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Naturalist Richard Pyle explores the mysterious dimly lit realm of deep coral

first_img A school of bigeye trevally, Caranx sexfasciatus, swarms Sonia Rowley off the island of Pohnpei in Micronesia. Divers find that they can get much closer to fish using rebreathers than traditional scuba gear, which releases noisy plumes of exhaled bubbles.  ‹› Naturalist Richard Pyle explores the mysterious, dimly lit realm of deep coral reefs Transition zone30 metersAs sunlight dims to twilight and tem-peratures cool, hard scleractinian corals transition to soft gorgonian corals such as sea fans. Twilight ends150 metersAs the mesophotic zone yields to near darkness, coral reefs give way to deep-sea habitat. © Luiz A. Rocha Somersaulting backward into the sea, the divers descended as fast as possible. At 100 meters down, they would have only 20 minutes on the reefs, given the tight ship schedule and the need for more than 2 hours of decompression stops on the way up.Colorful scleractinian corals basking in sunlight dominated the top 30 meters. These are the familiar coral reefs, built by tiny colonial animals that farm symbiotic algae inside their calcareous skeletons and form mounds, branches, fingers, plates, and encrustations.Recently, researchers have found such stony corals far deeper than expected. For example, in a 20-year assessment of Hawaii’s mesophotic coral reefs published in October 2016, Pyle led a team of 16 researchers who documented extensive coral gardens 70 to 90 meters deep off Maui and Kauai. Tens of square kilometers had nearly complete cover by platelike stony corals growing horizontally, presumably to maximize their exposure to light. The researchers also discovered vast fields of deep-dwelling seaweeds, with unique fish and invertebrates living in the thickets.On this day near an atoll, the divers pushed even deeper as the sea around them darkened to indigo. In the twilight, the hard corals gave way to soft gorgonian corals in myriad shapes and sizes, including sea fans, sea feathers, and whips in bushy clusters. Their silhouettes appeared dark until the divers’ flashlights revealed their true colors, as bright and diverse as a rainbow.These soft corals are thought to feed on plankton, detritus, or dissolved organic matter, says postdoc Sonia Rowley of the University of Hawaii in Honolulu, “but we really don’t know what they eat.” She suspects they may farm bacteria just as stony corals grow algae. Rowley, who frequently dives with Pyle, is one of the few who study deep-living gorgonians. Most researchers stick to the shallow reefs, where more research dollars flow.What compels scientists to plumb such depths? “It’s not thrill seeking,” Pyle says. “It’s the thrill of discovery. The magic moment comes when I see a fish that no one else has ever seen before.” Sign up for our daily newsletter Get more great content like this delivered right to you! Country Using an improvised underwater vacuum cleaner, Rich Pyle scoops up small invertebrates on a reef about 100 meters deep off the island of Espiritu Santo in the South Pacific nation of Vanuatu. Pyle designed the electric device to slurp up tiny invertebrates for colleagues who study them.  A curious Galapagos shark checks out deep divers during a decompression stop in the waters around the northwestern Hawaiian Islands. Close encounters with big predators are common in the Papahānaumokuākea Marine National Monument, 1.5 million square kilometers that are off limits to fishing. John L. Earle Tropical coral reefs extend to a surprising 150 meters below the surface. The brightly lit reefs in the top 30 meters, dominated by scleractinian or stony corals, make up about 20% of coral reef habitat and can be reached by divers using conventional scuba gear. Divers using rebreathers are just begin-ning to explore the remaining 80% of living reef habitat, called the mesophotic coral ecosystem. © Richard L. Pyle Richard L. Pyle Related video Rich Pyle videoing the deep habitat of the fish Tosanoides obama Rich Pyle discovered this blue damselfish on a reef about 110 meters deep off Palau in 2007. He named it Chromis abyssus, because it was the deepest-known species of its genus at the time. It was the first new species registered in ZooBank, the online database designed to capture all known animals.  Pyle typically surfaces last on team dives. He errs on the side of caution these days, allotting extra time for nitrogen and helium to escape his bloodstream. Decades ago, he began to pause his ascent below 30 meters to vent the expanding gas from the swim bladders of fish he was bringing to the surface. If he didn’t puncture these buoyancy-control organs with a hypodermic needle, they would expand or burst and the fish would die. What was good for the fish turned out to be good for the fish collector. Pyle published his observation that he had less fatigue when he made such deep stops—now often called “Pyle stops”—which have become common practice on deep dives.In the mid-1990s, Pyle teamed up with Bill Stone, president and CEO of Austin-based Stone Aerospace, to improve the company’s Poseidon rebreathers. Stone works on outer space vehicles for NASA but also probes the depths of Earth by mounting expeditions to the world’s deepest caves, which invariably means deep diving in hard-to-reach places. So he began to design and engineer lighter weight rebreathers.A closed-circuit rebreather works by scrubbing carbon dioxide from exhaled air as it is recycled and then injecting fresh doses of oxygen into the gas mixture, which typically also includes nitrogen and helium. The trick is figuring out how much oxygen. “If you go too low, you go hypoxic and die,” Stone says. “If you go too high, the oxygen level becomes poisonous and you will suffer a grand mal seizure. That simple question has been the cause of many of the 200 to 300 rebreather deaths in the past 20 years.”Pyle has a rare talent for poring over data and spotting patterns, Stone says. “It was Rich who went through tens of thousands of [rebreather dive] records, teasing out something from big data that no one has ever caught,” he says. Essentially, Pyle developed a lie detector test for the allimportant oxygen sensor, so that the system will adjust for any misread.All of this is merely the price of admission to explore where few others go. Although rebreather divers pay meticulous attention to their gauges and gear, they live for the precious minutes they spend at depth. Richard L. Pyle Shallow reefs, with their brightly colored hard corals and fish, get most of the attention from scientists, conservationists, and the public. But studies of these deeper habitats, technically known as the mesophotic coral ecosystems, have surged lately, in part because they may offer a refuge for species squeezed out of shallower reefs damaged by pollution, overfishing, or global warming. The soft corals that dominate the mesophotic zone host a diverse and colorful community of wrasses, butterflyfishes, damselfishes, mollusks, crustaceans, and other sea creatures. Some of them dwell in both deep and shallow habitats, whereas others specialize in one or the other.Pyle “was really the first to bring deep reefs to the attention of both the science community and the general public,” says Pim Bongaerts, a research scientist at the University of Queensland in Brisbane, Australia. Pyle helped develop the specialized diving equipment needed to explore the twilight reefs. He has already discovered more than 100 new fish species there, though he estimates that perhaps 2000 more coral reef fish have yet to be identified. He’s driven by a sense of urgency to help science build a card catalog to the world’s “biodiversity library,” as he calls it, before species are lost to long-term human impacts such as climate change and overfishing.Pyle “does what little kids do: He asks questions and then follows up on them, fearlessly,” says Sylvia Earle, former chief scientist of the National Oceanic and Atmospheric Administration (NOAA), who is now president of Mission Blue, a nonprofit advocating ocean conservation in Oakland, California. “He’s a true pioneer and a courageous scientist.”Identifying and describing the inhabitants of these reefs is just the first step. “We are just beginning to understand what lives there, but we don’t know how they feed, how they interact with each other, how they reproduce,” Pyle says. Whereas shallow reefs are sustained by photosynthesis, researchers still aren’t entirely sure just what energy sources sustain such low-light ecosystems, for example. “Compared to what we know about shallow coral reefs, everything in the deep coral reefs is a big question mark.” 10 By Kenneth R. WeissMar. 2, 2017 , 9:00 AM © Richard L. Pyle Submarine or remotely operat-ed vehicle Richard L. Pyle Rich Pyle found this basslet at 90 meters on the reef surrounding Kure Atoll in the northwestern Hawaiian Islands on 5 June 2016. He and his colleagues named the  6-centimeter fish Tosanoides obama in a nod to the former president who quadrupled the size of Papahānaumokuākea Marine National Monument. Sonia Rowley 100 Pyle and Greene almost always record their dives on video cameras attached to their rebreather rigs, whether documenting the capture of T. obama or swimming through swarms of fish that billow like a murmuration. Divers can get closer to fish on rebreathers because they are quieter than traditional scuba and release no bubbles.When on land, Pyle loves to regale audiences with vivid descriptions of this twilight world. Back in 2008, he was engaged in one of these unbridled bursts of enthusiasm at a dinner in Paris, recounting how a vast school of brilliant blue damselfishes swam by like sparkling jewels at a depth of 120 meters off Palau. At one point, his dinner companion held up a hand to interrupt the flow. “I have to stop you,” said evolutionary biologist Edward O. Wilson of Harvard University. “What an honor it is to be in the presence of a true naturalist.” Pyle prepares for a dive in the Philippines. Depth (meters) Centropyge boylei, the peppermint angelfish, is another of Pyle’s discoveries. Richard L. Pyle ABOARD THE HI’IALAKAI NEAR KURE ATOLL—Back in 1986, 19-year-old college dropout Richard Pyle was 75 meters deep in the clear waters off Palau, pursuing a small pink fish with red tiger stripes, when he noticed it seemed hard to breathe. His pressure gauge showed plenty of air in his scuba tank, and at this depth, far below where most scuba divers dare to venture, Pyle was certain the fish would be a species new to science. He caught the fish in his net, then headed up. © SONIA J. ROWLEY Richard L. Pyle Sunlit shallows10 metersThis zone chiefly holds the familiar scleractinian corals that form diverse colonies and rely on sun-light to grow sym-biotic algae that provide them color and food. Using a rebreather, Rich Pyle hovers at 30 meters during a decompression stop off a coral reef near the Micronesian island of Pohnpei. After 20 minutes exploring the reef at 150 meters, Pyle faced 6 hours of decompression on the way up. Click to view the privacy policy. Required fields are indicated by an asterisk (*) Rebreather Rich Pyle found this basslet at 90 meters on the reef surrounding Kure Atoll in the northwestern Hawaiian Islands on 5 June 2016. He and his colleagues named the  6-centimeter fish Tosanoides obama in a nod to the former president who quadrupled the size of Papahānaumokuākea Marine National Monument. Sonia Rowley Coral dominance For this particular little fish, Pyle and his colleagues hatched a plot. When it was published in December 2016, they named it Tosanoides obama, in appreciation of then-President Barack Obama’s decision to quadruple the size of Papahānaumokuākea, making it the world’s largest marine protected area.T. obama is just one of hundreds of fish known only in these waters. The recently published review of Hawaii’s reefs confirms that in contrast to shallow reefs, the deep habitats have extremely high levels of endemic fish. In the mesophotic zone surrounding Kure Atoll, 100% of fish were endemic to Hawaii—the highest proportion ever documented in the marine world, Kosaki says.Pyle and Kosaki have long puzzled over such high levels of endemism, which they attribute in part to Hawaii’s remoteness. They also think it may have arisen because the deep reefs were unaffected by the rise and fall of sea levels during the ice ages. When glaciers grow and oceans shrink, the shallow reefs that sit atop steep-sided atolls go high and dry, triggering die-offs. Then, as sea levels rise again, these reefs are recolonized from larvae elsewhere in the Pacific. But on deep reefs, the habitat simply shifts up and down the steep slopes, allowing inhabitants enough time to evolve into endemic species, Pyle explains.He and Kosaki have assembled a team to test this hypothesis by comparing genetic signatures of species inhabiting deep and shallow reefs. If their hypothesis holds true, species restricted to shallow reefs will show genetic signs of recolonization across the Pacific within the past 20,000 years, whereas species restricted to deeper habitats will have telltale genetic divergences. Gorgonian 50 Scleractinian V. Altounian/Science Four divers were suited up, looking more machine than man with their masks, mouthpieces, wraparound hoses, valves, computer displays, and multiple tanks. Waves bounced them around on a small boat here in the middle of the Pacific Ocean, a half-dozen kilometers off an atoll more than a week’s cruise northwest of Honolulu. They were part of a team of scientists that spent 25 days last spring aboard the NOAA ship Hi’ialakai, diving around the shoals and atolls that stretch 2000 kilometers across the Papahānaumokuākea Marine National Monument, encompassing the northwestern Hawaiian Islands.Their equipment was nothing like the standard scuba gear Pyle relied on in his disastrous college dive. Instead, they were equipped with rebreathers, which recycle a diver’s air, greatly expanding time that can be spent underwater. It is this technology that has opened the twilight reefs to exploration. These reefs are too deep to be safely reached with ordinary scuba gear, and too convoluted to be thoroughly explored by expensive-to-operate submersibles and remotely operated vehicles.Neither land nor sea floor was in sight, just the deep blue in all directions. Three of the divers sweated under the sun in neoprene wetsuits, hoods, and gloves—prepared for the cold that would smack them in stages as they descended through thermoclines to water as chilly as 10°C at depth.One was a cool exception: Pyle looked serene in his customary diving attire of board shorts and a blue, long-sleeve, button-down shirt. Pyle says he has adapted to handle cold with repeated exposure, but his dive partners suspect it may also be related to nerve damage from his teenage diving accident. One longtime dive buddy has seen him emerge from the deep unaware of sea urchin spines stuck in his legs. Pyle, a fourth-generation Hawaiian, has been fascinated with fish since his boyhood in Honolulu. He was an active child, and to quiet him, his parents and three older siblings would plunk him down facing their home aquarium. He’d watch the fish for hours, mesmerized. As a preteen he collected fish and met another collector, Randy Kosaki, at an aquarium trade show. The pair began to dive together and continued to collaborate after both earned Ph.D.s from the University of Hawaii. Today, Kosaki is deputy superintendent of Papahānaumokuākea, and together he and Pyle have spent decades exploring the Twilight Zone and documenting its inhabitants. “We call ourselves the fish nerds and fish geeks,” Kosaki says. “Rich is the king of fish geeks.”On 5 June last year, halfway through the 25-day research cruise, a small pink and yellow basslet caught Pyle’s eye as he prowled the sea floor off Kure Atoll. The fish had an unusual eye-shaped orange spot on its dorsal fin, an adaptation to confuse predators. The fish darted under a rock, but Pyle managed to net it before he was out of time and had to begin a slow 2-hour ascent.Later that day, Pyle plopped his tiny, colorful catch in an aquarium tank aboard the NOAA ship. He snapped a picture and emailed it to the world’s top tropical fish experts. The list included Randall, who at age 92 is officially retired but still producing papers. “Never saw it,” Randall fired back.Pyle’s excitement rippled through the ship, as fellow scientists paraded by to see the discovery. The next day, Brian Greene, a longtime deep dive partner, spotted the female of the species in the last minute before he had to begin his ascent. “It was the luckiest collection I’ve ever been involved in,” says Greene, an expert fish collector and a director of the Association for Marine Exploration in Honolulu.Both fish died shortly after coming aboard, probably because the seawater in the aquarium was not chilled. That suited Pyle just fine. Now he had a pair of holotypes, the first specimens of an unknown species. They needed to be pinned to a board, photographed, sampled for DNA, meticulously measured, fixed in formalin, and preserved in alcohol. Once their anatomy and DNA were compared with other species, the little fish could get a name.Pyle’s an expert namer: He has named two dozen species in publications and has dozens more in the works. He’s also a commissioner of the International Commission on Zoological Nomenclature (ICZN), the arbiter of scientific animal names since 1895. He was recruited for his knowledge of fish taxonomy and to use his database expertise to help modernize the organization, says Ellinor Michel of the Natural History Museum in London. She says Pyle emerged as “the architect and visionary” behind ZooBank, ICZN’s online, open-access registry designed to capture all named animals; it’s now at more than 175,000 names, or about 10% of the total. © Richard L. Pyle Shadowy coral kingdoms The soapfish Belonoperca pylei Country * Afghanistan Aland Islands Albania Algeria Andorra Angola Anguilla Antarctica Antigua and Barbuda Argentina Armenia Aruba Australia Austria Azerbaijan Bahamas Bahrain Bangladesh Barbados Belarus Belgium Belize Benin Bermuda Bhutan Bolivia, Plurinational State of Bonaire, Sint Eustatius and Saba Bosnia and Herzegovina Botswana Bouvet Island Brazil British Indian Ocean Territory Brunei Darussalam Bulgaria Burkina Faso Burundi Cambodia Cameroon Canada Cape Verde Cayman Islands Central African Republic Chad Chile China Christmas Island Cocos (Keeling) Islands Colombia Comoros Congo Congo, the Democratic Republic of the Cook Islands Costa Rica Cote d’Ivoire Croatia Cuba Curaçao Cyprus Czech Republic Denmark Djibouti Dominica Dominican Republic Ecuador Egypt El Salvador Equatorial Guinea Eritrea Estonia Ethiopia Falkland Islands (Malvinas) Faroe Islands Fiji Finland France French Guiana French Polynesia French Southern Territories Gabon Gambia Georgia Germany Ghana Gibraltar Greece Greenland Grenada Guadeloupe Guatemala Guernsey Guinea Guinea-Bissau Guyana Haiti Heard Island and McDonald Islands Holy See (Vatican City State) Honduras Hungary Iceland India Indonesia Iran, Islamic Republic of Iraq Ireland Isle of Man Israel Italy Jamaica Japan Jersey Jordan Kazakhstan Kenya Kiribati Korea, Democratic People’s Republic of Korea, Republic of Kuwait Kyrgyzstan Lao People’s Democratic Republic Latvia Lebanon Lesotho Liberia Libyan Arab Jamahiriya Liechtenstein Lithuania Luxembourg Macao Macedonia, the former Yugoslav Republic of Madagascar Malawi Malaysia Maldives Mali Malta Martinique Mauritania Mauritius Mayotte Mexico Moldova, Republic of Monaco Mongolia Montenegro Montserrat Morocco Mozambique Myanmar Namibia Nauru Nepal Netherlands New Caledonia New Zealand Nicaragua Niger Nigeria Niue Norfolk Island Norway Oman Pakistan Palestine Panama Papua New Guinea Paraguay Peru Philippines Pitcairn Poland Portugal Qatar Reunion Romania Russian Federation Rwanda Saint Barthélemy Saint Helena, Ascension and Tristan da Cunha Saint Kitts and Nevis Saint Lucia Saint Martin (French part) Saint Pierre and Miquelon Saint Vincent and the Grenadines Samoa San Marino Sao Tome and Principe Saudi Arabia Senegal Serbia Seychelles Sierra Leone Singapore Sint Maarten (Dutch part) Slovakia Slovenia Solomon Islands Somalia South Africa South Georgia and the South Sandwich Islands South Sudan Spain Sri Lanka Sudan Suriname Svalbard and Jan Mayen Swaziland Sweden Switzerland Syrian Arab Republic Taiwan Tajikistan Tanzania, United Republic of Thailand Timor-Leste Togo Tokelau Tonga Trinidad and Tobago Tunisia Turkey Turkmenistan Turks and Caicos Islands Tuvalu Uganda Ukraine United Arab Emirates United Kingdom United States Uruguay Uzbekistan Vanuatu Venezuela, Bolivarian Republic of Vietnam Virgin Islands, British Wallis and Futuna Western Sahara Yemen Zambia Zimbabwe 150 When he reached 55 meters, though, he couldn’t breathe at all. The needle on his gauge, which had apparently been stuck, plunged to zero. Pyle did a rocket ascent, exhaling so his lungs wouldn’t burst from expanding gas. As he breached the surface, he was seeing stars, a symptom of shallow-water blackout. He gulped a few breaths and managed to holler to an eminent ichthyologist waiting aboard the boat: “Jack, take a look at this fish!”Because of Pyle’s rapid ascent, nitrogen bubbles within his bloodstream and tissues had ballooned in size, tearing flesh and nerves. He had decompression sickness—the bends—and further mishaps delayed treatment. By the end of the day he was paralyzed, unable to control his arm, legs, or bladder. Gorgonian corals and other invertebrates in the Twilight Zone show their true colors when illuminated.  Email Centropyge narcosis, named for the nitrogen narcosis Pyle suffered while collecting it. Using a rebreather, Rich Pyle hovers at 30 meters during a decompression stop off a coral reef near the Micronesian island of Pohnpei. After 20 minutes exploring the reef at 150 meters, Pyle faced 6 hours of decompression on the way up. And the fish? It wasn’t new to science after all: The ichthyologist, John E. “Jack” Randall of the Bishop Museum in Honolulu, had already collected, described, and named it.Reflecting back on the incident 30 years later, Pyle says without a trace of irony: “It was the best day of my life. Everything good in my life can be traced back to that day.”Sure, he spent the next 30 days in decompression chambers, worked for weeks to regain use of his limbs, and walked with a cane for more than a year. But in order to get health insurance, he re-enrolled at the University of Hawaii. Once there, he continued on to earn a Ph.D. in ichthyology with Randall as his adviser, and then went to work at the Bishop Museum. His crippling brush with the bends propelled him into the world of technical diving, where he emerged as a pioneering rebreather diver, using the technology to reach greater and greater depths.Today, Pyle is still at the Bishop, working as an associate zoologist, database coordinator, and dive safety officer. But his impact on marine science goes much deeper than those titles suggest. He has carved out a niche as an explorer of the mysterious, dimly lit coral habitat that thrives from about 30 to 150 meters below the surface, in what he calls the Twilight Zone. Scuba Dive technologylast_img read more