Attenuation of Methane Oxidation by Nitrogen Availability in Arctic Tundra Soils

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Attenuation of Methane Oxidation by Nitrogen Availability in Arctic Tundra Soils. / Lee, Jaehyun; Yun, Jeongeun; Yang, Yerang et al.
Yn: Environmental Science and Technology, Cyfrol 57, Rhif 6, 14.02.2023, t. 2647-2659.

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

HarvardHarvard

Lee, J, Yun, J, Yang, Y, Jung, JY, Lee, YK, Yuan, J, Ding, W, Freeman, C & Kang, H 2023, 'Attenuation of Methane Oxidation by Nitrogen Availability in Arctic Tundra Soils', Environmental Science and Technology, cyfrol. 57, rhif 6, tt. 2647-2659. https://doi.org/10.1021/acs.est.2c05228

APA

Lee, J., Yun, J., Yang, Y., Jung, J. Y., Lee, Y. K., Yuan, J., Ding, W., Freeman, C., & Kang, H. (2023). Attenuation of Methane Oxidation by Nitrogen Availability in Arctic Tundra Soils. Environmental Science and Technology, 57(6), 2647-2659. https://doi.org/10.1021/acs.est.2c05228

CBE

Lee J, Yun J, Yang Y, Jung JY, Lee YK, Yuan J, Ding W, Freeman C, Kang H. 2023. Attenuation of Methane Oxidation by Nitrogen Availability in Arctic Tundra Soils. Environmental Science and Technology. 57(6):2647-2659. https://doi.org/10.1021/acs.est.2c05228

MLA

Lee, Jaehyun et al. "Attenuation of Methane Oxidation by Nitrogen Availability in Arctic Tundra Soils". Environmental Science and Technology. 2023, 57(6). 2647-2659. https://doi.org/10.1021/acs.est.2c05228

VancouverVancouver

Lee J, Yun J, Yang Y, Jung JY, Lee YK, Yuan J et al. Attenuation of Methane Oxidation by Nitrogen Availability in Arctic Tundra Soils. Environmental Science and Technology. 2023 Chw 14;57(6):2647-2659. Epub 2023 Ion 31. doi: 10.1021/acs.est.2c05228

Author

Lee, Jaehyun ; Yun, Jeongeun ; Yang, Yerang et al. / Attenuation of Methane Oxidation by Nitrogen Availability in Arctic Tundra Soils. Yn: Environmental Science and Technology. 2023 ; Cyfrol 57, Rhif 6. tt. 2647-2659.

RIS

TY - JOUR

T1 - Attenuation of Methane Oxidation by Nitrogen Availability in Arctic Tundra Soils

AU - Lee, Jaehyun

AU - Yun, Jeongeun

AU - Yang, Yerang

AU - Jung, Ji Young

AU - Lee, Yoo Kyung

AU - Yuan, Junji

AU - Ding, Weixin

AU - Freeman, Chris

AU - Kang, Hojeong

PY - 2023/2/14

Y1 - 2023/2/14

N2 - CH4 emission in the Arctic has large uncertainty due to the lack of mechanistic understanding of the processes. CH4 oxidation in Arctic soil plays a critical role in the process, whereby removal of up to 90% of CH4 produced in soils by methanotrophs can occur before it reaches the atmosphere. Previous studies have reported on the importance of rising temperatures in CH4 oxidation, but because the Arctic is typically an N-limited system, fewer studies on the effects of inorganic nitrogen (N) have been reported. However, climate change and an increase of available N caused by anthropogenic activities have recently been reported, which may cause a drastic change in CH4 oxidation in Arctic soils. In this study, we demonstrate that excessive levels of available N in soil cause an increase in net CH4 emissions via the reduction of CH4 oxidation in surface soil in the Arctic tundra. In vitro experiments suggested that N in the form of NO3- is responsible for the decrease in CH4 oxidation via influencing soil bacterial and methanotrophic communities. The findings of our meta-analysis suggest that CH4 oxidation in the boreal biome is more susceptible to the addition of N than in other biomes. We provide evidence that CH4 emissions in Arctic tundra can be enhanced by an increase of available N, with profound implications for modeling CH4 dynamics in Arctic regions.

AB - CH4 emission in the Arctic has large uncertainty due to the lack of mechanistic understanding of the processes. CH4 oxidation in Arctic soil plays a critical role in the process, whereby removal of up to 90% of CH4 produced in soils by methanotrophs can occur before it reaches the atmosphere. Previous studies have reported on the importance of rising temperatures in CH4 oxidation, but because the Arctic is typically an N-limited system, fewer studies on the effects of inorganic nitrogen (N) have been reported. However, climate change and an increase of available N caused by anthropogenic activities have recently been reported, which may cause a drastic change in CH4 oxidation in Arctic soils. In this study, we demonstrate that excessive levels of available N in soil cause an increase in net CH4 emissions via the reduction of CH4 oxidation in surface soil in the Arctic tundra. In vitro experiments suggested that N in the form of NO3- is responsible for the decrease in CH4 oxidation via influencing soil bacterial and methanotrophic communities. The findings of our meta-analysis suggest that CH4 oxidation in the boreal biome is more susceptible to the addition of N than in other biomes. We provide evidence that CH4 emissions in Arctic tundra can be enhanced by an increase of available N, with profound implications for modeling CH4 dynamics in Arctic regions.

KW - Soil

KW - Nitrogen/analysis

KW - Methane/analysis

KW - Tundra

KW - Ecosystem

KW - Arctic Regions

KW - Soil Microbiology

U2 - 10.1021/acs.est.2c05228

DO - 10.1021/acs.est.2c05228

M3 - Article

C2 - 36719133

VL - 57

SP - 2647

EP - 2659

JO - Environmental Science and Technology

JF - Environmental Science and Technology

SN - 0013-936X

IS - 6

ER -