Home Pontoon Offshore Estuary Geophysics References

1. Classification Of Bivalve Mollusc Production Areas In England And Wales, Sanitary Survey Report, Fal Estuary (Lower) and Percuil River (Cornwall) 2012, Centre for Environment, Fisheries & Aquaculture Science, Lowestoft: CEFAS.

2. Cornwall Rivers Project, Geography, Fal and Tresillian, [Online], 2006. Available: http://www.cornwallriversproject.org.uk/geography/fal.htm

3. Location of the Fal estuary (Online) https://projects.exeter.ac.uk/geomincentre/estuary/Main/loc.htm

4. Cornwall Guide, The River Fal (online), 2014. Available from: http://www.cornwalls.co.uk/Falmouth/fal_river.htm

5. The Fal Estuary and Area, The Fal Estuary (online), 2014. Available from: http://www.destination-cornwall.co.uk/portfal.htm

6. The Wheal Jane Incident and water quality (online) https://projects.exeter.ac.uk/geomincentre/estuary/Main/jane.htm

7. Somerfield et al. (1994). Benthic community structure in relation to an instantaneous discharge of waste water from a tin mine. Marine Pollution Bulletin 28 (6), 363-369

8. Deeble M and Stone V. (1985). A port that could threaten marine life in England’s Fal Estuary. Oryx 19 (2), 74-78

9. Joint Nature Conservation Committee, Fal and Helford (online), 2014. Available from: http://jncc.defra.gov.uk/protectedsites/sacselection/sac.asp?EUCode=UK0013112

10. Cornwall Inshore Fisheries and Conservation Authority, European Marine Sites interactive map (online), 2014. Available from: http://www.cornwall-ifca.gov.uk/sitedata/files/EMS%20interactive%20map.pdf

11. The Wildlife Trusts Cornwall, Fal docks dredge, Habitats Directive review and the “reference area” for maerl (online), 2014. Available from: http://www.cornwallwildlifetrust.org.uk/conservation/position_statements/fal_docks_dedge_and _the_reference_area_for_maerl  

12. National Oceanic and Atmospheric Administration, Can the ocean freeze? (online), 2014. Available from: http://oceanservice.noaa.gov/facts/oceanfreeze.html [29th June 2014]

13. Burt, W and McAlister W B (1959). Recent Studies in the Hydrography of Oregon Estuaries. Research Briefs, Fish Commission of Oregon 7 (1) 14-27

14. Legendre, L et al. (1985). Tidal variations in the photosynthesis of estuarine phytoplankton isolated in a tank. Marine Biology 88 301-309

15. Zhang, J et al. (2007). Nutrient gradients from the eutrophic Changjiang (Yangtze River) Estuary to the oligotrophic Kuroshio waters and re-evaluation of budgets for the East China Sea Shelf. Progress in Oceanography 74 (4) 449-478

16. Fisher, T R et al. (1988). Phytoplankton, nutrients, and turbidity in the Chesapeake, Delaware and Hudson estuaries. Estuarine, Coastal and Shelf Science 27 (1) 61-93

17. Marion, G M et al. (2011). pH of seawater. Marine Chemistry 126 (1-4) 89-96

18. Fundamentals of Environmental Measurements, Dissolved Oxygen (online), 2014. Available from:

http://www.fondriest.com/environmental-measurements/parameters/water-quality/dissolved-oxygen/ [29th June 2014]

19. Holligan, P.M. and Harbour, D.S. (1977), The vertical distribution and succession of phytoplankton in the Western English channel in 1975 and 1976, Journal of Marine Biological Association of the United Kingdom, 57, 4, 1075-1093

20. De Bernardi, R et al. (1987). Cladocera: Predators and prey. Developments in Hydrobiology 35 225-243

21. Larink, O and Wilfried, W (2006). Coastal Plankton: Photo Guide for European Seas. Munich: Verlag Dr. Friedrich Pfeil. 66-68

23. Smayda, T J (2002). Adaptive Ecology, Growth Strategies and the Global Bloom Expansion of Dinoflagellates. Journal of Oceanography 58 (2) 281-294

24. Grenz, C., Cloern, J., Hager, S. and Cole, B. (2000). Dynamics of nutrient cycling and related benthic nutrient and oxygen fluxes during a spring phytoplankton bloom in South San Francisco Bay (USA). Marine ecology. Progress series, 197, pp.67--80.

25. Kudo, I et al. (2007). Nutrient regeneration at bottom after a massive spring bloom in a subarctic coastal environment, Funka Bay, Japan. Journal of oceanography, 63(5), pp.791--801.

26. Lenntech.com, (2014). Silicon (Si) and water. [online] Available at: http://www.lenntech.com/periodic/water/silicate/silicate-and-water.htm [Accessed 1 Jul. 2014].

27. Lignell, R et al. (1993). Fate of a phytoplankton spring bloom: sedimentation and carbon flow in the food web in the northern Baltic. Marine Ecology Progress Series, 94, pp.239-252.

28. Parkinson, J. and Gordon, R. (1999). Beyond micromachining: the potential of diatoms. Trends in biotechnology, 17(5), pp.190--196.

29. Paytan, A. and McLaughlin, K. (2007). The oceanic phosphorus cycle. Chemical Reviews, 107(2), pp.563--576.

30. RD Pingree, 1975, The advance and retreat of the thermocline on the continental shelf, Journal of Marine Biological Association of the United Kingdom, 55, 4, 965-974


31. Gerreyn, K et al, 2006 Low salinity intrusions in the Western English Channel, Continental Shelf Research, 26, 11, 1241-1257.


32. Ekunze, 1987, Limits on Growth, finite-length salt fingers; A Richardson Number constraint, Journal of Marine Research, 45, 533-556


33. Officer, C. and Ryther, J. (1980). The possible importance of silicate in marine eutrophocation. Marine Ecology Progress Series, 3(1), pp.83-91


Disclaimer: The views expressed above are the opinion of the authors only and NOT that of University of Southampton or National Oceanography Centre, Southampton.


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References