Literature
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, 2010. Report of the Scottish Mixed Stock Salmon Fisheries Working Group, Edinburgh: Steering Group of the Freshwater Fisheries Forum. Available at: https://www2.gov.scot/resource/doc/308779/0097178.pdf.
, 2019. Relationship between shell integrity of pelagic gastropods and carbonate chemistry parameters at a Scottish Coastal Observatory monitoring site. ICES Journal of Marine Science. Available at: https://academic.oup.com/icesjms/advance-article/doi/10.1093/icesjms/fsz178/5584407.
, 2002. Regional application of an index of estuarine biotic integrity based on fish communities. Estuaries, 25(2), pp.250 - 263. Available at: https://link.springer.com/article/10.1007/BF02691312#citeas.
, 2015. Reducing bycatch in gillnets: A sensory ecology perspective. Global Ecology and Conservation, 3, pp.28 - 50. Available at: http://www.sciencedirect.com/science/article/pii/S2351989414000663.
, 2007. Recruitment patterns of Serpula vermicularis L. (Polychaeta, Serpulidae) in Loch Creran, Scotland. Estuarine, Coastal and Shelf Science, 73(3), pp.598-606. Available at: http://www.sciencedirect.com/science/article/pii/S0272771407000686.
, 2015. Rapid assessment of marine non-native species in northern Scotland and a synthesis of existing Scottish records. Aquatic Invasions, 10( 1), pp.107-121. Available at: http://www.aquaticinvasions.net/2015/AI_2015_Nall_etal.pdf.
, 2019. Pushing the Limits of Seagrass Remote Sensing in the Turbid Waters of Elkhorn Slough, California. Remote Sensing , 11.
, 2018. Projecting changes in the distribution and productivity of living marine resources: A critical review of the suite of modelling approaches used in the large European project VECTORS. Estuarine, Coastal and Shelf Science, 201, pp.40–55. Available at: https://www.sciencedirect.com/science/article/pii/S0272771416301639?via%3Dihub.
, 2018. Projecting changes in the distribution and productivity of living marine resources: A critical review of the suite of modelling approaches used in the large European project VECTORS. Estuarine, Coastal and Shelf Science, 201, pp.40–55. Available at: https://www.sciencedirect.com/science/article/pii/S0272771416301639?via%3Dihub.
, 2018. Projecting changes in the distribution and productivity of living marine resources: A critical review of the suite of modelling approaches used in the large European project VECTORS. Estuarine, Coastal and Shelf Science, 201, pp.40–55. Available at: https://www.sciencedirect.com/science/article/pii/S0272771416301639?via%3Dihub.
, 2016. Projected Change—North Sea. In North Sea Region Climate Change Assessment. North Sea Region Climate Change Assessment. Cham: Springer International Publishing, pp. 175 - 217. Available at: https://link.springer.com/chapter/10.1007/978-3-319-39745-0_6.
, 2016. Progress in marine geoconservation in Scotland’s seas: assessment of key interests and their contribution to Marine Protected Area network planning. Proceedings of the Geologists' Association, 127(6), pp.716 - 737. Available at: http://www.sciencedirect.com/science/article/pii/S0016787816301031.
, 2004. Progress in estimating the absolute abundance of anglerfish on the European northern shelf from a trawl survey. In ICES ASC 2004. ICES ASC 2004. Vigo, Spain. Available at: http://ices.dk/sites/pub/CM%20Doccuments/CM-2007/K/K1207.pdf.
, 2004. Progress in estimating the absolute abundance of anglerfish on the European northern shelf from a trawl survey. In ICES ASC 2004. ICES ASC 2004. Vigo, Spain. Available at: http://ices.dk/sites/pub/CM%20Doccuments/CM-2007/K/K1207.pdf.
, 2007. Predicting the effect of disturbance on coastal birds. Ibis, 149(s1), pp.73 - 81. Available at: https://onlinelibrary.wiley.com/doi/full/10.1111/j.1474-919X.2007.00649.x.
, 2015. Predicting Future European Breeding Distributions of British Seabird Species under Climate Change and Unlimited/No Dispersal Scenarios. , 7, pp.342 - 359. Available at: https://www.mdpi.com/1424-2818/7/4/342.
, 2016. Predicting and mapping the risk of introduction of marine non-indigenous species into Great Britain and Ireland. Biological Invasions, 18(11), pp.3277 - 3292. Available at: https://link.springer.com/article/10.1007/s10530-016-1219-x.
, 2005. The power potential of tidal currents in channels. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 461, pp.2563-2572. Available at: https://royalsocietypublishing.org/doi/abs/10.1098/rspa.2005.1494.
, 2013. Population genetics provides new insights into biomarker prevalence in dab (Limanda limanda L.): a key marine biomonitoring species. Evolutionary Applications, 6(6), pp.891 - 909. Available at: https://onlinelibrary.wiley.com/doi/full/10.1111/eva.12074.
, 1972. Polystyrene Spherules in Coastal Waters. Science, 178(4062), p.749. Available at: http://science.sciencemag.org/content/178/4062/749.abstract.
, 2019. Plankton lifeforms as a biodiversity indicator for regional-scale assessment of pelagic habitats for policy. Ecological Indicators, 101, pp.913-925. Available at: https://www.sciencedirect.com/science/article/abs/pii/S1470160X19301189?via%3Dihub.
, 2018. Physical and chemical characterisation of sea‐surface microplastics collected from coastal and inland waters of Scotland in the summer of 2017, Greenpeace. Available at: http://www.greenpeace.to/greenpeace/wp-content/uploads/2018/02/GRL-TR-01-2018-Beluga-plastics-tour-Scotland-March-2018.pdf.
, 2020. Phenological shuffling of major marine phytoplankton groups over the last six decades. Diversity and Distributions, 26, pp.536-548. Available at: https://onlinelibrary.wiley.com/doi/abs/10.1111/ddi.13028.
, 2016. PCB pollution continues to impact populations of orcas and other dolphins in European waters. Scientific Reports, 6(1), p.18573. Available at: https://www.nature.com/articles/srep18573.
, 2011. Oyster reefs at risk and recommendations for conservation, restoration and management. BioScience, 61(2), pp.107–116. Available at: https://academic.oup.com/bioscience/article/61/2/107/242615.
, 2011. Oyster reefs at risk and recommendations for conservation, restoration and management. BioScience, 61(2), pp.107–116. Available at: https://academic.oup.com/bioscience/article/61/2/107/242615.
, 2011. Oyster reefs at risk and recommendations for conservation, restoration and management. BioScience, 61(2), pp.107–116. Available at: https://academic.oup.com/bioscience/article/61/2/107/242615.
, 2011. Oyster Reefs at Risk and Recommendations for Conservation, Restoration, and Management. BioScience, 61(2), pp.107 - 116. Available at: https://academic.oup.com/bioscience/article/61/2/107/242615.
, 2011. Oyster Reefs at Risk and Recommendations for Conservation, Restoration, and Management. BioScience, 61(2), pp.107 - 116. Available at: https://academic.oup.com/bioscience/article/61/2/107/242615.
, 2011. Oyster Reefs at Risk and Recommendations for Conservation, Restoration, and Management. BioScience, 61(2), pp.107 - 116. Available at: https://academic.oup.com/bioscience/article/61/2/107/242615.
, 2012. Overview of the status of Atlantic Salmon (Salmo salar) in the North Atlantic and trends in marine mortality. ICES Journal of Marine Science, 69(9), pp.1538–1548. Available at: https://academic.oup.com/icesjms/article/69/9/1538/635167.
, 2012. Overview of the status of Atlantic salmon (Salmo salar) in the North Atlantic and trends in marine mortality. ICES Journal of Marine Science, 69(9), pp.1538 - 1548.
, 2017. Overturning in the Subpolar North Atlantic Program: A New International Ocean Observing System. Bulletin of the American Meteorological Society, 98, pp.737-752. Available at: https://doi.org/10.1175/BAMS-D-16-0057.1.
, 2019. Offshore refuges support higher densities and show slower population declines of wintering Ruddy Turnstones Arenaria interpres. Bird Study, 66(4), pp.431 - 440. Available at: https://www.tandfonline.com/doi/abs/10.1080/00063657.2020.1713725.
, 2020. OES-Environmental 2020 State of the Science Report: Environmental Effects of Marine Renewable Energy Development Around the World, Ocean Energy Systems (OES). Available at: https://tethys.pnnl.gov/publications/state-of-the-science-2020.
, 2020. The Ocean Genome: Conservation and the Fair, Equitable and Sustainable Use of Marine Genetic Resources , Washington, DC: World Resources Institute. Available at: https://www.oceanpanel.org/blue-papers/ocean-genome-conservation-and-fair-equitable-and-sustainable-use-marine-genetic.
, 2020. The ocean genome and future prospects for conservation and equity. Nature Sustainability, 3(8), pp.588 - 596. Available at: https://www.nature.com/articles/s41893-020-0522-9.
, 2019. Ocean community warming responses explained by thermal affinities and temperature gradients. , 9(12), pp.959 - 963. Available at: https://www.nature.com/articles/s41558-019-0631-5.
, 2020. Ocean circulation causes the largest freshening event for 120 years in eastern subpolar North Atlantic. Nature Communications , 11. Available at: https://www.nature.com/articles/s41467-020-14474-y.
, 2020. Ocean circulation causes the largest freshening event for 120 years in eastern subpolar North Atlantic. Nature Communications , 11. Available at: https://www.nature.com/articles/s41467-020-14474-y.
, 2016. Ocean Acidification Effects on Atlantic Cod Larval Survival and Recruitment to the Fished Population. PLoS ONE, 11(8), p.e0155448. Available at: https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0155448.
, 2016. Ocean Acidification Effects on Atlantic Cod Larval Survival and Recruitment to the Fished Population. PLoS ONE, 11(8), p.e0155448. Available at: https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0155448.
, 2014. Observed decline of the Atlantic meridional overturning circulation 2004-2012. Ocean Science, 10(1), pp.29-38. Available at: https://os.copernicus.org/articles/10/29/2014/.
, 2013. Observed and predicted effects of climate change on species abundance in protected areas. Nature Climate Change, 3, pp.1055–1061. Available at: https://pure.york.ac.uk/portal/en/publications/observed-and-predicted-effects-of-climate-change-on-species-abundance-in-protected-areas(f815d1d1-23fb-4446-96ff-262a634b5ee2)/export.html.
, 2013. Observed and predicted effects of climate change on species abundance in protected areas. Nature Climate Change, 3, pp.1055–1061. Available at: https://pure.york.ac.uk/portal/en/publications/observed-and-predicted-effects-of-climate-change-on-species-abundance-in-protected-areas(f815d1d1-23fb-4446-96ff-262a634b5ee2)/export.html.
, 2013. Observed and predicted effects of climate change on species abundance in protected areas. Nature Climate Change, 3, pp.1055–1061. Available at: https://pure.york.ac.uk/portal/en/publications/observed-and-predicted-effects-of-climate-change-on-species-abundance-in-protected-areas(f815d1d1-23fb-4446-96ff-262a634b5ee2)/export.html.
, 2013. Observed and predicted effects of climate change on species abundance in protected areas. Nature Climate Change, 3, pp.1055–1061. Available at: https://pure.york.ac.uk/portal/en/publications/observed-and-predicted-effects-of-climate-change-on-species-abundance-in-protected-areas(f815d1d1-23fb-4446-96ff-262a634b5ee2)/export.html.
, 2013. Observed and predicted effects of climate change on species abundance in protected areas. Nature Climate Change, 3, pp.1055–1061. Available at: https://pure.york.ac.uk/portal/en/publications/observed-and-predicted-effects-of-climate-change-on-species-abundance-in-protected-areas(f815d1d1-23fb-4446-96ff-262a634b5ee2)/export.html.
, 1997. Non-native marine species in British waters: a review and directory. , pp.1-136. Available at: https://hub.jncc.gov.uk/assets/1684dd5e-36e3-4969-852f-4541c82240eb.