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Most of the carbonic acid then dissociates to bicarbonate and hydrogen ions. The bicarbonate buffer system is an acid-base homeostatic mechanism involving the balance of carbonic acid (H 2 CO 3), bicarbonate ion (HCO − 3), and carbon dioxide (CO 2) in order to maintain pH in the blood and duodenum, among other tissues, to support proper ...
Carbonic acid is the formal Brønsted–Lowry conjugate acid of the bicarbonate anion, stable in alkaline solution. The protonation constants have been measured to great precision, but depend on overall ionic strength I .
In inorganic chemistry, bicarbonate (IUPAC-recommended nomenclature: hydrogencarbonate [2]) is an intermediate form in the deprotonation of carbonic acid. It is a polyatomic anion with the chemical formula H C O − 3. Bicarbonate serves a crucial biochemical role in the physiological pH buffering system. [3]
The most abundant buffer in the ECF consists of a solution of carbonic acid (H 2 CO 3), and the bicarbonate (HCO − 3) salt of, usually, sodium (Na +). [5] Thus, when there is an excess of OH − ions in the solution carbonic acid partially neutralizes them by forming H 2 O and bicarbonate (HCO − 3) ions.
Most carbonic acid then dissociates to bicarbonate and hydrogen ions. One of the buffer systems present in the body is the blood plasma buffering system. This is formed from , carbonic acid, working in conjunction with [HCO − 3], bicarbonate, to form the bicarbonate system. [10]
Carbonic acid then spontaneously dissociates to form bicarbonate Ions (HCO 3 −) and a hydrogen ion (H +). In response to the decrease in intracellular pCO 2, more CO 2 passively diffuses into the cell. Cell membranes are generally impermeable to charged ions (i.e. H +, HCO 3 −) but RBCs are able to exchange bicarbonate for chloride using ...
Aqueous carbon dioxide reacts with water to form carbonic acid which is very unstable and will dissociate rapidly into hydronium and bicarbonate. Therefore, in seawater, dissolved inorganic carbon is commonly referred to as the collection of bicarbonate, carbonate ions, and dissolved carbon dioxide (CO 2, H 2 CO 3, HCO − 3, CO 2− 3).
3 (i.e. the first acid dissociation constant for carbonic acid), K 2 is the equilibrium constant for the reaction HCO − 3 ⇌ H + + CO 2− 3 (i.e. the second acid dissociation constant for carbonic acid), and DIC is the (unchanging) total concentration of dissolved inorganic carbon in the system, i.e. [CO 2] + [HCO − 3] + [CO 2− 3].