Coral skeleton formation rate determines resilience to acidifying oceans

A new UW–Madison study has implications for predicting coral reef survival and developing mitigation strategies against having their bony skeletons weakened by ocean acidification.

Frontiers Proton gradients across the coral calcifying cell layer: Effects of light, ocean acidification and carbonate chemistry

KSLOF Coral Reef Education Portal: Free Coral Growth CourseLiving Oceans Foundation

University and Stakeholder News

What medieval skeletons tell us about modern day pandemics

The interactive impacts of a constant reef stressor, ultraviolet radiation, with environmental stressors on coral physiology - ScienceDirect

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What medieval skeletons tell us about modern day pandemics

Science & Technology, News

Frontiers Effects of Ocean Acidification on Carbon and Nitrogen Fixation in the Hermatypic Coral Galaxea fascicularis

Graduate Students – Page 2 – Department of Physics – UW–Madison

Gains and losses of coral skeletal porosity changes with ocean acidification acclimation

Ontogenetic differences in the response of the cold-water coral Caryophyllia huinayensis to ocean acidification, warming and food availability - ScienceDirect

A better understanding of coral skeleton growth suggests ways to

News Archives – Page 13 – Department of Physics – UW–Madison

Effects of ocean acidification on the dissolution rates of reef-coral skeletons [PeerJ]