Abstract
Stingrays play a key role in the regulation of nearshore ecosystems. However, their movement ecology in high-energy surf areas remains largely unknown due to the notorious difficulties in conducting research in these environments. Using a blimp as an aerial platform for video surveillance, we overcame some of the limitations of other tracking methods, such as the use of tags and drones. This novel technology offered near-continuous coverage to characterise the fine-scale movements of stingrays in a surf area in Kiama, Australia, without any invasive procedures. A total of 98 stingray tracks were recorded, providing 6 h 27 min of movement paths. The tracking data suggest that stingrays may use a depth gradient located in the sandflat area of the bay for orientating their movements and transiting between locations within their home range. Our research also indicates that stingray behaviour was influenced by diel periods and tidal states. We observed a higher stingray occurrence during the afternoon, potentially related to foraging and anti-predatory strategies. We also saw a reduced route fidelity during low tide, when the bathymetric reference was less accessible due to stranding risk. Considering the increasing threat of anthropogenic development to nearshore coastal environments, the identification of these patterns can better inform the management and mitigation of threats.
Highlights
Stingrays (Dasyatidae) play a key role in the regulation of nearshore coastal ecosystems as bioturbators and mesopredators [1,2]
Significant differences (p < 0.05) in Mann–Whitney–Wilcoxon tests are denoted by *. This is the first time that an aerostat, a blimp, has been used as an aerial platform to study the fine-scale movement patterns of marine wildlife
There are some sampling limitations, this novel approach enabled the continuous aerial video surveillance of a high-energy surf zone. The results of these prolonged surveys demonstrated that stingrays generally reached the studied bay through the lateral rocky headlands and exhibited an oriented pattern of displacement parallel to shore, but never exhibited stationary behaviours
Summary
Stingrays (Dasyatidae) play a key role in the regulation of nearshore coastal ecosystems as bioturbators and mesopredators [1,2] They create physical disturbances by digging holes in unconsolidated sediments to feed on infaunal invertebrates. They generate a mosaic of microhabitats with a distinct invertebrate diversity and abundance, acting as ecosystem engineers [3,4]. Such digging behaviour enables the infiltration of oxygen and organic matter into sediments, supporting biogeochemical cycling [3]. Habitat destruction due to coastal development is an increasing threat affecting stingrays by compromising the viability of Fishes 2020, 5, 31; doi:10.3390/fishes5040031 www.mdpi.com/journal/fishes
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