News Release

Extensive deep coral reefs in Hawaii harbor unique species and high coral cover

Scientists complete a 20-year study to comprehensively document mesophotic coral ecosystems throughout the Hawaiian Archipelago

Peer-Reviewed Publication

PeerJ

Microdictyon Bed

image: Macroalgae beds such as this Microdictyon setchellianum at a depth of 64 meters (210 feet) off Pearl and Hermes Atoll play a critical role in the ecology of deep coral-reef ecosystems. Nearly every fish in this image is a species endemic to the Hawaiian Islands. view more 

Credit: Greg McFall

A team of sixteen researchers has completed a comprehensive investigation of deep coral-reef environments, known as mesophotic coral ecosystems, throughout the Hawaiian Archipelago. The study, published in the open-access journal PeerJ, spanned more than two decades and involved a combination of submersibles, remotely operated vehicles, drop-cameras, data recorders, and advanced mixed-gas diving to study these difficult-to-reach environments. The researchers documented vast areas of 100% coral-cover and extensive algal communities at depths of 50-90 meters (165-300 feet) extending for tens of square kilometers, and found that the deep-reef habitats are home to many unique and distinct species not found on shallow reefs. The findings of the study have important implications for the protection and management of coral reefs in Hawaii and elsewhere.

"This is one of the largest and most comprehensive studies of its kind," said Richard Pyle, Bishop Museum researcher and lead author of the publication. "It involved scientists in many different disciplines and from multiple federal, state, and private organizations working together with a range of different technologies across the entire Hawaiian Archipelago."

The primary objective of the study was to characterize deep coral reef habitat, known as "mesophotic coral ecosystems" or the coral-reef "Twilight Zone". Coral reefs at depths of 30 to 150 meters (100 to 500 feet) are among the most poorly explored of all marine ecosystems on Earth. Deeper than conventional scuba divers can safely venture, and shallower than most submersible-based exploration, these reefs represent a new frontier for coral-reef research.

To document these elusive deep coral reefs, the team used a wide range of advanced technology, including multibeam bathymetry mapping, mixed-gas closed-circuit rebreather diving, towed and remotely operated camera systems, a variety of environmental sensors for recording light, temperature, water movement and other parameters, and two research submersibles operated by the Hawai'i Undersea Research Laboratory. One of the novel approaches taken during the project was to combine rebreather divers and submersibles together on coordinated dives.

"Free-swimming divers and submersibles don't often work side-by-side on scientific research projects," said Pyle. "Submersibles can go much deeper and stay much longer, but divers can perform more complex tasks to conduct experiments and collect specimens. Combining both together on the same dives allowed us to achieve tasks that could not have been performed by either technology alone."

A major focus of the study was to document extensive areas of 100% coral cover at depths of 90 meters (300 feet) or more off the islands of Maui and Kaua'i. In particular, vast expanses of continuous coral cover, extending for tens of square kilometers, exist in many sites in the 'Au'au channel off the southwest side of Maui. The reefs are dominated by stony, reef-building corals in the genus Leptoseris, a plate-like coral specialized for deep-reef environments.

"These are some of the most extensive and densely populated coral reefs in Hawai'i," said Anthony Montgomery, a U.S. Fish and Wildlife biologist and co-author of the study who previously represented the Hawai'i State Department of Land and Natural Resources during most of the project. "It's amazing to find such rich coral communities down so deep."

In addition to the corals, the area is also home to extensive algae meadows that support unique communities of fishes and invertebrates. More than seventy species of macroalgae inhabiting the deep reefs were identified during the study, and several more new species have not yet been assigned formal scientific names. Both corals and algae depend on sunlight to drive photosynthesis, and the study attributed the existence of many of the deep reef habitats to exceptionally clear water.

"We found that the diversity of macroalgal species actually peaked at around 90 meters [300 feet] deep," said Heather Spalding of the Department of Botany at the University of Hawai'i at Mānoa and a co-author of the study. "These extensive algae meadows represent a major component of the deep-reef communities, and play a fundamentally important role in the overall ecology."

Another interesting finding of the study is that the rate of endemism - species found nowhere else on Earth - increases substantially on the deep reefs. Whereas only 17% of the fishes surveyed at depths less than 30 meters (100 meters) are species endemic to the Hawaiian Islands, more than half of the species below 70 meters (230 feet) are Hawaiian endemics. The rate of endemism increases even more in the Northwestern Hawaiian Islands, where 100% of the fishes inhabiting some of the deep reefs are found only in Hawai'i.

"The extent of fish endemism on these deep coral reefs, particularly in the Northwestern Hawaiian Islands, is astonishing," said Randall Kosaki, NOAA's Deputy Superintendent of the Papahānaumokuākea Marine National Monument and a co-author of the study. "We were able to document the highest rates of endemism of any marine environment on Earth."

The food web supporting the fishes on deep reefs was studied using advanced stable isotope methods, which revealed small but important differences in the ecology of fish living on deep and shallow reefs.

"We used these methods because more traditional approaches require large numbers of specimens," said Brian N. Popp, University of Hawai'i at Mānoa Professor of Geology and Geophysics in the School of Ocean and Earth Science and Technology. "Our results are helping us better understand the relationship between the ecology of deep and shallow coral reef fish communities."

The results of the study have important implications for conservation management. In addition to the rich and unique biodiversity inhabiting these environments, deep coral reefs may serve as a refuge for certain species that are more heavily impacted on shallow coral reefs.

"With coral reefs facing a myriad of threats," said Kimberly Puglise, an oceanographer with NOAA's National Centers for Coastal Ocean Science, "the finding of extensive reefs off Maui provides managers with a unique opportunity to ensure that future activities in the region, such as cable laying, dredging dump sites, and deep sewer outfalls, do not irreparably damage these reefs."

The research, which spanned more than two decades and encompassed the entire 2,590-kilometer (1,600-mile) extend of the Hawaiian Archipelago, was primarily supported by NOAA's National Centers for Coastal Ocean Science, Papahānaumokuākea Marine National Monument, Coral Reef Conservation Program, Office of Ocean Exploration and Research, and the Pacific Islands Fisheries Science Center, as well as, the Hawai'i Undersea Research Laboratory and the State of Hawai'i.

###

PDF of this Press Release: http://static.peerj.com/pressReleases/2016/Press-Release-Pyle.pdf

Link to the Press Preview of the Original Article (this link should only be used BEFORE the embargo ends): http://static.peerj.com/press/previews/2016/10/2475.pdf Note: this is an author proof and so may change slightly before publication.

Link to the Published Version of the article (quote this link in your story): https://peerj.com/articles/2475 - your readers can freely access this article at this URL.

Citation to the article: Pyle RL, Boland R, Bolick H, Bowen BW, Bradley CJ, Kane C, Kosaki RK, Langston R, Longenecker K, Montgomery A, Parrish FA, Popp BN, Rooney J, Smith CM, Wagner D, Spalding HL. (2016) A comprehensive investigation of mesophotic coral ecosystems in the Hawaiian Archipelago. PeerJ 4:e2475 https://doi.org/10.7717/peerj.2475

About:

The Bishop Museum was founded in 1889 by Charles Reed Bishop in memory of his wife Bernice Pauahi Bishop, a royal descendant of King Kamehameha I. Bishop Museum is proud to be recognized as the principal museum of the Pacific, housing the world's largest collection of Hawaiian and Pacific artifacts and natural history specimens. In total, Bishop Museum's collections consist of more than 25 million items including over 22 million biological specimens and more than two million cultural artifacts derived from a legacy of research spanning more than 125 years. These collections also include more than 115,000 historical publications, one million historical photographs, films, works of art, audio recordings and manuscripts. More than 300,000 people visit the Museum each year, including over 40,000 schoolchildren.

For more information, please visit http://www.bishopmuseum.org, follow @BishopMuseum on Twitter and Instagram, become a fan of Bishop Museum on Facebook, visit Bishop Museum's YouTube channel at http://www.youtube.com/BishopMuseum, or call (808) 847-3511.

Papahānaumokuākea is cooperatively managed to ensure ecological integrity and achieve strong, long-term protection and perpetuation of Northwestern Hawaiian Island ecosystems, Native Hawaiian culture, and heritage resources for current and future generations. Three co-trustees - the Department of Commerce, Department of the Interior, and State of Hawai'i - joined by the Office of Hawaiian Affairs, protect this special place. Papahānaumokuākea Marine National Monument was inscribed as the first mixed (natural and cultural) UNESCO World Heritage Site in the United States in July 2010. For more information, please visit http://www.papahanaumokuakea.gov.

The School of Ocean and Earth Science and Technology at the University of Hawai'i at Mānoa was established by the Board of Regents of the University of Hawai'i in 1988 in recognition of the need to realign and further strengthen the excellent education and research resources available within the University. SOEST brings together four academic departments, three research institutes, several federal cooperative programs, and support facilities of the highest quality in the nation to meet challenges in the ocean, earth and planetary sciences and technologies. Please visit http://www.soest.hawaii.edu.

PeerJ is an Open Access publisher of two peer-reviewed journals and a preprint server. PeerJ is based in San Diego, CA and the UK and can be accessed at https://peerj.com/. PeerJ's mission is to help the world efficiently publish its knowledge.

All works published in PeerJ are Open Access and published using a Creative Commons license (CC-BY 4.0). Everything is immediately available--to read, download, redistribute, include in databases and otherwise use--without cost to anyone, anywhere, subject only to the condition that the original authors and source are properly attributed.

PeerJ has an Editorial Board of over 1,400 respected academics, including 5 Nobel Laureates. PeerJ was the recipient of the 2013 ALPSP Award for Publishing Innovation.

PeerJ Media Resources (including logos) can be found at: https://peerj.com/about/press/

Media Contacts

For the authors: Richard Pyle, Bishop Museum, Email: deepreef@bishopmuseum.org

For PeerJ: email: press@peerj.com , https://peerj.com/about/press/

Note: If you would like to join the PeerJ Press Release list, visit: http://bit.ly/PressList


Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert system.