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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Study | Published | Actions | |
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Impact of recreational harvesting on assemblages in artificial rocky habitats Based on: Airoldi L., Bacchiocchi F., Cagliola C., Bulleri F. & Abbiati M. (2005). Study Link |
2005 | 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 | |
Ecologically informed engineering reduces loss of intertidal biodiversity on artificial shorelines Based on: Browne M.A. & Chapman M.G. (2011). Study Link |
2011 | 1 | |
Mitigating against the loss of species by adding artificial intertidal pools to existing seawalls Based on: Browne M.A. & Chapman M.G. (2014). Study Link |
2014 | 2 | |
Patchiness in habitat distribution can enhance biological diversity of coastal engineering structures Based on: Cacabelos E., Thompson R.C., Prestes A.C.L., Azevedo J.M.N., Neto A.I. & Martins G.M. (2019). Study Link |
2019 | 1 | |
Engineering novel habitats on urban infrastructure to increase intertidal biodiversity Based on: Chapman M.G. & Blockley D.J. (2009). Study Link |
2009 | 2 | |
Evaluation of ecological engineering of “armoured” shorelines to improve their value as habitat Based on: Chapman M.G. & Underwood A.J. (2011). Study Link |
2011 | 6 | |
Drill-cored artificial rock pools can promote biodiversity and enhance community structure on coastal rock revetments at reclaimed coastlines of Penang, Malaysia Based on: Chee S.Y., Wee J.L.S., Wong C., Yee J.C., Yusup Y. & Mujahid A. (2020). Study Link |
2020 | 1 | |
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 | |
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 | |
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 | |
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 | |
Estuarine and coastal structures: environmental effects, a focus on shore and nearshore structures Based on: Dugan J.E., Airoldi L., Chapman M.G., Walker S.J. & Schlacher T. (2011) Academic Press, 8, 17-41. Study Link |
2011 | 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 | |
Effect of human pressure on population size structures of the endangered ferruginean limpet: toward future management measures Based on: Espinosa F., Rivera-Ingraham G.A., Fa D. & García-Gómez J.C. (2009). Study Link |
2009 | 1 | |
Drill-cored rock pools: an effective method of ecological enhancement on artificial structures Based on: Evans A.J., Firth L.B., Hawkins S.J., Morris E.S., Goudge H. & Moore P.J. (2016). Study Link |
2016 | 1 | |
Replicating natural topography on marine artificial structures - a novel approach to eco-engineering Based on: Evans A.J., Lawrence P.J., Natanzi A.S., Moore P.J., Davies A.J., Crowe T.P., McNally C., Thompson B., Dozier A.E. & Brooks P.R. (2021). Study Link |
2021 | 1 | |
Eco-engineered rock pools: a concrete solution to biodiversity loss and urban sprawl in the marine environment Based on: Firth L.B., Browne K.A., Knights A.M., Hawkins S.J. & Nash R. (2016). Study Link |
2016 | 1 | |
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 | |
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 | |
Ecological enhancement techniques to improve habitat heterogeneity on coastal defence structures Based on: Hall A.E., Herbert R.J.H., Britton J.R. & Hull S.L. (2018). Study Link |
2018 | 4 | |
Shelving the coast with Vertipools: retrofitting artificial rock pools on coastal structures as mitigation for coastal squeeze Based on: Hall A.E., Herbert R.J.H., Britton J.R., Boyd I.M. & George N.C. (2019). Study Link |
2019 | 1 | |
Habitat development along a highly urbanised foreshore Based on: Heath T. & Moody G. (2013) 1-7. Study Link |
2013 | 2 | |
Evaluating seaweed farming as an eco-engineering strategy for ‘blue’ shoreline infrastructure Based on: Heery E.C., Lian K.Y., Loke L.H.L., Tan H.T.W. & Todd P.A. (2020). Study Link |
2020 | 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 |
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