Dear Colleagues, My co-authors and I are pleased to announce the recent publication of our paper titled "Dolphin Prey Availability and Calorific Value in an Estuarine and Coastal Environment".
The paper is available for download FREE from Frontiers in Marine Science: http://journal.frontiersin.org/article/10.3389/fmars.2016.00030/full You can also find a link to the article and more information about the Murdoch University Cetacean Research Unit by going here: http://mucru.org/hot-off-the-press-dolphin-prey-availability-and-calorific-value/ You may also contact me directly with any queries. The abstract is below. Sincerely, Shannon McCluskey Murdoch University Cetacean Research Unit School of Veterinary and Life Sciences Murdoch University Perth, Western Australia Abstract Prey density has long been associated with prey profitability for a predator, but prey quality has seldom been quantified. We assessed the potential prey availability and calorific value for Indo-Pacific bottlenose dolphins (*Tursiops aduncus*) in an estuarine and coastal environment of temperate south-western Australia. Fish were sampled using three methods (21.5 m beach seine, multi-mesh gillnet, and fish traps), across three regions (Estuary, Bay, and Ocean) in the study area. The total biomass and numbers of all species and those of potential dolphin prey were determined in austral summers and winters between 2007 and 2010. The calorific value of 19 species was determined by bomb calorimetry. The aim of the research was to evaluate the significance of prey availability in explaining the higher abundance of dolphins in the region in summer vs. winter across years. A higher abundance of prey was captured in the summer (mean of two summer seasons 12,080 ± 160) than in the winter (mean of two winter seasons = 7358 ± 343) using the same number of gear sets in each season and year. In contrast, higher biomass and higher energy rich prey were captured during winters than during summers, when fewer dolphins are present in the area. Variability was significant between season and region for the gillnet (*p* < 0.01), and seine (*p* < 0.01). The interaction of season and region was also significant for the calorific content captured by the traps (*p* < 0.03), and between the seasons for biomass of the trap catch (*p* < 0.02). The dolphin mother and calf pairs that remain in the Estuary and Bay year round may be sustained by the higher quality, and generally larger, if lesser abundant, prey in the winter months. Furthermore, factors such as predator avoidance and mating opportunities are likely to influence patterns of local dolphin abundance. This study provides insights into the complex dynamics of predator—prey interactions, and highlights the importance for a better understanding of prey abundance, distribution and calorific content in explaining the spatial ecology of large apex predators.
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