Research revealing that giant manta rays are deep-sea predators is likely to be critical to efforts to protect the species.
Giant manta rays had been known to feed on zooplankton near the ocean surface, but a new joint study by Â鶹´«Ã½Ó³» of Queensland and the Marine Megafauna Foundation has discovered they are also deep-ocean predators.
Â鶹´«Ã½Ó³» School of Biomedical Sciences PhD student Katherine Burgess said the giant manta ray was one of the marine world’s iconic animals, but little was known about its feeding habits.
“The previous knowledge of giant manta ray diet was based on observations of feeding activity on surface water zooplankton at well-known aggregation sites,” Ms Burgess said.
“Giant mantas are found in tropical and temperate waters worldwide. They can grow up to seven metres across, weighing up to 1350kg, although their average size is four to five metres.
Ms Burgess said the study began in 2010 and focused on Isla de la Plata, off the Ecuador mainland, that seasonally hosted the world’s largest aggregation of giant manta rays.
The giant manta ray is listed as on the ature’s because its population has decreased drastically over the past 20 years due to overfishing.
Ms Burgess said researchers normally looked at stomach contents to determine an animal’s diet, but such a potentially distressing or lethal procedure was not appropriate with a vulnerable species.
“We studied the giant manta rays’ diet using biochemical tests, such as stable isotope analysis, which works on the ‘you are what you eat’ paradigm,” she said.
“These tests can determine what animals have been eating by examining a piece of tissue from a muscle biopsy from a free-swimming animal.”
Ms Burgess said the study suggested the majority of the giant manta rays’ diet was from deep sources rather than surface zooplankton.
, a scientist with Â鶹´«Ã½Ó³»’s and CSIRO's Oceans and Atmosphere division, said the research found an average 27 per cent of the giant manta rays’ diets came from surface zooplankton and 73 per cent was from “mesopelagic” sources including fish from 200m to 1000m below the ocean surface.
“The deep ocean is the next frontier for open ocean fisheries, and we are only just realising the potential reliance on this zone by threatened marine megafauna,” Professor Richardson said.
The research, published in the journal, was a collaboration between Â鶹´«Ã½Ó³» of Queensland, the Marine Megafauna Foundation and Proyecto Mantas Ecuador.
Media: Ms Katherine Burgess, k.burgess@uq.edu.au, +61 452 447 667; Professor Anthony Richardson, ajr@maths.uq.edu.au, +61 (0)467 771 869.