Nitrogen-induced acidification plays a vital role driving ecosystem functions: Insights from a 6-year nitrogen enrichment experiment in a Tibetan alpine meadow

Anthropogenic nitrogen (N) input has overtaken natural N fixation as the leading source of reactive N, and can profoundly alter the structure and functions of terrestrial ecosystems. N input impacts ecosystem functions through altering abiotic (e.g., soil nutrients and pH) and biotic (e.g., biologic...

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Vydané v:	Soil biology & biochemistry Ročník 153; s. 108107
Hlavní autori:	Yang, Fei, Zhang, Zhilong, Barberán, Albert, Yang, Yi, Hu, Shuijin, Guo, Hui
Médium:	Journal Article
Jazyk:	English
Vydavateľské údaje:	Elsevier Ltd 01.02.2021
Predmet:	acidification alpine meadows community structure Ecosystem functions N enrichment nitrogen nitrogen fixation Plant communities Soil microbial communities soil pH Soil properties Tibetan plateau Plant communities Soil microbial communities Tibetan plateau Soil properties N enrichment Ecosystem functions
ISSN:	0038-0717, 1879-3428
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Abstract	Anthropogenic nitrogen (N) input has overtaken natural N fixation as the leading source of reactive N, and can profoundly alter the structure and functions of terrestrial ecosystems. N input impacts ecosystem functions through altering abiotic (e.g., soil nutrients and pH) and biotic (e.g., biological community composition) properties, but the relative importance of these abiotic and biotic effects remains largely unknown. We conducted a 6-year experiment of N manipulations (0, 5, 10, and 20 g N m−2 yr−1) in a Tibetan alpine meadow to assess N-induced abiotic and biotic effects on ecosystem functions. A complementary experiment with acid additions (0, 0.66, 2.65, 4.63, and 7.28 mol H+ m−2 yr−1) was also carried out to examine the direct impact of acidification. We found that N enrichment significantly increased plant productivity but decreased soil microbial respiration. While the increased productivity was associated with increased N availability, the reduction in soil microbial respiration was mainly explained by the decreased soil pH. In the acid addition experiment, enhanced soil acidity due to the increased proton concentration significantly reduced soil microbial respiration. These results indicate that N-induced changes in soil pH represent an important mechanism driving the ecosystem functions, suggesting that N-induced acidification should receive more attention for understanding and predicting ecosystem services under future N-enrichment scenarios. [Display omitted] •N input promoted productivity via increased N nutrient.•Soil pH explained most of the reduced soil microbial respiration under N enrichment.•N-induced acidification played a vital role in ecosystem functions.
AbstractList	Anthropogenic nitrogen (N) input has overtaken natural N fixation as the leading source of reactive N, and can profoundly alter the structure and functions of terrestrial ecosystems. N input impacts ecosystem functions through altering abiotic (e.g., soil nutrients and pH) and biotic (e.g., biological community composition) properties, but the relative importance of these abiotic and biotic effects remains largely unknown. We conducted a 6-year experiment of N manipulations (0, 5, 10, and 20 g N m⁻² yr⁻¹) in a Tibetan alpine meadow to assess N-induced abiotic and biotic effects on ecosystem functions. A complementary experiment with acid additions (0, 0.66, 2.65, 4.63, and 7.28 mol H⁺ m⁻² yr⁻¹) was also carried out to examine the direct impact of acidification. We found that N enrichment significantly increased plant productivity but decreased soil microbial respiration. While the increased productivity was associated with increased N availability, the reduction in soil microbial respiration was mainly explained by the decreased soil pH. In the acid addition experiment, enhanced soil acidity due to the increased proton concentration significantly reduced soil microbial respiration. These results indicate that N-induced changes in soil pH represent an important mechanism driving the ecosystem functions, suggesting that N-induced acidification should receive more attention for understanding and predicting ecosystem services under future N-enrichment scenarios. Anthropogenic nitrogen (N) input has overtaken natural N fixation as the leading source of reactive N, and can profoundly alter the structure and functions of terrestrial ecosystems. N input impacts ecosystem functions through altering abiotic (e.g., soil nutrients and pH) and biotic (e.g., biological community composition) properties, but the relative importance of these abiotic and biotic effects remains largely unknown. We conducted a 6-year experiment of N manipulations (0, 5, 10, and 20 g N m−2 yr−1) in a Tibetan alpine meadow to assess N-induced abiotic and biotic effects on ecosystem functions. A complementary experiment with acid additions (0, 0.66, 2.65, 4.63, and 7.28 mol H+ m−2 yr−1) was also carried out to examine the direct impact of acidification. We found that N enrichment significantly increased plant productivity but decreased soil microbial respiration. While the increased productivity was associated with increased N availability, the reduction in soil microbial respiration was mainly explained by the decreased soil pH. In the acid addition experiment, enhanced soil acidity due to the increased proton concentration significantly reduced soil microbial respiration. These results indicate that N-induced changes in soil pH represent an important mechanism driving the ecosystem functions, suggesting that N-induced acidification should receive more attention for understanding and predicting ecosystem services under future N-enrichment scenarios. [Display omitted] •N input promoted productivity via increased N nutrient.•Soil pH explained most of the reduced soil microbial respiration under N enrichment.•N-induced acidification played a vital role in ecosystem functions.
ArticleNumber	108107
Author	Guo, Hui Yang, Fei Zhang, Zhilong Barberán, Albert Yang, Yi Hu, Shuijin
Author_xml	– sequence: 1 givenname: Fei surname: Yang fullname: Yang, Fei organization: College of Resources and Environmental Sciences, Nanjing Agricultural University, Nanjing, Jiangsu, 210095, China – sequence: 2 givenname: Zhilong orcidid: 0000-0001-9276-4304 surname: Zhang fullname: Zhang, Zhilong organization: College of Resources and Environmental Sciences, Nanjing Agricultural University, Nanjing, Jiangsu, 210095, China – sequence: 3 givenname: Albert orcidid: 0000-0002-3066-7530 surname: Barberán fullname: Barberán, Albert organization: Department of Environmental Science, The University of Arizona, Tucson, AZ, 85719, USA – sequence: 4 givenname: Yi surname: Yang fullname: Yang, Yi organization: College of Resources and Environmental Sciences, Nanjing Agricultural University, Nanjing, Jiangsu, 210095, China – sequence: 5 givenname: Shuijin surname: Hu fullname: Hu, Shuijin organization: College of Resources and Environmental Sciences, Nanjing Agricultural University, Nanjing, Jiangsu, 210095, China – sequence: 6 givenname: Hui surname: Guo fullname: Guo, Hui email: hui.guo@njau.edu.cn organization: College of Resources and Environmental Sciences, Nanjing Agricultural University, Nanjing, Jiangsu, 210095, China
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Snippet	Anthropogenic nitrogen (N) input has overtaken natural N fixation as the leading source of reactive N, and can profoundly alter the structure and functions of...
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SubjectTerms	acidification alpine meadows community structure Ecosystem functions N enrichment nitrogen nitrogen fixation Plant communities Soil microbial communities soil pH Soil properties Tibetan plateau
Title	Nitrogen-induced acidification plays a vital role driving ecosystem functions: Insights from a 6-year nitrogen enrichment experiment in a Tibetan alpine meadow
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