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Research article2017Peer reviewed

Improving in situ recovery of soil nitrogen using the microdialysis technique

Buckley, Scott; Brackin, Richard; Nasholm, Torgny; Schmidt, Susanne; Jamtgard, Sandra


Microdialysis is a technique that can be used to sample fluxes of nitrogen (N) in soils with minimal disturbance. To advance our understanding of the technique and improve N recovery, we compared a common membrane type (10 x 0:5 mm probe length and width, 20 kDa molecular weight cut-off; MWCO) with alternative length and MWCO configurations (30 mm; and 100 kDa MWCO). We hypothesised that the alternative membranes would improve recovery of low molecular weight N via increased surface area and membrane pore size. The test environments, sampled at fixed pump flow rates, were: (i) stirred 100 mu M N standard solution containing organic (amino acid) and inorganic (ammonium, nitrate) N; (ii) soil spiked with 100 mu M standard N solution; and (iii) in situ boreal forest soil. In general, long membranes recovered more N, but the magnitude of improved recovery varied with test environment. Long membranes recovered more inorganic N regardless of flow rate, except ammonium in stirred solution, where length had no effect at slow flow rates. Long membranes also recovered more organic N from stirred solution regardless of flow rate, and recovered most N at slow flow rates in spiked soil. Longer membranes recovered more amino acids in situ in forest soil, with improved resolution of individual amino acids, but were biased towards soluble, mobile forms. MWCO did not affect N recoveries, indicating that in the test conditions, membrane length had greater control than pore size. We discuss the bottlenecks of microdialysis application in soil research and conclude that optimised membrane configurations will advance its use as a tool for quantifying nutrient fluxes in soils. (C) 2017 Elsevier Ltd. All rights reserved.


Soil nitrogen availability; N flux; Inorganic N; Amino acids; Organic nitrogen

Published in

Soil Biology and Biochemistry
2017, Volume: 114, pages: 93-103