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SeArc Reintroduces Marine Life in Coastal Cities with ECOncrete
Marine infrastructures create severe stress on natural ecosystems, namely through shoreline degradation and erosion near coastal population centers. The shifting and blocking of land masses at the shoreline reduces accessibility and habitats for marine animals, plants, and humans alike. The resulting habitat loss and reduced biodiversity is exacerbated by the proliferation of invasive species that are more resilient to concrete structures such as piers, jetties, pile foundations, and sea walls.
The invasive species are introduced via vectors such as ship ballast water and aquaculture byproducts, as well as other human activities. Besides imposing severe burdens on coastal ecosystems, the effects of marine urban infrastructure and invasive species can cause extensive cleaning costs to the trading and fishing industries.
So how can we continue to develop our urban coasts while preserving local marine habitats and biodiversity? The solution lies in decreasing the ecological footprint of coastal and marine infrastructures.
Several strategies can help mitigate the environmental consequences of infrastructure projects; habitat rehabilitation, ecological engineering and habitat creation, and sustainable management and monitoring of marine structures can be combined into a myriad of site-specific projects and programs that reintroduce native species, modify habitats to simulate native conditions, or help eradicate or control invasives. The next step in the sustainable development of ports and other coastal infrastructures is centered around literally combining environmentally active infrastructures.
SeArc has previously engaged in projects to manage and activate existing marine infrastructures. Projects have ranged from monitoring and managing invasive species in the Northwest coast of Italy, to the use of breakwaters and oil platform jetties as scaffolding upon which metal cages provide better growing media for, algae, corals and small reef environments. Marine infrastructures are usually made of concrete, which due to its high pH, low porosity, and lack of structural complexity is a poor substrate for biological agglomeration; thus, other materials present more successful growing media. Learning from these experiences, Perkol-Finkel and Sella have developed ECOncrete, a variant of traditional construction grade concrete that provides a place where marine life can thrive.
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