PCO2

pCO₂, pCO₂, or is the partial pressure of carbon dioxide, often used in reference to blood but also used in meteorology, climate science, oceanography, and limnology to describe the fractional pressure of CO₂ as a function of its concentration in gas or dissolved phases. The units of pCO₂ are mmHg, atm, torr, Pa, or any other standard unit of atmospheric pressure.

Medicine

In medicine, the partial pressure of carbon dioxide in arterial blood is called or PaCO₂. Measurement of in the systemic circulation indicates the effectiveness of ventilation at the lungs' alveoli, given the diffusing capacity of the gas. It is a good indicator of respiratory function and the closely related factor of acid–base homeostasis, reflecting the amount of acid in the blood. Normal values for humans are in the range of 35–45 mmHg. Values less than this may indicate hyperventilation and respiratory alkalosis. Values greater than 45 mmHg may indicate hypoventilation, and respiratory acidosis.

Aquatic sciences

Oceanographers and limnologists use pCO₂ to measure the amount of carbon dioxide dissolved in water, as well as to parameterize its flux into and out of the atmosphere. Carbon dioxide reacts with water to form bicarbonate and carbonate ions, such that the relative solubility of carbon dioxide in water is greater than that of other unreactive gasses. As more carbon dioxide dissolves in water, its pCO₂ rises until it equals the pCO₂ of the overlying atmosphere. Conversely, a body of water with a pCO₂ greater than that of the atmosphere effluxes carbon dioxide.
pCO₂ is additionally affected by water temperature and salinity. Carbon dioxide is less soluble in warmer water than cooler water, so hot water will exhibit a larger pCO₂ than cold water with the same concentration of carbon dioxide. pCO₂ can be used to describe the inorganic carbon system of a body of water, together with other parameters such as pH, dissolved inorganic carbon, and alkalinity. Together, these parameters describe the concentration and speciation of inorganic carbon species in water.
Biological processes such as respiration and photosynthesis affect and can be affected by aquatic pCO₂. Respiration degrades organic matter, releasing CO₂ into the water column and increasing pCO₂. Photosynthesis assimilates inorganic carbon, thereby decreasing aquatic pCO₂.