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 | |
Habitat development along a highly urbanised foreshore Based on: Heath T. & Moody G. (2013) 1-7. Study Link |
2013 | 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 | |
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 | |
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 | |
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 | |
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 | |
Enhancing stocks of the exploited limpet Patella candei d’Orbigny via modifications in coastal engineering Based on: Martins G.M., Thompson R.C., Neto A.I., Hawkins S.J. & Jenkins S.R. (2010). Study Link |
2010 | 1 | |
Engineering novel habitats on urban infrastructure to increase intertidal biodiversity Based on: Chapman M.G. & Blockley D.J. (2009). Study Link |
2009 | 2 | |
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 | |
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 | |
Ecologically informed engineering reduces loss of intertidal biodiversity on artificial shorelines Based on: Browne M.A. & Chapman M.G. (2011). Study Link |
2011 | 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 | |
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 | |
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 | |
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 | |
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 | |
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 | |
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 | |
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 | |
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 | |
Creation of microhabitats (tidepools) in ripraps with climax communities as a way to mitigate negative effects of artificial substrate on marine biodiversity Based on: Ostalé-Valriberas E., Sempere-Valverde J., Coppa S., García-Gómez J.C. & Espinosa F. (2018). Study Link |
2018 | 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 | |
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 | |
Can coir increase native biodiversity and reduce colonisation of non-indigenous species in eco-engineered rock pools? Based on: Morris R.L., Golding S., Dafforn K.A. & Coleman R.A. (2018). Study Link |
2018 | 2 |
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