Retention of deposited ammonium and nitrate and its impact on the global forest carbon sink

The impacts of enhanced nitrogen (N) deposition on the global forest carbon (C) sink and other ecosystem services may depend on whether N is deposited in reduced (mainly as ammonium) or oxidized forms (mainly as nitrate) and the subsequent fate of each. However, the fates of the two key reactive N forms and their contributions to forest C sinks are unclear. Here, we analyze results from 13 ecosystem-scale paired N-15-labelling experiments in temperate, subtropical, and tropical forests. Results show that total ecosystem N retention is similar for ammonium and nitrate, but plants take up more labelled nitrate (20(15)(25)%) (mean(minimum)(maximum)) than ammonium (12(8)(16)%) while soils retain more ammonium (57(49)(65)%) than nitrate (46(32)(59)%). We estimate that the N deposition-induced C sink in forests in the 2010s is 0.72(0.49)(0.96) Pg C yr(-1), higher than previous estimates because of a larger role for oxidized N and greater rates of global N deposition.

Automated summary

The impacts of enhanced nitrogen deposition on the forest carbon sink and other ecosystem services depend on the form of nitrogen deposition and its subsequent fate. This study found that both ammonium and nitrate were retained in the forest ecosystem, but plants took up more nitrate while soils retained more ammonium. The estimated forest carbon sink induced by nitrogen deposition is higher than previous estimates due to the larger role of oxidized nitrogen and increased global nitrogen deposition rates.