Factors affecting stability and efficiency of ion exchange resins in studies of soil nitrogen transformation
1999
Kjonaas, O.J.
Mixtures of cation and anion exchange resins are used as part of the resin core technique to determine nitrogen transformation in forest soils as they adsorb the NH(4)-N and NO(3)-N from soil solution percolating through the incubated soil cores. In the field, the exchange resins may be subjected to a variety of conditions, involving drying, rehydration, freezing, and thawing. This paper examines how these processes affect adsorption of NH(4)-N and NO(3)-N and the stability of the resins. Lab tests were performed on the anion resin Amberlite IRA-93, the cation resin Amberlite IR-120, a miuture of IRA-93 and IR-120, and the commercially-mixed bed resin Amberlite MB1. The background content of NO(3)-N and NH(4)-N on the resins was large and highly variable between different batches of resins in spite of a 2 M NaCl pre-rinse. The IR-120 cation resin that was subjected to 48 hours air-drying contained significantly less NH(4)-N than the moist resins, while the drying of the IRA-93 anion resin caused a significant release of NO(3)-N from resins with no N addition. Although the variation was large, the mixed bed resin MB1 indicated a release of NH(4)-N, which supports results from long term in situ deployments. A reduced adsorption of NO(3)-N was found on the IRA-93 anion resins and the MB1 mixed bed resins that were dried prior to N addition while the dry IR-120 cation resins adsorbed significantly less NH(4)-N than the control resin. No effect of freezing and thawing efficiency was observed on resin stability or N adsorption efficiency. Sufficient blanks that have been subjected to similar moisture changes are necessary in N limited systems with low levels of available NH(4)-N and NO(3)-N.
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