Global soil nitrous oxide emissions since the preindustrial era estimated by an ensemble of terrestrial biosphere models: Magnitude, attribution, and uncertainty

Tian, Hanqin; Yang, Jia; Xu, Rongting; Lü, Chaoqun; Canadell, Josep G.; Davidson, Eric A.; Jackson, Robert B.; Arneth, Almut; Chang, Jinfeng; Ciais, Philippe; Gerber, Stefan; Ito, Akihiko; Joos, Fortunat; Lienert, Sebastian; Messina, Palmira; Olin, Stefan; Pan, Shufen; Peng, Changhui; Saikawa, Eri; Thompson, Rona L.; Vuichard, Nicolas; Winiwarter, Wilfried; Zaehle, Sönke; Zhang, Bowen

doi:10.1111/gcb.14514

Cited by 243 publications

(201 citation statements)

References 141 publications

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“…China is a large country with contrasting crop production systems, climate, and soil types, where the patterns of N 2 O emissions are poorly understood compared to some developed countries (Yue et al, ; Zhou et al, ; Zou, Lu, & Huang, ). In the last decade, process‐based models (e.g., DNDC, DAYCENT, DLEM), used to produce Tier 3 IPCC estimates, simulated global and regional cropland‐N 2 O emissions using subnational N inputs from China (Li et al, ; Tian et al, ; Yue et al, ). These models are arguably more realistic than the Tier 1 approach because they account for climatic and soil variabilities.…”

Section: Introductionmentioning

confidence: 99%

“…These models are arguably more realistic than the Tier 1 approach because they account for climatic and soil variabilities. Although multimodel ensemble may reduce some errors across individual models through a broader integration of model processes (Tian et al, ), these individual models have rarely been validated by observations across contrasting environmental and management‐related conditions (Ehrhardt et al, ), leading to large uncertainties not only in estimating emission trends, but also in identifying underlying drivers.…”

Section: Introductionmentioning

confidence: 99%

“…agricultural management, agricultural soils, emission inventory, flux upscaling, land surface model, nitrous oxide, policy analysis, temporal trend used to produce Tier 3 IPCC estimates, simulated global and regional cropland-N 2 O emissions using subnational N inputs from China (Li et al, 2001;Tian et al, 2019;Yue et al, 2019). These models are arguably more realistic than the Tier 1 approach because they account for climatic and soil variabilities.…”

Section: Introductionmentioning

confidence: 99%

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Weakened growth of cropland‐N₂O emissions in China associated with nationwide policy interventions

Shang

Zhou

Smith

et al. 2019

Global Change Biology

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China has experienced rapid agricultural development over recent decades, accompanied by increased fertilizer consumption in croplands; yet, the trend and drivers of the associated nitrous oxide (N2O) emissions remain uncertain. The primary sources of this uncertainty are the coarse spatial variation of activity data and the incomplete model representation of N2O emissions in response to agricultural management. Here, we provide new data‐driven estimates of cropland‐N2O emissions across China in 1990–2014, compiled using a global cropland‐N2O flux observation dataset, nationwide survey‐based reconstruction of N‐fertilization and irrigation, and an updated nonlinear model. In addition, we have evaluated the drivers behind changing cropland‐N2O patterns using an index decomposition analysis approach. We find that China's annual cropland‐N2O emissions increased on average by 11.2 Gg N/year2 (p < .001) from 1990 to 2003, after which emissions plateaued until 2014 (2.8 Gg N/year2, p = .02), consistent with the output from an ensemble of process‐based terrestrial biosphere models. The slowdown of the increase in cropland‐N2O emissions after 2003 was pervasive across two thirds of China's sowing areas. This change was mainly driven by the nationwide reduction in N‐fertilizer applied per area, partially due to the prevalence of nationwide technological adoptions. This reduction has almost offset the N2O emissions induced by policy‐driven expansion of sowing areas, particularly in the Northeast Plain and the lower Yangtze River Basin. Our results underline the importance of high‐resolution activity data and adoption of nonlinear model of N2O emission for capturing cropland‐N2O emission changes. Improving the representation of policy interventions is also recommended for future projections.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Weakened growth of cropland‐N₂O emissions in China associated with nationwide policy interventions

Shang

Zhou

Smith

et al. 2019

Global Change Biology

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“…Quantifying these uncertainties is complex due to the variety of N forms and microbial processes that need to be considered (Butterbach‐Bahl et al, ; Davidson, ). In addition, climate, soil conditions, vegetation type, and soil management practices (fertilization and manure application) can modify N 2 O fluxes due to complex interactions among different environmental factors resulting in large temporal and spatial variations (Bouwman et al, ; Ehrhardt et al, ; Tian et al, ). One of the largest uncertainty sources for N 2 O fluxes comes from management practices that includes livestock excreta N deposition in pasturelands and rangelands and manure/fertilizer N application in pasturelands (Steinfeld, Gerber, et al, ; Tubiello et al, ).…”

Section: Discussionmentioning

confidence: 99%

“…and intensities (different levels of fertilizer/manure N input). In addition, as process‐based models that simulate N 2 O emissions at subdaily and daily time step are becoming increasingly available (Tian et al, ), model intercomparison of N 2 O fluxes at different experimental sites (Ehrhardt et al, ) and application of such models at regional and global scales (Tian et al, ) can help to constrain global estimates of N 2 O emissions and reduce uncertainties due to model structure and their internal variability. Both experimental studies and process‐based model intercomparison are required not only to constrain current estimates of N 2 O fluxes but also to simulate variations in future emissions in response to different climate and land use/management scenarios.…”

Section: Discussionmentioning

confidence: 99%

Global Nitrous Oxide Emissions From Pasturelands and Rangelands: Magnitude, Spatiotemporal Patterns, and Attribution

Dangal

Tian

et al. 2019

Global Biogeochemical Cycles

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The application of manure and mineral nitrogen (N) fertilizer, and livestock excreta deposition are the main drivers of nitrous oxide (N2O) emissions in agricultural systems. However, the magnitude and spatiotemporal variations of N2O emissions due to different management practices (excreta deposition and manure/fertilizer application) from grassland ecosystems remain unclear. In this study, we used the Dynamic Land Ecosystem Model to simulate the spatiotemporal variation in global N2O emissions and their attribution to different sources from both intensively managed (pasturelands) and extensively managed (rangelands) grasslands during 1961–2014. Over the study period, pasturelands and rangelands experienced a significant increase in N2O emissions from 1.74 Tg N2O‐N in 1961 to 3.11 Tg N2O‐N in 2014 (p < 0.05). Globally, pasturelands and rangelands were responsible for 54% (2.2 Tg N2O‐N) of the total agricultural N2O emissions (4.1 Tg N2O‐N) in 2006. Natural and anthropogenic sources contributed 26% (0.64 Tg N2O‐N/year) and 74% (1.78 Tg N2O‐N/year) of the net emissions, respectively. Across different biomes, pasturelands (i.e., C3 and C4) were the single largest contributor to N2O fluxes, accounting for 86% of the net global emissions from grasslands. Among different sources, livestock excreta deposition contributed 54% of the net emissions, followed by manure N (13%) and mineral N (7%) application. Regionally, southern Asia contributed 38% of the total emissions, followed by Europe (29%) and North America (16%). Our modeling study demonstrates that livestock excreta deposition and manure/fertilizer application have dramatically altered the N cycle in pasturelands, with a substantial impact on the climate system.

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Nitrogen‐fixing trees increase soil nitrous oxide emissions: a meta‐analysis

Kou‐Giesbrecht

Menge

2021

Ecology

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Nitrogen-fixing trees are an important nitrogen source to terrestrial ecosystems. While they can fuel primary production and drive carbon dioxide sequestration, they can also potentially stimulate soil emissions of nitrous oxide, a potent greenhouse gas. However, studies on the influence of nitrogen-fixing trees on soil nitrous oxide emissions have not been quantitatively synthesised.Here, we show in a meta-analysis that nitrogen-fixing trees more than double soil nitrous oxide emissions relative to non-fixing trees and soils. If planted in reforestation projects at the global scale, nitrogen-fixing trees could increase global soil nitrous oxide emissions from natural terrestrial ecosystems by up to 4.1%, offsetting climate change mitigation via reforestation by up to 4.4%.

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Global soil nitrous oxide emissions since the preindustrial era estimated by an ensemble of terrestrial biosphere models: Magnitude, attribution, and uncertainty

Cited by 243 publications

References 141 publications

Weakened growth of cropland‐N₂O emissions in China associated with nationwide policy interventions

Weakened growth of cropland‐N₂O emissions in China associated with nationwide policy interventions

Global Nitrous Oxide Emissions From Pasturelands and Rangelands: Magnitude, Spatiotemporal Patterns, and Attribution

Nitrogen‐fixing trees increase soil nitrous oxide emissions: a meta‐analysis

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Global soil nitrous oxide emissions since the preindustrial era estimated by an ensemble of terrestrial biosphere models: Magnitude, attribution, and uncertainty

Cited by 243 publications

References 141 publications

Weakened growth of cropland‐N2O emissions in China associated with nationwide policy interventions

Weakened growth of cropland‐N2O emissions in China associated with nationwide policy interventions

Global Nitrous Oxide Emissions From Pasturelands and Rangelands: Magnitude, Spatiotemporal Patterns, and Attribution

Nitrogen‐fixing trees increase soil nitrous oxide emissions: a meta‐analysis

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Weakened growth of cropland‐N₂O emissions in China associated with nationwide policy interventions

Weakened growth of cropland‐N₂O emissions in China associated with nationwide policy interventions