes together, the final product is an elegant onaga sashimi scenery embodying the traditional celebratory elements of good luck and longevity – the Hawai‘i way.

Listen to an interview clip with Edwin Ebisui Jr., Western Pacific Regional Fishery Management Council Chair, and his son Ed Ebisui III, who is learning the “bonkei” technique: 

This project was supported by NOAA Preserve America Initiative and a National Marine Fisheries Service Pacific Islands Region Cooperative Research grant.

For more information about this research feel free to contact us: pifsc.socioeconomics@noaa.gov

For more information about other research from the PIFSC Socioeconomics Program visit our website or browse recent blog posts.

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HICEAS “Hilite”: Close encounters of the rare kind, the Longman’s beaked whale aka Indopacetus

By Suzanne Yin and Andrea Bendlin
HICEAS Lead Cetacean Observers

Disclaimer: Biologists, like other groups of people, have a lingo that we use in our daily work.  Just like “a slice to go” means a piece of pizza to take away to eat, and a “pick-6” is an interception and touchdown in football, biologists use terms meant to make our communication as clear and efficient as possible.  All animals have a scientific name in Latin and a common name, whether it is Homo sapiens (human), Phoebastria nigripes (Black-footed Albatross), or Gorilla gorilla (no explanation necessary).  Common names can sometimes be confusing.  For instance, the short-beaked common dolphin (Delphinus delphis) and the long-beaked common dolphin (Delphinus capensis) are indeed common in some locations.  But Delphinus are not so common in other parts of the world (they’re not even found in Hawaiian waters), where another species of dolphin may be the ‘common’ dolphin.  In Hawaii, the most commonly seen dolphin is the spinner dolphin (Stenella longirostris).  Additionally, we are an international community of scientists, and a common name in English may not directly translate in another language.  Thus, we often use scientific names, even in our casual everyday conversation, so that we can speak about animals using a shared language.

Indopacetus?!  That was my question to the other Hawaiian Islands Cetacean and Ecosystem Assessment Survey (HICEAS) observers after I raced up to the flying bridge of the NOAA Ship Reuben Lasker.  The visual team had called on the VHF radio, informing the acoustics team and everyone who had a radio that they had a sighting.  I wasn’t on watch, but I climbed the 31 stairs from my room up to the flying bridge to find out more.  They described what they had seen through the 25-powered binoculars that we call “big eyes”—quite a few animals, all together, puffy blows, light in color, big size even though they were still distant.  And so I said it again, “Indopacetus?!”  A fellow observer nodded his head and said, “I think so.”  And I smiled.  You could feel a frisson of excitement from everyone on the flying bridge.  Most of the scientific party on the Lasker had not seen this species before.  This was going to be good!

The setting sun highlights the puffy blows characteristic of Indopacetus. Photo credit: NOAA Fisheries/Amanda Bradford

Indopacetus pacificus, or the Longman’s beaked whale, is one of the most rarely seen species of beaked whale.  In fact, we have seasoned colleagues who have sailed in tropical waters for years and have never seen them.  If you ask a cetacean observer working in Hawaii what species is at the top of their “to see” list, for most, it’s Indopacetus.  For those of us who have seen them, you can feel the sense of awe (and envy?!) when someone asks, “You’ve seen Indopacetus?”

Until about 20 years ago, we only really knew about these toothed whales from two skulls, one from Somalia and one from Australia.  They were a mystery species, which is surprising because they aren’t small in size or particularly cryptic once you find them (which of course isn’t easy)!  For years, scientists had reported sightings of a tropical bottlenose whale (a toothed whale with a bulbous melon, which is sort of like having a big forehead).  But, it wasn’t until 2003 when scientist Merel Dalebout and colleagues, using genetic samples from stranded animals, determined that the tropical bottlenose whale and Indopacetus were the same animal.

The face of an Indopactus, a rare and exciting sight! Photo credit: NOAA Fisheries/Paula Olson

Indopacetus can be found in large groups, from a handful to upwards of 100 individuals.  They are large in size (up to 20 feet) and have a visible blow.  They can be tan to light brown in color and have a very distinct rostrum (beak).  They can often be found associating with short-finned pilot whales (Globicephala macrorhynchus) and several species of smaller dolphin.  In one of our recent HICEAS sightings, they were mixed with a large group of short-finned pilot whales.  From stranding and sighting data, we do know that they seem to have a vast distribution, inhabiting tropical waters in the Pacific and Indian Oceans.  Yet, we know next to nothing about their diet, diving capabilities, or reproductive behavior.  Are they more active during the day or night?   Or are they a crepuscular species that is more active at twilight?

This Indopacetus surfaces quickly and moves through the water even faster, giving us few chances to uncover their secrets. Photo credit: NOAA Fisheries/Adam Ü

So far during HICEAS, both the Lasker and the NOAA Ship Oscar Elton Sette have each had a few sightings and acoustic detections of Indopacetus in various parts of the study area, with some of the sightings and detections over a thousand nautical miles away from each other.  During the last HICEAS in 2010, there were only three Indopacetus sightings, but one of them involved a large group of approximately 100 animals in the northwestern reaches of the study areaWe were all hoping we might have a sighting like that again this year, and sure enough, we sighted from the Sette a similar-sized group of animals just 150 nautical miles from where they were seen in 2010.  Was it the same group?  Unfortunately, we were unable to collect genetic samples in 2010 or 2017, so we may never know.  Have we found an Indopacetus hot spot?  Perhaps.  Only further research will tell.  We can only hope the remainder of HICEAS will bring more sightings.  There is one thing we do know for sure–for those of us lucky enough to have an Indopacetus sighting as part of our HICEAS 2017 experience, it is something we will always remember!

This map of the Hawaiian Islands shows all of the HICEAS survey effort (white lines) through September 5, 2017, with Indopacetus sightings shown as orange squares. The area shaded in green is the Papahānaumokuākea Marine National Monument, with slightly lighter shading showing where the Monument was expanded in 2016.

What else will the remainder of HICEAS bring?  Find out on the HICEAS website!

All photos taken under research permit.

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From graduate studies in Beaufort, North Carolina, to measuring seas in Hawaii with the Beaufort scale

By Joe Fader and Seth Sykora-Bodie
HICEAS Visiting Scientists

 Joe and Seth are 3rd-year PhD students at Duke University Marine Lab in Beaufort, North Carolina, and each participated on a leg of HICEAS 2017 as visiting scientists.

Entering the third year of a PhD is an exciting and anxious time. The first two years focus on exploring our fields of research and developing a foundation for a dissertation, which requires reading countless papers, taking (too) many classes, and generally just thinking a whole lot about what we want to do with our lives/careers. In the third year, it is finally time to wrangle data, conduct analyses, and eventually spend every waking moment writing a dissertation! Needless to say, we were thrilled to escape the office to join the Hawaiian Islands Cetacean and Ecosystem Assessment Survey (HICEAS): Joe on the NOAA Ship Oscar Elton Sette’s 2nd leg from August 8 to September 5, and Seth on the NOAA Ship Reuben Lasker’s 1st leg from August 17 to September 5.

 

It wasn’t just the welcome respite from coursework and paper reading that drew us to participate in the Pacific Islands and Southwest Fisheries Science Centers’ cetacean population and ecosystem assessment survey. It was also an incredible opportunity to meet and interact with NOAA scientists, learn techniques for studying marine mammal populations in the wild, and better understand the unique challenges to studying cryptic, migratory, and sometimes seemingly invisible marine mammals. In addition, we each had our own reasons this experience would enrich and complement our particular dissertations.

Joe Fader

My dissertation focuses on depredation, an interaction between odontocete cetaceans (toothed whales, including dolphins) and commercial fisheries in which some odontocete species remove fish from commercial fishing lines before the fishermen are able to bring the catch aboard. It’s pretty clever and an easy meal for the whale. Unfortunately, the animals can get themselves hooked or entangled and of course cause problems for the fishermen that pull up empty lines. False killer whales are the main depredators in the Hawaii-based longline fishery for tuna and are a focus of my PhD studies. They are also a top-priority species for the HICEAS expedition, making it a perfect opportunity to see these animals in nature and develop a richer understanding of their behavior as it might relate to fisheries management. It was also a great opportunity to understand the science that goes on behind the assessment of a human-impacted cetacean population.

Our leg was 29 days all told–not a short period of time and surely one with ample opportunity for many enriching sightings of my coveted false killer whales. Indeed, it was a fantastically exciting leg. Our transect lines were mostly north of the Northwestern Hawaiian Islands through some areas that are not expected to have very high densities of cetaceans, or even good conditions for sighting in the first place. Yet, we had amazing encounters with a variety of species. Many of these species were new to me, such as the sperm whale and two incredible sightings of the rare Longman’s beaked whale. We also had quite a few interactions with my other focal species, the short-finned pilot whale. All incredible and memorable, but where were my false killer whales??

 

As the days ticked by, I started to worry. The other scientists and I had talked about seeing false killer whales so many times on the flying bridge of the Sette that we probably jinxed ourselves. Perhaps the more you hope to see a cetacean species, the more Poseidon will conspire against you to hide them? I grudgingly resigned to my fate, reminding myself these were wild animals, and there are no guarantees in the field. Indeed, that’s part of the excitement of studying these cryptic creatures.

We spent the last day on one final transect line southwest of the island of Oahu. The next morning would be an early arrival to port in Honolulu. With only a few hours of daylight left, I was reflective of this amazing experience, sure that nothing major would happen on this last quiet afternoon. I certainly didn’t expect that, with literally hours of observation left to spare, Cruise Leader Amanda Bradford would calmly bring me over to the acoustics station to inform me that we were entering “Phase 2” of the false killer whale protocol, in which we visually search for false killer whales that were acoustically detected. It was really happening, we had finally had them!

Finally, on the last full survey day of the month-long trip, Joe gets to see false killer whales! Photo credit: NOAA Fisheries/Adam Ü

The next few hours were spent truly learning the ways of the false killer whale. That is, in perfect conditions, with acoustic detections of them all around the vessel, we spotted just a couple of individuals and for only a brief period of time. I loved every second! Our experience shed light on why, with depredation being a fairly common occurrence in Hawaii fisheries, the fishermen themselves very rarely see the animals responsible. This is exactly why many species of cetaceans are so poorly understood and efforts such as HICEAS are vital to improving our understanding of them. As someone interested in working at the intersection of cetacean ecology and human impacts on protected species, I had an eye-opening experience and incredible privilege. Thanks to all the Sette scientists and crew who made it so memorable!

Joe (second from left) assists with Unmanned Aircraft System (UAS) operations. Photo credit: NOAA Fisheries/Adam Ü

Seth Sykora-Bodie

My doctoral research is focused less directly on marine mammals and more broadly on using various ecosystem management techniques to conserve, protect, and recover threatened and endangered species such as whales and dolphins. As biodiversity conservation has become a key issue on the global agenda, scientists and managers alike have focused on improving methods for reducing human impacts to marine ecosystems—one of which is through the use of marine protected areas (MPAs) such as the Papahānaumokuākea Marine National Monument (PMNM). MPAs such as PMNM can offer protection to vulnerable wildlife from fisheries interactions, pollutant accumulation, and other human impacts. Understanding how to design MPAs or other management actions requires understanding the population status and trends of the focal species, emphasizing the importance of surveys like HICEAS that focus on population assessment.

The Lasker steams west from San Diego to join the search for whales and dolphins around Hawaii. Photo credit: NOAA Fisheries/Seth Sykora-Bodie

Past efforts to design and manage MPAs have in many cases resulted in limited benefits to wildlife and ecosystems, while reducing economic opportunity for fishing communities and others; addressing these dual challenges is the goal of my research. To do so, I am situating my work at the intersection of conservation biology, spatial ecology, and environmental politics because environmental stewardship requires an intimate understanding of both natural and social system dynamics. As a result, I spend days in meetings negotiating the boundaries of new marine reserves, but I also spend them outdoors (often with NOAA colleagues!) trying to better understand the structure of the cetacean (or other focal) population at the center of conservation efforts.

Joining HICEAS was particularly special to me for a few different reasons. First, I had never been on a cetacean survey in the Pacific, so it was a chance to see new species like the false killer whale. For someone like me, whose research is more motivated by the concern for wildlife than by theoretical and technical questions, I need to see something swimming around in the ocean at least a few times a year.

Seth (far right) assists with visual observations from the flying bridge of the Lasker. Photo credit: NOAA Fisheries/Suzanne Yin

Besides the species we expected to see, we also spent a day searching for the elusive Cross Seamount beaked whale. Scientists from the Pacific Islands Fisheries Science Center have previously recorded sounds from a beaked whale near Cross Seamount that are unlike the sounds from known beaked whale species. As a result, our tracklines south of the main Hawaiian Islands traversed Cross Seamount in an attempt to identify what has mystified scientists up until this point. On several occasions, our acoustics team heard clicks that resembled what we were searching for, and we were even able to catch a quick glimpse of a diving animal, but we were unable to identify it before night fell. The fact that a potentially unidentified whale species still exists reminds us that we still have so much to learn about marine ecosystems.

On top of this, I had never been on a ship with seabird observers! Having the chance to sit on the flying bridge of the Lasker asking our bird team about species like Hawaiian petrels and sooty shearwaters was fantastic. Although I have always known that these species are highly migratory, just discussing the distances they fly and how they pinpoint rookeries in the middle of the Pacific Ocean piqued my interest even more. Like migratory cetaceans, the home ranges of seabirds are so vast that conservation measures need to consider the migratory corridors between foraging and breeding areas. Drawing that parallel was important and helped me consider how seabird data might contribute to conservation planning.

A red-footed booby soars overhead, looking for flying fish displaced by the path of the Lasker. Photo credit: NOAA Fisheries/Seth Sykora-Bodie

Although Joe and Seth have returned to their studies, HICEAS 2017 is ongoing. Stay tuned to the HICEAS website for the latest updates!

All photos taken under research permit.

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A day in the life of the East Island Exiles

How we stayed sane on the smallest island field camp in the Northwestern Hawaiian Islands

by Marylou Staman

Imagine this: You wake up on a cot, under a canvas tent, and blink your eyes, wondering where you are. As you remove your ear plugs, the dull sound of birds nesting under your tent becomes a cacophony of screams, honks, and wails, and the afternoon sunlight streaming through gaps in the tent walls burns your eyes. It’s hot, you’re exhausted, and yet you smile, because you finally remember that you’re on East Island, and in the middle of the greatest adventure of your life.

Monk seals and turtles often basked together on East Island (Photo: NOAA Fisheries/Jan Willem Staman).

East Island, our home for the majority of our summer up at French Frigate Shoals in the remote Northwestern Hawaiian Islands, is only about 2000 feet long and 400 feet wide. Because of its size and our initial impressions from satellite images, we originally dubbed our future home a “sand bar,” devoid of life. But upon closer inspection we found the island to be rich with birds, Hawaiian monk seals, vegetation, and of course, sea turtles. Even the beautiful turquoise water surrounding the island, our front yard, provided us with daily sightings of schooling trevally, foraging eagle rays, and huge tiger sharks, patrolling the shallow lagoon waters for disoriented albatross fledglings that landed on the water while learning how to fly. With the gorgeous scenery and wildlife keeping us company every day, it was easy to fall in love with our tiny island home.

Marylou, Jan Willem, and Alex (L-R) pose on their camp “front porch” on East Island (Photo: NOAA Fisheries).

But what brought us to East Island? My husband, Jan Willem Staman, and I, along with our colleague Alex Reininger, made up the three-person Sea Turtle Research Team in the Northwestern Hawaiian Islands with the NOAA Fisheries Marine Turtle Biology and Assessment Program. It was our job this summer to set up a camp on East Island and study the hundreds of sea turtles that come to this small island to reproduce. While it is not known why approximately 96% of Hawaiian green sea turtle nesting takes place at French Frigate Shoals, we are learning more and more about this phenomenon with each passing field season. This season, we identified 871 individual male and female turtles with a small white number we gently painted onto their shells. On East Island alone we counted 413 females that came up to nest this season, more than last year’s 87 but less than the banner year of nearly 900 in 2014 (because turtles nest every few years, every population has natural seasonal highs and lows depending on which turtles decide to make the migration and nest). Along with numbering each turtle, we also gave each one small flipper tags and took their measurements to track their growth. Since researchers have been tagging in Hawaii for several decades already, it was exciting to find turtles that had tags from 10, 20, and even over 30 years ago!

Sea turtle researcher Jan Willem Staman counts the eggs of a nesting female turtle (Photo: NOAA Fisheries/Marylou Staman).

Because sea turtles nest at night, we had to adjust our sleeping schedule to make sure that we would be awake when the turtles were most active. That meant that our work day actually started around 4pm in the afternoon. Just like in the main Hawaiian Islands, the sea turtles at French Frigate Shoals would haul out onto the beach during the day to bask, or rest in the sun. From 4-6pm we would walk around East Island and record all of the turtles we saw based on the white numbers we wrote on their shells. On our very first day on East Island, we walked around the island and counted 229 basking sea turtles! However, that number steadily declined throughout the summer as more and more females finished laying their eggs and returned to the main Hawaiian Islands. Those females, with our white numbers still on their shells, have now been seen back around the main islands and have become a part of a unique citizen scientist project recently announced by NOAA! (Learn more: By the Numbers, Green Sea Turtles in Hawaii.)

The sea turtle research team didn’t need headlamps to see the turtles crawling up to nest when the moon was up (Photo: NOAA Fisheries/Jan Willem Staman).

After completing our afternoon survey, we would spend a few hours transcribing the data and eating dinner before starting our night survey around 9pm. While in theory walking around a deserted island at night may sound spooky, there was actually so much going on that we didn’t have time to get creeped out. In addition to the dozens of nesting sea turtles crawling out each night, we also encountered sleeping monk seals and restless birds, all lit up by the most impressive display of stars I have ever seen. When the moon was up we didn’t even need headlamps, and when the moon was set, the darkness allowed the stars to light up the whole sky instead. We spent so much time on our night surveys looking for turtles on the ground, that I’d occasionally remind myself to look up, and the night sky always took my breath away.

Sea turtle #252 digs a nest in front of the East Island camp (Photo: NOAA Fisheries/Jan Willem Staman).

When the sun began to rise on the horizon, it meant it was time to do one last lap around the island and head back to the tents. After 8-9 hours of walking laps around our sandy island, the biggest and completely unanticipated challenge we faced each day was still to come: trying to sleep! Between the loud birds and the hot sun, sleeping more than 2-3 hours in a row became a notable achievement around camp and something I do not take for granted now that we’re back here in Honolulu.

The stars shone a little brighter over East Island, where the only other light came from red headlamps the researchers wore during surveys (Photo: NOAA Fisheries/Jan Willem Staman).

Jan Willem and I returned to Honolulu at the end of August and have been busy entering all of the data we compiled over the summer. In order to collect another month of nest data, Alex bravely stayed behind on East Island alone, with daily check-ins from the nearby monk seal camp on Tern Island. Sitting behind a desk in a cubicle is definitely not as adventure-like as carefully sneaking up behind nesting turtles to count their eggs, but we do value the data and enjoy the memories it elicits.

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The Mysterious Identity of the Bright-Red Sea Toad

by Bruce Mundy
Reposted from the NOAA Office of Ocean Exploration and Research, NOAA Ship Okeanos Explorer expedition, “Deep-Sea Symphony: Exploring the Musicians Seamounts” mission logs.
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Sea toad or coffinfish (Chaunacops species) was seen at a depth of about 1.96 miles (3,148 meters) during a remotely operated vehicle (ROV) dive at a seamount ridge, dubbed “Beach Ridge,” in the Musicians Seamount group northeast of O‘ahu, Hawaiian Islands. Image courtesy of the NOAA Office of Ocean Exploration and Research, Deep-Sea Symphony: Exploring the Musicians Seamounts.

On September 8, 2017, this bright-red sea toad or coffinfish (Chaunacops species) was seen at a depth of 3,148 meters (about 1.96 miles) during a remotely operated vehicle (ROV) dive from the NOAA Ship Okeanos Explorer at a seamount ridge, dubbed “Beach Ridge,” in the Musicians Seamount group northeast of O‘ahu, Hawaiian Islands. Its identity is a mystery.

Sea toads, or coffinfish (Chaunacidae), are among the more unusual fish occasionally observed during the Okeanos Explorer’s ROV expeditions in the central Pacific. They are deep-water relatives of the frogfish seen by attentive divers in tropical waters and of the goosefish or monkfish of the North Atlantic Ocean. All of these fishes and others in their order (Lophiiformes) have a distinctive luring apparatus on their heads and an unusual position for their gill openings. The lure is a modified ray of the dorsal fin (the fin on the back) that is displaced much further forward than in most fishes. The several lophiiform families have different sizes, positions and shapes for this lure. The gill openings of lophiiforms are placed behind the pectoral fins (the paired fins behind the head) instead of the usual position in front of those fins and have smaller openings than in most fishes. Some lophiiforms can rapidly expel water through their narrow gill openings to create a jet propulsion that allows rapid swimming and escape for these normally sedentary fish.

AntennariusCommerson

This Commerson’s frogfish (Antennarius commersoni), photographed at SCUBA-diving depths off O‘ahu, has its lure folded back along its head so that it cannot be seen. Photo: NOAA Fisheries/Bruce C. Mundy.

Frogfishes (Antennariidae) are shallow-water masters of camouflage related to sea toads. They are popular subjects for underwater photographers because of their unusual shapes and colors, and because they rarely move. They have a lure on their snouts, often on a long stalk, that they use to attract small animals that they eat.

Sea toads are characterized by having a small lure on a short stalk, placed in a depression on the head between their eyes. The lure is rounded with numerous, small filaments that make it look like a tiny mop. Frogfishes and goosefishes living in shallow, sunlit depths wave their long-stalked lures to attract small animals that are their prey. Sea toads live at depths where there is little or no sunlight to let their lures be seen. How do sea toads use their lure to attract prey? We do not know the answer, but we can guess.

Open-water (pelagic) anglerfishes that live in the deep ocean have lures on long stalks that produce light (bioluminescence). These anglerfishes certainly use their lures as lighted bait to attract food. Sea toads have been described in some publications as having bioluminescent lures, but there is no evidence for that and it is probably unjustified extrapolation from what is known about the bathypelagic anglerfishes. There is evidence that the batfishes (Ogcocephalidae), close relatives of sea toads that live in the same habitats, have glands in their lures that produce odors which attract prey. It seems likely that sea toads are similar to the batfishes in how they use their lures. However, we know almost nothing about the biology of sea toads other than where they live, so the way that their lures function remains a mystery for now.

There are two genera in the Chaunacidae family. Chaunax has twenty-five described species that live in the upper bathyal regions of the oceans between 300 and 6,500 feet, below the depths reached by most SCUBA divers. Chaunacops has four described species that are usually found deeper than Chaunax species, although the depth ranges of two genera overlap. There are likely undescribed species in both genera that have yet to be discovered.

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A Chaunax umbrinus photographed during an Okeanos Explorer ROV dive on the southwest coast of Niʼihau, Hawaiʼi, between 1024-1765 feet (312-538 meters). Chaunax species differ from Chaunacops species by having smaller, more numerous, sensory pits on the head and body, and usually by having much smaller prickles on the body, among other characteristics. Image courtesy of NOAA Office of Ocean Exploration and Research, Hohonu Moana 2015: Exploring Deep Waters off Hawai’i.

The Chaunacops species that we have most often seen during the central Pacific Okeanos Explorer ROV expeditions is C. coloratus. Most individuals are pink or pinkish-red, with prominent prickles on the head and body, and short cirri. They are usually, but not always, seen in a characteristic posture with one pectoral fin braced like a hand against a rock and the other placed down on sand or sediment.

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A Chaunacops coloratus photographed during an ROV Deep Discoverer dive at about 7,346 feet (2239 meters) on a flat-topped seamount (guyot) west of Wake Atoll on August 6, 2016. This individual sat in a characteristic posture for the species on sediment next to a rock. Image courtesy NOAA Office of Ocean Exploration and Research, Deepwater Wonders of Wake.

The bright-red Chaunacops observed on September 8, 2017 looked different from the C. coloratus seen in other Okeanos Explorer Pacific expeditions by having a brighter color, larger cirri, and smaller or no prickles on its back. We do not know if these differences were caused by variation among individuals of the same species, by variation among different sizes or maturation stages of the same species, or by differences between species. If the differences were due to variation between species, we may have found a second, undescribed species of Chaunacops in the Hawaiian Islands.

Chaunacops

A bright-red Chaunacops observed on September 8, 2017 at about 1.96 miles (3,148 meters) in the Musicians Seamounts northeast of the Hawaiian Islands differed from those usually seen by having a brighter color, larger cirri, and smaller or no prickles on its back. Image courtesy of the NOAA Office of Ocean Exploration and Research, Deep-Sea Symphony: Exploring the Musicians Seamounts.

However, this illustrates an important point about explorations of deep-sea biology – we cannot verify what species we see without collecting specimens that can be examined in detail. Video records alone do not allow for accurate species identifications in most cases and they certainly do not allow for the identification and description of new species. Although the ROV Deep Discoverer can use its mechanical arm to collect specimens of non-swimming organisms like corals and sponges that are thought to be new species, it cannot collect organisms that swim. Thus, the observation of the bright red Chaunacops gives us another deep-sea mystery whose solution will have to await further exploration with tools that allow specimens to be collected.

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Making Science Happen: The Officers and Crew of the Oscar Elton Sette

By Ali Bayless
HICEAS Acoustician

The objective of the NOAA Ship Oscar Elton Sette is simple: provide a platform to conduct research for the Pacific Islands Fisheries Science Center. The long hours and hard work that goes on behind the scenes to keep a ship running smoothly, though, are not so simple. While the research is often highlighted in the news and updates, it is the platform that enables these successes. It takes a floating village to make the science happen! While onboard the Sette during the second leg of the ongoing Hawaiian Islands Cetacean and Ecosystem Assessment Survey (HICEAS), we took a moment to sit down with various members of the ship’s personnel, from the Commanding Officer to the Lead Fisherman, to better understand the inner workings of the ship, the career paths each individual took, and how each position helps to keep the project (or ship!) afloat.

CDR Stephanie Koes ~ Commanding Officer

How did you end up where you are today?
I was born and raised on Oahu, then went away for college. After graduating from Arizona State, I had a really good civil engineering job, but missed Hawaii.  It’s all sand and no water in Arizona–I wanted to get back to the water. That is when I found out about the NOAA Corps and was able to find my way back to Hawaii via the ships.

Do you have any advice for someone looking to pursue a similar career?
Follow your dreams and don’t be afraid to change. I was mid-career when I decided to make a change and have been in the NOAA Corps for 16 years now. I chose to take a different career path from the typical jobs in Hawaii, like being a flight attendant or working in the tourism industry.

What is your favorite part about being out at sea?
I like being disconnected, not having to hear about all the other stuff going on in the world, the news. I also like it when the scientists are happy because they get really excited about their research findings. Bottom fishing trips are probably my favorite because there is a lot of ship handling, which keeps it interesting.

Mike Caseria ~ Chief Engineer

How did you become a marine engineer and do you have any advice for someone looking to follow a similar career path?
I was born in Waialua and raised in Mililani. I joined the military right out of high school, first with the Navy and then with the Coast Guard. It was this experience in the military that enabled me to get my license as 3rd Engineer for unlimited horsepower vessels, and then later on as Chief Engineer. I would advise anyone wanting to go into this field to go to a maritime college for a degree in engineering and get as much experience as possible.

What’s a typical day like for you on the ship?
Every morning I have a meeting with the entire engineering department on the ship, and I lay out the jobs and responsibilities required for the day. We talk about any issues or safety concerns that may take priority, perform a job analysis, and then make a plan for the day.

How do you keep the ship running?
I always try to be part of the solution and not the problem. I am always taking a look at gauges, temperatures, and pressures, looking for leaks and checking machinery to make sure it’s running properly. You have to train your eyes and your ears to notice when things are not running smoothly, and think outside the box so you are prepared for anything.

What is the biggest issue you’ve ever had to fix on a ship?
A few years back, the AC pipe broke while the ship was docked at Ford Island and there was 4 feet of water in the ship. We had to pump out a lot of water!

Mills Dunlap ~ Lead Fisherman

What are the duties and responsibilities of the lead fisherman?
My role changes a lot depending on what type of research we are doing, but generally speaking, I am a facilitator of data acquisition. I make sure all of the ship’s small boats are functional and help to safely deploy and recover all of our boats when necessary.

What are the most exciting tasks you get to do?
I really enjoy small boat deployment and operation, particularly for the Northwestern Hawaiian Island camp deployments. I also enjoy helping out with the bottom fishing trips, where we help to collect samples for histology of the seven species that are commercially fished.

What are some of your favorite places you have worked while aboard the Sette?
We work in a lot of amazing places: the Northwestern Hawaiian Islands, backside of Molokai, northwest coast of the Big Island, Samoa, the Manua islands, and the northern Marianas.

What do you like to do for fun on the ship?
As lead fisherman, I spend a lot of my time making lures and fishing. It’s always exciting when the ship can make passes on logs and FADs [fish aggregating devices], and sometimes we get a big fish.

CDR Hung “Doc” Tran ~ Medical Officer

Where are you from? What do you do before coming to the Sette?
I was born in Vietnam and came to the U.S. as a refugee in 1981 with my brother and sister and lived in Illinois. After medical school, I worked in the Cook County Emergency Room in Chicago, the same hospital where they filmed the popular NBC show ER. I also worked at the federal prison in Chicago, which I really enjoyed because it was fast-paced and exciting. I saw some crazy stuff!

What is the United States Public Health Service?
It is a uniformed branch of the federal government under the Department of Health and Human Services. We are responsible for looking out for people’s welfare and health all over the world. Onboard the Sette, I work as an emergency doctor for everyone on the ship because we travel to very remote areas, outside of emergency services capabilities.

What’s the most challenging condition you’ve had to treat at sea?
I treat a lot of seasickness! But the most challenging is probably trying to suture a wound while the ship is rocking, that’s not easy. I have also had to cut a fish hook out from a guy’s back, and he fainted.

What do you do to help pass the time?
I love to cook; particularly, Vietnamese food and all types of baked goods. I also like to garden, which is tricky at sea. You have to cover the plants with plastic when the seas are rough because the salt will kill them.

What is your favorite thing about your job?
I love the people–talking to and meeting new people on the ship that come from all over the country and the world. I also love to explore all of the interesting places we go: Guam, Saipan, and Samoa.

The NOAA Ship Oscar Elton Sette – our floating village! Photo credit: NOAA Fisheries/Adam Ü

We thank CDR Koes, Chief Engineer Caseria, Lead Fisherman Dunlap, CDR Tran, and all the other fine officers and crew from the Oscar Elton Sette and the Reuben Lasker, who are working their hardest to make HICEAS a success. We simply could not do it without you!

Follow along here for more updates from HICEAS!

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