Unique sequence of events triggers manta ray feeding frenzy in the southern Great Barrier Reef, Australia

Manta rays are classified as Vulnerable to Extinction on the IUCN Red List for Threatened Species. In Australia, a key aggregation site for reef manta rays is Lady Elliot Island (LEI) on the Great Barrier Reef, ~7km from the... [ view full abstract ]

Manta rays are classified as Vulnerable to Extinction on the IUCN Red List for Threatened Species. In Australia, a key aggregation site for reef manta rays is Lady Elliot Island (LEI) on the Great Barrier Reef, ~7km from the shelf edge. Here, we investigate the environmental processes that triggered the largest manta ray feeding aggregation yet observed in Australia, in early 2013. Furthermore, for the first time, we show reef manta rays exploiting an oceanographic front. We use MODIS sea surface temperature (SST), chlorophyll-a concentration and photic depth data, together with in situ data, to show anomalous river discharges led to high chlorophyll (anomalies: 10-15 mg.m-3), turbid (photic depth anomalies: -15m) river plumes extended out to LEI, and then entrained offshore around the periphery of an active cyclonic eddy. Eddy dynamics led to cold bottom intrusions along the shelf edge (6oC temperature decrease), and at LEI (5oC temperature decrease). Strongest SST gradients (> 1oC.km-1) occurred at the convergent frontal zone between the shelf and eddy-influenced waters, directly overlying LEI. Here, the front intensified on the spring ebb tide to attract and shape the aggregation pattern of foraging manta rays. Future research will focus on mapping the probability, persistence and spatio-temporal variability of these ecologically significant frontal zones via remote sensing to aid the management and conservation of marine species in Australia.