The Health of Hawaii's Twilight-Zone Reefs

Latest update June 14, 2019 Started on March 1, 2019
sea

Beginning in Fall 2019 we will begin research to monitor ecological processes on Hawaii's mesophotic "twilight-zone" coral reefs. By measuring mesophotic coral recruitment we'll discover how these unique reefs persist.

March 1, 2019
Expedition's summary cannot exceed 240 characters


Tags: 

Did you know that the National Geographic Society is currently offering Explorers a variety of funding opportunities in the fields of conservation, education, research, storytelling, and technology? To learn more and apply for a grant click here.
If you're not interested in applying for a grant, click continue below
Supported by:
In The Field

Doing science is always about flexibility and scientists everywhere sacrifice endlessly to ensure the quality of the data they collect. Working on particularly deep coral reefs means finding the right balance between minimizing risk and ensuring good data. Rebreathers are finicky and prone to failure, which is just about the last thing you want happening when you're down deep. So we plan, train, and spend enormous amounts of time scouting potential study locations to find the right location to do our science. Below is a video of one such dive on a truly unique fossil shoreline off of Kaneohe Bay, Oahu. While only at a depth of about 90 ft (27 m) this site features corals with morphology much like their mesophotic counterparts. The proximity of this site to our lab at the Hawaii Institute of Marine Biology, and safety of making relatively shallow dives to about 30 m makes it a strong contender for this project.


A critical part of any diving research is efficient, safe scouting - this is especially true for deep mesophotic reefs. It might be fun to get on a rebreather and make a deep dive to check on equipment, but it is always safer to send a camera down if you can. That's why we're applying to the OpenROV S.E.E initiative, which aims to donate OpenROV units to researchers in need.

Having a low-cost, efficient OpenROV system would drastically improve the safety and efficiency of scouting for mesophotic coral reefs in Hawaii. Currently every day of diving on these sites costs approximately $1,000 after equipment and fees. That is a high price to pay for researchers, but is required to keep our divers safe. However, the reality of rebreather diving is that even with the best training things can go wrong and the results are frequently tragic. Being able to rapidly scout locations with an OpenROV would greatly reduce the cost of scouting new mesophotic study locations, and most importantly, keep our divers safer by limiting the number of dives required to do this incredible science. In addition we'll also be using this ROV to deploy and retrieve equipment from the seafloor such as CoralCam or settlement tiles - and possibly add a few tools of our own to the ROV!

To succeed in our OpenROV proposal we'll need at least 25 followers, so please invite your friends to follow our expeditions if you haven't already!

image-1
Preparation