Response of ocean acidification to a gradual increase and decrease of atmospheric CO2
We perform coupled climate–carbon cycle model simulations to examine changes in ocean acidity in response to idealized change of atmospheric CO _2 . Atmospheric CO _2 increases at a rate of 1% per year to four times its pre-industrial level of 280 ppm and then decreases at the same rate to the pre-i...
Published in: | Environmental Research Letters |
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Main Authors: | , , , |
Format: | Article in Journal/Newspaper |
Language: | English |
Published: |
IOP Publishing
2014
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Subjects: | |
Online Access: | https://doi.org/10.1088/1748-9326/9/2/024012 https://doaj.org/article/848a5afcf94849cfbfb5811217412a44 |
Summary: | We perform coupled climate–carbon cycle model simulations to examine changes in ocean acidity in response to idealized change of atmospheric CO _2 . Atmospheric CO _2 increases at a rate of 1% per year to four times its pre-industrial level of 280 ppm and then decreases at the same rate to the pre-industrial level. Our simulations show that changes in surface ocean chemistry largely follow changes in atmospheric CO _2 . However, changes in deep ocean chemistry in general lag behind the change in atmospheric CO _2 because of the long time scale associated with the penetration of excess CO _2 into the deep ocean. In our simulations with the effect of climate change, when atmospheric CO _2 reaches four times its pre-industrial level, global mean aragonite saturation horizon (ASH) shoals from the pre-industrial value of 1288 to 143 m. When atmospheric CO _2 returns from the peak value of 1120 ppm to pre-industrial level, ASH is 630 m, which is approximately the value of ASH when atmospheric CO _2 first increases to 719 ppm. At pre-industrial CO _2 9% deep-sea cold-water corals are surrounded by seawater that is undersaturated with aragonite. When atmospheric CO _2 reaches 1120 ppm, 73% cold-water coral locations are surrounded by seawater with aragonite undersaturation, and when atmospheric CO _2 returns to the pre-industrial level, 18% cold-water coral locations are surrounded by seawater with aragonite undersaturation. Our analysis indicates the difficulty for some marine ecosystems to recover to their natural chemical habitats even if atmospheric CO _2 content can be lowered in the future. |
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