Core Viewpoint - The research team led by Professor Lv Jianfu from Harbin Engineering University has developed a groundbreaking technology that utilizes oysters as a biological armor for marine concrete structures, addressing both corrosion protection and ecological restoration needs in marine engineering [1][2][5]. Group 1: Technology Development - The "Integrated Key Technology for Biological Anti-Corrosion and Ecological Restoration of Marine Concrete Engineering" has been recognized as a major project under the United Nations' "Ocean Decade" initiative, with only four projects globally receiving this honor [1]. - The technology combines cement-based materials with marine organisms, creating a high-durability and ecological restoration solution that transforms marine infrastructure design [2][4]. Group 2: Ecological Benefits - The use of oysters, known as "ecosystem engineers," enhances water quality, biodiversity, and coastal protection, thereby providing multiple ecological benefits [2][5]. - The constructed "oyster reef-marine concrete engineering symbiotic system" actively improves the ecosystem, breaking the traditional conflict between marine engineering and environmental protection [5]. Group 3: Market Potential - The technology is poised to meet high-demand markets in marine engineering anti-corrosion, ecological restoration, and aquaculture, potentially establishing a "Chinese solution" for global marine ecological engineering technology [6]. - The project has already received multiple awards, including five industry patents and 27 authorized invention patents, indicating strong market interest and potential for future growth [6].