Abstract
Niche partitioning of time, space or resources is considered the key to allowing the coexistence of competitor species, and particularly guilds of predators. However, the extent to which these processes occur in marine systems is poorly understood due to the difficulty in studying fine-scale movements and activity patterns in mobile underwater species. Here, we used acceleration data-loggers to investigate temporal partitioning in a guild of marine predators. Six species of co-occurring large coastal sharks demonstrated distinct diel patterns of activity, providing evidence of strong temporal partitioning of foraging times. This is the first instance of diel temporal niche partitioning described in a marine predator guild, and is probably driven by a combination of physiological constraints in diel timing of activity (e.g. sensory adaptations) and interference competition (hierarchical predation within the guild), which may force less dominant predators to suboptimal foraging times to avoid agonistic interactions. Temporal partitioning is often thought to be rare compared to other partitioning mechanisms, but the occurrence of temporal partitioning here and similar characteristics in many other marine ecosystems (multiple predators simultaneously present in the same space with dietary overlap) introduces the question of whether this is a common mechanism of resource division in marine systems.
Highlights
Niche partitioning is one of the main mechanisms allowing sympatric competitors to coexist through the division of resources
The present study examined diel activity patterns and the potential for diel temporal niche partitioning in a guild of large coastal sharks
Sufficient accelerometer data for analyses of activity patterns were obtained from six sympatric species of large coastal sharks: blacktip sharks (Carcharhinus limbatus), bull sharks (Carcharhinus leucas), sandbar sharks (Carcharhinus plumbeus), tiger sharks (Galeocerdo cuvier), great hammerhead sharks (Sphyrna mokarran) and scalloped hammerhead sharks (Sphyrna lewini)
Summary
Niche partitioning is one of the main mechanisms allowing sympatric competitors to coexist through the division of resources. The evolution of different dentition and jaw morphologies in carnivore guilds promotes specialization of different prey resources [2,3], and adaptations of co-occurring species that restrict diurnal or nocturnal activity promote temporal partitioning Within morphological or physiological constraints, partitioning regimes can shift behaviourally based on environmental variation or changes in assemblages of competitor guilds or predator and prey species [6,7,8,9]. Given the high rates of anthropogenically driven environmental change, it is crucial to understand the current patterns and drivers of partitioning in predator guilds; shifts royalsocietypublishing.org/journal/rspb Proc.
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