Percorrer por autor "Morrissey, Declan"
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- Deep-sea ecosystems of the North Atlantic Ocean: discovery, status, function and future challengesPublication . Allcock, A. Louise; Amon, Diva J.; Bridges, Amelia E. H.; Colaço, Ana; Escobar-Briones, Elva; Hilário, Ana; Howell, Kerry L.; Mestre, Nélia; Muller-Karger, Frank E.; Priede, Imants G.; Snelgrove, Paul V. R.; Sealey, Kathleen Sullivan; Xavier, Joana R.; Addamo, Anna M.; Amaro, Teresa; Bandara, Gayathra; Bax, Narissa; Braga-Henriques, Andreia; Brandt, Angelika; Brix, Saskia; Cambronero-Solano, Sergio; Cedeño – Posso, Cristina; Copley, Jonathan T.; Cordes, Erik; Cortés, Jorge; Croquer, Aldo; Cuvelier, Daphne; Davies, Jaime S.; Durden, Jennifer M.; Esquete, Patricia; Foster, Nicola L.; Frutos, Inmaculada; Gasbarro, Ryan; Gates, Andrew R.; Gomes, Marta; Goodwin, Lucy V. M.; Horton, Tammy; Hourigan, Thomas; Hoving, Henk-Jan; Jones, Daniel O. B.; Joshi, Siddhi; Kingon, Kelly C.; Lörz, Anne-Nina; Martins, Ana; Merten, Véronique; Metaxas, Anna; Milligan, Rosanna J.; Molodtsova, Tina N.; Morato, Telmo; Morrissey, Declan; Naranjo-Elizondo, Beatriz; Narayanaswamy, Bhavani E.; Olafsdottir, Steinunn H.; Parimbelli, Alexa; Peña, Marian; Piechaud, Nils; Ragnarsson, Stefan; Ramalho, Sofia P.; Rodrigues, Clara F.; Ross, Rebecca E.; Saeedi, Hanieh; Santos, Régis; Schwing, Patrick T.; Serpa, Tiago; Shantharam, Arvind K.; Stevenson, Angela; Yánez-Suárez, Ana Belén; Sutton, Tracey T.; Svavarsson, Jörundur; Taylor, Michelle L.; Grient, Jesse van der; Zwerschke, NadeschaThe North Atlantic is an ocean basin with a diversity of deep-sea ecosystems. Here we provide a summary of the topography and oceanography of the North Atlantic including the Gulf of Mexico and Caribbean Sea, provide a brief overview of the history of scientific research therein, and review the current status of knowledge of each of 18 pelagic and benthic deep-sea ecosystems, with a particular focus on knowledge gaps. We analyse biodiversity data records across the North Atlantic and highlight spatial data gaps that could provide important foci for future expeditions. We note particular data gaps in EEZs of nations within and bordering the Caribbean Sea. Our data provide a baseline against which progress can be tracked into the future. We review human impacts caused by fishing, shipping, mineral extraction, introduction of substances, and climate change, and provide an overview of international, regional and national measures to protect ecosystems. We recommend that scientific research in the deep sea should focus on increasing knowledge of the distribution and the connectivity of key species and habitats, and increasing our understanding of the processes leading to the delivery of ecosystem services. These three pillars - distribution, connectivity, ecosystem function - will provide the knowledge required to implement conservation and management measures to ensure that any deep-sea development in the future is sustainable. Infrastructure and capacity are unevenly distributed and implementation of strategies that will lead to more equitable deep-sea science is required to ensure that essential science can be delivered.
- Population genomics reveals a single semi-continuous population of a commercially exploited marine gastropodPublication . Morrissey, Declan; Goodall, Jake; Castilho, Rita; Cameron, Tom C.; Taylor, Michelle L.Buccinum undatum is a commercially important marine gastropod with limited dispersal capabilities. Previous genetic studies utilising microsatellites and Double-digest Restriction-site Associated DNA sequencing (ddRADseq) provided evidence that B. undatum exhibits fine-scale genetic structure. Using ddRADseq, 128 individuals from the southern North Sea, English Channel, and the Irish Sea were genotyped using 7015 filtered single nucleotide polymorphisms (SNPs), 19 of which were identified as being under putative selection. Multiple genetic clustering methods - Discriminant analysis of principal components, Principal component analysis, and Sparse non-negative matrix factorisation,- were used to investigate population structure. Spatially explicit genetic structure was investigated using an Estimated Effective Migration Surface analysis and a Mantel correlogram. A single genetic population was found using neutral SNPs, with weak within-population structuring. Global FST was low (0.0046, p < 0.001), and pairwise FST estimates between sampling locations were between 0.0004 and 0.0224. There was a significant trend of isolation-by-distance across all sampling locations (r = 0.743, p < 0.001). Positive spatial autocorrelation indicated whelks located = 50 km of one another were significantly more related than by chance (r = 0.12, p = 0.003), further emphasising the low dispersal capabilities of B. undatum. Finally, two barriers of lower-than-average dispersal were discovered; the Thames estuary and across the English Channel. Management implications are discussed for the sustainability of whelks from inshore fisheries.