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Soil [N] modulates soil C cycling in CO2-fumigated tree stands: A meta-analysis

Research output: Journal contributionsJournal articlesResearchpeer-review

Standard

Soil [N] modulates soil C cycling in CO2-fumigated tree stands: A meta-analysis. / Dieleman, W. I.J.; Luyssaert, S.; Rey, A. et al.
In: Plant, Cell and Environment, Vol. 33, No. 12, 12.2010, p. 2001-2011.

Research output: Journal contributionsJournal articlesResearchpeer-review

Harvard

Dieleman, WIJ, Luyssaert, S, Rey, A, De Angelis, P, Barton, CVM, Broadmeadow, MSJ, Broadmeadow, SB, Chigwerewe, KS, Crookshanks, M, Dufrêne, E, Jarvis, PG, Kasurinen, A, Kellomäki, S, Le Dantec, V, Liberloo, M, Marek, M, Medlyn, B, Pokornỳ, R, Scarascia-Mugnozza, G, Temperton, VM, Tingey, D, Urban, O, Ceulemans, R & Janssens, IA 2010, 'Soil [N] modulates soil C cycling in CO2-fumigated tree stands: A meta-analysis', Plant, Cell and Environment, vol. 33, no. 12, pp. 2001-2011. https://doi.org/10.1111/j.1365-3040.2010.02201.x

APA

Dieleman, W. I. J., Luyssaert, S., Rey, A., De Angelis, P., Barton, C. V. M., Broadmeadow, M. S. J., Broadmeadow, S. B., Chigwerewe, K. S., Crookshanks, M., Dufrêne, E., Jarvis, P. G., Kasurinen, A., Kellomäki, S., Le Dantec, V., Liberloo, M., Marek, M., Medlyn, B., Pokornỳ, R., Scarascia-Mugnozza, G., ... Janssens, I. A. (2010). Soil [N] modulates soil C cycling in CO2-fumigated tree stands: A meta-analysis. Plant, Cell and Environment, 33(12), 2001-2011. https://doi.org/10.1111/j.1365-3040.2010.02201.x

Vancouver

Dieleman WIJ, Luyssaert S, Rey A, De Angelis P, Barton CVM, Broadmeadow MSJ et al. Soil [N] modulates soil C cycling in CO2-fumigated tree stands: A meta-analysis. Plant, Cell and Environment. 2010 Dec;33(12):2001-2011. doi: 10.1111/j.1365-3040.2010.02201.x

Bibtex

@article{01f66a2204384f4b99928dc1a90add10,
title = "Soil [N] modulates soil C cycling in CO2-fumigated tree stands: A meta-analysis",
abstract = "Under elevated atmospheric CO2 concentrations, soil carbon (C) inputs are typically enhanced, suggesting larger soil C sequestration potential. However, soil C losses also increase and progressive nitrogen (N) limitation to plant growth may reduce the CO2 effect on soil C inputs with time. We compiled a data set from 131 manipulation experiments, and used meta-analysis to test the hypotheses that: (1) elevated atmospheric CO2 stimulates soil C inputs more than C losses, resulting in increasing soil C stocks; and (2) that these responses are modulated by N. Our results confirm that elevated CO2 induces a C allocation shift towards below-ground biomass compartments. However, the increased soil C inputs were offset by increased heterotrophic respiration (Rh), such that soil C content was not affected by elevated CO2. Soil N concentration strongly interacted with CO2 fumigation: the effect of elevated CO2 on fine root biomass and -production and on microbial activity increased with increasing soil N concentration, while the effect on soil C content decreased with increasing soil N concentration. These results suggest that both plant growth and microbial activity responses to elevated CO2 are modulated by N availability, and that it is essential to account for soil N concentration in C cycling analyses.",
keywords = "[CO] enrichment, C sequestration, Fine root production, Microbial respiration, N fertilization, Root biomass, Biology, Ecosystems Research",
author = "Dieleman, {W. I.J.} and S. Luyssaert and A. Rey and {De Angelis}, P. and Barton, {C. V.M.} and Broadmeadow, {M. S.J.} and Broadmeadow, {S. B.} and Chigwerewe, {K. S.} and M. Crookshanks and E. Dufr{\^e}ne and Jarvis, {P. G.} and A. Kasurinen and S. Kellom{\"a}ki and {Le Dantec}, V. and M. Liberloo and M. Marek and B. Medlyn and R. Pokornỳ and G. Scarascia-Mugnozza and Temperton, {V. M.} and D. Tingey and O. Urban and R. Ceulemans and Janssens, {I. A.}",
year = "2010",
month = dec,
doi = "10.1111/j.1365-3040.2010.02201.x",
language = "English",
volume = "33",
pages = "2001--2011",
journal = "Plant, Cell and Environment",
issn = "0140-7791",
publisher = "John Wiley & Sons Inc.",
number = "12",

}

RIS

TY - JOUR

T1 - Soil [N] modulates soil C cycling in CO2-fumigated tree stands

T2 - A meta-analysis

AU - Dieleman, W. I.J.

AU - Luyssaert, S.

AU - Rey, A.

AU - De Angelis, P.

AU - Barton, C. V.M.

AU - Broadmeadow, M. S.J.

AU - Broadmeadow, S. B.

AU - Chigwerewe, K. S.

AU - Crookshanks, M.

AU - Dufrêne, E.

AU - Jarvis, P. G.

AU - Kasurinen, A.

AU - Kellomäki, S.

AU - Le Dantec, V.

AU - Liberloo, M.

AU - Marek, M.

AU - Medlyn, B.

AU - Pokornỳ, R.

AU - Scarascia-Mugnozza, G.

AU - Temperton, V. M.

AU - Tingey, D.

AU - Urban, O.

AU - Ceulemans, R.

AU - Janssens, I. A.

PY - 2010/12

Y1 - 2010/12

N2 - Under elevated atmospheric CO2 concentrations, soil carbon (C) inputs are typically enhanced, suggesting larger soil C sequestration potential. However, soil C losses also increase and progressive nitrogen (N) limitation to plant growth may reduce the CO2 effect on soil C inputs with time. We compiled a data set from 131 manipulation experiments, and used meta-analysis to test the hypotheses that: (1) elevated atmospheric CO2 stimulates soil C inputs more than C losses, resulting in increasing soil C stocks; and (2) that these responses are modulated by N. Our results confirm that elevated CO2 induces a C allocation shift towards below-ground biomass compartments. However, the increased soil C inputs were offset by increased heterotrophic respiration (Rh), such that soil C content was not affected by elevated CO2. Soil N concentration strongly interacted with CO2 fumigation: the effect of elevated CO2 on fine root biomass and -production and on microbial activity increased with increasing soil N concentration, while the effect on soil C content decreased with increasing soil N concentration. These results suggest that both plant growth and microbial activity responses to elevated CO2 are modulated by N availability, and that it is essential to account for soil N concentration in C cycling analyses.

AB - Under elevated atmospheric CO2 concentrations, soil carbon (C) inputs are typically enhanced, suggesting larger soil C sequestration potential. However, soil C losses also increase and progressive nitrogen (N) limitation to plant growth may reduce the CO2 effect on soil C inputs with time. We compiled a data set from 131 manipulation experiments, and used meta-analysis to test the hypotheses that: (1) elevated atmospheric CO2 stimulates soil C inputs more than C losses, resulting in increasing soil C stocks; and (2) that these responses are modulated by N. Our results confirm that elevated CO2 induces a C allocation shift towards below-ground biomass compartments. However, the increased soil C inputs were offset by increased heterotrophic respiration (Rh), such that soil C content was not affected by elevated CO2. Soil N concentration strongly interacted with CO2 fumigation: the effect of elevated CO2 on fine root biomass and -production and on microbial activity increased with increasing soil N concentration, while the effect on soil C content decreased with increasing soil N concentration. These results suggest that both plant growth and microbial activity responses to elevated CO2 are modulated by N availability, and that it is essential to account for soil N concentration in C cycling analyses.

KW - [CO] enrichment

KW - C sequestration

KW - Fine root production

KW - Microbial respiration

KW - N fertilization

KW - Root biomass

KW - Biology

KW - Ecosystems Research

UR - http://www.scopus.com/inward/record.url?scp=78349243251&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/6ceed0fb-b59b-3741-9ddb-37cd3dd7e66f/

U2 - 10.1111/j.1365-3040.2010.02201.x

DO - 10.1111/j.1365-3040.2010.02201.x

M3 - Journal articles

C2 - 20573048

AN - SCOPUS:78349243251

VL - 33

SP - 2001

EP - 2011

JO - Plant, Cell and Environment

JF - Plant, Cell and Environment

SN - 0140-7791

IS - 12

ER -

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