Computational Design of Biocompatible Mortar for Ericaria Amentacea Habitat Restoration: Enhancing the Ecological Value of Coastal Structures

Autores

  • Lourdes Coronel University of Genova, Department of Civil, Chemical and Environmental Engineering. Genova, Italy. & Universidad Nacional del Nordeste. Resistencia, Provincia de Chaco, Argentina. https://orcid.org/0009-0009-5707-2594
  • Mahdi Zanjani https://orcid.org/0009-0009-8365-0677
  • Jacopo Cimini University of Genova, Department of Earth, Environment and Life Sciences. Genova, Italy.
  • Juan C. Alvarez Hostos Universidad Nacional del Litoral, Centro de Investigación de Métodos Computacionales (CONICET-UNL). Santa Fe, Argentina. https://orcid.org/0000-0002-4636-4948
  • Javier L. Mroginski Universidad Nacional del Nordeste. Resistencia, Provincia de Chaco, Argentina. https://orcid.org/0000-0001-7495-7735
  • Valentina Asnaghi University of Genova, Department of Earth, Environment and Life Sciences. Genova, Italy. https://orcid.org/0000-0003-1659-2613
  • Antonio Caggiano University of Genova, Department of Civil, Chemical and Environmental Engineering. Genova, Italy. & Universidad de Buenos Aires, Facultad de Ingeniería, Laboratorio de Métodos Numéricos en Ingeniería (LMNI-LAME) & Instituto de Tecnologías y Ciencias de la Ingeniería “Hilario Fernández Long” (INTECIN - CONICET/UBA). Ciudad Autónoma de Buenos Aires, Argentina. https://orcid.org/0000-0003-1027-2520

DOI:

https://doi.org/10.70567/mc.v42.ocsid8325

Palavras-chave:

Ericaria amentacea, ecological restoration, sustainable mortar, marine aggregates, computational design, shape and topology optimization

Resumo

On the Ligurian coast (Italy), 3D-printed concrete units were deployed to promote the attachment and growth of Ericaria amentacea, a habitat-forming macroalga essential for biodiversity and carbon sequestration. Although these structures were succesfully colonized in both laboratory and field settings, their mechanical resistance proved insufficient under marine loading conditions, limiting their long-term applicability. In this context, the study developed alternative mortars using conventional fabrication methods, incorporating crushed seashells as a partial replacement for natural fine aggregate. The results show that shell-based mixtures maintain flexural strength while exhibiting lower air permeability and reduced capillary absorption coefficients—properties favorable for durability in marine environments. A computational design stage was also introduced to optimize the geometry of the units with respect to linear-elastic stiffness, while enforcing the biologically inspired surface inclination for algal settlement. This approach integrates biological and mechanical criteria and points toward more resilient designs under marine stresses, offering a scalable pathway for restoring E. amentacea habitats in the Mediterranean.

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Publicado

2025-12-07

Edição

v. 42 n. 18 (2025): Cooperação Europa-Argentina

Seção

Artigos completos da conferência MECOM 2025

Licença

Copyright (c) 2025 Associação Argentina de Mecânica Computacional

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