Sandeel fishing consultation: strategic environmental assessment - draft environmental report

The draft environmental report produced from the strategic environmental assessment on proposals to close fishing for sandeel in all Scottish waters.


Footnotes

1. Sandeel | NatureScot.

2. Historic Environment Scotland (HES), Scottish Environment Protection Agency (SEPA) and Scottish Natural Heritage (SNH).

3. Scottish Government. Future fisheries: management strategy – 2020 to 2030. 17 December 2020, URL: Future fisheries: management strategy - 2020 to 2030 - gov.scot (www.gov.scot) (last accessed: 20/06/23).

4. Department for Environment Food & Rural Affairs. Marine Strategy Part Two: UK updated monitoring programmes. UK Government, 19 December 2022, URL: updated UK Marine Strategy Part Two (publishing.service.gov.uk) (last accessed: 20/06/23).

5. NatureScot. Avian influenza (bird flu). URL: Avian influenza (bird flu) | NatureScot (last accessed: 20/06/23).

6. Natural Environment Research Council, Special Committee on Seals. Scientific Advice on Matters Related to the Management of Seal Populations: 2021. (last accessed 21/06/2023).

7. Department for Environment Food & Rural Affairs. Marine Strategy Part Two: UK updated monitoring programmes. UK Government, 19 December 2022, URL: updated UK Marine Strategy Part Two (publishing.service.gov.uk) (last accessed: 20/06/23).

8. Department for Environment Food & Rural Affairs. Marine Strategy Part Two: UK updated monitoring programmes. UK Government, 19 December 2022, URL: updated UK Marine Strategy Part Two (publishing.service.gov.uk) (last accessed: 20/06/23).

9. OSPAR. Convention for the protection of the marine environment of the north-east Atlantic. 18 May 2006, URL: Convention Text | OSPAR Commission (last accessed: 20/06/23).

10. Department for Environment, Food & Rural Affairs, Department of Agriculture, Environment and Rural Affairs (Northern Ireland), The Scottish Government, and Welsh Government. Joint Fisheries Statement (JFS). 6 December 2022, URL: (last accessed: 20/06/23).

11. Scottish Government. Future fisheries: management strategy – 2020 to 2030. 17 December 2020, URL: Future fisheries: management strategy - 2020 to 2030 - gov.scot (www.gov.scot) (last accessed: 20/06/23).

12. The Environmental Assessment (Scotland) Act 2005. HMSO, 2005. URL: Environmental Assessment (Scotland) Act 2005 (legislation.gov.uk) (last accessed: 20/06/23).

13. Historic Environment Scotland (HES), Scottish Environment Protection Agency (SEPA) and Scottish Natural Heritage (SNH).

14. Sparholt, H. An estimate of the total biomass of fish in the North Sea. ICES Journal of Marine Science, Volume 46, Issue 2, 1990: 200-210. (last accessed 21/06/2023).

15. Eliasen, K., Reinert, J., Gaard, E., Hansen, B., Jacobsen, J., Grønkjær P., Christensen, J. Sandeel as a link between primary production and higher trophic levels on the Faroe shelf. Inter-Research Science Publisher, MEPS, Volume 438, 2011: 185-194. (last accessed 21/06/2023).

16. Thaxter, C., Lascelles, B., Sugar, K., Cook, A., Roos, S., Bolton, M., Langston, R., Burton, N. Seabird foraging ranges as a preliminary tool for identifying candidate Marine Protected Areas. Science Direct, Biological Conservation, Volume 156, 2012: 53-61. (last accessed 21/06/2023).

17. ICES. Report of the ICES Advisory Committee on the Marine Environment, 1999. Cooperative Research Report 239, 01 January 2020, URL: Report of the ICES Advisory Committee on the Marine Environment, 1999 (figshare.com) (last accessed: 22/06/23).

18. Macleod, K., Fairbairns, R., Gill, A., Fairbairns, B., Gordon, J., Blair-Myres, C., Edward, C., Parsons, M. Seasonal distribution of minke whales, Balaenoptera acutorostrata, in relation to physiography and prey off the Isle of Mull, Scotland. Inter Research Science Publisher, MEPS, Volume 277, 2004: 263 – 274. (last accessed 21/06/2023).

19. MacLeod, C., Begoña Santos, M., Reid, R., Scott, B., Pierce, G. Linking sandeel consumption and the likelihood of starvation in harbour porpoises in the Scottish North Sea: could climate change mean more starving porpoises? The Royal Society Publishing, Biology Letters, Volume 3, Issue 2, 2007. (last accessed 21/06/2023).

20. Wilson, L., Hammond, P. The diet of harbour and grey seals around Britain: Examining the role of prey as a potential cause of harbour seal declines. Wiley Online Library, Aquatic Conservation: Marine and Freshwater Ecosystems, Volume 29, Issue S1, 2019: 71 – 85. (last accessed 21/06/2023).

21. Temming, A et al. Predation of whiting and haddock on sandeel: aggregative response, competition and diel periodicity. Wiley Online Library, Journal of Fish Biology, Volume 64, Issue 5: 1351 – 1372. (last accessed 21/06/2023).

22. Reilly, T et al. Interpreting variation in fish-based food web indicators: the importance of "bottom-up limitation" and "top-down control" processes. ICES Journal of Marine Science, Volume 71, Issue 2, 2014: 406 – 416. (last accessed 21/06/2023).

23. Temming, A., Götz, S., Mergardt, N., Ehrich, S. Predation of whiting and haddock on sandeel: aggregative response, competition and diel periodicity. Wiley Online Library, Journal of Fish Biology, Volume 64, Issue 5: 1351 – 1372. (last accessed 21/06/2023).

24. Scottish Government. European Union and the United Kingdom – sandeel fisheries consultations: written record for 2023. 23 March 2023. (last accessed 21/06/2023).

25. ICES. Sandeel (Ammodytes spp.) in divisions 4,v-c, Sandeel Area 1r (central and southern North Sea, Dogger Bank). ICES Advice on fishing opportunities, catch and effort, 2022. (last accessed 21/06/2023)

26. Brussels and London. Trade and Cooperation Agreement. 2020. (last accessed 21/06/2023).

27. Marine Scotland Directorate. Priority Marine Features. Scottish Government. (last accessed 21/06/2023).

28. Jensen, H., Rindorf, A., Wright, P.J. & Mosegaard, H. Inferring the location and scale of mixing between habitat areas of lesser sandeel through information from the fishery. ICES Journal of Marine Science, Volume 68, Issue 1, 2011: 43 - 51. (last accessed 21/06/2023).

29. Greenstreet, S. P. R., Armstrong, E., Mosegaard, E., Jensen, H., Gibb, I. M., Fraser, H. M., Scott, B. E., Holland, G. J., & Sharples, J. (2006). Variation in the abundance of sandeel Ammodytes marinus off southeast Scotland: an evaluation of area-closure fisheries management and stock abundance assessment methods. ICES Journal of Marine Science, 63: 1530 - 1550. (last accessed 21/06/2023).

30. Greenstreet, S.P., Holland, G.J., Guirey, E.J., Armstrong, E., Fraser, H.M. & Gibb, I.M. Combining hydroacoustic seabed survey and grab sampling techniques to assess "local" sandeel population abundance. ICES Journal of Marine Science, Volume 67, Issue 5, 2010: 971 – 984. (last accessed 21/06/2023).

31. Brussels and London. Trade and Cooperation Agreement. 2020. (last accessed 21/06/2023).

32. Poloczanska, E.S., Cook, R.M., Ruxton, G.D. &Wright, P.J. Fishing vs. natural recruitment variation in sandeel as a cause of seabird breeding failure at Shetland: a modelling approach. ICES Journal of Marine Science, Volume 61, Issue 5, 2004: 788 - 797. (last accessed 21/06/2023).

33. Department for Environment Food & Rural Affairs. Marine Strategy Part Two: UK updated monitoring programmes. UK Government, 19 December 2022: (last accessed: 20/06/23).

34. Furness, R., Tasker, M. Seabird-fishery interactions: quantifying the sensitivity of seabirds to reductions in sandeel abundance, and identification of key areas for sensitive seabirds in the North Sea. Inter-Research Science Publisher, MEPS, Volume 202: 253 – 264. (last accessed 21/06/2023).

35. Wilson, L., Hammond, P. The diet of harbour and grey seals around Britain: Examining the role of prey as a potential cause of harbour seal declines. Wiley Online Library, Aquatic Conservation: Marine and Freshwater Ecosystems, Volume 29, Issue S1, 2019: 71 – 85. (last accessed 21/06/2023).

36. Dunn, E. Revie our Seas: The case for stronger regulation of sandeel fisheries in UK waters. RSPB, 2021. (last accessed 21/06/2023).

37. UK Government. Marine strategy part one: UK updated assessment and Good Environmental Status. 2019. (last accessed 21/06/2023).

38. OSPAR. Convention Text. 1992. (last accessed 21/06/2023).

39. Department for Environment, Food and Rural Affairs., Department of Agriculture., Environment and Rural Affairs (Northern Ireland)., The Scottish Government., The Welsh Government. Joint Fisheries Statement (JFS). 2022. (last accessed 21/06/2023).

40. Scottish Government. Future fisheries: management strategy – 2020 to 2030. 17 December 2020. Future fisheries: management strategy - 2020 to 2030 - gov.scot (www.gov.scot) (last accessed: 20/06/23).

41. Sparholt, H. An estimate of the total biomass of fish in the North Sea. ICES Journal of Marine Science, Volume 46, Issue 2, 1990: 200 – 210.

42. Thaxter, C., Lascelles, B., Sugar, K., Cook, A., Roos, S., Bolton, M., Langston, R., Burnton, N. Seabird foraging ranges as a preliminary tool for identifying candidate Marine Protected Areas. Science Direct, Biological Conservation, Volume 156, 2012: 53-61. (last accessed 21/06/2023).

43. Wilson, L., Hammond, P. The diet of harbour and grey seals around Britain: Examining the role of prey as a potential cause of harbour seal declines. Wiley Online Library, Aquatic Conservation: Marine and Freshwater Ecosystems, Volume 29, Issue S1, 2019: 71 – 85. (last accessed 21/06/2023).

44. Macleod, K., Fairbairns, R., Gill, A., Fairbairns, B., Gordon, J., Blair-Myres, C., Edward, C., Parsons, M. Seasonal distribution of minke whales, Balaenoptera acutorostrata, in relation to physiography and prey off the Isle of Mull, Scotland. Inter Research Science Publisher, MEPS, Volume 277, 2004: 263 – 274. (last accessed 21/06/2023).

45. MacLeod, C., Begoña Santos, M., Reid, R., Scott, B., Pierce, G. Linking sandeel consumption and the likelihood of starvation in harbour porpoises in the Scottish North Sea: could climate change mean more starving porpoises? The Royal Society Publishing, Biology Letters, Volume 3, Issue 2, 2007. (last accessed 21/06/2023).

46. Mitchell, I., Newtom, S., Ratcliffe, N., Dunn, T. Seabird Populations of Britain and Ireland: results of the Seabird 2000 census (1998 – 2002). 2011: (last accessed 21/06/2023).

47. Waggit, J. J. et al. Distribution maps of cetacean and seabird populations in the North-East Atlantic. Journal of Applied Ecology, 2019; 57(2): 253-269. (last accessed 21/06/2023).

48. Waggit, J. J. et al. Distribution maps of cetacean and seabird populations in the North-East Atlantic. Journal of Applied Ecology, 2019; 57(2): 253-269. (last accessed 21/06/2023).

49. Jones, E.L., McConnell, B.J., Smout, S., Hammond, P.S., Duck, C.D., Morris, C.D., Thompson, D., Russell, D.J., Vincent, C., Cronin, M. & Sharples, R.J., Patterns of space use in sympatric marine colonial predators reveal scales of spatial partitioning. Marine Ecology Progress Series, 534: 235-249. (last accessed 21/06/2023).

50. Carter, M.I.D., Boehme, L., Duck, C.D., Grecian, W.J., Hastie, G.D., McConnell, B. J., Miller, D.L., Morris, C.D., Moss, S.E.W., Thompson, D., Thompson, P.M. & Russell, D.J.F. Habitat-based predictions of at-sea distribution for grey and harbour seals in the British Isles. Sea Mammal Research Unit, University of St Andrews, Report to BEIS, OESEA-16-76/OESEA-17-78. (last accessed 21/06/2023).

51. Thompson, P. M., Mcconnell, B. J., Tollit, D. J., Mackay, A., Hunter, C., & Racey, P. A. Comparative Distribution, Movements and Diet of Harbour and Grey Seals from Moray Firth, N. E. Scotland. Journal of Applied Ecology, Volume 33, Number 6: 1572–1584. (last accessed 21/06/2023).

52. Holland, G.J., Greenstreet, S.P., Gibb, I.M., Fraser, H.M. & Robertson, M.R. Identifying sandeel Ammodytes marinus sediment habitat preferences in the marine environment. Marine Ecology Progress Series, Volume 303, 2005: 269-282. (last accessed 21/06/2023).

53. Carter, M.I.D., Boehme, L., Duck, C.D., Grecian, W.J., Hastie, G.D., McConnell, B. J., Miller, D.L., Morris, C.D., Moss, S.E.W., Thompson, D., Thompson, P.M. & Russell, D.J.F. Habitat-based predictions of at-sea distribution for grey and harbour seals in the British Isles. Sea Mammal Research Unit, University of St Andrews, Report to BEIS, OESEA-16-76/OESEA-17-78, 2020. (last accessed 21/06/2023).

54. Jones, E.L., McConnell, B.J., Smout, S., Hammond, P.S., Duck, C.D., Morris, C.D., Thompson, D., Russell, D.J., Vincent, C., Cronin, M. & Sharples, R.J. Patterns of space use in sympatric marine colonial predators reveal scales of spatial partitioning. Marine Ecology Progress Series, 534, 235-249: 2015. (last accessed 21/06/2023).

55. Langton R., Boulcott P., Wright P.J. A verified distribution model for the lesser sandeel Ammodytes marinus. Mar. Ecol. Prog. Ser. 667: 145-159: 2021. (last accessed 21/06/2023).

56. Jones, E.L., McConnell, B.J., Smout, S., Hammond, P.S., Duck, C.D., Morris, C.D., Thompson, D., Russell, D.J., Vincent, C., Cronin, M. & Sharples, R.J. Patterns of space use in sympatric marine colonial predators reveal scales of spatial partitioning. Marine Ecology Progress Series, 2005, Volume 534: 235-249. (last accessed 21/06/2023).

57. Thompson, P. M., & Miller, D. Summer Foraging Activity and Movements of Radio-Tagged Common Seals (Phoca vitulina. L.) in the Moray Firth, Scotland. Journal of Applied Ecology, 1990, Volume 27, Number 2: 492–501. (last accessed 21/06/2023).

58. Thompson, P. M., Mcconnell, B. J., Tollit, D. J., Mackay, A., Hunter, C., & Racey, P. A. Comparative Distribution, Movements and Diet of Harbour and Grey Seals from Moray Firth, N. E. Scotland. Journal of Applied Ecology, 1996, Volume 33, Number 6: 1572–1584. (last accessed 21/06/2023).

59. Cunningham, L., Baxter, J. M., Boyd, I. L., Duck, C. D., Lonergan, M., Moss, S. E., & McConnell, B. Harbour seal movements and haul-out patterns: implications for monitoring and management. Aquatic Conservation: Marine and Freshwater Ecosystems, 2005, Volume 19, Issue 4: 398-407. (last accessed 21/06/2023).

60. Sharples, R. J., Moss, S. E., Patterson, T. A., & Hammond, P. S. Spatial variation in foraging behaviour of a marine top predator (Phoca vitulina) determined by a large-scale satellite tagging program. PLoS one, 2012, Volume 7(5), e37216.

61. Carter, M.I.D., Boehme, L., Duck, C.D., Grecian, W.J., Hastie, G.D., McConnell, B. J., Miller, D.L., Morris, C.D., Moss, S.E.W., Thompson, D., Thompson, P.M. & Russell, D.J.F. Habitat-based predictions of at-sea distribution for grey and harbour seals in the British Isles. Sea Mammal Research Unit, University of St Andrews, 2020, Report to BEIS, OESEA-16-76/OESEA-17-78. (last accessed 21/06/2023).

62. Langton R., Boulcott P., Wright P.J. A verified distribution model for the lesser sandeel Ammodytes marinus. MEPS, 2021, Volume 667: 145-159. (last accessed 21/06/2023).

63. Hague, E.L., Sinclair, R.R. & Sparling, C.E. Regional baselines for marine mammal knowledge across the North Sea and Atlantic areas of Scottish waters. Scottish Marine and Freshwater Science, 2020, Volume 11, Number 12. Appendix 3 SCANS Surveys. (last accessed 21/06/2023).

64. Booth, C. G., Embling, C., Gordon, J., Calderan, S. V., & Hammond, P. S. Habitat preferences and distribution of the harbour porpoise Phocoena phocoena west of Scotland. Marine Ecology Progress Series, 2023, Volume 478: 273-285. (last accessed 21/06/2023).

65. Marubini, F., Gimona, A., Evans, P. G., Wright, P. J., & Pierce, G. J. Habitat preferences and interannual variability in occurrence of the harbour porpoise Phocoena phocoena off northwest Scotland. Marine Ecology Progress Series, 2009, Volume 381: 297-310. (last accessed 21/06/2023).

66. Waggitt, J.J., Evans, P.G., Andrade, J., Banks, A.N., Boisseau, O., Bolton, M., Bradbury, G., Brereton, T., Camphuysen, C.J., Durinck, J. & Felce, T. Distribution maps of cetacean and seabird populations in the North‐East Atlantic. Journal of Applied Ecology, 2019, Volume 57, Issue 2: 253-269. (last accessed 21/06/2023).

67. Lacey, C., Hammond, P.S., Gilles, A., Börjesson, P., Herr, H., Macleod, K., Ridoux, V., Santos, M.B., Scheidat, M., Teilmann, J., Vingada, J., Viquerat, S. & Øien, N. Modelled density surfaces of cetaceans in European Atlantic waters in summer 2016 from the SCANS-III aerial and shipboard surveys. 2021 (last accessed 21/06/2023).

68. Brookes, K.L., Bailey, H. & Thompson, P.M. Predictions from harbor porpoise habitat association models are confirmed by long-term passive acoustic monitoring. Journal of the Acoustical Society of America, 2013, Volume 134: 2523-2533. (last accessed 21/06/2023).

69. Williamson, L.D., Brookes, K.L., Scott, B.E., Graham, I.M., Bradbury, G., Hammond, P.S. and Thompson, P.M. Echolocation detections and digital video surveys provide reliable estimates of the relative density of harbour porpoises. Methods in Ecology and Evolution, 2016, Volume 7, Issue 7: 762-769. (last accessed 21/06/2023).

70. Langton R., Boulcott P., Wright P.J. A verified distribution model for the lesser sandeel Ammodytes marinus. MEPS, 2021, Volume 667: 145-159. (last accessed 21/06/2023).

71. Hague, E.L., Sinclair, R.R. & Sparling, C.E. Regional baselines for marine mammal knowledge across the North Sea and Atlantic areas of Scottish waters. Scottish Marine and Freshwater Science, 2020, Vol 11, No 12. Appendix 3 SCANS Surveys. (last accessed 21/06/2023).

72. Paxton, C.G., Scott-Hayward, L.A.S. & Rexstad, E.A. Statistical approaches to aid the identification of Marine Protected Areas for minke whale, Risso's dolphin, white-beaked dolphin and basking shark. Scottish Natural Heritage, 2014, Policy and Advice Directorate. (last accessed 21/06/2023).

73. Langton R., Boulcott P., Wright P.J. A verified distribution model for the lesser sandeel Ammodytes marinus. MEPS, 2021, Volume 667: 145-159. (last accessed 21/06/2023).

74. Canning, S., Santos, M., Reid, R., Evans, P., Sabin, R., Bailey, N., & Pierce, G. Seasonal distribution of white-beaked dolphins (Lagenorhynchus albirostris) in UK waters with new information on diet and habitat use. Journal of the Marine Biological Association of the United Kingdom, 2008, Volume 88, Issue 6, 1159-1166: (last accessed 21/06/2023).

75. Weir, C. R., Stockin, K. A., & Pierce, G. J. Spatial and temporal trends in the distribution of harbour porpoises, white-beaked dolphins and minke whales off Aberdeenshire (UK), north-western North Sea. Journal of the Marine Biological Association of the United Kingdom, 2007, Volume 87, Issue 1, 327-338 (last accessed 21/06/2023).

76. Waggitt, J.J., Evans, P.G., Andrade, J., Banks, A.N., Boisseau, O., Bolton, M., Bradbury, G., Brereton, T., Camphuysen, C.J., Durinck, J. & Felce, T. Distribution maps of cetacean and seabird populations in the North‐East Atlantic. Journal of Applied Ecology, 2020, Volume 57, Issue 2: 253-269 (last accessed 21/06/2023).

77. Lacey, C., Hammond, P.S., Gilles, A., Börjesson, P., Herr, H., Macleod, K., Ridoux, V., Santos, M.B., Scheidat, M., Teilmann, J., Vingada, J., Viquerat, S. & Øien, N. Modelled density surfaces of cetaceans in European Atlantic waters in summer 2016 from the SCANS-III aerial and shipboard surveys. 2021. (last accessed 21/06/2023).

78. NatureScot. Avian influenza (bird flu). (last accessed: 21/06/2023).

79. Grémillet, D., Boulinier, T. Spatial ecology and conservation of seabirds facing global climate change: a review. MEPS, 2009, Volume 391: 121 – 137. (last accessed: 21/06/2023).

80. Banyard, A., Lean, F., Robinson, C., et al. Detection of Highly Pathogenic Avian Influenza Virus H5N1 Clade 2.3.4.4b in Great Skuas: A Species of Conservation Concern in Great Britain. Viruses, 2022, Volume 14, Issue 2: 212. (last accessed: 21/06/2023).

81. JNCC (2018). Marine Pressures-Activities Database (PAD) v1.3. URL: Marine Pressures-Activities Database (PAD) v1.5 | JNCC Resource Hub (last accessed: 14/10/19)

82. The FEAST pressure of 'Visual Disturbance' includes three separate pressures referred to in the PAD: Visual disturbance, Introduction of light, Above water noise.

83. Natural Environment Research Council, Special Committee on Seals. Scientific Advice on Matters Related to the Management of Seal Populations: 2021. (last accessed: 21/06/2023).

84. Natural Environment Research Council, Special Committee on Seals. Scientific Advice on Matters Related to the Management of Seal Populations: 2021. (last accessed: 21/06/2023).

85. Wilson, L., Hammond, P. The diet of harbour and grey seals around Britain: Examining the role of prey as a potential cause of harbour seal declines. Wiley Online Library, Aquatic Conservation: Marine and Freshwater Ecosystems, Volume 29, Issue S1, 2019: 71 – 85. (last accessed 21/06/2023).

86. OSPAR. Abundance and Distribution of Cetaceans. (last accessed: 21/06/2023).

87. Scottish Government. UK dolphin and porpoise conservation strategy: technical report. 22 March 2021. (last accessed 21/06/2023).

88. JNCC. Updated abundance estimates for cetacean Management Units in UK waters. JNCC Report, 2022, No. 680. (last accessed 21/06/2023).

89. Hammond, P.S., Lacey, C., Gilles, A., Viquerat, S., Börjesson, P., Herr, H., Macleod, K., Ridoux, V., Santos, M.B., Scheidat, M., Teilmann, J., Vingada, J., Øien, N. Estimates of cetacean abundance in European Atlantic waters in summer 2016 from the SCANS-III aerial and shipboard surveys, 2021. (last accessed 21/06/2023).

90. Rogan, E., Breen, P., Mackey, M., Cañadas, A., Scheidat, M., Geelhoed, S. & Jessopp, M. Aerial surveys of cetaceans and seabirds in Irish waters: Occurrence, distribution and abundance in 2015-2017. Department of Communications, Climate Action & Environment and National Parks and Wildlife Service (NPWS), Department of Culture, Heritage and the Gaeltacht, Dublin, Ireland, 2018. (last accessed: 21/06/2023).

91. Wright P.J., Jensen H. & Tuck I. The influence of sediment type on the distribution of the Lesser Sandeel, Ammodytes marinus. Journal of Sea Research, 2000, Volume 44, Issues 3-4: 243 – 256. (last accessed 21/06/20230.

92. Holland, G.J., Greenstreet, S.P., Gibb, I.M., Fraser, H.M. & Robertson, M.R. Identifying sandeel Ammodytes marinus sediment habitat preferences in the marine environment. Marine Ecology Progress Series, 2005, Volume 303: 269-282. (last accessed 21/06/2023).

93. Tien N.S.H., Craeymeersch J., van Damme C., Couperus A.S., Adema J. &Tulp I. Burrow distribution of three sandeel species relates to beam trawl fishing, sediment composition and water velocity, in Dutch coastal waters. Journal of Sea Research, 2017, Volume 127: 194 – 202. (last accessed 21/06/2023).

94. Langton R., Boulcott P., Wright P.J. A verified distribution model for the lesser sandeel Ammodytes marinus. MEPS, 2021, Volume 667: 145 - 159. (last accessed 21/06/2023).

95. Holland, G.J., Greenstreet, S.P., Gibb, I.M., Fraser, H.M. & Robertson, M.R. Identifying sandeel Ammodytes marinus sediment habitat preferences in the marine environment. Marine Ecology Progress Series, 2005, Volume 303: 269-282. (last accessed 21/06/2023).

96. Wright P.J., Jensen H. & Tuck I. The influence of sediment type on the distribution of the Lesser Sandeel, Ammodytes marinus. Journal of Sea Research, 2000, Volume 44, Issues 3-4: 243 – 256. (last accessed 21/06/20230.

97. Langton R., Boulcott P., Wright P.J. A verified distribution model for the lesser sandeel Ammodytes marinus. MEPS, 2021, Volume 667: 145 - 159. (last accessed 21/06/2023).

98. Jensen, H., Rindorf, A., Wright, P.J. & Mosegaard, H. Inferring the location and scale of mixing between habitat areas of lesser sandeel through information from the fishery. ICES Journal of Marine Science, 2010, Volume 68 Issue 1: 43 – 51. (last accessed 21/06/2023).

99. Langton R., Boulcott P., Wright P.J. A verified distribution model for the lesser sandeel Ammodytes marinus. MEPS, 2021, Volume 667: 145 - 159. (last accessed 21/06/2023).

100. Langton R., Boulcott P., Wright P.J. A verified distribution model for the lesser sandeel Ammodytes marinus. MEPS, 2021, Volume 667: 145 - 159. (last accessed 21/06/2023).

101. Daan, N. (2006). Spatial and temporal trends in species richness and abundance for southerly and northerly components of the North Sea fish community separately, based on IBTS data 197702005. Paper presented at ICES Annual Science Conference 2006, Maastricht, 19-23 September 2006. (last accessed: 21/06/2023).

102. Rose, G. A. (Ed.). Atlantic cod: a bio-ecology. John Wiley & Sons; 2019 Feb 26.

103. ICES. 2022. Working Group on the Assessment of Demersal Stocks in the North Sea and Skagerrak (WGNSSK). ICES Scientific Reports. 4:43. 1367 pp.

104. Gonzalez-Irusta, J. M., and Wright, P. J. Spawning grounds of Atlantic cod (Gadus morhua) in the North Sea. ICES Journal of Marine Science, 2016, Volume 73, Issue 2: 304 – 315. (last accessed: 21/06/2023).

105. Gonzalez-Irusta, J. M., and Wright, P. J. Spawning grounds of haddock (Melanogrammus aeglefinus) in the North Sea and West of Scotland. Fisheries Research, 2016, Volume 183: 180 – 191. (last accessed: 21/06/2023).

106. ICES. 2023. Working Group on the Assessment of Demersal Stocks in the North Sea and Skagerrak (WGNSSK). ICES Scientific Reports.

107. González-Irusta, J. M., and Wright, P. J. Spawning grounds of whiting (Merlangius merlangus). Fisheries Research, 2017, Volume 195: 141 - 151. (last accessed 21/06/2023).

108. Myksvoll, Mari & Devine, J & Quintela, María & Geffen, Audrey & Nash, RDM & Sandvik, A & Besnier, Francois & Saha, Atal & Dahle, Geir & Jansson, Eeva & Nedreaas, K & Johansen, Torild. (2021). Linking dispersal connectivity to population structure and management boundaries for saithe in the Northeast Atlantic. Marine Ecology Progress Series, 2021, Volume 680: 177 – 191. (last accessed 21/06/2023).

109. ICES (2023) Sandeel (Ammodytes spp.) in divisions 4.a-b, Sandeel Area 4 (northern and central North). In Report of the ICES Advisory Committee, 2023. ICES Advice 2023, san.sa.4. (last accessed: 21/06/2023).

110. Wright, P.J., Pinnegar, J.K. and Fox, C. Impacts of climate change on fish, relevant to the coastal and marine environment around the UK. MCCIP Science Review 2020,354–381. (last accessed: 21/06/2023).

111. Enzor, L.A., Zippay, M.L. and Place, S.P. High latitude fish in a high CO2 world: synergistic effects of elevated temperature and carbon dioxide on the metabolic rates of Antarctic notothenioids. Comparative Biochemistry and Physiology, 2013, Part A: Molecular and Integrative Physiology, 164: 154–161. (last accessed: 21/06/2023).

112. Couturier, C.S., Stecyk, J.A., Rummer, J.L., Munday, P.L. and Nilsson, G.E. Species-specific effects of near-future CO2 on the respiratory performance of two tropical prey fish and their predator. Comparative Biochemistry and Physiology, 2013 Part A: Molecular and Integrative Physiology, Volume 166: 482–489. (last accessed: 22/06/2023).

113. Regnier, T., Gibb, F.M. and Wright, P.J. Temperature effects on egg development and larval condition in the lesser sandeel, Ammodytes marinus. Journal of Sea Research, 2018; 134: 34-41.

114. Régnier, T., Gibb, F.M. and Wright, P.J. Understanding temperature effects on recruitment in the context of trophic mismatch. Scientific Reports, 2019; 9: 15179.

115. Wright, P.J., Pinnegar, J.K. and Fox, C. Impacts of climate change on fish, relevant to the coastal and marine environment around the UK. MCCIP Science Review, 2020: 354–381.

116. Enzor, L.A., Zippay, M.L. and Place, S.P. High latitude fish in a high CO2 world: synergistic effects of elevated temperature and carbon dioxide on the metabolic rates of Antarctic notothenioids. Comparative Biochemistry and Physiology Part A: Molecular and Integrative Physiology, 2013; 164: 154–161.

117. Couturier, C.S. et al. Species-specific effects of near-future CO2 on the respiratory performance of two tropical prey fish and their predator. Comparative Biochemistry and Physiology Part A: Molecular and Integrative Physiology, 2013; 166: 482-489.

118. Dutkiewicz, S. et al. Impact of ocean acidification on the structure of future phytoplankton communities. Nature Climate Change, 2015; 5: 1002-1006.

119. Hammill, et al. Ocean acidification alters zooplankton communities and increases top-down pressure of a cubozoan predator. Global Change Biology, 2018; 24: e128– e138.

120. Townhill, B.L. et al. Consequences of climate-induced low oxygen conditions for commercially important fish. Marine Ecology Progress Series, 2017; 580: 191-204.

121. Behrens, J.W. et al. Oxygen dynamics around buried lesser sandeels Ammodytes tobianus (Linnaeus 1785): mode of ventilation and oxygen requirements. Journal of Experimental Biology, 2007; 210(6): 1006-1014.

122. ICES. 2022. Working Group on the Assessment of Demersal Stocks in the North Sea and Skagerrak (WGNSSK). ICES Scientific Reports. 4:43. 1367 pp.

123. ICES. 2023. Working Group on the Assessment of Demersal Stocks in the North Sea and Skagerrak (WGNSSK). ICES Scientific Reports.

124. Serpetti, N. et al. Impact of ocean warming on sustainable fisheries management informs the Ecosystem Approach to Fisheries. Scientific Reports, 2017; 7: 13438.

125. Ter Hofstede, R. and Rijnsdorp, A. D. Comparing demersal fish assemblages between periods of contrasting climate and fishing pressure. ICES Journal of Marine Science, 2011; 68(6) 1189-1198.

126. Marty, L., Rochet, M-J. and Ernande, B. Temporal trends in age and size at maturation of four North Sea gadid species: Cod, haddock, whiting and Norway pout. Marine Ecology Progress Series, 2014; 497: 179-197.

127. Ikpewe, I. E. et al. Bigger juveniles and smaller adults: Changes in fish size correlate with warming seas. Journal of Applied Ecology, 2021; 58: 847– 856.

128. Marshall, D. J., Barneche, D. R. and White, C. R. How does spawning frequency scale with body size in marine fishes? Fish and Fisheries, 2022; 23(2): 316-323.

129. Marty, L., Rochet, M-J. and Ernande, B. Temporal trends in age and size at maturation of four North Sea gadid species: Cod, haddock, whiting and Norway pout. Marine Ecology Progress Series, 2014; 497: 179-197.

130. Neuheimer, A. and Taggart, C. Can changes in length-at-age and maturation timing in Scotian Shelf haddock (Melanogrammus aeglefinus) be explained by fishing? Canadian Journal of Fisheries and Aquatic Sciences, 2010; 67: 854-865.

131. Comparing demersal fish assemblages between periods of contrasting climate and fishing pressure | ICES Journal of Marine Science | Oxford Academic (oup.com)

132. ICES. 2023. Working Group on the Assessment of Demersal Stocks in the North Sea and Skagerrak (WGNSSK). ICES Scientific Reports.

133. Fogarty. M. J., Myers, R. A. and Bowen, K. G. Recruitment of cod and haddock in the North Atlantic: a comparative analysis. ICES Journal of Marine Science, 2001; 58(5): 952–961.

134. Edda Johannesen and others, Persistent differences in recruitment variability among co-occurring North Atlantic groundfish species, ICES Journal of Marine Science, Volume 79, Issue 9, November 2022, Pages 2430–2441,

135. Cury, P.M. et al. Global seabird response to forage fish depletion – one-third for the birds. Science, 2011; 334: 1703–1706.

136. Frederiksen, M., Furness, R. and Wanless, S. Regional variation in the role of bottom-up processes in controlling sandeel abundance in the North Sea. Marine Ecology Progress Series, 2007; 337: 279-286.

137. MacArthur Green (2021). HRA Derogation Scope B - Review of seabird strategic compensation options. Report to Crown Estate Scotland and SOWEC. URL: hra-derogation-scope-b-report.pdf (offshorewindscotland.org.uk) (last accessed: 29/06/23).

138. Rindorf, A., Wanless, S. and Harris, M.P. Effects of changes in sandeel availability on the reproductive output of seabirds. Marine Ecology Progress Series, 2000; 202: 241-252.

139. Newell, M. et al. 2013. Isle of May seabird studies in 2011. JNCC Report, No. 475g. URL: Isle of May seabird studies (2005–2015) | JNCC Resource Hub (last accessed: 22/06/23).

140. Swann, R.L, Harris, M.P, and Aiton, D.G. The diet of European shag Phalacrocorax aristotelis, black-legged kittiwake Rissa tridactyla and common guillemot Uria aalge on Canna during the chick-rearing period 1981-2007. Seabird, 2008; 21: 44-54. Layout 1 (seabirdgroup.org.uk)

141. Davis, S.E., Nager, R.G. and Furness, R.W. Food availability affects adult survival as well as breeding success of parasitic jaegers. Ecology, 2005; 86: 1047-1056.

142. Furness, R.W. Responses of seabirds to depletion of food fish stocks. Journal of Ornithology, 2007; 148(Suppl 2): 247–252

143. Frederiksen, M., Furness, R. and Wanless, S. Regional variation in the role of bottom-up processes in controlling sandeel abundance in the North Sea. Marine Ecology Progress Series, 2007; 337: 279-286.

144. Phillips, R.A. et al. Diet of the northern fulmar Fulmarus glacialis: reliance on commercial fisheries? Marine Biology, 1999; 135:159–170.

145. Oro, D. and Furness, R. W. Influences of food availability and predation on survival of kittiwakes. Ecology, 2002; 83(9): 2516-2528.

146. Ratcliffe, N. et al. The effect of age and year on the survival of breeding adult Great Skuas Catharacta skua in Shetland, Ibis, 2002; 144(3): 384-392.

147. Olin A.B. et al. Spatial synchrony of breeding success in the blacklegged kittiwake Rissa tridactyla reflects the spatial dynamics of its sandeel prey. Marine Ecology Progress Series, 2020; 638: 177-190.

148. Barrett, R.T. et al. Diet studies of seabirds: a review and recommendations. ICES Journal of Marine Science, 2007; 64(9): 1675-1691.

149. Blake, B. et al. Seasonal changes in the feeding ecology of guillemots (Uria aalge) off north and east Scotland. Estuarine, Coastal and Shelf Science, 1985; 20: 559−568.

150. Howells, R.J. et al. Pronounced long-term trends in year-round diet composition of the European shag Phalacrocorax aristotelis. Marine Biology, 2018; 165: 188.

151. Dunnet, G. M. et al. Seabird ecology in the North Sea. Netherlands Journal of Sea Research, 1990; 26: 387–425.

152. Hislop, J. R. G., Harris, M. P. and Smith, J. G. M. Variation in the calorific value and total energy content of the lesser sandeel (Ammodytes marinus) and other fish preyed on by seabirds. Journal of Zoology, 1991; 224(3): 501–517.

153. Furness, RW, and Tasker, M.L. Seabird-fishery interactions: quantifying the sensitivity of seabirds to reductions in sandeel abundance, and identification of key areas for sensitive seabirds in the North Sea. Marine Ecology Progress Series, 2000; 202: 253-264.

154. Wanless, S. et al. Evidence for decrease in size of lesser sandeel Ammodytes marinus in a North Sea aggregation over a 30-yr period. Marine Ecology Progress Series, 2004; 279: 237-246.

155. Wanless, S. et al. Low energy values of fish as a probable cause of a major seabird breeding failure in the North Sea. Marine Ecology Progress Series, 2005; 294: 1-8.

156. Frederiksen, M. et al. Climate, copepods and seabirds in the boreal Northeast Atlantic – current state and future outlook. Global Change Biology, 2013; 19: 364-372.

157. Wanless, S. et al. A community wide decline in the importance of lesser sandeels Ammodytes marinus in seabird chick diet at a North Sea colony. Marine Ecology Progress Series, 2018; 600, 193–206.

158. Wanless, S. et al. Evidence for decrease in size of lesser sandeel Ammodytes marinus in a North Sea aggregation over a 30-yr period. Marine Ecology Progress Series, 2004; 279: 237–246.

159. Wanless, S. et al. Low energy values of fish as a probable cause of a major seabird breeding failure in the North Sea. Marine Ecology Progress Series, 2005; 294: 1-8.

160. Heubeck, M. Common guillemot Uria aalge chick diet and breeding performance at Sumburgh Head, Shetland in 2007-09, compared to 1990-91. Seabird, 2009; 22: 9-18.

161. Howells, R.J. et al. 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, 2017; 583: 227-242.

162. Howells, R.J. et al. Pronounced long-term trends in year-round diet composition of the European shag Phalacrocorax aristotelis. Marine Biology, 2018; 165: 188.

163. Anderson, H. B. et al. The diet of Common Guillemot Uria aalge chicks provides evidence of changing prey communities in the North Sea. Ibis, 2014; 156: 23–34.

164. Monaghan, P. et al. The relationship between food supply, reproductive effort, and breeding success in Arctic terns, Sterna paradisaea. Journal of Animal Ecology, 1989; 58: 261e274.

165. Hamer, K. C., Furness, R. W., and Caldow, R. W. G. The effects of changes in food availability on the breeding ecology of great skuas in Shetland. Journal of Zoology, 1991; 223: 175e188.

166. Hamer, K. C. et al. The influence of food supply on the breeding ecology of kittiwakes Rissa tridactyla in Shetland. Ibis, 1993; 135: 255e263.

167. Wanless, S., Harris, M. P., & Greenstreet, S. P. R. Summer sandeel consumption by seabirds breeding in the Firth of Forth, south-east Scotland. ICES Journal of Marine Science, 1998; 55: 1141–1151.

168. ICES. Report of the ICES Advisory Committee on the Marine Environment, 1999. Cooperative Research Report 239, 01 January 2020, URL: Report of the ICES Advisory Committee on the Marine Environment, 1999 (figshare.com) (last accessed: 22/06/23).

169. Daunt, F. et al. The impact of the sandeel fishery closure on seabird food consumption, distribution and productivity in the northwestern North Sea. Canadian Journal of Fisheries and Aquatic Sciences, 2008; 65(3): 362-381.

170. Daunt, F. et al. The impact of the sandeel fishery closure on seabird food consumption, distribution and productivity in the northwestern North Sea. Canadian Journal of Fisheries and Aquatic Sciences, 2008; 65(3): 362-381.

171. Frederiksen, M., Jensen, H., Daunt, F., Mavor, R.A. & Wanless, S. (2008), differential effects of a local industrial sand lance fishery on seabird breeding performance. Ecological Applications, 18: 701-710.

172. Rindorf, A., Wanless, S. and Harris, M.P. Effects of changes in sandeel availability on the reproductive output of seabirds. Marine Ecology Progress Series, 2000; 202: 241-252.

173. Cook A.S.C.P. et al. Indicators of seabird reproductive performance demonstrate the impact of commercial fisheries on seabird populations in the North Sea. Ecological Indicators, 2014; 38: 1-11.

174. Pierce, G. et al. Diet of minke whales Balaenoptera acutorostrata in Scottish (UK) waters with notes on strandings of this species in Scotland 1992–2002. Journal of the Marine Biological Association of the UK, 2004; 84(6): 1241-1244.

175. Santos, M.B. et al. Variability in the diet of harbor porpoises (Phocoena phocoena) in Scottish waters 1992–2003. Marine Mammal Science, 2004; 20: 1-27.

176. Wilson, L. J. and Hammond, P.S. The diet of harbour and grey seals around Britain: Examining the role of prey as a potential cause of harbour seal declines. Aquatic Conservation, Marine and Freshwater Ecosystems, 2019; 29(1): 71-85.

177. Brown, E. G. et al. Interannual variation in the summer diets of harbour seals Phoca vitulina at Mousa, Shetland (UK). Journal of the Marine Biological Association of the United Kingdom, 2001; 81(2): 325-337.

178. Hall, A. J., Watkins, J., and Hammond, P. S. Seasonal variation in the diet of harbour seals in the south-western North Sea. Marine Ecology Progress Series, 1998; 170: 269-281.

179. Pierce, G. J., and Santos, M. B. Diet of harbour seals (Phoca vitulina) in Mull and Skye (Inner Hebrides, western Scotland). Journal of the Marine Biological Association of the United Kingdom, 2003; 83(3): 647-650.

180. Sharples, R. J., Arrizabalaga, B. and Hammond, P. S. Seals, sandeels and salmon: diet of harbour seals in St. Andrews Bay and the Tay Estuary, southeast Scotland. Marine Ecology Progress Series, 2009; 390: 265-276.

181. Tollit, D. J. & Thompson, P. M. (1996). Seasonal and between-year variations in the diet of harbour seals in the Moray Firth, Scotland. Canadian Journal of Zoology, 74, 1110-1121.

182. Wilson, L. J. and Hammond, P.S. The diet of harbour and grey seals around Britain: Examining the role of prey as a potential cause of harbour seal declines. Aquatic Conservation, Marine and Freshwater Ecosystems, 2019; 29(1): 71-85.

183. Santos, M.B. and Pierce, G.J. The diet of harbour porpoise (Phocoena phocoena) in the northeast Atlantic. Oceanography and Marine Biology: an Annual Review, 2003; 41: 355-390.

184. Santos, M.B. et al. Variability in the diet of harbor porpoises (Phocoena phocoena) in Scottish waters 1992–2003. Marine Mammal Science, 2004; 20: 1-27.

185. Pierce, G. et al. Diet of minke whales Balaenoptera acutorostrata in Scottish (UK) waters with notes on strandings of this species in Scotland 1992–2002. Journal of the Marine Biological Association of the UK, 2004; 84(6): 1241-1244.

186. Olsen, E. and Holst, J.C. A note on common minke whale (Balaenoptera acutorostrata) diets in the Norwegian Sea and the North Sea.  Journal of Cetacean Research and Management, 2001; 3(2): 179-184.

187. Windsland, K. et al. Relative abundance and size composition of prey in the common minke whale diet in selected areas of the northeastern Atlantic during 2000-04.  Journal of Cetacean Research and Management, 2007; 9(3): 167-178.

188. Santos, M. B. et al. Diets of small cetaceans from the Scottish coast. Copenhagen:  ICES, 1994.

189. Canning, S. et al. Seasonal distribution of white-beaked dolphins (Lagenorhynchus albirostris) in UK waters with new information on diet and habitat use.  Journal of the Marine Biological Association of the United Kingdom, 2008; 88(6): 1159-1166.

190. Jansen, O. et al. Are white-beaked dolphins Lagenorhynchus albirostris food specialists? Their diet in the southern North Sea.  Journal of the Marine Biological Association of the United Kingdom, 2010; 90(8): 1501-1508.

191. Santos, M. et al. Stomach contents of bottlenose dolphins (Tursiops truncatus) in Scottish waters.  Journal of the Marine Biological Association of the United Kingdom, 2001; 81(5): 873-878.

192. Wilson, L. J. and Hammond, P.S. The diet of harbour and grey seals around Britain: Examining the role of prey as a potential cause of harbour seal declines. Aquatic Conservation, Marine and Freshwater Ecosystems, 2019; 29(1): 71-85.

193. MacLeod, C.D. et al. Linking sandeel consumption and the likelihood of starvation in harbour porpoises in the Scottish North Sea: could climate change mean more starving porpoises?  Biology Letters, 2007;  3(2): 185-188.

194. Leopold, M. F. Eat and be eaten, Porpoise diet studies. Doctoral Thesis – Wageningen: Wageningen University, 2015.

195. Ransijn, J.M. et al. Integrating disparate datasets to model the functional response of a marine predator: A case study of harbour porpoises in the southern North Sea.  Ecology and Evolution, 2021; 11(23): 17458-17470.

196. Mahfouz, C. et al. Multi-approach analysis to assess diet of harbour porpoises  Phocoena phocoena in the southern North Sea. Marine Ecology Progress Series, 2017; 563: 249-259.

197. Hammond, P. S. et al. Cetacean abundance and distribution in European Atlantic shelf waters to inform conservation and management. Biological Conservation, 2013; 164: 107-122.

198. Hanson, N. et al. Harbour seal (Phoca vitulina) abundance within the Firth of Tay and Eden estuary, Scotland: recent trends and extrapolation to extinction. Aquatic Conservation: Marine and Freshwater Ecosystems, 2017; 27(1): 268-281.

199. Poloczanska, E.S. et al. Fishing vs. natural recruitment variation in sandeel as a cause of seabird breeding failure at Shetland: a modelling approach. ICES Journal of Marine Science, 2004; 61(5): 788–797.

200. Engelhard, G. H. et al. Forage fish, their fisheries, and their predators: who drives whom? ICES Journal of Marine Science, 2014; 71: 90–104.

201. Trenkel, V.M. et al. Spatial and temporal predation patterns in the Celtic Sea. Marine Ecology Progress Series, 2005; 299: 257-268.

202. Engelhard, G.H. et al. Body condition of predatory fishes linked to the availability of sandeels. Marine biology, 2013; 160(2): 299-308.

203. Rindorf, A, Jensen, H, and Schrum, C. Growth, temperature and density relationships of North Sea cod (Gadus morhua). Canadian Journal of Fisheries and Aquatic Sciences, 2008; 65(3): 456-470.

204. Temming, A. et al. Predation of whiting and haddock on sandeel: aggregative response, competition and diel periodicity. Journal of Fish Biology, 2004; 64(5): 1351-1372.

205. NatureScot. Sandeel, URL: Sandeel | NatureScot (last accessed: 21/06/23).

206. Scottish Government. Marine Protected Areas (MPAs), URL: (last accessed: 21/06/23).

207. Department for Environment, Food & Rural Affairs. Consultation on spatial management Consultation on Spatial Management Measures for Industrial Sandeel Fishing - Defra - Citizen Space (last accessed: 21/06/23).

208. The Scottish Government. Biodiversity strategy to 2045: tackling the nature emergency. 27 March 2015, URL: Biodiversity strategy to 2045: tackling the nature emergency - gov.scot (www.gov.scot) (last accessed: 22/06/23).

209. The Conservation (Natural Habitats, &c.) Regulations 1004, SI 1994 No. 2716. HMSO, 1994. URL: The Conservation (Natural Habitats, &c.) Regulations 1994 (legislation.gov.uk).

210. Scottish Government. UK dolphin and porpoise conservation strategy: consultation. 22 March 2023, URL: The UK Dolphin and Porpoise Conservation Strategy - UK dolphin and porpoise conservation strategy: consultation - gov.scot (www.gov.scot) (last accessed: 21/06/23).

211. The Protection of Seals (Designation of Haul-Out Sites) (Scotland) Order 2014, SSI 2014 No. 185. HMSO, 2014. URL: The Protection of Seals (Designation of Haul-Out Sites) (Scotland) Order 2014 (legislation.gov.uk).

212. Marine (Scotland) Act 2010, Part 6. HMSO, 2010. URL: Marine (Scotland) Act 2010 (legislation.gov.uk).

213. Scottish Government. Marine Mammal Scientific Support Research Programme, URL: Marine Mammal Scientific Support Research Programme - Marine environment - gov.scot (www.gov.scot) (last accessed: 21/06/23).

214. Scottish Government. Future fisheries: management strategy – 2020 to 2030. 17 December 2020, URL: Future fisheries: management strategy - 2020 to 2030 - gov.scot (www.gov.scot) (last accessed: 20/06/23).

215. Scottish Government. Sectoral marine plan for offshore wind energy. 28 October 2020, URL: (last accessed: 21/06/23).

216. Consultation on spatial management measures for industrial sandeel fishing - GOV.UK (www.gov.uk)

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