The effect of nitrogen deposition rather than warming on carbon flux in alpine meadows depends on precipitation variations

Uncertainties remain regarding the effects of climate warming and increasing nitrogen (N) deposition on greenhouse gas (GHG) flux in alpine grasslands due to a lack of knowledge about how hydrological characteristics control GHG fluxes. Therefore, a simulated warming and N fertilization experiment w...

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Published in:Ecological Engineering
Main Authors: Chen, Xiaopeng, Wang, Genxu, Huang, Kewei, Hu, Zhaoyong, Song, Chunlin, Liang, Yiming, Wang, Jian, Song, Xiaoyan, Lin, Shan
Format: Article in Journal/Newspaper
Language:English
Published: 2017
Subjects:
Simulated Warming
Nitrogen Addition
Greenhouse Gas
Precipitation Variation
Wetland
Science & Technology
Life Sciences & Biomedicine
Technology
Environmental Sciences & Ecology
Engineering
QINGHAI-TIBETAN PLATEAU
N2O FLUXES
PERMAFROST REGION
SOIL RESPIRATION
CLIMATE-CHANGE
TEMPERATURE SENSITIVITY
ECOSYSTEM RESPIRATION
GROWING SEASONS
TERM NITROGEN
N-DEPOSITION
Ecology
Environmental
Environmental Sciences
permafrost
Online Access:http://ir.imde.ac.cn/handle/131551/19106
https://doi.org/10.1016/j.ecoleng.2017.07.018
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spelling ftchinacadscimhe:oai:ir.imde.ac.cn:131551/19106 2023-05-15T17:58:17+02:00 The effect of nitrogen deposition rather than warming on carbon flux in alpine meadows depends on precipitation variations Chen, Xiaopeng Wang, Genxu Huang, Kewei Hu, Zhaoyong Song, Chunlin Liang, Yiming Wang, Jian Song, Xiaoyan Lin, Shan 2017 http://ir.imde.ac.cn/handle/131551/19106 https://doi.org/10.1016/j.ecoleng.2017.07.018 英语 eng ECOLOGICAL ENGINEERING Chen, Xiaopeng,Wang, Genxu,Huang, Kewei,et al. The effect of nitrogen deposition rather than warming on carbon flux in alpine meadows depends on precipitation variations[J]. ECOLOGICAL ENGINEERING,2017,107:183-191. http://ir.imde.ac.cn/handle/131551/19106 doi:10.1016/j.ecoleng.2017.07.018 Simulated Warming Nitrogen Addition Greenhouse Gas Precipitation Variation Wetland Science & Technology Life Sciences & Biomedicine Technology Environmental Sciences & Ecology Engineering QINGHAI-TIBETAN PLATEAU N2O FLUXES PERMAFROST REGION SOIL RESPIRATION CLIMATE-CHANGE TEMPERATURE SENSITIVITY ECOSYSTEM RESPIRATION GROWING SEASONS TERM NITROGEN N-DEPOSITION Ecology Environmental Environmental Sciences Article 期刊论文 2017 ftchinacadscimhe https://doi.org/10.1016/j.ecoleng.2017.07.018 2022-12-19T18:20:15Z Uncertainties remain regarding the effects of climate warming and increasing nitrogen (N) deposition on greenhouse gas (GHG) flux in alpine grasslands due to a lack of knowledge about how hydrological characteristics control GHG fluxes. Therefore, a simulated warming and N fertilization experiment was conducted in a non-wetland (alpine meadow, AM) and a wetland (alpine swamp meadow, SM). We measured and analysed the key GHG fluxes (ecosystem respiration [Re], CH4 and N2O) of each treatment during two contrasting hydrological growing seasons. The results showed that: (i) warming increased the Re in both the AM and SM, warming increased the CH4 uptake in the AM but had no effect in the SM, and warming increased the N2O emissions from the AM and resulted in a change of the SM from a N2O sink into a source; (ii) N fertilization decreased the Re of the AM during the dry growing season and of the SM during the wet growing season, increased the CH4 uptake of the AM during the dry growing season, and had no effect on the CH4 and N2O fluxes of the SM; and (iii) the interaction between warming and N fertilization increased the CH4 uptake of the AM over the two growing seasons while increasing the CH4 uptake and N2O emissions of the SM during the dry growing season. Our results suggest that (i) the GHG flux of wetland ecosystems is more sensitive to precipitation variations than that of non-wetlands and (ii) precipitation controls the carbon (Re and CH4) flux response to increasing N deposition of these alpine meadows. (C) 2017 Elsevier B.V. All rights reserved. Article in Journal/Newspaper permafrost IMHE OpenIR (Institute of Mountain Hazards and Environment, Chinese Academy of Sciences) Ecological Engineering 107 183 191
institution Open Polar
collection IMHE OpenIR (Institute of Mountain Hazards and Environment, Chinese Academy of Sciences)
op_collection_id ftchinacadscimhe
language English
topic Simulated Warming
Nitrogen Addition
Greenhouse Gas
Precipitation Variation
Wetland
Science & Technology
Life Sciences & Biomedicine
Technology
Environmental Sciences & Ecology
Engineering
QINGHAI-TIBETAN PLATEAU
N2O FLUXES
PERMAFROST REGION
SOIL RESPIRATION
CLIMATE-CHANGE
TEMPERATURE SENSITIVITY
ECOSYSTEM RESPIRATION
GROWING SEASONS
TERM NITROGEN
N-DEPOSITION
Ecology
Environmental
Environmental Sciences
spellingShingle Simulated Warming
Nitrogen Addition
Greenhouse Gas
Precipitation Variation
Wetland
Science & Technology
Life Sciences & Biomedicine
Technology
Environmental Sciences & Ecology
Engineering
QINGHAI-TIBETAN PLATEAU
N2O FLUXES
PERMAFROST REGION
SOIL RESPIRATION
CLIMATE-CHANGE
TEMPERATURE SENSITIVITY
ECOSYSTEM RESPIRATION
GROWING SEASONS
TERM NITROGEN
N-DEPOSITION
Ecology
Environmental
Environmental Sciences
Chen, Xiaopeng
Wang, Genxu
Huang, Kewei
Hu, Zhaoyong
Song, Chunlin
Liang, Yiming
Wang, Jian
Song, Xiaoyan
Lin, Shan
The effect of nitrogen deposition rather than warming on carbon flux in alpine meadows depends on precipitation variations
topic_facet Simulated Warming
Nitrogen Addition
Greenhouse Gas
Precipitation Variation
Wetland
Science & Technology
Life Sciences & Biomedicine
Technology
Environmental Sciences & Ecology
Engineering
QINGHAI-TIBETAN PLATEAU
N2O FLUXES
PERMAFROST REGION
SOIL RESPIRATION
CLIMATE-CHANGE
TEMPERATURE SENSITIVITY
ECOSYSTEM RESPIRATION
GROWING SEASONS
TERM NITROGEN
N-DEPOSITION
Ecology
Environmental
Environmental Sciences
description Uncertainties remain regarding the effects of climate warming and increasing nitrogen (N) deposition on greenhouse gas (GHG) flux in alpine grasslands due to a lack of knowledge about how hydrological characteristics control GHG fluxes. Therefore, a simulated warming and N fertilization experiment was conducted in a non-wetland (alpine meadow, AM) and a wetland (alpine swamp meadow, SM). We measured and analysed the key GHG fluxes (ecosystem respiration [Re], CH4 and N2O) of each treatment during two contrasting hydrological growing seasons. The results showed that: (i) warming increased the Re in both the AM and SM, warming increased the CH4 uptake in the AM but had no effect in the SM, and warming increased the N2O emissions from the AM and resulted in a change of the SM from a N2O sink into a source; (ii) N fertilization decreased the Re of the AM during the dry growing season and of the SM during the wet growing season, increased the CH4 uptake of the AM during the dry growing season, and had no effect on the CH4 and N2O fluxes of the SM; and (iii) the interaction between warming and N fertilization increased the CH4 uptake of the AM over the two growing seasons while increasing the CH4 uptake and N2O emissions of the SM during the dry growing season. Our results suggest that (i) the GHG flux of wetland ecosystems is more sensitive to precipitation variations than that of non-wetlands and (ii) precipitation controls the carbon (Re and CH4) flux response to increasing N deposition of these alpine meadows. (C) 2017 Elsevier B.V. All rights reserved.
format Article in Journal/Newspaper
author Chen, Xiaopeng
Wang, Genxu
Huang, Kewei
Hu, Zhaoyong
Song, Chunlin
Liang, Yiming
Wang, Jian
Song, Xiaoyan
Lin, Shan
author_facet Chen, Xiaopeng
Wang, Genxu
Huang, Kewei
Hu, Zhaoyong
Song, Chunlin
Liang, Yiming
Wang, Jian
Song, Xiaoyan
Lin, Shan
author_sort Chen, Xiaopeng
title The effect of nitrogen deposition rather than warming on carbon flux in alpine meadows depends on precipitation variations
title_short The effect of nitrogen deposition rather than warming on carbon flux in alpine meadows depends on precipitation variations
title_full The effect of nitrogen deposition rather than warming on carbon flux in alpine meadows depends on precipitation variations
title_fullStr The effect of nitrogen deposition rather than warming on carbon flux in alpine meadows depends on precipitation variations
title_full_unstemmed The effect of nitrogen deposition rather than warming on carbon flux in alpine meadows depends on precipitation variations
title_sort effect of nitrogen deposition rather than warming on carbon flux in alpine meadows depends on precipitation variations
publishDate 2017
url http://ir.imde.ac.cn/handle/131551/19106
https://doi.org/10.1016/j.ecoleng.2017.07.018
genre permafrost
genre_facet permafrost
op_relation ECOLOGICAL ENGINEERING
Chen, Xiaopeng,Wang, Genxu,Huang, Kewei,et al. The effect of nitrogen deposition rather than warming on carbon flux in alpine meadows depends on precipitation variations[J]. ECOLOGICAL ENGINEERING,2017,107:183-191.
http://ir.imde.ac.cn/handle/131551/19106
doi:10.1016/j.ecoleng.2017.07.018
op_doi https://doi.org/10.1016/j.ecoleng.2017.07.018
container_title Ecological Engineering
container_volume 107
container_start_page 183
op_container_end_page 191
_version_ 1766166859050123264

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