As carbon dioxide (CO2) levels in the atmosphere rise, more CO2 gets absorbed into seawater. As a result, the world's oceans have grown more acidic over time, causing a wide range of well-documented ...

A new study has revealed that fresh bodies of water are becoming more acidic. While it is widely known that rising levels of atmospheric carbon dioxide (CO2) have caused significant ocean ...

The following is a summary of “Partial pressure of carbon dioxide/pH interaction and its association with mortality among patients mechanically ventilated in the emergency department,” published in ...

To date no study exists that directly addresses changes in dynamics of heterotrophic bacteria in surface waters in relation to partial pressure of CO2 (pCO2). Therefore, we studied the effect of ...

Scientists have found that river estuaries and coastal waters are more vulnerable to acidification compared to deeper ocean waters offshore. The experts have also determined that this acidification, ...

Understanding the mechanisms with which organisms can respond to a rapidly changing ocean is an important research priority in marine sciences, especially in the light of recent predictions regarding ...

Perfusion adequacy during cardiopulmonary bypass is important in reducing postoperative morbidity. The pCO2 gap (defined as the difference between blood and tissue pCO2 levels) has been shown to be a ...

A large multi-centre study has made an important finding about the relationship between hypercapnia (high carbon dioxide or CO2) in the blood of patients with acute brain injury and hospital mortality ...