UH科学家的三维印刷陶瓷掩蔽所 将婴儿珊瑚存活率提升到50x 和Kāneohe湾的80x定居点 UH scientists' 3D-printed ceramic shelters boost baby coral survival up to 50x and settlement 80x in Kāneʻohe Bay.

由Hawaii大学科学家开发的3D印刷陶瓷掩体,有螺旋间间歇,使婴儿珊瑚存活率提高多达50倍,比平板表面增加80倍。 3D-printed ceramic shelters with spiral recesses, developed by University of Hawaiʻi scientists, boost baby coral survival by up to 50 times and increase settlement by 80 times compared to flat surfaces. 在Kāneohe Bay进行测试,这些低成本、耐久的结构模仿了天然珊瑚裂缝,旨在融入珊瑚礁和沿海基础设施。 Tested in Kāneʻohe Bay, the low-cost, durable structures mimic natural coral crevices and are designed to integrate into reefs and coastal infrastructure. 这项技术是Refeense(R3D)方案的一部分,旨在创建生物防波堤,加强珊瑚礁的恢复和沿海保护。 The technology, part of the Reefense (R3D) program, aims to create living breakwaters that enhance reef recovery and coastal protection. 在DARPA、国家科学基金会和其他方面的资助下,正在研究这一方法,以确定在恢复受气候变化威胁的珊瑚生态系统方面的可扩展性和长期有效性。 Funded by DARPA, the National Science Foundation, and others, the approach is being studied for scalability and long-term effectiveness in restoring coral ecosystems threatened by climate change.