A test of the hierarchical model of litter decomposition

M.A. Bradford; G.F. Veen; A. Bonis; E.M. Bradford; A. T. Classen; J.H.C. Cornelissen; Thomas W. Crowther; J.R. De Long; G.T. Freschet; P. Kardol; Marta Manrubia; Daniel S. Maynard; G.S. Newman; R. Van Logtestijn; Maria Viketoft; David A. Wardle; W.R. Wieder; S.A. Wood; W.H. van der Putten

doi:10.1038/s41559-017-0367-4

A test of the hierarchical model of litter decomposition

M.A. Bradford (Co-auteur), G.F. Veen, A. Bonis, E.M. Bradford, A. T. Classen, J.H.C. Cornelissen, Thomas W. Crowther, J.R. De Long, G.T. Freschet, P. Kardol, Marta Manrubia, Daniel S. Maynard, G.S. Newman, R. Van Logtestijn, Maria Viketoft, David A. Wardle, W.R. Wieder, S.A. Wood, W.H. van der Putten

NIOO - Terrestrial Ecology (TE)

Onderzoeksoutput: Bijdrage aan wetenschappelijk tijdschrift/periodieke uitgave › Artikel › Wetenschappelijk › peer review

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Our basic understanding of plant litter decomposition informs the assumptions underlying widely applied soil biogeochemical models, including those embedded in Earth system models. Confidence in projected carbon cycle–climate feedbacks therefore depends on accurate knowledge about the controls regulating the rate at which plant biomass is decomposed into products such as CO2. Here we test underlying assumptions of the dominant conceptual model of litter decomposition. The model posits that a primary control on the rate of decomposition at regional to global scales is climate (temperature and moisture), with the controlling effects of decomposers negligible at such broad spatial scales. Using a regional-scale litter decomposition experiment at six sites spanning from northern Sweden to southern France—and capturing both within and among site variation in putative controls—we find that contrary to predictions from the hierarchical model, decomposer (microbial) biomass strongly regulates decomposition at regional scales. Furthermore, the size of the microbial biomass dictates the absolute change in decomposition rates with changing climate variables. Our findings suggest the need for revision of the hierarchical model, with decomposers acting as both local- and broad-scale controls on litter decomposition rates, necessitating their explicit consideration in global biogeochemical models.

Originele taal-2	Engels
Pagina's (van-tot)	1836-1845
Tijdschrift	Nature Ecology and Evolution
Volume	1
Vroegere onlinedatum	2017
DOI's	https://doi.org/10.1038/s41559-017-0367-4
Status	Gepubliceerd - 2017

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10.1038/s41559-017-0367-4

6351_Bradford_AMAccepted author manuscript, 728 KBLicentie: CC BY
6351_Bradford_Supp Info_AMAccepted author manuscript, 122 KBLicentie: CC BY

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Data from: A test of the hierarchical model of litter decomposition
Bradford, M. (Maker), Veen, C. (Maker), Bonis, A. (Maker), Bradford, E. M. (Maker), Classen, A. T. (Maker), Cornelissen, J. H. C. (Maker), Crowther, T. (Maker), De Long, J. (Maker), Freschet, G. T. (Maker), Kardol, P. (Maker), Manrubia-Freixa, M. (Maker), Maynard, D. S. (Maker), Newman, G. S. (Maker), Van Logtestijn, R. (Maker), Viketoft, M. (Maker), Wardle, D. A. (Maker), Wieder, W. R. (Maker), Wood, S. A. (Maker) & van der Putten, W. H. (Maker), Dryad, 25 aug. 2018
DOI: 10.5061/dryad.c44h0
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Bradford, M. A., Veen, G. F., Bonis, A., Bradford, E. M., Classen, A. T., Cornelissen, J. H. C., Crowther, T. W., De Long, J. R., Freschet, G. T., Kardol, P., Manrubia, M., Maynard, D. S., Newman, G. S., Van Logtestijn, R., Viketoft, M., Wardle, D. A., Wieder, W. R., Wood, S. A., & van der Putten, W. H. (2017). A test of the hierarchical model of litter decomposition. Nature Ecology and Evolution, 1, 1836-1845. https://doi.org/10.1038/s41559-017-0367-4

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title = "A test of the hierarchical model of litter decomposition",

abstract = "Our basic understanding of plant litter decomposition informs the assumptions underlying widely applied soil biogeochemical models, including those embedded in Earth system models. Confidence in projected carbon cycle–climate feedbacks therefore depends on accurate knowledge about the controls regulating the rate at which plant biomass is decomposed into products such as CO2. Here we test underlying assumptions of the dominant conceptual model of litter decomposition. The model posits that a primary control on the rate of decomposition at regional to global scales is climate (temperature and moisture), with the controlling effects of decomposers negligible at such broad spatial scales. Using a regional-scale litter decomposition experiment at six sites spanning from northern Sweden to southern France—and capturing both within and among site variation in putative controls—we find that contrary to predictions from the hierarchical model, decomposer (microbial) biomass strongly regulates decomposition at regional scales. Furthermore, the size of the microbial biomass dictates the absolute change in decomposition rates with changing climate variables. Our findings suggest the need for revision of the hierarchical model, with decomposers acting as both local- and broad-scale controls on litter decomposition rates, necessitating their explicit consideration in global biogeochemical models.",

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author = "M.A. Bradford and G.F. Veen and A. Bonis and E.M. Bradford and Classen, {A. T.} and J.H.C. Cornelissen and Crowther, {Thomas W.} and {De Long}, J.R. and G.T. Freschet and P. Kardol and Marta Manrubia and Maynard, {Daniel S.} and G.S. Newman and {Van Logtestijn}, R. and Maria Viketoft and Wardle, {David A.} and W.R. Wieder and S.A. Wood and {van der Putten}, W.H.",

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doi = "10.1038/s41559-017-0367-4",

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Bradford, MA, Veen, GF, Bonis, A, Bradford, EM, Classen, AT, Cornelissen, JHC, Crowther, TW, De Long, JR, Freschet, GT, Kardol, P, Manrubia, M, Maynard, DS, Newman, GS, Van Logtestijn, R, Viketoft, M, Wardle, DA, Wieder, WR, Wood, SA & van der Putten, WH 2017, 'A test of the hierarchical model of litter decomposition', Nature Ecology and Evolution, vol. 1, blz. 1836-1845. https://doi.org/10.1038/s41559-017-0367-4

TY - JOUR

T1 - A test of the hierarchical model of litter decomposition

AU - Bradford, M.A.

AU - Veen, G.F.

AU - Bonis, A.

AU - Bradford, E.M.

AU - Classen, A. T.

AU - Cornelissen, J.H.C.

AU - Crowther, Thomas W.

AU - De Long, J.R.

AU - Freschet, G.T.

AU - Kardol, P.

AU - Manrubia, Marta

AU - Maynard, Daniel S.

AU - Newman, G.S.

AU - Van Logtestijn, R.

AU - Viketoft, Maria

AU - Wardle, David A.

AU - Wieder, W.R.

AU - Wood, S.A.

AU - van der Putten, W.H.

N1 - 6351, TE; Data archiving: data archived in Dryad

PY - 2017

Y1 - 2017

N2 - Our basic understanding of plant litter decomposition informs the assumptions underlying widely applied soil biogeochemical models, including those embedded in Earth system models. Confidence in projected carbon cycle–climate feedbacks therefore depends on accurate knowledge about the controls regulating the rate at which plant biomass is decomposed into products such as CO2. Here we test underlying assumptions of the dominant conceptual model of litter decomposition. The model posits that a primary control on the rate of decomposition at regional to global scales is climate (temperature and moisture), with the controlling effects of decomposers negligible at such broad spatial scales. Using a regional-scale litter decomposition experiment at six sites spanning from northern Sweden to southern France—and capturing both within and among site variation in putative controls—we find that contrary to predictions from the hierarchical model, decomposer (microbial) biomass strongly regulates decomposition at regional scales. Furthermore, the size of the microbial biomass dictates the absolute change in decomposition rates with changing climate variables. Our findings suggest the need for revision of the hierarchical model, with decomposers acting as both local- and broad-scale controls on litter decomposition rates, necessitating their explicit consideration in global biogeochemical models.

AB - Our basic understanding of plant litter decomposition informs the assumptions underlying widely applied soil biogeochemical models, including those embedded in Earth system models. Confidence in projected carbon cycle–climate feedbacks therefore depends on accurate knowledge about the controls regulating the rate at which plant biomass is decomposed into products such as CO2. Here we test underlying assumptions of the dominant conceptual model of litter decomposition. The model posits that a primary control on the rate of decomposition at regional to global scales is climate (temperature and moisture), with the controlling effects of decomposers negligible at such broad spatial scales. Using a regional-scale litter decomposition experiment at six sites spanning from northern Sweden to southern France—and capturing both within and among site variation in putative controls—we find that contrary to predictions from the hierarchical model, decomposer (microbial) biomass strongly regulates decomposition at regional scales. Furthermore, the size of the microbial biomass dictates the absolute change in decomposition rates with changing climate variables. Our findings suggest the need for revision of the hierarchical model, with decomposers acting as both local- and broad-scale controls on litter decomposition rates, necessitating their explicit consideration in global biogeochemical models.

KW - international

UR - https://doi.org/10.5061/dryad.c44h0

U2 - 10.1038/s41559-017-0367-4

DO - 10.1038/s41559-017-0367-4

M3 - Article

SN - 2397-334X

VL - 1

SP - 1836

EP - 1845

JO - Nature Ecology and Evolution

JF - Nature Ecology and Evolution

ER -

A test of the hierarchical model of litter decomposition

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Data from: A test of the hierarchical model of litter decomposition

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