By Dnyaneshwari Haware ’23

Staff Writer

Despite being out of the eye of the general population, the destruction of reefs is impacting the livelihoods of approximately 1 billion people globally.  These effects are seen through reduced biodiversity, lower fish stocks and a higher rate of coastal erosion. In the past 20 years, 50 percent of coral reefs have been lost, and by 2050, more than 90 percent are expected to die. The causes of this erosion include overfishing, the bleaching of coastlands, an increase in ocean temperature and other exploitative factors that further intensify the damage. In areas of destruction, scientists are attempting new methods of preserving the reefs, such as the relocation of more resilient corals and the new implementation of 3D-printed corals. 

The impacts of global warming have caused increasing challenges for reefs and coral. A large number of reefs are temperature sensitive and struggle to survive 1 degree Celsius above the summer maximum of the region. Additionally, the increase in atmospheric carbon dioxide also increases the acidity of oceans, further producing challenging living environments. 

In efforts to revive coral communities, one solution is moving heat resilient corals, which can cope with temperatures between 6 and 7 degrees Celsius hotter and can survive in acidic waters, to struggling reefs elsewhere. However, there are significant obstacles, such as the need to save the thermally resilient species from extinction due to factors other than global warming like physical damage from construction, development and overfishing. Another concern is the introduction of a new species of corals into an ecosystem, which may significantly change its equilibrium. 

Efforts also include more experimental methods, such as integrating 3D printing technology. In 2018, the largest 3D printed coral reef was deployed at a site in Maldives using a technology called the Modular Artificial Reef Structures. These not only substitute real corals for coral farming, which is the cultivation of corals for commercial purposes, but can also create new reef habitats in degraded areas or new locations. However, using artificial structures as restoration tools is expensive and cannot act as a replacement for conservation strategies. 

In environmental conservation, finding local organic solutions that could result in long-lasting positive effects on the community is essential for sustainability. One example is a coral reef restoration project off of a 4.3-mile-long island in Kenya led by the women of the community. According to the Kenya Marine and Fisheries Institute, between  60 and 90 percent of coral reefs were destroyed in some surveyed areas. 

Local communities that largely depend on fishing and ecotourism have suffered from the loss of these reefs, as the reefs provide breeding grounds for hundreds of species of marine life. In response, the women of Wasini Island have been restoring fish populations by cultivating seagrass, which plays a key role in the overall coral reef ecosystem. The seagrass provides shelter to juvenile fish who then mature and move into the reefs. The project also involves building artificial coral reefs using locally found materials such as rock boulders held together with hydraulic cement. Corals grown in nurseries are then planted on these artificial reefs and have a survival rate of 75 percent after transplant.

All these methods involve constant experimentation, and results vary depending on the ecosystems. Law enforcement, the involvement of government and independent agencies, financial support and the cooperation of local communities have been necessary for the largest movements toward the conservation of coral reefs.