Solution Found!
SCIENTIFIC INQUIRY I n t e rpr e t th e Data A Minnesota gardener notes that the plants
Chapter 36, Problem 10(choose chapter or problem)
SCIENTIFIC INQUIRY I n t e rpr e t th e Data A Minnesota gardener notes that the plants immediately bordering a walkway are stunted compared with those farther away. Suspecting that the soil near the walkway may be contaminated from salt added to the walkway in winter, the gardener tests the soil. The composition of the soil near the walkway is identical to that farther away except that it contains an additional 50 mM NaCl. Assuming that the NaCl is completely ionized, calculate how much it will lower the solute potential of the soil at 20C using the solute potential equation: S = -iCRT where i is the ionization constant (2 for NaCl), C is the molar concentration (in mol/L), R is the pressure constant [R = 0.00831 L MPa/(mol K)], and T is the temperature in Kelvin (273 + C). How would this change in the solute potential of the soil affect the water potential of the soil? In what way would the change in the water potential of the soil affect the movement of water in or out of the roots?
Questions & Answers
QUESTION:
SCIENTIFIC INQUIRY I n t e rpr e t th e Data A Minnesota gardener notes that the plants immediately bordering a walkway are stunted compared with those farther away. Suspecting that the soil near the walkway may be contaminated from salt added to the walkway in winter, the gardener tests the soil. The composition of the soil near the walkway is identical to that farther away except that it contains an additional 50 mM NaCl. Assuming that the NaCl is completely ionized, calculate how much it will lower the solute potential of the soil at 20C using the solute potential equation: S = -iCRT where i is the ionization constant (2 for NaCl), C is the molar concentration (in mol/L), R is the pressure constant [R = 0.00831 L MPa/(mol K)], and T is the temperature in Kelvin (273 + C). How would this change in the solute potential of the soil affect the water potential of the soil? In what way would the change in the water potential of the soil affect the movement of water in or out of the roots?
ANSWER:S = -2 x 0.05 x 0.00831 x (293) = -0.42 MPa
The decrease in solute potential of the soil would result in an increase in the water potential of t