Can’t Touch This! Drone Aerial Video Shows It’s ‘Hammerhead’ Time
The hammerhead sharks in the videos were at least twice the size of the blacktip sharks making them about 12 feet long. They can get as big as 18 feet long. Despite their large size, they are often found in relatively shallow waters that are likely an important area for their feeding (Photo credit: Stephen Kajiura, Ph.D.).
It’s “hammerhead” time according aerial drone footage of blacktip sharks fleeing to shallow waters when confronted by a huge predator along the coast of southeast Florida. Footage from the drone provides the first evidence of adult blacktip sharks (Carcharhinus limbatus) using shallow waters as a refuge from the great hammerhead shark, (Sphyrna mokarran)– proving you “can’t touch this.”
Several juvenile shark species use shallow water nursery sites where the young can grow with a reduced risk of predation. However, prior to a study by 鶹ýӳ, no documentation was available to show that large adult sharks also swim in shallower waters to avoid predation.
The use of unmanned aerial vehicles (UAVs) enabled FAU scientists to unobtrusively observe and allow natural behaviors to be documented in the wild, providing insight into seldom-seen predator–prey interactions. Results of the study are published in the .
The blacktip shark is both an agile predator of teleost fishes, cephalopods and crustaceans and a prey for larger sharks, such as the great hammerhead, which can get as big as 18 feet long. Despite their large size, hammerheads are often found in relatively shallow waters that are likely an important area for their feeding. Their prey typically includes stingrays, bony fishes and other sharks, so it is no surprise that they have been spotted in and around the blacktip shark aggregations, which provide an abundance of possible prey.
On three separate occasions, a UAV recorded footage of a hammerhead shark approaching an aggregation of blacktip sharks in the nearshore waters of Palm Beach County. The average length of the blacktips captured in the area is under 6 feet, which the researchers used to calibrate the scale in the video footage to estimate the distance from shore for these interactions. Based on this estimate, all videos were recorded less than 150 feet offshore of the beach, in water no more than waist deep.
In all three events, blacktip sharks used the shallow waters close to shore as a refuge from a great hammerhead. The hammerhead sharks in the videos were at least twice the size of the blacktip sharks making them approximately 12 feet long. The three separate videos were recorded during the day on Feb. 28, 2018, Feb. 28, 2019 and March 3, 2019.
“In two of the three videos, the hammerhead shark actively chased one or more blacktips toward the shore but was unsuccessful at capturing its prey,” said , Ph.D., senior author, a professor of and director of the in FAU’s Kajiura co-authored the paper with his undergraduate student and lead author, Melanie D. Doan. “The chases ended with the hammerhead making a sharp turn away from its intended prey and the shore, back into deeper waters. The chasing events showed the hammerhead struggling as it experienced difficulty following the blacktips into the shallow waters.”
Hammerheads are known to possess an exceptionally tall first dorsal fin, longer than their pectoral fins. Their large dorsal fin is proposed to generate lift when swimming on their side, instead of facilitating propulsion and precise turning, as seen in every other observed shark species. The caudal fin thrusts and propels the shark forward, but both the dorsal fin and upper lobe of the caudal fin are seen breaching the surface in each of the videos in the study.
“When the dorsal and caudal fins of hammerhead breach the surface, they are neither generating lift, providing thrust, nor helping to facilitate turning as efficiently as when they are completely submerged,” said Kajiura. “The shallow water thus constrains the locomotion of the hammerhead, which provides the blacktip shark with a functional refuge because their smaller size allows them to continue to swim and maneuver effectively away from their larger predator.”
Some of the footage analyzed in this study was generously provided by a local citizen scientist and film maker, Joshua Jorgensen. The increasing popularity of UAVs will likely lead to additional fortuitous observations that can further inform the understanding of behaviors that are difficult to observe or have been previously undocumented.
“The predictable seasonal occurrence of large numbers of blacktip sharks in clear, shallow waters close to the beach in Palm Beach County, Florida, provides an excellent opportunity to employ unmanned aerial vehicles to quantitatively explore the collective behaviors and swimming kinematics of large sharks during natural predator–prey interactions,” said Kajiura.
Funding for this study was provided by the Colgan Foundation.
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