1 / 9

Lab 6: Measuring CEC

Lab 6: Measuring CEC. Use soils from last week to – > extract exchangeable cations > measure basic cations by AA spectroscopy > measure acid cations by titration > calculation CEC, % BS for your soil > convert from meq /100g to lbs/acre. Procedure:.

nomlanga-kirby
Download Presentation

Lab 6: Measuring CEC

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Lab 6: Measuring CEC Use soils from last week to – > extract exchangeable cations > measure basic cations by AA spectroscopy > measure acid cations by titration > calculation CEC, % BS for your soil > convert from meq/100g to lbs/acre

  2. Procedure: • Weigh 3.0 g soil into 50 mL centrifuge tube 2. Pump in 35 mLNaCl extracting solution 3. Shake for 20 minutes to displace exchangeable cations from colloid surface into solution…

  3. Na+ Na+ Na+ Na+ Na+ Na+ Na+ Na+ Na+ Na+ Na+ Na+ Na+ Ion Exchange by Mass Action Added Na soln … Mg+2 Ca+2 K+ Al+3 Displaced cations

  4. Measurement of exchangeable cations: 1. Centrifuge, filter to separate clear solution. 2. Fill glass vial about ½ full of solution for AA analysis. 3. Measure remaining solution using grad cylinder—record this number, this will be your “volume titrated”. Pour back into Erlenmeyer flask.

  5. Titration of exchangeable acids: • To Erlenmeyer flask: add stir bar and 3-4 drops phenolpthalein indicator , turn on stirrer to slow speed. • Add NaOH from burette SLOWLY (drop by drop) until solution stays pink for 20-30 seconds. Record volume base used from burette. At endpoint: pH is near neutral, and AMT BASE ADDED = AMT ACID PRESENT NB x VB = NA x VA

  6. Titration calculations: NB x VB = NA x VA NB: conc of base: 0.005 N (eq/L = meq/mL) VB: volume of base (mL, burette) VA: volume of acid (“mLs titrated”) NA: conc of acid: UNKNOWN… meq acid/mL

  7. Conc (solution) Conc (soil) We used 35 mL of NaCl solution to extract 3 g soil to get cations into solution…. Meq acid x35 mLsolnx100=meq acid mLsoln 3 g soil 100 100 g soil Same for basic cations by AA: Meq Ca x0.035 L solnx100=meq Ca L soln 3 g soil 100 100 g soil

  8. CEC of soil =  cations (in meq/100 g): Ca + Mg + K + acidity (H+Al) Mg and K: written on board (meq/L)….. % base saturation (BS) =  bases (Ca+Mg+K)/CEC Convert meq/100 g into lbs/acre-furrow slice….

  9. CEC calculations: meq/100 g to lbs/acre Assume a soil has 2 meq K+/100 g: how many lbs/acre? (“acre” = acre-furrow slice= 2x106 lbs) Note: Atomic mass of K=39 g/mole, and 1mol=1equiv (K+1) So-- Now: “mg/kg” is PPM = parts per million… and LBs/AFS = lbs/2x106 lbs, which is “parts per 2 million”…. SO: 780 ppm K x 2 = 1560 lbs K/acre

More Related