A new study published in Marine Ecology Progress Series highlights the important roles of mid-sized predators, such as bigscale pomfret, linking the upper and lower layers of the ocean food web. Until now, scientists didn’t have enough data on how this fish—and similar species—move, making it hard to understand their behavior and role in the ecosystem. In this study, researchers used satellite-based tracking tags to follow the pomfret’s movements, something that was previously hard to do with deep-sea fishes.
“The data shows bigscale pomfret are permanent residents of the ocean’s twilight zone, and follow the pattern of diel migration. This means they stay deep during the day and come to shallower waters to feed at night,” said Martin Arostegui, lead author of the study and a research associate at WHOI. “Since these species spend a majority of their life on the move and in hard-to-reach places, it wouldn’t have been possible for us to tag enough of them during a few days at sea. Thus, we collaborated with a commercial longline fisher, Captain Danny Mears, who did that work as part of our research team.”
“Bigscale pomfret are so different from the tunas and swordfish we usually catch that we are fascinated by them whenever they show up in our gear,” Mears said. “My crew and I were excited for the opportunity to help with the satellite tagging for this study. It’s been very rewarding to see the data.”
This new research also provides insight into how water clarity affects bigscale pomfrets’ migration patterns. When the fish moved from the Slope Sea to the clearer waters of the Sargasso Sea, their behavior changed noticeably. This indicates that water clarity influences the depth these fish occupy, which could impact food webs by changing the prey they target and their susceptibility to predators such as large sharks.
“We always talk about the mesopelagic layer like it’s this giant buffet for big predators—but we’ve been skipping over the species in the middle,’ said WHOI biologist Camrin Braun, the senior author of the study and principal investigator of WHOI’s Marine Predators Group. “These mesopelagic fish are doing the hard work of connecting the deep ocean to the surface food web. If we don’t understand them, we’re basically trying to solve a puzzle with the middle pieces missing.”