Science is in a race to save a vital resource: coral reefs

Finding solutions
DNA
Looking into symbiosis
Finding resistant species
Promising examples
A crucial ecosystem
Food and income
A catastrophic risk
High ocean temperatures
1998
2010
2014-2017
Crossed limit
Ultimate limit
Finding solutions

Researchers are rushing to find solutions to save coral reefs from rising water temperatures; the solutions range from gene editing to identifying resistant species.

DNA

According to The Guardian, a team at the Wellcome Sanger Institute is working on the Aquatic Symbiosis Genomics (ASG) project to analyze the DNA of coral.

Looking into symbiosis

The program's goal is to study corals' symbiotic relationship with algae, something research knows little about. This could lead to gene editing for adaptation.

Finding resistant species

Still, some adaptations are happening in nature. A new study by researchers at the UH Hawaiʻi Institute of Marine Biology (HIMB) identified Hawaiian species of coral that have the potential o adapt to raising temperatures.

Promising examples

According to a press release, “eight of the most common species of coral found in Hawaiʻi can adapt to and survive ocean warming and acidification” in the right conditions.

A crucial ecosystem

Coral Reefs are a crucial maritime ecosystem. According to The New York Times, scientists estimate that they once nurtured at least a quarter of all ocean species. They are worth $2.7 trillion annually.

Food and income

Coral reefs are vital sources of food and income for those who depend on the ocean, especially fishing, for survival. Thousands of communities around the basins of the Pacific, Atlantic, and Indian Oceans depend on coral reefs.

A catastrophic risk

Still, human activity keeps endangering them. This year, the US National Oceanic and Atmospheric Administration reported that 54% of reefs were under bleaching risk, rising by 1% each week.

High ocean temperatures

Corals bleach because the symbiotic algae that give them their color, which they depend on to survive, dies under high water temperatures.

1998

Worldwide bleachings have happened, and the percentage has kept rising. The first recorded was in 1998, with 20% of coral reefs affected.

2010

In 2010, 35% of the world's coral reefs were under bleaching-level heat stress, a 15% rise from 12 years earlier.

2014-2017

The last bleaching event extended from 2014 to 2017, impacting 56% of all coral reefs. Ecosystems can recover, but only when waters turn cold again fast enough.

Crossed limit

Still, we have already crossed a perilous line. According to the experts cited by The New York Times, most coral reefs will die after the world reaches a temperature of 1.5°C (34.7°F).

Ultimate limit

Those experts believe that all coral reefs will die if we reach the absolute limit of 2°C (35.6°F) set out by the UN and several nations in international agreements.

More for you