TY - JOUR
TI - Design, production, and validation of the biological and structural performance of an ecologically engineered concrete block mattress: A Nature-Inclusive Design for shoreline and offshore construction
AU - Sella, I
AU - Hadary, T
AU - Rella, A
AU - Riegl, B
AU - Swack, D
AU - Perkol-Finkel, S
T2 - Integrated Environmental Assessment and Management
AB - Over the past decade, the scientific community has studied, experimented, and published a notable body of literature on ecological enhancement of coastal and marine infrastructure (CMI). The Nature‐Inclusive Design (NID) approach refers to methods and technologies that can be integrated into the design and construction of CMI to create suitable habitat for native species (or communities) whose natural habitat has been degraded or reduced. To examine the compliance of new environmentally sensitive technologies with structural requirements and fiscal restraints, while providing ecosystem and habitat value, this paper presents the findings of a structural‐economical‐biological analysis of ecologically engineered Articulated Concrete Block Mattresses (ACBM). To evaluate the structural and biological performance of the ECO ACBM's, a pilot project was deployed in April 2017 at Port Everglades, FL, USA and evaluated against controls of adjacent artificial structures and smooth‐surface concrete blocks and monitored over a period of 2 years. The elements of ecological enhancement implemented in the fabrication and design of the ecologically enhanced ACBM’s were comprised of bio‐enhancing concrete additives and science‐based designs. Based on the results of this study, these design alterations have increased the richness and diversity of sessile assemblages compared to control blocks and adjacent artificial structures, and supported a higher abundance of mobile species. This ecological improvement was achieved within the operational limitations of conventional manufacturing and installation technologies, while complying with strict structural requirements for standard concrete marine construction. The results supported the working hypothesis, and demonstrated that modifications of concrete composition, surface texture, and macro‐design, have the potential to elevate the ecological value of concrete‐based CMI and promote a more sustainable and adaptive approach to coastal and marine development in an era of climate resilience building. This article is protected by copyright. All rights reserved.
DA - 2021/09//
PY - 2021
VL - 18
IS - 1
SP - 148
EP - 162
UR - https://setac.onlinelibrary.wiley.com/doi/full/10.1002/ieam.4523
LA - English
KW - Wind Energy
KW - Land-Based Wind
KW - Fixed Offshore Wind
KW - Floating Offshore Wind
KW - Habitat Change
KW - Ecosystem Processes
KW - Fish
KW - Invertebrates
ER -