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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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 | |
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 | |
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 | |
Substratum type affects recruitment and development of marine assemblages over artificial substrata: a case study in the Alboran Sea Based on: Sempere-Valverde J., Ostalé-Valriberas E., Farfán G.M. & Espinosa F. (2018). Study Link |
2018 | 4 | |
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 | |
Long-term modifications of coastal defences enhance marine biodiversity Based on: Martins G.M., Jenkins S.R., Neto A.I., Hawkins S.J. & Thompson R.C. (2016). Study Link |
2016 | 1 | |
Effects of habitat area and spatial configuration on biodiversity in an experimental intertidal community Based on: Loke L.H.L., Chisholm R.A. & Todd P.A. (2019). Study Link |
2019 | 2 | |
Engineering novel habitats on urban infrastructure to increase intertidal biodiversity Based on: Chapman M.G. & Blockley D.J. (2009). Study Link |
2009 | 2 | |
Eco-engineering rock pools to a seawall in a tropical estuary: microhabitat features and fine sediment accumulation Based on: Waltham N.J. & Sheaves M. (2018). Study Link |
2018 | 2 | |
Ecological engineering across organismal scales: trophic-mediated positive effects of microhabitat enhancement on fishes Based on: Taira D., Heery E.C., Loke L.H.L., Teo A., Bauman A.G. & Todd P.A. (2020). Study Link |
2020 | 2 | |
Enhancing the biodiversity of coastal defence structures: transplantation of nursery-reared reef biota onto intertidal seawalls Based on: Ng C.S.L., Lim S.C., Ong J.Y., Teo L.M.S., Chou L.M., Chua K.E. & Tan K.S. (2015). Study Link |
2015 | 1 | |
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 | |
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 | |
Succession of seawall algal communities on artificial substrates Based on: Loke L.H.L., Liao L.M., Bouma T.J. & Todd P.A. (2016). Study Link |
2016 | 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 | |
Can transplanting enhance mobile marine invertebrates in ecologically engineered rock pools? Based on: Morris R.L., Martinez A.S., Firth L.B. & Coleman R.A. (2018). Study Link |
2018 | 2 | |
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 | |
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 | |
The effects of manipulating microhabitat size and variability on tropical seawall biodiversity: field and flume experiments Based on: Loke L.H.L., Bouma T.J. & Todd P.A. (2017). Study Link |
2017 | 2 | |
Increasing microhabitat complexity on seawalls can reduce fish predation on native oysters Based on: Strain E.M.A., Morris R.L., Coleman R.A., Figueira W.F., Steinberg P.D., Johnston E.L. & Bishop M.J. (2018). Study Link |
2018 | 2 | |
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 | |
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 | |
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 | |
Eco-engineering increases habitat availability and utilisation of seawalls by fish Based on: Ushiama S., Mayer-Pinto M., Bugnot A.B., Johnston E.L. & Dafforn K.A. (2019). Study Link |
2019 | 2 |
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