Five years of simulated atmospheric nitrogen deposition have only subtle effects on the fate of newly synthesized carbon in Calluna vulgaris and Eriophorum vaginatum

To understand the implications of atmospheric nitrogen deposition on carbon turnover in peatlands, we conducted a 13C pulse labeling experiment on Calluna vulgaris and Eriophorum vaginatum already receiving long-term (5 years) amendments of 56 kg N ha−1 y−1 as ammonium or nitrate. We examined shoot...

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Veröffentlicht in:	Soil biology & biochemistry 2011-03, Vol.43 (3), p.495-502
Hauptverfasser:	Currey, Pauline M., Johnson, David, Dawson, Lorna A., van der Wal, René, Thornton, Barry, Sheppard, Lucy J., Leith, Ian D., Artz, Rebekka R.E.
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Sprache:	eng
Schlagworte:	Agronomy. Soil science and plant productions Biochemistry and biology Biological and medical sciences Calluna Calluna vulgaris Carbon allocation Chemical, physicochemical, biochemical and biological properties Eriophorum Eriophorum vaginatum Fundamental and applied biological sciences. Psychology Nitrogen deposition Peat Physics, chemistry, biochemistry and biology of agricultural and forest soils Pulse-chase labeling Soil science
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container_issue	3
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container_title	Soil biology & biochemistry
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creator	Currey, Pauline M. Johnson, David Dawson, Lorna A. van der Wal, René Thornton, Barry Sheppard, Lucy J. Leith, Ian D. Artz, Rebekka R.E.
description	To understand the implications of atmospheric nitrogen deposition on carbon turnover in peatlands, we conducted a 13C pulse labeling experiment on Calluna vulgaris and Eriophorum vaginatum already receiving long-term (5 years) amendments of 56 kg N ha−1 y−1 as ammonium or nitrate. We examined shoot tissue retention, net ecosystem respiration returns of the 13C pulse, and soil porewater DOC content under the two species. 13C fixation in Eriophorum leaves was enhanced with nitrogen addition and doubled with nitrate supply. This newly fixed C appeared to be relocated below-ground faster with nitrogen fertilization as respiration returns were unaffected by N inputs. By contrast, increases in 13C fixation were not observed in Calluna. Instead, net ecosystem respiration rates over Calluna increased with N fertilization. There was no significant label incorporation into DOC, suggesting a conservative strategy of peatland vegetation regarding allocation of C through root exudation. Greater concentrations of total DOC were identified with nitrate addition in Calluna. Given the long-term nature of the experiment and the high N inputs, the overall impacts of nitrogen amendments on the fate of recently synthesized C in Eriophorum and Calluna in this ombrotrophic peatland were surprisingly more moderate than originally hypothesized. This may be due to N being effectively retained within the bryophyte layer, thus limiting, and delaying the onset of, below-ground effects. ► We investigated the effect of long term N deposition on carbon turnover in peatlands. ► Carbon fixation was enhanced in Eriophorum vaginatum under N deposition. ► Ecosystem respiration of the fixed C was enhanced over Calluna vulgaris stands. ► Below-ground effects were moderate. ► This may be due to effective N retention in the bryophyte layer.
doi_str_mv	10.1016/j.soilbio.2010.11.003
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We examined shoot tissue retention, net ecosystem respiration returns of the 13C pulse, and soil porewater DOC content under the two species. 13C fixation in Eriophorum leaves was enhanced with nitrogen addition and doubled with nitrate supply. This newly fixed C appeared to be relocated below-ground faster with nitrogen fertilization as respiration returns were unaffected by N inputs. By contrast, increases in 13C fixation were not observed in Calluna. Instead, net ecosystem respiration rates over Calluna increased with N fertilization. There was no significant label incorporation into DOC, suggesting a conservative strategy of peatland vegetation regarding allocation of C through root exudation. Greater concentrations of total DOC were identified with nitrate addition in Calluna. Given the long-term nature of the experiment and the high N inputs, the overall impacts of nitrogen amendments on the fate of recently synthesized C in Eriophorum and Calluna in this ombrotrophic peatland were surprisingly more moderate than originally hypothesized. This may be due to N being effectively retained within the bryophyte layer, thus limiting, and delaying the onset of, below-ground effects. ► We investigated the effect of long term N deposition on carbon turnover in peatlands. ► Carbon fixation was enhanced in Eriophorum vaginatum under N deposition. ► Ecosystem respiration of the fixed C was enhanced over Calluna vulgaris stands. ► Below-ground effects were moderate. ► This may be due to effective N retention in the bryophyte layer.</description><identifier>ISSN: 0038-0717</identifier><identifier>EISSN: 1879-3428</identifier><identifier>DOI: 10.1016/j.soilbio.2010.11.003</identifier><identifier>CODEN: SBIOAH</identifier><language>eng</language><publisher>Amsterdam: Elsevier Ltd</publisher><subject>Agronomy. 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We examined shoot tissue retention, net ecosystem respiration returns of the 13C pulse, and soil porewater DOC content under the two species. 13C fixation in Eriophorum leaves was enhanced with nitrogen addition and doubled with nitrate supply. This newly fixed C appeared to be relocated below-ground faster with nitrogen fertilization as respiration returns were unaffected by N inputs. By contrast, increases in 13C fixation were not observed in Calluna. Instead, net ecosystem respiration rates over Calluna increased with N fertilization. There was no significant label incorporation into DOC, suggesting a conservative strategy of peatland vegetation regarding allocation of C through root exudation. Greater concentrations of total DOC were identified with nitrate addition in Calluna. Given the long-term nature of the experiment and the high N inputs, the overall impacts of nitrogen amendments on the fate of recently synthesized C in Eriophorum and Calluna in this ombrotrophic peatland were surprisingly more moderate than originally hypothesized. This may be due to N being effectively retained within the bryophyte layer, thus limiting, and delaying the onset of, below-ground effects. ► We investigated the effect of long term N deposition on carbon turnover in peatlands. ► Carbon fixation was enhanced in Eriophorum vaginatum under N deposition. ► Ecosystem respiration of the fixed C was enhanced over Calluna vulgaris stands. ► Below-ground effects were moderate. ► This may be due to effective N retention in the bryophyte layer.</description><subject>Agronomy. Soil science and plant productions</subject><subject>Biochemistry and biology</subject><subject>Biological and medical sciences</subject><subject>Calluna</subject><subject>Calluna vulgaris</subject><subject>Carbon allocation</subject><subject>Chemical, physicochemical, biochemical and biological properties</subject><subject>Eriophorum</subject><subject>Eriophorum vaginatum</subject><subject>Fundamental and applied biological sciences. 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We examined shoot tissue retention, net ecosystem respiration returns of the 13C pulse, and soil porewater DOC content under the two species. 13C fixation in Eriophorum leaves was enhanced with nitrogen addition and doubled with nitrate supply. This newly fixed C appeared to be relocated below-ground faster with nitrogen fertilization as respiration returns were unaffected by N inputs. By contrast, increases in 13C fixation were not observed in Calluna. Instead, net ecosystem respiration rates over Calluna increased with N fertilization. There was no significant label incorporation into DOC, suggesting a conservative strategy of peatland vegetation regarding allocation of C through root exudation. Greater concentrations of total DOC were identified with nitrate addition in Calluna. 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subjects	Agronomy. Soil science and plant productions Biochemistry and biology Biological and medical sciences Calluna Calluna vulgaris Carbon allocation Chemical, physicochemical, biochemical and biological properties Eriophorum Eriophorum vaginatum Fundamental and applied biological sciences. Psychology Nitrogen deposition Peat Physics, chemistry, biochemistry and biology of agricultural and forest soils Pulse-chase labeling Soil science
title	Five years of simulated atmospheric nitrogen deposition have only subtle effects on the fate of newly synthesized carbon in Calluna vulgaris and Eriophorum vaginatum
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