Retention of deposited ammonium and nitrate and its impact on the global forest carbon sink.
Geshere Abdisa GurmesaAng WangShanlong LiShu-Shi PengWim de VriesPer GundersenPhilippe CiaisOliver L PhillipsErik A HobbieWeixing ZhuKnute J NadelhofferYi XiEdith BaiTao SunDexiang ChenWenjun ZhouYiping ZhangYingrong GuoJiaojun ZhuLei DuanDejun LiKeisuke KobaEnzai DuGuoyi ZhouXingguo HanShijie HanYunting FangPublished in: Nature communications (2022)
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 15 N-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 ([Formula: see text]%) ([Formula: see text]) than ammonium ([Formula: see text]%) while soils retain more ammonium ([Formula: see text]%) than nitrate ([Formula: see text]%). We estimate that the N deposition-induced C sink in forests in the 2010s is [Formula: see text] Pg C yr -1 , higher than previous estimates because of a larger role for oxidized N and greater rates of global N deposition.