There is more than one way to find a whale. From the deck of a boat, you might spot them surfacing for air, exhaling from their blowholes, or perhaps performing a fluke-up dive as they return to the deep. But what about all of the whales that pass by without surfacing? Or the ones that are too hard to see in rougher waters? For whale and dolphin researchers, detecting all of the animals is imperative to gaining a true measurement of the population. That is why they don’t just look—they listen.
Location of the Mariana Islands in the North Pacific Ocean.
NOAA Oscar Elton Sette.
From July 9th to August 1st, our researchers will depart Guam to conduct the Mariana Archipelago Cetacean (MACS) Survey project aboard the NOAA Oscar Elton Sette. Scientists will use the data they collect to understand the connections between whales and dolphins found offshore and nearshore to the Mariana Islands. They will also discover connections to other populations of the same species in other parts of the Pacific Ocean and around the world.
We have been conducting research around the southern islands of the Mariana Archipelago since 2010; however, very little is known about cetaceans in the offshore waters of the Mariana Islands. In 2015, the MACS project circled each of the islands in the Marianas chain. The goal was to understand which islands hosted local populations of dolphins and whales and to understand the distribution of more wide-ranging species. This year, we are focused on open-ocean waters extending west from the archipelago out to the West Mariana Ridge, and from Guam in the south to Pagan in the north.
Cetaceans likely seen on MACS (Bryde's whale, rough-toothed dolphins, melon-headed whales, and sperm whale).
Cetaceans the team may see during MACS include the Bryde’s whale, rough-toothed dolphin, melon-headed whale, and sperm whale (Photos: NOAA Fisheries/Adam Ü, Amanda Bradford, Marie Hill, Adam Ü).
Last year, we had great success during the Hawaiian Islands Cetacean and Ecosystem Assessment Survey
, when we deployed Drifting Acoustic Spar Buoy Recorders to collect acoustic data. This year, we will focus primarily on the deployment and recovery of recorders to estimate density and abundance of beaked whales and other cetaceans. Over 24 days, the crew on board the Sette will deploy multiple recorder units and let the instruments drift with the current for several days. Each unit includes a hydrophone and a recording device, which will record sound while it floats and travels with the current.
These recorders are advantageous in several ways:
- They collect high-quality passive acoustic data from 10 Hz to 144 kHz, sampling the full range of sounds produced by cetaceans. A towed array, on the other hand, produces data that must be filtered below 2 kHz to avoid saturation of the signal by ship noise and the rush of water over the hydrophones.
- The two-element vertical hydrophone array provides depth information to the calling animal(s), which can be used to estimate distance to the whales.
- The recorders drift across broad areas providing greater geographic sampling than other long-term monitoring sites, but move slowly enough to improve our chances of hearing animals that quiet down when the ship passes by. Also, because the buoys drift independent of the ship, we won’t disturb the cetaceans in the way that we might with a ship.
Schematic of the PIFSC Drifting Acoustic Spar Buoy Recorder (DASBR).
Between recorder deployments and recoveries, we will maintain a watch for cetaceans and collect photographs and biopsy samples from the groups we see.
These data will be used to help inform the design of a large-scale survey planned for the Mariana Archipelago in 2020.
Visual observers search for cetaceans with high-powered binoculars on the flying bridge of the NOAA Oscar Elton Sette.
MACS 2018 is funded by NOAA’s Pacific Islands Fisheries Science Center and the U.S. Navy Pacific Fleet.