Studies
An individual study is a summary of a specific scientific study, providing background context, the conservation action(s) taken and their consequences.
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8477 Studies found
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Study | Published | Actions | |
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Ecological enhancement of coastal engineering structures: passive enhancement techniques Based on: MacArthur M., Naylor L.A., Hansom J.D. & Burrows M.T. (2020). Study Link |
2020 | 2 | |
Provision of refugia and seeding with native bivalves can enhance biodiversity on vertical seawalls Based on: Bradford T.E., Astudillo J.C., Lau E.T.C., Perkins M.J., Lo C.C., Li T.C.H., Lam C.S., Ng T.P.T., Strain E.M.A., Steinberg P.D. & Leung K.M.Y. (2020). Study Link |
2020 | 4 | |
Interacting effects of habitat structure and seeding with oysters on the intertidal biodiversity of seawalls Based on: Strain E.M.A., Cumbo V.R., Morris R.L., Steinberg P.D. & Bishop M.J. (2020). Study Link |
2020 | 4 | |
Benches, beaches, and bumps: how habitat monitoring and experimental science can inform urban seawall design Based on: Cordell J.R., Toft J.D., Munsch S. & Goff M. (2017) CRC Press, 421-438. Study Link |
2017 | 2 | |
Seawall as salmon habitat: eco-engineering improves the distribution and foraging of juvenile Pacific salmon Based on: Sawyer A.C., Toft J.D. & Cordell J.R. (2020). Study Link |
2020 | 2 | |
Getting into the groove: opportunities to enhance the ecological value of hard coastal infrastructure using fine-scale surface textures Based on: Coombes M.A., La Marca E.C., Naylor L.A. & Thompson R.C. (2015). Study Link |
2015 | 1 | |
The role of geometric structure and texture on concrete for algal and macrofaunal colonization in the marine and estuarine intertidal zone Based on: Paalvast P. (2015) 77-84. Study Link |
2015 | 7 | |
Between a rock and a hard place: environmental and engineering considerations when designing coastal defence structures Based on: Firth L.B., Thompson R.C., Bohn K., Abbiati M., Airoldi L., Bouma T.J., Bozzeda F., Ceccherelli V.U., Colangelo M.A., Evans A.J., Ferrario F., Hanley M.E., Hinz H., Hoggart S.P.G., Jackson J.E., Moore P., Morgan E.H., Perkol-Finkel S., Skov M.W., Strain E.M., van Belzen J. & Hawkins S.J. (2014). Study Link |
2014 | 10 | |
Engineering novel habitats on urban infrastructure to increase intertidal biodiversity Based on: Chapman M.G. & Blockley D.J. (2009). Study Link |
2009 | 2 | |
Availability of microhabitats explains a widespread pattern and informs theory on ecological engineering of boulder reefs Based on: Liversage K., Cole V., Coleman R. & McQuaid C. (2017). Study Link |
2017 | 1 | |
Colonization and weathering of engineering materials by marine microorganisms: an SEM study Based on: Coombes M.A., Naylor L.A., Thompson R.C., Roast S.D., Gómez‐Pujol L. & Fairhurst R.J. (2011). Study Link |
2011 | 1 | |
Ecological consequences of the type of rock used in the construction of artificial boulder-fields Based on: Green D.S., Chapman M.G. & Blockley D.J. (2012). Study Link |
2012 | 1 | |
Reefcrete: reducing the environmental footprint of concretes for eco-engineering marine structures Based on: Dennis H.D., Evans A.J., Banner A.J. & Moore P.J. (2018). Study Link |
2018 | 1 | |
Little evidence that lowering the pH of concrete supports greater biodiversity on tropical and temperate seawalls Based on: Hsiung A.R., Tan W.T., Loke L.H.L., Firth L.B., Heery E.C., Ducker J., Clark V., Pek Y.S., Birch W.R., Ang A.C.F., Hartanto R.S., Chai T.M.F. & Todd P.A. (2020). Study Link |
2020 | 2 | |
Influence of concrete properties on the initial biological colonisation of marine artificial structures Based on: Natanzi A.S., Thompson B.J., Brooks P.R., Crowe T.P. & McNally C. (2021). Study Link |
2021 | 1 | |
Floating pontoons create novel habitats for subtidal epibiota Based on: Connell S.D. (2000). Study Link |
2000 | 1 | |
Coral recruitment and early benthic community development on several materials used in the construction of artificial reefs and breakwaters Based on: Burt J., Bartholomew A., Bauman A., Saif A. & Sale P.F. (2009). Study Link |
2009 | 1 | |
Partial replacement of cement for waste aggregates in concrete coastal and marine infrastructure: a foundation for ecological enhancement? Based on: McManus R.S., Archibald N., Comber S., Knights A.M., Thompson R.C. & Firth L.B. (2018). Study Link |
2018 | 1 | |
Benthic community establishment on different concrete mixtures introduced to a German deep-water port Based on: Becker L.R., Kröncke I., Ehrenberg A., Feldrappe V. & Bischof K. (2021). Study Link |
2021 | 1 | |
Optimisation of 3D printed concrete for artificial reefs: biofouling and mechanical analysis Based on: Ly O., Yoris-Nobile A.I., Sebaibi N., Blanco-Fernandez E., Boutouil M., Castro-Fresno D., Hall A.E., Herbert R.J.H., Deboucha W., Reis B., Franco J.N., Borges M.T., Sousa-Pinto I., van der Linden P. & Stafford R. (2021). Study Link |
2021 | 1 | |
Density and growth of Ecklonia cava that appeared around artificial reefs with seedlings off Usa in Tosa Bay, Japan Based on: Serisawa Y., Imoto Z., Imoto Y. & Matsuyama-Serisawa K. (2007). Study Link |
2007 | 1 | |
Modified habitats influence kelp epibiota via direct and indirect effects Based on: Marzinelli E.M., Underwood A.J. & Coleman R.A. (2011). Study Link |
2011 | 1 | |
The overlooked role of biotic factors in controlling the ecological performance of artificial marine habitats Based on: Ferrario F., Iveša L., Jaklin A., Perkol-Finkel S. & Airoldi L. (2016). Study Link |
2016 | 3 | |
A cost-effective approach to enhance scleractinian diversity on artificial shorelines Based on: Toh T.C., Ng C.S.L., Loke H.X., Taira D., Toh K.B., Afiq-Rosli L., Du R.C.P., Cabaitan P., Sam S.Q., Kikuzawa Y.P., Chou L.M. & Song T. (2017). Study Link |
2017 | 1 | |
Responses of the endangered limpet Patella ferruginea to reintroduction under different environmental conditions: survival, growth rates and life-history Based on: Espinosa F., González A.R., Maestre M.J., Fa D., Guerra-García J.M. & García-Gómez J.C. (2008). Study Link |
2008 | 1 |
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