Suppose a friend says that we don't need to worry about the rising temperatures associated with global climate change. Her claim is that increased temperatures will make planktonic algae grow faster and that carbon dioxide (CO2)(CO2) will be removed from the atmosphere faster. According to her, this carbon will be buried at the bottom of the ocean in calcium carbonate shells. As a result, the amount of carbon dioxide in the atmosphere will decrease and global warming will decline. Comment.

Plants and numerous green growth may flourish under acidic conditions. These creatures make their vitality from combining daylight and carbon dioxide—so more carbon dioxide in the water doesn't hurt them, however, it makes a difference.

Under increasingly acidic lab conditions, they had the option to recreate better, become taller, and develop deeper roots. In any case, they are in decay for various reasons—particularly contamination streaming into seaside seawater and it's improbable that this lift from acidification will repay totally for misfortunes brought about by these different burdens.

A few types of green growth develop better under progressively acidic conditions with the lift in carbon dioxide. In any case, coralline green growth, which assemble calcium carbonate skeletons and helps concrete coral reefs, doesn't charge so well. Most coralline green growth species assembles shells from the high-magnesium calcite type of calcium carbonate, which is more dissolvable than the aragonite or ordinary calcite structures.

One study found that, in acidifying conditions, coralline green growth secured 92 percent less region, making space for different sorts of non-calcifying green growth, which can cover and harm coral reefs. This is doubly terrible because numerous coral hatchlings like to settle onto coralline green growth when they are prepared to leave the tiny fish stage and start life on a coral reef.