One-at-a-Time Parameter Perturbation Ensemble of the Community Land Model, Version 5.1

D. Kennedy; K. Dagon; D. M. Lawrence; R. A. Fisher; B. M. Sanderson; N. Collier; F. M. Hoffman; C. D. Koven; E. Kluzek; S. Levis; X. Lu; K. W. Oleson; C. M. Zarakas; Y. Cheng; A. C. Foster; M. D. Fowler; L. R. Hawkins; T. Kavoo; S. Kumar; A. J. Newman; P. J. Lawrence; F. Li; D. L. Lombardozzi; Y. Luo; J. K. Shuman; A. L.S. Swann; S. C. Swenson; G. Tang; W. R. Wieder; A. W. Wood

doi:10.1029/2024MS004715

One-at-a-Time Parameter Perturbation Ensemble of the Community Land Model, Version 5.1

D. Kennedy, K. Dagon, D. M. Lawrence, R. A. Fisher, B. M. Sanderson, N. Collier, F. M. Hoffman, C. D. Koven, E. Kluzek, S. Levis, X. Lu, K. W. Oleson, C. M. Zarakas, Y. Cheng, A. C. Foster, M. D. Fowler, L. R. Hawkins, T. Kavoo, S. Kumar, A. J. NewmanP. J. Lawrence, F. Li, D. L. Lombardozzi, Y. Luo, J. K. Shuman, A. L.S. Swann, S. C. Swenson, G. Tang, W. R. Wieder, A. W. Wood

Research output: Contribution to journal › Article › peer-review

Abstract

Comprehensive land models are subject to significant parametric uncertainty, which can be hard to quantify due to the large number of parameters and high model computational costs. We constructed a large parameter perturbation ensemble (PPE) for the Community Land Model version 5.1 with biogeochemistry configuration (CLM5.1-BGC). We performed more than 2,000 simulations perturbing 211 parameters across six forcing scenarios. This provides an expansive data set, which can be used to identify the most influential parameters on a wide range of output variables globally, by biome, or by plant functional type. We found that parameter effects can exceed scenario effects and that a small number of parameters explains a large fraction of variance across our ensemble. The most important parameters can differ regionally and also based on the forcing scenario. The software infrastructure developed for this experiment has greatly reduced the human and computer time needed for CLM PPEs, which can facilitate routine investigation of parameter sensitivity and uncertainty, as well as automated calibration.

Original language	English
Article number	e2024MS004715
Journal	Journal of Advances in Modeling Earth Systems
Volume	17
Issue number	8
DOIs	https://doi.org/10.1029/2024MS004715
State	Published - Aug 2025
Externally published	Yes

Keywords

CLM5.1
PPE
community land model
parameter perturbation experiment

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10.1029/2024MS004715

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Kennedy, D., Dagon, K., Lawrence, D. M., Fisher, R. A., Sanderson, B. M., Collier, N., Hoffman, F. M., Koven, C. D., Kluzek, E., Levis, S., Lu, X., Oleson, K. W., Zarakas, C. M., Cheng, Y., Foster, A. C., Fowler, M. D., Hawkins, L. R., Kavoo, T., Kumar, S., ... Wood, A. W. (2025). One-at-a-Time Parameter Perturbation Ensemble of the Community Land Model, Version 5.1. Journal of Advances in Modeling Earth Systems, 17(8), Article e2024MS004715. https://doi.org/10.1029/2024MS004715

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title = "One-at-a-Time Parameter Perturbation Ensemble of the Community Land Model, Version 5.1",

abstract = "Comprehensive land models are subject to significant parametric uncertainty, which can be hard to quantify due to the large number of parameters and high model computational costs. We constructed a large parameter perturbation ensemble (PPE) for the Community Land Model version 5.1 with biogeochemistry configuration (CLM5.1-BGC). We performed more than 2,000 simulations perturbing 211 parameters across six forcing scenarios. This provides an expansive data set, which can be used to identify the most influential parameters on a wide range of output variables globally, by biome, or by plant functional type. We found that parameter effects can exceed scenario effects and that a small number of parameters explains a large fraction of variance across our ensemble. The most important parameters can differ regionally and also based on the forcing scenario. The software infrastructure developed for this experiment has greatly reduced the human and computer time needed for CLM PPEs, which can facilitate routine investigation of parameter sensitivity and uncertainty, as well as automated calibration.",

keywords = "CLM5.1, PPE, community land model, parameter perturbation experiment",

author = "D. Kennedy and K. Dagon and Lawrence, \{D. M.\} and Fisher, \{R. A.\} and Sanderson, \{B. M.\} and N. Collier and Hoffman, \{F. M.\} and Koven, \{C. D.\} and E. Kluzek and S. Levis and X. Lu and Oleson, \{K. W.\} and Zarakas, \{C. M.\} and Y. Cheng and Foster, \{A. C.\} and Fowler, \{M. D.\} and Hawkins, \{L. R.\} and T. Kavoo and S. Kumar and Newman, \{A. J.\} and Lawrence, \{P. J.\} and F. Li and Lombardozzi, \{D. L.\} and Y. Luo and Shuman, \{J. K.\} and Swann, \{A. L.S.\} and Swenson, \{S. C.\} and G. Tang and Wieder, \{W. R.\} and Wood, \{A. W.\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Journal of Advances in Modeling Earth Systems published by Wiley Periodicals LLC on behalf of American Geophysical Union.",

year = "2025",

month = aug,

doi = "10.1029/2024MS004715",

language = "English",

volume = "17",

journal = "Journal of Advances in Modeling Earth Systems",

issn = "1942-2466",

publisher = "John Wiley and Sons Inc.",

number = "8",

}

Kennedy, D , Dagon, K , Lawrence, DM, Fisher, RA, Sanderson, BM, Collier, N, Hoffman, FM, Koven, CD, Kluzek, E , Levis, S, Lu, X, Oleson, KW, Zarakas, CM, Cheng, Y, Foster, AC , Fowler, MD, Hawkins, LR, Kavoo, T, Kumar, S, Newman, AJ , Lawrence, PJ, Li, F, Lombardozzi, DL, Luo, Y, Shuman, JK, Swann, ALS, Swenson, SC, Tang, G, Wieder, WR & Wood, AW 2025, 'One-at-a-Time Parameter Perturbation Ensemble of the Community Land Model, Version 5.1', Journal of Advances in Modeling Earth Systems, vol. 17, no. 8, e2024MS004715. https://doi.org/10.1029/2024MS004715

TY - JOUR

T1 - One-at-a-Time Parameter Perturbation Ensemble of the Community Land Model, Version 5.1

AU - Kennedy, D.

AU - Dagon, K.

AU - Lawrence, D. M.

AU - Fisher, R. A.

AU - Sanderson, B. M.

AU - Collier, N.

AU - Hoffman, F. M.

AU - Koven, C. D.

AU - Kluzek, E.

AU - Levis, S.

AU - Lu, X.

AU - Oleson, K. W.

AU - Zarakas, C. M.

AU - Cheng, Y.

AU - Foster, A. C.

AU - Fowler, M. D.

AU - Hawkins, L. R.

AU - Kavoo, T.

AU - Kumar, S.

AU - Newman, A. J.

AU - Lawrence, P. J.

AU - Li, F.

AU - Lombardozzi, D. L.

AU - Luo, Y.

AU - Shuman, J. K.

AU - Swann, A. L.S.

AU - Swenson, S. C.

AU - Tang, G.

AU - Wieder, W. R.

AU - Wood, A. W.

PY - 2025/8

Y1 - 2025/8

N2 - Comprehensive land models are subject to significant parametric uncertainty, which can be hard to quantify due to the large number of parameters and high model computational costs. We constructed a large parameter perturbation ensemble (PPE) for the Community Land Model version 5.1 with biogeochemistry configuration (CLM5.1-BGC). We performed more than 2,000 simulations perturbing 211 parameters across six forcing scenarios. This provides an expansive data set, which can be used to identify the most influential parameters on a wide range of output variables globally, by biome, or by plant functional type. We found that parameter effects can exceed scenario effects and that a small number of parameters explains a large fraction of variance across our ensemble. The most important parameters can differ regionally and also based on the forcing scenario. The software infrastructure developed for this experiment has greatly reduced the human and computer time needed for CLM PPEs, which can facilitate routine investigation of parameter sensitivity and uncertainty, as well as automated calibration.

AB - Comprehensive land models are subject to significant parametric uncertainty, which can be hard to quantify due to the large number of parameters and high model computational costs. We constructed a large parameter perturbation ensemble (PPE) for the Community Land Model version 5.1 with biogeochemistry configuration (CLM5.1-BGC). We performed more than 2,000 simulations perturbing 211 parameters across six forcing scenarios. This provides an expansive data set, which can be used to identify the most influential parameters on a wide range of output variables globally, by biome, or by plant functional type. We found that parameter effects can exceed scenario effects and that a small number of parameters explains a large fraction of variance across our ensemble. The most important parameters can differ regionally and also based on the forcing scenario. The software infrastructure developed for this experiment has greatly reduced the human and computer time needed for CLM PPEs, which can facilitate routine investigation of parameter sensitivity and uncertainty, as well as automated calibration.

KW - CLM5.1

KW - PPE

KW - community land model

KW - parameter perturbation experiment

UR - https://www.scopus.com/pages/publications/105012922194

U2 - 10.1029/2024MS004715

DO - 10.1029/2024MS004715

M3 - Article

AN - SCOPUS:105012922194

SN - 1942-2466

VL - 17

JO - Journal of Advances in Modeling Earth Systems

JF - Journal of Advances in Modeling Earth Systems

IS - 8

M1 - e2024MS004715

ER -

One-at-a-Time Parameter Perturbation Ensemble of the Community Land Model, Version 5.1

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Keywords

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