Replicating natural topography on marine artificial structures – A novel approach to eco-engineering

Research output: Contribution to journalArticlepeer-review

Electronic versions

Documents

DOI

  • Ally Evans
    Aberystwyth University
  • Peter Lawrence
  • Atteyeh Natanzi
    University College Dublin
  • Pippa Moore
    Aberystwyth University
  • Andy Davies
    University of Rhode Island
  • Tasman Crowe
    University College Dublin
  • Ciaran McNally
    University College Dublin
  • Bryan Thompson
    University College Dublin
  • Amy Dozier
    University College Cork
  • Paul Brooks
    University College Dublin
Ocean sprawl is a growing threat to marine and coastal ecosystems globally, with wide-ranging consequences for natural habitats and species. Artificial structures built in the marine environment often support less diverse communities than natural rocky marine habitats because of low topographic complexity. Some structures can be eco-engineered to increase their complexity and promote biodiversity. Tried-and-tested eco-engineering approaches include building-in habitat designs to mimic features of natural reef topography that are important for biodiversity. Most designs mimic discrete microhabitat features like crevices or holes and are geometrically-simplified. Here we propose that directly replicating the full fingerprint of natural reef topography in habitat designs makes a novel addition to the growing toolkit of eco-engineering options. We developed a five-step process for designing natural topography-based eco-engineering interventions for marine artificial structures. Given that topography is highly spatially variable in rocky reef habitats, our targeted approach seeks to identify and replicate the ‘best’ types of reef topography to satisfy specific eco-engineering objectives. We demonstrate and evaluate the process by designing three natural topography-based habitat units for intertidal structures, each targeting one of three hypothetical eco-engineering objectives. The process described can be adapted and applied according to user-specific priorities. Expanding the toolkit for eco-engineering marine structures is crucial to enable ecologically-informed designs that maximise biodiversity benefits from burgeoning ocean sprawl.
Original languageEnglish
Article number106144
JournalEcological Engineering
Volume160
Early online date18 Jan 2021
DOIs
Publication statusPublished - 1 Feb 2021

Total downloads

No data available
View graph of relations