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Water Balance | BioNinja
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Water Balance
Application:
• Consequences of dehydration and overhydration
Maintaining an appropriate water balance within the body’s tissues and cells is critical to the survival of an organism
Homeostasis cannot be maintained if water levels drop (dehydration) or are raised (overhydration) without
regulation
Dehydration
Dehydration is a loss of water from the body such that body fluids become hypertonic
Individuals will experience thirst and excrete small quantities of heavily concentrated urine (to minimise water loss)
Blood pressure will drop (less water in plasma) and the heart rate will increase to compensate for this
The individual will become lethargic and experience an inability to lower body temperature (due to lack of sweat)
Severe cases of dehydration may cause seizures, brain damage and eventual death
Overhydration
Overhydration is a less common occurrence that results when an over-consumption of water makes body fluids
hypotonic
Individuals will produce excessive quantities of clear urine in an effort to remove water from the body
The hypotonic body fluids will cause cells to swell (due to osmotic movement), which can lead to cell lysis and
tissue damage
Overhydration can lead to headaches and disrupted nerve functions in mild cases (due to swelling of cells)
In severe cases, overhydration may lead to blurred vision, delirium, seizures, coma and eventual death
Effect of Water Balance on Erythrocyte Structure
Understanding:
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Water Balance | BioNinja
• The length of the loop of Henle is positively correlated with the need for water conservation in animals
All animals need to maintain an appropriate water balance, however the need for water conservation will depend on
habitat
Animals in arid, desert environments will need more efficient water conservation than animals in moist, mesic
environments
Water conservation can be improved by having a longer loop of Henle, which increase the salt gradient in the
medulla
A greater the salt gradient in the medulla means more water is reabsorbed by the collecting ducts and urine is
concentrated
Hence, the length of the loop of Henle is positively correlated with the degree of water conservation in animals
Animals living in moist environments have short loops of Henle that don’t descend deeply into the medulla (cortical
nephrons)
Animals living in arid environments have long loops of Henle that descend deeply into the medulla (juxtamedullary
nephrons)
Comparison of Nephrons in Mesic and Desert Animals
Relationship between Environmental Conditions and Medullary Thickness
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