Exam 4 Ch 44
What is the driving force for the filtration of blood by the renal corpuscle? Higher pressure in glomerular capillaries than in the surrounding Bowman's capsule. The presence of microvilli. The diffusion of small solutes such as urea down a concentration gradient. The presence of large pores in the glomerular capillaries and filtration slits.
Higher pressure in glomerular capillaries than in the surrounding Bowman's capsule.
In which region of the nephron is a steep osmotic gradient created? Collecting duct. Distal tubule. Proximal tubule. Loop of Henle.
Loop of Henle.
Which of the following represents the correct sequence of flow through the nephron? Distal tubule > loop of Henle > collecting duct > renal corpuscle > proximal tubule Renal corpuscle > proximal tubule > loop of Henle > distal tubule > collecting duct Renal corpuscle > distal tubule > proximal tubule > loop of Henle > collecting duct Renal corpuscle > loop of Henle > collecting duct > proximal tubule > distal tubule
Renal corpuscle > proximal tubule > loop of Henle > distal tubule > collecting duct
Which regions of the nephron function independently of hormonal control for the most part? Proximal tubule, loop of Henle, and distal tubule. Renal corpuscle, proximal tubule, and loop of Henle. Distal tubule and collecting duct. Renal corpuscle and collecting duct.
Renal corpuscle, proximal tubule, and loop of Henle.
Which arrow indicates the direction of a gradient of increasing solute concentration in the interstitial fluid surrounding a nephron? Question #12 A only B only B and C C and D A and D
A Only
Glucose is removed from filtrate by _____. secretion diffusion dialysis active transport osmosis
active transport
Which of these is reabsorbed from filtrate? sodium chloride glucose water amino acids all of these
all of these
Freshwater fish excrete nitrogenous wastes as _____. proteins ammonia guano urea uric acid
ammonia
Antidiuretic hormone (ADH) makes the _____ permeable to water. ascending portion of the loop of Henle collecting duct Bowman's capsule proximal tubule descending portion of the loop of Henle
collecting duct
The outer part of the kidney is the _____. medulla nephron lacteal cortex Bowman's capsule
cortex
The movement of substances out of the glomerulus and into Bowman's capsule is referred to as _____. secretion reabsorption active transport ion pumping filtration
filtration
As filtrate moves down the loop of Henle, the surrounding interstitial fluid becomes _____ concentrated than the filtrate, so _____ leaves the filtrate. more ... urea less ... urea more ... water less ... water less ... water and urea
more ... water
Under the influence of antidiuretic hormone (ADH), _____ is produced. urine containing more glucose bloody urine urine containing a lower concentration of urea more concentrated urine less concentrated urine
more concentrated urine
Which of these is the functional unit of a kidney? neuron villi nephron alveolus osteon
nephron
Terrestrial animals are _____. osmoregulators that must obtain water from the environment likely to have the same problems with osmoregulation as do freshwater fish usually nocturnal obligated to protect their eggs from drying with water-resistant shells either arthropods or vertebrates
osmoregulators that must obtain water from the environment
Birds, insects, and many reptiles excrete nitrogenous waste in the form of uric acid, which _____. is not very toxic compared to other nitrogenous wastes, but requires the loss of a lot of water with its excretion reduces water loss compared to other nitrogenous wastes, but requires more metabolic energy to produce reduces energy use compared to other nitrogenous wastes, but is highly toxic to animals that produce it is much more soluble in water than other nitrogenous wastes, but is energetically costlier than other nitrogenous wastes to synthesize reduces water loss compared to other nitrogenous wastes, but is highly toxic
reduces water loss compared to other nitrogenous wastes, but requires more metabolic energy to produce
The _____ are the major blood vessels transporting blood to the kidneys. pulmonary arteries glomerulus renal arteries renal veins venae cavae
renal arteries
Urine formed by a kidney collects in the _____ before being drained from the kidney by the _____ and transported to the _____. urethra ... urinary bladder ... ureter renal pelvis ... medulla ... cortex renal pelvis ... ureter ...urinary bladder renal pelvis ... urethra ... urinary bladder ureter ... renal pelvis ... urinary bladder
renal pelvis ... ureter ...urinary bladder
The movement of substances from the blood into the proximal tubule is known as _____. filtration dialysis secretion reabsorption none of these
secretion
An appropriate group of animals to examine to observe a Malpighian tubule would be _____. the annelids the flatworms the birds the amphibians the insects
the insects
The most abundant solute in urine is _____. glucose water plasma proteins sodium chloride urea (and other nitrogenous wastes)
urea (and other nitrogenous wastes
As a result of the non-selectivity of the kidney's filtration of small molecules, _____. useful substances must be selectively reabsorbed the proportions of all the substances in the blood are the same as in the urine urine is always much less concentrated than blood the kidneys have little control over body fluid composition many useful substances are lost in the urine
useful substances must be selectively reabsorbed
Which of the following statements best describes the actions of the hormone ADH on the nephron? ADH causes the loop of Henle to increase urea reabsorption under conditions of dehydration. ADH causes the proximal tubule to increase glucose reabsorption when the body's energy needs are high. ADH causes the collecting duct to increase water reabsorption by the surrounding tissue under conditions of dehydration. ADH causes the distal tubule to increase Na+ reabsorption when Na+ levels in the blood are low.
ADH causes the collecting duct to increase water reabsorption by the surrounding tissue under conditions of dehydration.
The kidneys are regulated by hormones such as antidiuretic hormone (ADH) and aldosterone. These hormones are secreted in response to changes in the animal's internal water and salt balance. For example, sweating or blood loss can disrupt water and/or salt balance in the body, leading to a hormonal response that returns the system to homeostasis. Mechanisms for adjusting blood volume or osmolarity include increasing water and/or sodium reabsorption in the nephrons and collecting ducts. How do the following stimuli affect water and sodium (Na+) reabsorption in the kidneys?
Antidiuretic hormone (ADH) and aldosterone are two of the hormones that help to regulate blood osmolarity, blood pressure, and blood volume by acting on the kidney. ADH is released from the posterior pituitary gland in response to increased blood osmolarity. Dehydration, sweating, and eating salty foods can all cause blood osmolarity to rise. To counteract that change, ADH acts on the distal tubules and collecting ducts, causing them to become more permeable to water. As a result, water is reabsorbed, lowering blood osmolarity, concentrating the urine, and reducing urine volume.
Filtrate is formed as fluid is forced through the walls of the glomerulus and, initially, collects in the structure indicated by the letter Question #3 A B C D E
B
You just received a freshwater aquarium as a gift and decide to add more fish. When you get to the pet store, you find that the most beautiful fish are saltwater animals, but you decide to buy them anyway. What will happen when you put your expensive saltwater fish in your freshwater aquarium? The cells of the fish will take up too much water, and the fish will die. The fish will dehydrate and die. The fish will get larger more quickly in the healthier conditions of fresh water. In the better conditions of fresh water, the fish adjust and do better than in salt water. Nothing: the fish will live normally.
The cells of the fish will take up too much water, and the fish will die.
Which of the following statements is true? The kidneys are paired organs that regulate water and electrolyte balance in terrestrial vertebrates. The kidneys are paired organs that remove nitrogenous wastes from the urine. The kidneys regulate water and blood glucose in terrestrial vertebrates. Most humans have one kidney, which regulates water and electrolyte balance, removes nitrogenous wastes from the blood, and eliminates the wastes in the urine.
The kidneys are paired organs that regulate water and electrolyte balance in terrestrial vertebrates.
Label the diagram of the kidney and nephron below. Drag the labels to their appropriate locations on the diagram below. Labels can be used once, more than once, or not at all.
The nephron is the functional unit of the kidney, meaning that filtrate is processed in the nephrons. Nephrons are positioned in the renal cortex and can extend into the renal medulla. A nephron consists of a glomerulus and a long tubule that includes Bowman's capsule, the proximal tubule, the loop of Henle, and the distal tubule. Filtration occurs at the glomerulus-Bowman's capsule interface, sometimes called the renal corpuscle. The filtrate then travels through the rest of the nephron and drains into the collecting duct. The filtrate, now called urine, exits the kidney through a ureter that drains into the urinary bladder. Finally, the urine is expelled from the body through the urethra.
What is the basic functional unit of the kidney? The Malpighian tubule. The nephron. The medulla. The renal corpuscle.
The nephron.
The kidneys of terrestrial mammals conserve water in the body by concentrating urine. The osmolarity of human blood is 300 mOsm/L, but human urine is generally about 1200 mOsm/L. The loop of Henle and the collecting duct are instrumental in maintaining osmotic gradients that make the concentration of urine possible. Complete the diagram below using the following steps:
Water is reabsorbed in the kidney because of the osmotic gradient established in the interstitial fluid. The osmolarity of the interstitial fluid increases deeper into the medulla. As a result, water diffuses out of the descending limb of the loop of Henle and out of the collecting duct, flowing from areas of lower osmolarity in the filtrate to areas of higher osmolarity in the interstitial fluid. This water diffuses into blood vessels surrounding the nephron, called the vasa recta, returning to the bloodstream and therefore not diluting the osmotic gradient. The osmotic gradient in the interstitial fluid is maintained mostly by NaCl and urea. In the thin portion of the ascending limb of the loop of Henle, NaCl diffuses out of the nephron. In the thick upper portion of the ascending limb, NaCl is actively transported out of the nephron. (The ascending limb is impermeable to water, which helps maintain high osmolarity in the interstitial fluid.) Urea diffuses out of the lower portion of the collecting duct and is responsible for the high osmolarity in the inner medulla. After traveling through the nephron and the collecting duct, urine is more concentrated than other body fluids and excretes urea and other wastes with a minimal loss of water. The ability of mammalian kidneys to conserve water in this way is a key terrestrial adaptation.