51 research outputs found

    Conservation and restoration of a keystone species : understanding the settlement preferences of the European oyster (Ostrea edulis)

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    The project was funded by the Nesbit Cleland Trust (St Abbs Marine Station), Royal Haskoning DHV and Scottish Natural Heritage with additional support from the Dornoch Environmental Enhancement Project (DEEP: a partnership between Heriot-Watt University, the Marine Conservation Society and the Glenmorangie Whisky Company: A15R10520) and the MASTS pooling initiative (the Marine Alliance for Science and Technology for Scotland) funded by the Scottish Funding Council, United Kingdom (grant reference HR09011). Additional funding was provided by a MASTS PECRE grant. The authors wish to thank the staff of the Danish Shellfish Centre for their kind support.The European oyster Ostrea edulis is a keystone species that is internationally recognised as ‘threatened and declining’ in the NE Atlantic by OSPAR and several nations have consequently adopted strategies for its conservation and restoration. Understanding the settlement behaviour of O. edulis larvae is crucial to inform these strategies. We compared the efficiency of several treatments in triggering settlement. The most effective settlement occurred with the presence of conspecifics: 100% settled in <23 h. Marine stones with habitat-associated biofilms induced 81% settlement that started after a 45 h delay. Sterile shells and terrestrial stones did not induce more settlement than control treatments. These results indicate that O. edulis larvae are gregarious and finely-tuned to settle in response to cues which are indicative of their adult habitat requirements. The role of chemical cues in mediating settlement, and the importance of this to restoration, are discussed.Publisher PDFPeer reviewe

    Conservation and turnover of miRNAs and their highly complementary targets in early branching animals

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    MicroRNAs (miRNAs) are crucial post-transcriptional regulators that have been extensively studied in Bilateria, a group comprising the majority of extant animals, where more than 30 conserved miRNA families have been identified. By contrast, bilaterian miRNA targets are largely not conserved. Cnidaria is the sister group to Bilateria and thus provides a unique opportunity for comparative studies. Strikingly, like their plant counterparts, cnidarian miRNAs have been shown to predominantly have highly complementary targets leading to transcript cleavage by Argonaute proteins. Here, we assess the conservation of miRNAs and their targets by small RNA sequencing followed by miRNA target prediction in eight species of Anthozoa (sea anemones and corals), the earliest-branching cnidarian class. We uncover dozens of novel miRNAs but only a few conserved ones. Further, given their high complementarity, we were able to computationally identify miRNA targets in each species. Besides evidence for conservation of specific miRNA target sites, which are maintained between sea anemones and stony corals across 500 Myr of evolution, we also find indications for convergent evolution of target regulation by different miRNAs. Our data indicate that cnidarians have only few conserved miRNAs and corresponding targets, despite their high complementarity, suggesting a high evolutionary turnover
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