Significant contributions of combustion‐related NH₃ and non‐fossil fuel NO_x to elevation of nitrogen deposition in southwestern China over past five decades

Abstract: Anthropogenic nitrogen (N) emissions and deposition have been increasing over past decades. However, spatiotemporal variations of N deposition levels and major sources remain unclear in many regions, which hinders making strategies of emission mitigation and evaluating effects of elevated N deposition. By investigating moss N contents and δ15N values in southwestern (SW) China in 1954–1964, 1970–1994, and 2005–2015, we reconstructed fluxes and source contributions of atmospheric ammonium (NH4+) and nitrate (NO… Show more

“…On the basis of the close relationship between NH x dry deposition and emissions, non-agricultural emissions dominated the NH x deposition on average at the urban sites (8.8 kg N ha –1 yr –1 ), while agricultural emissions (11.5 kg N ha –1 yr –1 ) exceeded those of non-agricultural emissions (10.3 kg N ha –1 yr –1 ) on average at the rural sites (Figure ). Although previous estimates have stressed the dominant role of the agricultural sector in terms of NH 3 emissions in China, the results from the present study, together with those from previous studies, highlight the increasing contribution of combustion-related NH 3 to the elevation of NH 4 + deposition in southwestern China over the past 30 years . In addition, based on this study and long-term δ 15 N observations, the implementation of environmental control strategies has resulted in a decrease in the contribution of agricultural NH 3 contribution.…”

“…Although previous estimates have stressed the dominant role of the agricultural sector in terms of NH 3 emissions in China, 15 the results from the present study, together with those from previous studies, highlight the increasing contribution of combustion-related NH 3 to the elevation of NH 4 + deposition in southwestern China over the past 30 years. 81 In addition, based on this study and long-term δ 15 N observations, the implementation of environmental control strategies has resulted in a decrease in the contribution of agricultural NH 3 contribution. Mitigation of agricultural NH 3 emissions in China began during the 13th Five-Year Plan (2016−2020), 60 along with policies such as "Zero Increase Action Plan" in synthetic fertilizer use since 2020 to optimize N fertilizer management and reduce agricultural pollution (http://www.…”

Source Apportionment of Atmospheric Ammonia at 16 Sites in China Using a Bayesian Isotope Mixing Model Based on δ¹⁵N–NH_x Signatures

“…On the basis of the close relationship between NH x dry deposition and emissions, non-agricultural emissions dominated the NH x deposition on average at the urban sites (8.8 kg N ha –1 yr –1 ), while agricultural emissions (11.5 kg N ha –1 yr –1 ) exceeded those of non-agricultural emissions (10.3 kg N ha –1 yr –1 ) on average at the rural sites (Figure ). Although previous estimates have stressed the dominant role of the agricultural sector in terms of NH 3 emissions in China, the results from the present study, together with those from previous studies, highlight the increasing contribution of combustion-related NH 3 to the elevation of NH 4 + deposition in southwestern China over the past 30 years . In addition, based on this study and long-term δ 15 N observations, the implementation of environmental control strategies has resulted in a decrease in the contribution of agricultural NH 3 contribution.…”

“…Although previous estimates have stressed the dominant role of the agricultural sector in terms of NH 3 emissions in China, 15 the results from the present study, together with those from previous studies, highlight the increasing contribution of combustion-related NH 3 to the elevation of NH 4 + deposition in southwestern China over the past 30 years. 81 In addition, based on this study and long-term δ 15 N observations, the implementation of environmental control strategies has resulted in a decrease in the contribution of agricultural NH 3 contribution. Mitigation of agricultural NH 3 emissions in China began during the 13th Five-Year Plan (2016−2020), 60 along with policies such as "Zero Increase Action Plan" in synthetic fertilizer use since 2020 to optimize N fertilizer management and reduce agricultural pollution (http://www.…”

Source Apportionment of Atmospheric Ammonia at 16 Sites in China Using a Bayesian Isotope Mixing Model Based on δ¹⁵N–NH_x Signatures

Responses of soil respiration to nitrogen addition are mediated by topography in a subtropical karst forest

Estimating atmospheric nitrogen deposition within a large river basin using moss nitrogen and isotope signatures