References
Books and Journals
Abele., L. G., 1973. Species diversity of decapod crustaceans in marine habitats. Ecol. 55, p156-161.
Anderson, M. J. & Underwood, A. J., 1994. Effects of substratum on the recruitment and development of an intertidal estuarine fouling assemblage. Exp. Mar. Biol. Ecol. 184 (2), 217-236.
Anderson, M.J. and Underwood, A.J., 1997.Effects of gastropods on recruitment and succession of an estuarine assemblage: A multivariate and univariate approach. Oecologia. 109, p.442–453.
Butler, A.J., 1991. Effect of patch size on communities of sessile invertebrates in Gulf St Vincent, South Australia. J. Exp. Mar. Biol. Ecol. 153, p 255–280
Connell., S. D and Glasby., T.L., 1999. Do urban structures influence local abundance and diversity of subtidal epibiota? A case study from Sydney Harbour, Australia. Mar. Environ. Res. 47 (4), p373-387.
Crisp, D.J. and Ryland, J.S., 1960. The Influence of filming and of surface texture on the settlement of marine organisms. Nature. London. 185 (119).
Cuomo, M.C.,1985. Sulphide as a larval settlement cue for Capitella sp I. Biogeochemistry. 1(2), p169-181.
Dunstan, P. K., and Bax, N. J., 2008. Management of an invasive marine species: defining and testing the effectiveness of ballast-water management options using management strategy evaluation. ICES J Mar Sci; 65: p841–850.
Dunstan, P. K., and Bax, N. J., 2008. Management of an invasive marine species: defining and testing the effectiveness of ballast-water management options using management strategy evaluation. ICES Journal of Marine Science. 65, 841–850.
Glasby, T. M., (in press). Differences between subtidal epibiota on pier pilings and rocky reefs at marinas in Sydney, Australia. Estuarine, Coastal and Shelf Science.
Hayward, P.J. and Ryland, J.S., 1995. Handbook of the Marine Fauna of North- West Europe. 13th ed. New York: Oxford University Press Inc. p1-687.
Heck, K.L., 1979. Some determinants of the composition and abundance of motile macroinvertebrate species in tropical and temperate turtlegrass (Thalassia testudinum) meadows. J. Biogeogr., 6, p183–200.
Institute for Laboratory Research (ILAR)., 2011. Spineless Wonders: Welfare and Use of Invertebrates in the Laboratory and Classroom. ILAR. 52 (2), p121-228.
Keough, M.J., 1984.Effects of patch size on the abundance of sessile marine invertebrates. Ecology. 65, p423–437.
Matlock, G. C., 2004. Managing the intersection of aquaculture development and invasive species. Propagated fish in resource management. 44, 247-256
Matlock, G.C., 2004. Managing the Intersection of Aquaculture Development and Invasive Species. (eds M.J. Nickum, P.M. Mazik, J.G. Nickum & D.D. MacKinlay), Am. Fish. Soc. p247-252.
McGuinness, K.A., 1989. Effects of some natural and artificial substrata on sessile marine organisms at Galeta Reef, Panama. J. Exp. Mar. Biol. Ecol. 104 ,p. 97–123
McGuinness, K.A. and Underwood, A.J., 1986. Habitat structure and the nature of communities on intertidal boulders. J. Exp. Mar. Biol. Ecol. 104, 97–123.
Menge, B. A and Sunderland, J.P., 1976. Species diversity gradients: Synthesis of the roles of predation, competition and environmental heterogeneity. Am Nat. 110 (973), p351-369.
Rebele, F., 1994. Urban ecology and special features of urban ecosystems. Global Ecol. Biog. Let. 4, 173–187.
Ruiz, G. M, Carlton, J. T, Grosholz, E. D, Hines, A. H., 1997. Global Invasions of Marine and Estuarine Habitats by Non-Indigenous Species: Mechanisms, Extent and Consequences. Amer. Zool. 37, 621-632.
Ruiz, G. M., Carlton, J. T., Grosholz, E. D. and Hines, A. H., 1997. Global invasions of marine and estuarine habitats by non-indigenous species: mechanisms, extent and consequences. Amer Zool. 37: 621-632.
Russ, G. R., 1977. A comparison of marine fouling occurring at the two principle Australian Naval Dockyards. Melbourne: Department of Defence, Materials Research Laboratories.
Ryland, J.S., 1962. The Association Between Polyzoa and Algal Substrata. Journal of Animal Ecology. 31(2), p331- 338.
Walters, L.J. and Wethey, D.S., 1996. Settlement and early post-settlement survival of sessile marine invertebrates on topographically complex surfaces: The importance of refuge dimension and adult morphology. Mar. Ecol. Prog. Ser. 137, p 161–171.
Online documents
Falmouth Harbour Commission., 2010. Harbour user’s guide [online]. Available at: http://falmouthbids.s3.amazonaws.com/1278592543_778.pdf [Accessed 7 May 2014].
White, N., 2004. Balanus crenatus. An acorn barnacle. Marine Life Information Network: Biology and Sensitivity Key Information Subprogramme [online]. Plymouth: Marine Biological Association of the United Kingdom. Available at: <http://www.marlin.ac.uk/species/Balanuscrenatus.htm> [Accessed 7 May 2014].
Photos and maps
Figure 1: Google Earth, 2014. Falmouth yatch have location on google maps, 50.155382, - 5.078392, elevation 20M [online] Available through: http://www.bing.com/maps/default.aspx?q=falmouth+harbour+yatch+haven&mkt=en&FORM=HDRSC4 [Accessed 10 May 2014].
Figure 2: Goggle Earth, 2014. Shows the aerial, bird’s view of Falmouth Yatch Haven, 50°09'14.5"N 5°03'54.4"W, elevation 20M [online] Available through: https://www.google.co.uk/maps/search/falmouth+haven/@50.1540105,-5.0651509,283m/data=!3m1!1e3[Accessed 10 May 2014].
Figure 3: Cesarano, D., 2014. Area of the site locations where each set of panels were placed.
Figure 4: Cesarano, D., 2014. Showing diagrammatic sketch of the final panel set construction.
Figure 5- 16: Cesarano, D., 2014. Minitab 17: Results.
Table 1-6: Cesarano, D., 2014. Minitab 17: Results.
Abele., L. G., 1973. Species diversity of decapod crustaceans in marine habitats. Ecol. 55, p156-161.
Anderson, M. J. & Underwood, A. J., 1994. Effects of substratum on the recruitment and development of an intertidal estuarine fouling assemblage. Exp. Mar. Biol. Ecol. 184 (2), 217-236.
Anderson, M.J. and Underwood, A.J., 1997.Effects of gastropods on recruitment and succession of an estuarine assemblage: A multivariate and univariate approach. Oecologia. 109, p.442–453.
Butler, A.J., 1991. Effect of patch size on communities of sessile invertebrates in Gulf St Vincent, South Australia. J. Exp. Mar. Biol. Ecol. 153, p 255–280
Connell., S. D and Glasby., T.L., 1999. Do urban structures influence local abundance and diversity of subtidal epibiota? A case study from Sydney Harbour, Australia. Mar. Environ. Res. 47 (4), p373-387.
Crisp, D.J. and Ryland, J.S., 1960. The Influence of filming and of surface texture on the settlement of marine organisms. Nature. London. 185 (119).
Cuomo, M.C.,1985. Sulphide as a larval settlement cue for Capitella sp I. Biogeochemistry. 1(2), p169-181.
Dunstan, P. K., and Bax, N. J., 2008. Management of an invasive marine species: defining and testing the effectiveness of ballast-water management options using management strategy evaluation. ICES J Mar Sci; 65: p841–850.
Dunstan, P. K., and Bax, N. J., 2008. Management of an invasive marine species: defining and testing the effectiveness of ballast-water management options using management strategy evaluation. ICES Journal of Marine Science. 65, 841–850.
Glasby, T. M., (in press). Differences between subtidal epibiota on pier pilings and rocky reefs at marinas in Sydney, Australia. Estuarine, Coastal and Shelf Science.
Hayward, P.J. and Ryland, J.S., 1995. Handbook of the Marine Fauna of North- West Europe. 13th ed. New York: Oxford University Press Inc. p1-687.
Heck, K.L., 1979. Some determinants of the composition and abundance of motile macroinvertebrate species in tropical and temperate turtlegrass (Thalassia testudinum) meadows. J. Biogeogr., 6, p183–200.
Institute for Laboratory Research (ILAR)., 2011. Spineless Wonders: Welfare and Use of Invertebrates in the Laboratory and Classroom. ILAR. 52 (2), p121-228.
Keough, M.J., 1984.Effects of patch size on the abundance of sessile marine invertebrates. Ecology. 65, p423–437.
Matlock, G. C., 2004. Managing the intersection of aquaculture development and invasive species. Propagated fish in resource management. 44, 247-256
Matlock, G.C., 2004. Managing the Intersection of Aquaculture Development and Invasive Species. (eds M.J. Nickum, P.M. Mazik, J.G. Nickum & D.D. MacKinlay), Am. Fish. Soc. p247-252.
McGuinness, K.A., 1989. Effects of some natural and artificial substrata on sessile marine organisms at Galeta Reef, Panama. J. Exp. Mar. Biol. Ecol. 104 ,p. 97–123
McGuinness, K.A. and Underwood, A.J., 1986. Habitat structure and the nature of communities on intertidal boulders. J. Exp. Mar. Biol. Ecol. 104, 97–123.
Menge, B. A and Sunderland, J.P., 1976. Species diversity gradients: Synthesis of the roles of predation, competition and environmental heterogeneity. Am Nat. 110 (973), p351-369.
Rebele, F., 1994. Urban ecology and special features of urban ecosystems. Global Ecol. Biog. Let. 4, 173–187.
Ruiz, G. M, Carlton, J. T, Grosholz, E. D, Hines, A. H., 1997. Global Invasions of Marine and Estuarine Habitats by Non-Indigenous Species: Mechanisms, Extent and Consequences. Amer. Zool. 37, 621-632.
Ruiz, G. M., Carlton, J. T., Grosholz, E. D. and Hines, A. H., 1997. Global invasions of marine and estuarine habitats by non-indigenous species: mechanisms, extent and consequences. Amer Zool. 37: 621-632.
Russ, G. R., 1977. A comparison of marine fouling occurring at the two principle Australian Naval Dockyards. Melbourne: Department of Defence, Materials Research Laboratories.
Ryland, J.S., 1962. The Association Between Polyzoa and Algal Substrata. Journal of Animal Ecology. 31(2), p331- 338.
Walters, L.J. and Wethey, D.S., 1996. Settlement and early post-settlement survival of sessile marine invertebrates on topographically complex surfaces: The importance of refuge dimension and adult morphology. Mar. Ecol. Prog. Ser. 137, p 161–171.
Online documents
Falmouth Harbour Commission., 2010. Harbour user’s guide [online]. Available at: http://falmouthbids.s3.amazonaws.com/1278592543_778.pdf [Accessed 7 May 2014].
White, N., 2004. Balanus crenatus. An acorn barnacle. Marine Life Information Network: Biology and Sensitivity Key Information Subprogramme [online]. Plymouth: Marine Biological Association of the United Kingdom. Available at: <http://www.marlin.ac.uk/species/Balanuscrenatus.htm> [Accessed 7 May 2014].
Photos and maps
Figure 1: Google Earth, 2014. Falmouth yatch have location on google maps, 50.155382, - 5.078392, elevation 20M [online] Available through: http://www.bing.com/maps/default.aspx?q=falmouth+harbour+yatch+haven&mkt=en&FORM=HDRSC4 [Accessed 10 May 2014].
Figure 2: Goggle Earth, 2014. Shows the aerial, bird’s view of Falmouth Yatch Haven, 50°09'14.5"N 5°03'54.4"W, elevation 20M [online] Available through: https://www.google.co.uk/maps/search/falmouth+haven/@50.1540105,-5.0651509,283m/data=!3m1!1e3[Accessed 10 May 2014].
Figure 3: Cesarano, D., 2014. Area of the site locations where each set of panels were placed.
Figure 4: Cesarano, D., 2014. Showing diagrammatic sketch of the final panel set construction.
Figure 5- 16: Cesarano, D., 2014. Minitab 17: Results.
Table 1-6: Cesarano, D., 2014. Minitab 17: Results.