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Crunch! Underwater acoustics expose 'shell-crushing' sounds in a large marine predator

Scientists first to quantify consumption noises using whitespotted eagle rays

2021-01-26
(Press-News.org) "Shell-crushing" - exactly what it sounds like - is a predatory mode used by numerous marine life from crabs to octopuses to large fishes and mammals when they eat hard-shelled mollusks like clams, oysters and conchs. These predators have to break apart the shell using robust claws or fortified jaws to access the prey's soft tissues.

Despite its prevalence in the marine environment, this feeding behavior has remained elusive to study remotely, particularly for larger marine animals that destroy shells almost completely, leaving behind little trace. Moreover, because they are highly mobile, scientists have difficulty in directly observing their foraging habits, which is why the ecology of shell-crushing (durophagy) remains poorly understood in larger marine predators and the ecosystems with which they interact. So, there is little understanding of where or when this happens.

Using the whitespotted eagle ray (Aetobatus narinari) as a model, a team of scientists led by Florida Atlantic University's Harbor Branch Oceanographic Institute in collaboration with FAU's College of Engineering and Computer Science; Mote Marine Laboratory & Aquarium; and the Florida Institute of Technology, are the first to use passive acoustics to characterize how they consume hard-shelled mollusk prey in a controlled environment.

Scientists both quantified and classified shell-crushing by monitoring underwater sounds using acoustic recorders. Results, published in the Journal of Experimental Marine Biology and Ecology, reveal that using this technology, prey types could be distinguished based on acoustic features. Researchers were able to determine what a predator is eating based on how it sounds. In addition, shell-crushing simulation tests in the natural environment suggest the process is audible above ambient noise in coastal lagoons out to 100 meters.

"Interactions between molluscan predators and shellfish often occur in low-visibility estuarine waters. Scientists need alternative non-visual based methods to continuously monitor, gather and document critical data that may have serious conservation ramifications," said Matt Ajemian, Ph.D., lead author, an assistant research professor at FAU's Harbor Branch and head of the Fisheries Ecology and Conservation (FEC) Lab, who worked with FAU Harbor Branch co-authors Laurent Chérubin, Ph.D., an associate research professor; and Breanna DeGroot, M.S., research coordinator. "Passive acoustics-based documentation of shell-crushing behavior has not been seriously considered as a tool to identify the ecological role of large, mobile molluscivores before this study. We knew from previous experience with these animals that the cracks they made during feeding were loud, almost like an explosion, but there were no data to support it at the time. That's what led us to conduct this initial study."

Whitespotted eagle rays consume a wide variety of mollusk species, including both bivalves and gastropods. For the study, scientists recorded a total of 434 prey items being eaten by rays, spanning eight species of hard-shelled mollusks. On the menu: hard clams, banded tulip, crown conch, lettered olive, Florida fighting conch, lightning whelk, pear whelk and horse conch.

"Mollusks vary in texture, thickness and strength. The differences we observed in consumption signals and behavior associated with the two primary prey types analyzed are likely due to variations in these shell shapes," said Kim Bassos-Hull, M.Sc., co-author and senior biologist with Mote Marine Lab's Sharks & Rays Conservation Research Program. "It was clear that hard clams took a considerably longer time to process than banded tulip shells and all other gastropods. This was likely driven by the greater number of fractures rays needed to implement during processing and winnowing of hard clams presumably to access the prey's soft tissues."

Signal characteristics of simulated crushing of hard clams in the field, which the researchers conducted by crushing clams by hand using modified heavy-duty pliers, also were similar to those recorded in the large, circular saltwater habitat.

"It's obviously hard to get a ray to eat on command in a particular time and place, so we had to get somewhat creative with the field testing," said Ajemian.

Data from this study are critically important with respect to molluscan shellfish, which provide high-quality and high-value seafood to humans, and beneficial ecosystem services, yet sources of natural mortality from large predators are largely unknown for both natural and restored populations.

"The passive acoustics approach demonstrated in our study provides a unique, less-intrusive platform to remotely and directly observe predation events like shell fracture in the aquatic environment and support surveillance techniques to quantify predator-induced losses to these valuable resources, even in challenging environmental conditions," said Chérubin.

The team is hoping this technology will be of utility in monitoring how many clams are being eaten by large predators like rays as restoration efforts ramp up around the state of Florida.

"We still have a lot of work to do on the automated detection-classification side of things, but this work brings us closer to remotely capturing predation in these elusive species," said Ajemian.

INFORMATION:

Study co-authors are Catherine Lamboy, Department of Ocean Engineering and Marine Sciences, Florida Institute of Technology; Ali Ibrahim, Ph.D., Department of Computer and Electrical Engineering and Computer Science, FAU's College of Engineering and Computer Science; and David A. Mann, Ph.D., president, Loggerhead Instruments, Inc.

This work was funded by a grant from the Save Our Seas Specialty License Plate program (AWD-001259) administered by the Harbor Branch Oceanographic Institute Foundation.

- FAU -

About Harbor Branch Oceanographic Institute: Founded in 1971, Harbor Branch Oceanographic Institute at Florida Atlantic University is a research community of marine scientists, engineers, educators and other professionals focused on Ocean Science for a Better World. The institute drives innovation in ocean engineering, at-sea operations, drug discovery and biotechnology from the oceans, coastal ecology and conservation, marine mammal research and conservation, aquaculture, ocean observing systems and marine education. For more information, visit http://www.fau.edu/hboi.

About Florida Atlantic University: Florida Atlantic University, established in 1961, officially opened its doors in 1964 as the fifth public university in Florida. Today, the University, with an annual economic impact of $6.3 billion, serves more than 30,000 undergraduate and graduate students at sites throughout its six-county service region in southeast Florida. FAU's world-class teaching and research faculty serves students through 10 colleges: the Dorothy F. Schmidt College of Arts and Letters, the College of Business, the College for Design and Social Inquiry, the College of Education, the College of Engineering and Computer Science, the Graduate College, the Harriet L. Wilkes Honors College, the Charles E. Schmidt College of Medicine, the Christine E. Lynn College of Nursing and the Charles E. Schmidt College of Science. FAU is ranked as a High Research Activity institution by the Carnegie Foundation for the Advancement of Teaching. The University is placing special focus on the rapid development of critical areas that form the basis of its strategic plan: Healthy aging, biotech, coastal and marine issues, neuroscience, regenerative medicine, informatics, lifespan and the environment. These areas provide opportunities for faculty and students to build upon FAU's existing strengths in research and scholarship. For more information, visit fau.edu.

About Mote Marine Laboratory & Aquarium Mote Marine Laboratory & Aquarium, based in Sarasota, Florida, has conducted ground-breaking marine research since its founding as a small, one-room laboratory in 1955. Since then, Mote has grown to encompass more than 20 research and conservation programs that span the spectrum of marine science: sustainable aquaculture systems designed to alleviate growing pressures on wild fish populations; red tide research that works to inform the public and mitigate the adverse effects of red tide with innovative technologies; marine animal science, conservation and rehabilitation programs dedicated to the protection of animals such as sea turtles, manatees and dolphins; and much more. Mote Aquarium, accredited by the Association of Zoos & Aquariums, is open 365 days per year. Learn more at mote.org or connect with @motemarinelab on Facebook, Twitter, Instagram and YouTube.



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[Press-News.org] Crunch! Underwater acoustics expose 'shell-crushing' sounds in a large marine predator
Scientists first to quantify consumption noises using whitespotted eagle rays