Nitrogen deposition mitigates long-term phosphorus input-induced stimulative effects on soil respiration in a tropical forest

•Long-term phosphorus input enhanced soil respiration (RS) and heterotrophic respiration (RH)•Nitrogen deposition mitigated the stimulative effect of phosphorus input on RS by reducing RH.•Long-term phosphorus input decreased autotrophic respiration (RA) by reducing plant litter input.•Nitrogen depo...

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Published inGeoderma Vol. 453; p. 117142
Main Authors Huang, Xingyun, Li, Yingwen, Yu, Shiqin, Cui, Yongxing, Guan, Fangyuan, Li, Yongxing, Wu, Jingtao, Hu, Yang, Li, Zhian, Zhuang, Ping, Zou, Bi, Qin, Guoming, Zhang, Jingfan, Zhou, Jinge, Ding, Ruyi, Wang, Faming
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.01.2025
Elsevier
Subjects
Microbial respiration
N deposition
P input
Root respiration
Soil respiration
P input
Soil respiration
N deposition
Root respiration
Microbial respiration
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Abstract •Long-term phosphorus input enhanced soil respiration (RS) and heterotrophic respiration (RH)•Nitrogen deposition mitigated the stimulative effect of phosphorus input on RS by reducing RH.•Long-term phosphorus input decreased autotrophic respiration (RA) by reducing plant litter input.•Nitrogen deposition mitigated RH by decreasing plant litter, carbon quality, and fungi biomass. Atmospheric nitrogen (N) deposition and anthropogenic phosphorus (P) input simultaneously affect soil respiration (RS), a crucial process that mediates soil carbon (C) cycling. However, the interaction of N deposition and anthropogenic P input on RS, as well as its components—autotrophic respiration (RA) and heterotrophic respiration (RH)—remain largely unexplored. Herein, we conducted an 8-year field experiment with N and P additions in a tropical secondary forest, integrating the vegetation traits, soil physicochemical properties, organic C fractions, and microbial properties, to explore the effects of nutrient inputs and their interactions on RS, RA, and RH. Over eight years, along P input significantly increased RS by 19.2% and RH by 42.1%. These increases were partially mitigated (by 33.2% annually for RS and 58.3% annually for RH) with the addition of N. In contrast, the co-addition of N and P enhanced RA compared to alone N or P addition, suggesting that N deposition mitigated the stimulative effect of P input on RS by reducing RH rather than RA. The structural equation model further revealed that N deposition reduced RH primarily by increasing soil N:P ratio and decreasing both the labile C fraction and fungi biomass. Our findings suggest that prevalent N deposition across low latitudes could have substantially mitigate C emissions from forest soils under anthropogenic P input.
AbstractList Atmospheric nitrogen (N) deposition and anthropogenic phosphorus (P) input simultaneously affect soil respiration (RS), a crucial process that mediates soil carbon (C) cycling. However, the interaction of N deposition and anthropogenic P input on RS, as well as its components—autotrophic respiration (RA) and heterotrophic respiration (RH)—remain largely unexplored. Herein, we conducted an 8-year field experiment with N and P additions in a tropical secondary forest, integrating the vegetation traits, soil physicochemical properties, organic C fractions, and microbial properties, to explore the effects of nutrient inputs and their interactions on RS, RA, and RH. Over eight years, along P input significantly increased RS by 19.2% and RH by 42.1%. These increases were partially mitigated (by 33.2% annually for RS and 58.3% annually for RH) with the addition of N. In contrast, the co-addition of N and P enhanced RA compared to alone N or P addition, suggesting that N deposition mitigated the stimulative effect of P input on RS by reducing RH rather than RA. The structural equation model further revealed that N deposition reduced RH primarily by increasing soil N:P ratio and decreasing both the labile C fraction and fungi biomass. Our findings suggest that prevalent N deposition across low latitudes could have substantially mitigate C emissions from forest soils under anthropogenic P input.
•Long-term phosphorus input enhanced soil respiration (RS) and heterotrophic respiration (RH)•Nitrogen deposition mitigated the stimulative effect of phosphorus input on RS by reducing RH.•Long-term phosphorus input decreased autotrophic respiration (RA) by reducing plant litter input.•Nitrogen deposition mitigated RH by decreasing plant litter, carbon quality, and fungi biomass. Atmospheric nitrogen (N) deposition and anthropogenic phosphorus (P) input simultaneously affect soil respiration (RS), a crucial process that mediates soil carbon (C) cycling. However, the interaction of N deposition and anthropogenic P input on RS, as well as its components—autotrophic respiration (RA) and heterotrophic respiration (RH)—remain largely unexplored. Herein, we conducted an 8-year field experiment with N and P additions in a tropical secondary forest, integrating the vegetation traits, soil physicochemical properties, organic C fractions, and microbial properties, to explore the effects of nutrient inputs and their interactions on RS, RA, and RH. Over eight years, along P input significantly increased RS by 19.2% and RH by 42.1%. These increases were partially mitigated (by 33.2% annually for RS and 58.3% annually for RH) with the addition of N. In contrast, the co-addition of N and P enhanced RA compared to alone N or P addition, suggesting that N deposition mitigated the stimulative effect of P input on RS by reducing RH rather than RA. The structural equation model further revealed that N deposition reduced RH primarily by increasing soil N:P ratio and decreasing both the labile C fraction and fungi biomass. Our findings suggest that prevalent N deposition across low latitudes could have substantially mitigate C emissions from forest soils under anthropogenic P input.
ArticleNumber 117142
Author Guan, Fangyuan
Li, Yingwen
Yu, Shiqin
Zhuang, Ping
Li, Yongxing
Qin, Guoming
Zhou, Jinge
Li, Zhian
Hu, Yang
Cui, Yongxing
Zhang, Jingfan
Ding, Ruyi
Wang, Faming
Wu, Jingtao
Huang, Xingyun
Zou, Bi
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  organization: Xiaoliang Research Station of Tropical Coastal Ecosystems, Key Laboratory of Vegetation Restoration and Management of Degraded Ecosystems, and Guangdong Provincial Key Laboratory of Applied Botany, South China Botanical Garden, Chinese Academy of Sciences, Guangzhou 510650, PR China
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  organization: Institute of Eco-environmental and Soil Sciences, Guangdong Academy of Sciences, Guangzhou 510650, PR China
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  givenname: Yongxing
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  organization: Institute of Biology, Freie Universität Berlin, Berlin 14195, Germany
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  givenname: Jingtao
  surname: Wu
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  organization: Research Center for Eco-Environmental Engineering, Dongguan University of Technology, Dongguan, 523808, PR China
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  givenname: Yang
  surname: Hu
  fullname: Hu, Yang
  organization: College of Natural Resources and Environment, Northwest A&F University, Yangling 712100, PR China
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  fullname: Li, Zhian
  organization: Xiaoliang Research Station of Tropical Coastal Ecosystems, Key Laboratory of Vegetation Restoration and Management of Degraded Ecosystems, and Guangdong Provincial Key Laboratory of Applied Botany, South China Botanical Garden, Chinese Academy of Sciences, Guangzhou 510650, PR China
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  surname: Zhuang
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  givenname: Bi
  surname: Zou
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– sequence: 12
  givenname: Guoming
  surname: Qin
  fullname: Qin, Guoming
  organization: Xiaoliang Research Station of Tropical Coastal Ecosystems, Key Laboratory of Vegetation Restoration and Management of Degraded Ecosystems, and Guangdong Provincial Key Laboratory of Applied Botany, South China Botanical Garden, Chinese Academy of Sciences, Guangzhou 510650, PR China
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  givenname: Jingfan
  surname: Zhang
  fullname: Zhang, Jingfan
  organization: Xiaoliang Research Station of Tropical Coastal Ecosystems, Key Laboratory of Vegetation Restoration and Management of Degraded Ecosystems, and Guangdong Provincial Key Laboratory of Applied Botany, South China Botanical Garden, Chinese Academy of Sciences, Guangzhou 510650, PR China
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  givenname: Jinge
  surname: Zhou
  fullname: Zhou, Jinge
  organization: Xiaoliang Research Station of Tropical Coastal Ecosystems, Key Laboratory of Vegetation Restoration and Management of Degraded Ecosystems, and Guangdong Provincial Key Laboratory of Applied Botany, South China Botanical Garden, Chinese Academy of Sciences, Guangzhou 510650, PR China
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  givenname: Ruyi
  surname: Ding
  fullname: Ding, Ruyi
  organization: Xiaoliang Research Station of Tropical Coastal Ecosystems, Key Laboratory of Vegetation Restoration and Management of Degraded Ecosystems, and Guangdong Provincial Key Laboratory of Applied Botany, South China Botanical Garden, Chinese Academy of Sciences, Guangzhou 510650, PR China
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  givenname: Faming
  orcidid: 0000-0002-7543-6779
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  email: wangfm@scbg.ac.cn
  organization: Xiaoliang Research Station of Tropical Coastal Ecosystems, Key Laboratory of Vegetation Restoration and Management of Degraded Ecosystems, and Guangdong Provincial Key Laboratory of Applied Botany, South China Botanical Garden, Chinese Academy of Sciences, Guangzhou 510650, PR China
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Keywords P input
Soil respiration
N deposition
Root respiration
Microbial respiration
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Snippet •Long-term phosphorus input enhanced soil respiration (RS) and heterotrophic respiration (RH)•Nitrogen deposition mitigated the stimulative effect of...
Atmospheric nitrogen (N) deposition and anthropogenic phosphorus (P) input simultaneously affect soil respiration (RS), a crucial process that mediates soil...
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SubjectTerms Microbial respiration
N deposition
P input
Root respiration
Soil respiration
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Title Nitrogen deposition mitigates long-term phosphorus input-induced stimulative effects on soil respiration in a tropical forest
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