1. ʻIno ka moana ke ahu mōkākī nei ka puna i uka.ʻ
The sea is rough, for the corals are strewn on the beach.
(Here are all the indications that there is trouble yonder.) This Hawaiian proverb reminds us the sky and ocean are connected, with the conditions of the atmosphere influencing those of the ocean.
2. The warmer air and ocean surface temperatures brought on by climate change impact corals and alter coral reef communities by prompting coral bleaching events and altering ocean chemistry. These impacts affect corals and the many organisms that use coral reefs as habitat.
3. If we continue to produce carbon dioxide at the current rate, future atmospheric carbon dioxide will be high enough to lower ocean surface pH to 7.8 by the year 2100 (Royal Society 2008). Scientists have done laboratory studies that suggest a pH about this low could dissolve coral skeletons and may cause reefs to fall apart (Fine and Tchernov 2006). If coral reefs are lost, vital habitat will be lost too.
4. The future health of coral reefs and many marine organisms depends on our ability to reduce our carbon dioxide emissions on a global scale.
5. Climate change has resulted in coral bleaching, when warm waters persist, corals bleach and become less able to combat disease. As climate change continues, bleaching is predicted to become more common.
6. Warmer water temperatures brought on by climate change stress corals because they are very sensitive to changes in temperature. If water temperatures stay higher than usual for many weeks, the zooxanthellae they depend on for some of their food leave their tissue. Without zooxanthellae, corals turn white because zooxanthellae give corals their color. White, unhealthy corals are called bleached. Bleached corals are weak and less able to combat disease.
7. Climate change alters ocean chemistry leading to ocean acidification
Much of the carbon dioxide that enters the atmosphere dissolves into the ocean. In fact, the oceans have absorbed about 1/3 of the carbon dioxide produced from human activities since 1800 and about 1/2 of the carbon dioxide produced by burning fossil fuels. As carbon dioxide in the ocean increases, ocean pH decreases or becomes more acidic. This is called ocean acidification.
8. With ocean acidification, corals cannot absorb the calcium carbonate they need to maintain their skeletons and the stony skeletons that support corals and reefs will dissolve.
9. More carbon dioxide in the water makes the ocean more acidic. This coral’s skeleton has been damaged by ocean acidification.
10. Ocean acidification affects more than just corals. Snails, clams, and urchins also make calcium carbonate shells and ocean acidification negatively impacts these organisms as well. Just like corals, ocean acidification makes it harder for these organisms to absorb the calcium carbonate they need to build their shells.