High CO₂ detrimentally affects tissue regeneration of Red Sea corals

Keyphrases

• Red Sea 100%
• Tissue Regeneration 100%
• High CO2 100%
• Coral 100%
• Ocean Acidification 100%
• Porites 100%
• Favus 100%
• Regeneration 75%
• Partial Pressure of CO2 (pCO2) 75%
• Scleractinian Corals 50%
• Life Functioning 50%
• Elevated pCO2 50%
• Sexual Reproduction 25%
• Extended Period 25%
• Ambient Conditions 25%
• Slow-growing 25%
• Regenerative Process 25%
• Seawater 25%
• Total Energy 25%
• Fast-growing 25%
• Carbon Dioxide CO2 25%
• Energy Budget 25%
• Stylophora pistillata 25%
• Reef-building Corals 25%
• Atmospheric Carbon Dioxide 25%
• Coral Species 25%
• Symbiodinium 25%
• Regenerability 25%
• Coral Reef Ecosystem 25%
• Energy Cost 25%
• Physical Disturbance 25%
• Indo-Pacific 25%
• Acropora 25%
• Allocation Trade-offs 25%
• Tissue Biomass 25%
• Massive Porites 25%
• Regeneration Rate 25%
• Favia 25%
• Acid-base Regulation 25%

Agricultural and Biological Sciences

• Ocean Acidification 100%
• Porites 100%
• Tinea Capitis 100%
• Tissue Regeneration 100%
• Coral Reef 50%
• Stylophora 25%
• Energy Budget 25%
• Acropora 25%
• Symbiodinium 25%