HUMAN BIOLOGY

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232 Chapter 12

acid–base balance The
relative amounts of acidic
and basic substances in
extracellular fluid, including
the blood.


metabolic acidosis Higher
than normal acidity in blood
and other body fluids.


metabolic alkalosis Higher
than normal alkalinity in
blood and other body fluids.


hoW do the kidneys help keep the
eXtracellular fluid from becoming
too acidic or too basic?


  • The urinary system eliminates excess hydrogen ions and also
    replenishes bicarbonate used in buffering reactions.

  • Serious acid–base imbalances include metabolic acidosis (body
    fluids that are too acidic) and metabolic alkalosis (body fluids
    that are too basic).


taKe-Home message

removing excess acids and other


substances in urine


of nephron tubule walls. For example, when the blood
is too acidic (a too high concentration of H^1 ), water and
carbon dioxide combine with the help of an enzyme. They
form carbonic acid that then can be broken into bicarbonate
and H^1. Figure 12.11 summarizes these steps.
As you can see, bicarbonate produced in the reactions
moves into peritubular capillaries. It ends up circulating
in the blood, where it buffers excess H^1. When the blood
is too basic (alkaline), chemical adjustments in the kidneys
normally ensure that less bicarbonate is reabsorbed into
the bloodstream.
The H^1 that is formed in the tubule cells is secreted into
the filtrate in the tubule. There the excess H^1 may combine
with phosphate ions, ammonia (NH 3 ), or even bicarbonate.
In this way the excess H^1 is excreted.

Various factors may cause serious
acid–base imbalances
Maintaining proper blood pH is crucial to homeostasis. If
the pH of blood falls outside the normal range for long, the
most serious impact occurs in the central nervous system
(brain and spinal cord). When severe diarrhea, kidney dis-
ease, or some other problem prevents kidneys from excret-
ing enough acid, the result is metabolic acidosis. Then
nerve cells cannot communicate properly and an affected
person may fall into a fatal coma.
Severe vomiting or dehydration, hormonal disorders,
and overuse of antacids are common causes of metabolic
alkalosis, or blood that is too basic. Then nerve cells are
overstimulated, so a person may suffer muscle spasms, ner-
vousness, or convulsions. In the next two sections you will
find information about other major disorders that prevent
the urinary system from functioning normally.

n    As urine forms, nephrons make adjustments that help keep
the extracellular fluid from becoming too acidic or too basic.
n Links to pH scale 2.7, Breathing controls 10.6

the kidneys play a key role in maintaining
the balance of acids and bases in the blood
You may recall from Chapter 2 that normal pH in the blood
and other body fluids is between 7.3 and 7.5. Because acids
lower pH and bases raise it, pH reflects the body’s acid–
base balance—the relative amounts of acidic and basic
substances in extracellular fluid. Remember also that a
buffer system involves substances that reversibly bind and
release H^1 and OH^2 ions. Buffers minimize pH changes as
acidic or basic molecules enter or leave body fluids.
Chapter 10 described how bicarbonate (HCO 32 ) serves
as a buffer in the lungs. It forms when carbon dioxide com-
bines with water. The bicarbonate then reacts with H^1 to
form carbonic acid, and enzyme action converts carbonic
acid into water and carbon dioxide. The CO 2 is exhaled,
while the hydrogen ions are now a
part of water molecules. H^1 is not
eliminated permanently, however.
Only the kidneys can do that. They
also restore the buffer bicarbonate.
Depending on changes in the
acid–base balance of the blood that
enters nephrons, the kidneys can
either excrete bicarbonate or form
new bicarbonate and add it to the
blood (Table 12.3). The necessary
chemical reactions go on in the cells

(carbonic
acid)

bicarbonate
enters
bloodstream

tissue
fluid

peritubular
capillary

cells of
tubule wall

tubule
interior
H 2 O 1 CO 2

enzyme action

H 2 CO 3

H^1 1 ammonia H^1 HCO^32

H^1 1 phosphate

excreted
in
urine

F i g u r e 12 .11 Animated! The kidneys remove H^1 from the body,
preventing the blood from becoming too acidic. (© Cengage Learning)

12.5


Physiological change Response in Nephron Tubules
Blood too acidic (pH too low) More bicarbonate (HCO 32 )
enters the bloodstream,
buffers excess H^1
Blood too basic (pH too high) Bicarbonate excreted in urine

Table 12.3 Snapshot of How the Kidneys Help
Maintain Blood pH

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