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Increased nitrous oxide emissions from global lakes and reservoirs since the pre-industrial era.

Ya LiHanqin TianYuanzhi YaoHao ShiZihao BianYu ShiSiyuan WangTaylor MaavaraRonny LauerwaldShufen Pan
Published in: Nature communications (2024)
Lentic systems (lakes and reservoirs) are emission hotpots of nitrous oxide (N 2 O), a potent greenhouse gas; however, this has not been well quantified yet. Here we examine how multiple environmental forcings have affected N 2 O emissions from global lentic systems since the pre-industrial period. Our results show that global lentic systems emitted 64.6 ± 12.1 Gg N 2 O-N yr -1 in the 2010s, increased by 126% since the 1850s. The significance of small lentic systems on mitigating N 2 O emissions is highlighted due to their substantial emission rates and response to terrestrial environmental changes. Incorporated with riverine emissions, this study indicates that N 2 O emissions from global inland waters in the 2010s was 319.6 ± 58.2 Gg N yr -1 . This suggests a global emission factor of 0.051% for inland water N 2 O emissions relative to agricultural nitrogen applications and provides the country-level emission factors (ranging from 0 to 0.341%) for improving the methodology for national greenhouse gas emission inventories.
Keyphrases
  • life cycle
  • municipal solid waste
  • heavy metals
  • solid state
  • risk assessment
  • climate change