Literature
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, 1999. Fishing effects in northeast Atlantic shelf seas: patterns in fishing effort, diversity and community structure. III. International trawling effort in the North Sea: an analysis of spatial and temporal trends. Fisheries Research , 40(2), pp.125 - 134. Available at: http://www.sciencedirect.com/science/article/pii/S0165783698002082.
, 2013. Framework for understanding marine ecosystem health. Marine Ecology Progress Series, 494, pp.1-27. Available at: http://www.int-res.com/abstracts/meps/v494/p1-27/.
, 2013. Framework for understanding marine ecosystem health. Marine Ecology Progress Series, 494, pp.1-27. Available at: http://www.int-res.com/abstracts/meps/v494/p1-27/.
, 2013. Framework for understanding marine ecosystem health. Marine Ecology Progress Series, 494, pp.1-27. Available at: http://www.int-res.com/abstracts/meps/v494/p1-27/.
, 2017. From days to decades: short- and long-term variation in environmental conditions affect offspring diet composition of a marine top predator. Marine Ecology Progress Series, 583, pp.227-242. Available at: http://www.int-res.com/abstracts/meps/v583/p227-242/.
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, 2009. Genetic conspecificity of the worldwide populations of Didemnum vexillum Kott, 2002. Aquatic Invasions, 4(1), pp.29-44. Available at: http://www.aquaticinvasions.net/2009/AI_2009_4_1_Stefaniak_etal.pdf.
, 2017. Genetic population structure of harbour seals in the United Kingdom and neighbouring waters. Aquatic Conservation: Marine and Freshwater Ecosystems, 27(4), pp.839 - 845. Available at: https://onlinelibrary.wiley.com/doi/full/10.1002/aqc.2760.
, 2019. Global analysis of seagrass restoration: the importance of large‐scale planting. Journal of Applied Ecology, 56(7), pp.1856-1856 . Available at: https://besjournals.onlinelibrary.wiley.com/doi/full/10.1111/1365-2664.12562.
, 2015. Global Distribution, Composition and Abundance of Marine Litter. In Marine Anthropogenic Litter. Marine Anthropogenic Litter. Cham: Springer International Publishing, pp. 29 - 56. Available at: https://link.springer.com/chapter/10.1007/978-3-319-16510-3_2.
, 2015. Global Distribution, Composition and Abundance of Marine Litter. In Marine Anthropogenic Litter. Marine Anthropogenic Litter. Cham: Springer International Publishing, pp. 29 - 56. Available at: https://link.springer.com/chapter/10.1007/978-3-319-16510-3_2.
, 2019. Global production of marine bivalves. Trends and challenges. In Goods and Services of Marine Bivalves. Goods and Services of Marine Bivalves. Cham: Springer International Publishing, pp. 7 - 26. Available at: https://link.springer.com/chapter/10.1007/978-3-319-96776-9_2.
, 2019. Guidelines for the monitoring and assessment of plastic litter and microplastics in the ocean, Nairobi: IMO/FAO/UNESCO-IOC/UNIDO/WMO/IAEA/UN/UNEP/UNDP/ISA Joint Group of Experts on the Scientific Aspects of Marine Environmental Protection. Available at: https://environmentlive.unep.org/media/docs/marine_plastics/une_science_dvision_gesamp_reports.pdf.
, 2019. Habitat- and species-mediated short- and long-term distributional changes in waterbird abundance linked to variation in European winter weather. Diversity and Distributions, 25(2), pp.225 - 239. Available at: https://onlinelibrary.wiley.com/doi/10.1111/ddi.12855.
, 2015. High rates of organic carbon burial in fjord sediments globally. . Nature Geoscience , 8 , pp.450-453. Available at: https://www.nature.com/articles/ngeo2421.
, 2010. A horizon scan of global conservation issues for 2010. Trends in Ecology & Evolution, 25(1), pp.1 - 7. Available at: http://www.sciencedirect.com/science/article/pii/S0169534709003206.
, 2010. A horizon scan of global conservation issues for 2010. Trends in Ecology & Evolution, 25(1), pp.1 - 7. Available at: http://www.sciencedirect.com/science/article/pii/S0169534709003206.
, 1996. Hypoxia and sulphide as structuring factors in a macrozoobenthic community on the Baltic Sea shore: colonisation studies and tolerance experiments. Marine Ecology Progress Series, 144(1/3), pp.73 - 85. Available at: https://www.jstor.org/stable/24857255.
, 1996. Hypoxia and sulphide as structuring factors in a macrozoobenthic community on the Baltic Sea shore: colonisation studies and tolerance experiments. Marine Ecology Progress Series, 144(1/3), pp.73 - 85. Available at: https://www.jstor.org/stable/24857255.
, 2018. ICES Report on Ocean Climate 2017, International Council for the Exploration of the Sea (ICES). Available at: http://www.ices.dk/sites/pub/Publication%20Reports/Forms/DispForm.aspx?ID=36050.
, 2016. Identifying Sources of Marine Litter. MSFD GES TG Marine Litter Thematic Report, Ispra: Joint Research Centre (JRC). Available at: https://ec.europa.eu/environment/marine/good-environmental-status/descriptor-10/pdf/MSFD_identifying_sources_of_marine_litter.pdf.
, 2016. Identifying Sources of Marine Litter. MSFD GES TG Marine Litter Thematic Report, Ispra: Joint Research Centre (JRC). Available at: https://ec.europa.eu/environment/marine/good-environmental-status/descriptor-10/pdf/MSFD_identifying_sources_of_marine_litter.pdf.
, 2008. The impact of the sandeel fishery closure on seabird food consumption, distribution, and productivity in the northwestern North Sea. , 65, pp.362 - 381. Available at: https://cdnsciencepub.com/doi/10.1139/f07-164.
, 2018. Impacts of 1.5ºC Global Warming on Natural and Human Systems. In Global Warming of 1.5°C. An IPCC Special Report on the impacts of global warming of 1.5°C above pre-industrial levels and related global greenhouse gas emission pathways, in the context of strengthening the global response to the threat of climate change,. Global Warming of 1.5°C. An IPCC Special Report on the impacts of global warming of 1.5°C above pre-industrial levels and related global greenhouse gas emission pathways, in the context of strengthening the global response to the threat of climate change,. IPCC. Available at: https://www.ipcc.ch/sr15/chapter/chapter-3/.
, 2018. Impacts of 1.5ºC Global Warming on Natural and Human Systems. In Global Warming of 1.5°C. An IPCC Special Report on the impacts of global warming of 1.5°C above pre-industrial levels and related global greenhouse gas emission pathways, in the context of strengthening the global response to the threat of climate change,. Global Warming of 1.5°C. An IPCC Special Report on the impacts of global warming of 1.5°C above pre-industrial levels and related global greenhouse gas emission pathways, in the context of strengthening the global response to the threat of climate change,. IPCC. Available at: https://www.ipcc.ch/sr15/chapter/chapter-3/.
, 2020. Impacts of climate change on aquaculture. In MCCIP science review 2020. MCCIP science review 2020. Lowestoft: Marine Climate Change Impacts Partnership, pp. 482–520. Available at: http://nora.nerc.ac.uk/id/eprint/527054/.
, 2020. Impacts of climate change on dissolved oxygen concentration relevant to the coastal and marine environment around the UK. MCCIP Science Review, 2002, pp.31–53. Available at: http://nora.nerc.ac.uk/id/eprint/527795/.
, 2020. Impacts of climate change on fisheries relevant to the coastal and marine environment around the UK. MCCIP Science Review 2020, pp.456–481. Available at: http://www.mccip.org.uk/media/2023/20_fisheries_2020.pdf.
, 2013. Impacts of ocean acidification on marine organisms: quantifying sensitivities and interaction with warming. Global Change Biology, 19(6), pp.1884 - 1896. Available at: https://onlinelibrary.wiley.com/doi/10.1111/gcb.12179.
, 2019. Impacts of ocean deoxygenation on fisheries. In Ocean deoxygenation: everyone’s problem. Ocean deoxygenation: everyone’s problem. Gland, Switzerland: IUCN, pp. 519 - 544. Available at: https://portals.iucn.org/library/sites/library/files/documents/10%20DEOX.pdf.
, 2017. Importance of trophic mismatch in a winter- hatching species: evidence from lesser sandeel. Marine Ecology Progress Series, 567, pp.185 - 197. Available at: https://www.int-res.com/abstracts/meps/v567/p185-197/.
, 2019. Important contribution of macroalgae to oceanic carbon sequestration. . Nature Geoscience , 12, pp.748-754.
, 2019. Important contribution of macroalgae to oceanic carbon sequestration. . Nature Geoscience , 12, pp.748-754.
, 2020. Influence of Water Masses on the Biodiversity and Biogeography of Deep-Sea Benthic Ecosystems in the North Atlantic. Frontiers in Marine Science, 7, p.239. Available at: https://www.frontiersin.org/article/10.3389/fmars.2020.00239.
, 2008. Ingested Microscopic Plastic Translocates to the Circulatory System of the Mussel, Mytilus edulis (L.). Environmental Science & Technology, 42(13), pp.5026 - 5031. Available at: https://pubs.acs.org/doi/10.1021/es800249a.
, 2006. Inter-annual variability in the timing of stratification and the spring bloom in the North-western North Sea. Continental Shelf Research, 26, pp.733 - 751. Available at: http://www.sciencedirect.com/science/article/pii/S0278434306000392.
, 2009. Inter-species differences for polychlorinated biphenyls and polybrominated diphenyl ethers in marine top predators from the Southern North Sea: Part 1. Accumulation patterns in harbour seals and harbour porpoises. Environmental Pollution, 157, pp.437 - 444. Available at: http://www.sciencedirect.com/science/article/pii/S0269749108004764.
, 2019. Invasive alien species in urbanised marine environments: management applications of natural and manipulated salinity stress. Edinburgh: University of Edinburgh. Available at: https://era.ed.ac.uk/handle/1842/36783.
, 2010. Iron defecation by sperm whales stimulates carbon export in the Southern Ocean. Proceedings of the Royal Society B: Biological Sciences, 277(1699), pp.3527 - 3531. Available at: https://royalsocietypublishing.org/doi/10.1098/rspb.2010.0863.
, 2016. Islands in the stream: kelp detritus as faunal magnets. Marine Biology, 163(1), p.17.
, 2016. Islands in the stream: kelp detritus as faunal magnets. Marine Biology, 163(1), p.17.
, 2015. Isle of May seabird studies in 2015, Peterborough: JNCC. Available at: https://data.jncc.gov.uk/data/7e0f4fb3-ef5d-41b5-a6b8-9d840371d6f2/JNCC-Report-475k-FINAL-WEB.pdf.
, 2015. The Large Fish Indicator is responsive to trawling pressure, and to reductions thereof, International Council for the Exploration of the Sea. Available at: http://www.ices.dk/sites/pub/ASCExtendedAbstracts/Shared%20Documents/P%20-%20How%20to%20hit%20an%20uncertain,%20moving%20target.%20Achieving%20Good%20Environmental%20Status%20under%20the%20Marine%20Strategy%20Framework/P1415.pdf.
, 2014. Large marine protected areas – advantages and challenges of going big. Aquatic Conservation: Marine and Freshwater Ecosystems, 24(S2), pp.24 - 30. Available at: https://onlinelibrary.wiley.com/doi/full/10.1002/aqc.2499.