Implementing a New Rubber Plant Functional Type in the Community Land Model (CLM5) Improves Accuracy of Carbon and Water Flux Estimation

Ashehad A. Ali; Yuanchao Fan; Marife D. Corre; Martyna M. Kotowska; Evelyn Preuss-Hassler; Andi Nur Cahyo; Fernando E. Moyano; Christian Stiegler; Alexander Röll; Ana Meijide; Alexander Olchev; Andre Ringeler; Christoph Leuschner; Rahmi Ariani; Tania June; Suria Tarigan; Holger Kreft; Dirk Hölscher; Chonggang Xu; Charles D. Koven; Katherine Dagon; Rosie A. Fisher; Edzo Veldkamp; Alexander Knohl

doi:10.3390/land11020183

Implementing a New Rubber Plant Functional Type in the Community Land Model (CLM5) Improves Accuracy of Carbon and Water Flux Estimation

Ashehad A. Ali
, Yuanchao Fan
, Marife D. Corre
, Martyna M. Kotowska
, Evelyn Preuss-Hassler
, Andi Nur Cahyo
, Fernando E. Moyano
, Christian Stiegler
, Alexander Röll
, Ana Meijide
, Alexander Olchev
, Andre Ringeler
, Christoph Leuschner
, Rahmi Ariani
, Tania June
, Suria Tarigan
, Holger Kreft
, Dirk Hölscher
, Chonggang Xu
, Charles D. Koven

Katherine Dagon, Rosie A. Fisher, Edzo Veldkamp, Alexander Knohl

Earth System Predictability

University of Göttingen
Harvard University
Indonesian Rubber Research Institute Sembawa
Lomonosov Moscow State University
Institut Pertanian Bogor
Los Alamos National Laboratory
Lawrence Berkeley National Laboratory
National Center for Atmospheric Research

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

9 Scopus citations

Abstract

Rubber plantations are an economically viable land-use type that occupies large swathes of land in Southeast Asia that have undergone conversion from native forest to intensive plantation forestry. Such land-use change has a strong impact on carbon, energy, and water fluxes in ecosystems, and uncertainties exist in the modeling of future land-use change impacts on these fluxes due to the scarcity of measured data and poor representation of key biogeochemical processes. In this current modeling effort, we utilized the Community Land Model Version 5 (CLM5) to simulate a rubber plant functional type (PFT) by comparing the baseline parameter values of tropical evergreen PFT and tropical deciduous PFT with a newly developed rubber PFT (focused on the parameterization and modification of phenology and allocation processes) based on site-level observations of a rubber clone in Indonesia. We found that the baseline tropical evergreen and baseline tropical deciduous functions and parameterizations in CLM5 poorly simulate the leaf area index, carbon dynamics, and.

Original language	English
Article number	183
Journal	Land
Volume	11
Issue number	2
DOIs	https://doi.org/10.3390/land11020183
State	Published - Feb 2022

Keywords

CLM
Carbon–water cycling
Earth system model
Intraspecies differences
Land-use change
Rubber trees

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10.3390/land11020183

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Ali, A. A., Fan, Y., Corre, M. D., Kotowska, M. M., Preuss-Hassler, E., Cahyo, A. N., Moyano, F. E., Stiegler, C., Röll, A., Meijide, A., Olchev, A., Ringeler, A., Leuschner, C., Ariani, R., June, T., Tarigan, S., Kreft, H., Hölscher, D., Xu, C., ... Knohl, A. (2022). Implementing a New Rubber Plant Functional Type in the Community Land Model (CLM5) Improves Accuracy of Carbon and Water Flux Estimation. Land, 11(2), Article 183. https://doi.org/10.3390/land11020183

@article{d911b3049552459f8cca3a123e0f21d4,

title = "Implementing a New Rubber Plant Functional Type in the Community Land Model (CLM5) Improves Accuracy of Carbon and Water Flux Estimation",

abstract = "Rubber plantations are an economically viable land-use type that occupies large swathes of land in Southeast Asia that have undergone conversion from native forest to intensive plantation forestry. Such land-use change has a strong impact on carbon, energy, and water fluxes in ecosystems, and uncertainties exist in the modeling of future land-use change impacts on these fluxes due to the scarcity of measured data and poor representation of key biogeochemical processes. In this current modeling effort, we utilized the Community Land Model Version 5 (CLM5) to simulate a rubber plant functional type (PFT) by comparing the baseline parameter values of tropical evergreen PFT and tropical deciduous PFT with a newly developed rubber PFT (focused on the parameterization and modification of phenology and allocation processes) based on site-level observations of a rubber clone in Indonesia. We found that the baseline tropical evergreen and baseline tropical deciduous functions and parameterizations in CLM5 poorly simulate the leaf area index, carbon dynamics, and.",

keywords = "CLM, Carbon–water cycling, Earth system model, Intraspecies differences, Land-use change, Rubber trees",

author = "Ali, \{Ashehad A.\} and Yuanchao Fan and Corre, \{Marife D.\} and Kotowska, \{Martyna M.\} and Evelyn Preuss-Hassler and Cahyo, \{Andi Nur\} and Moyano, \{Fernando E.\} and Christian Stiegler and Alexander R{\"o}ll and Ana Meijide and Alexander Olchev and Andre Ringeler and Christoph Leuschner and Rahmi Ariani and Tania June and Suria Tarigan and Holger Kreft and Dirk H{\"o}lscher and Chonggang Xu and Koven, \{Charles D.\} and Katherine Dagon and Fisher, \{Rosie A.\} and Edzo Veldkamp and Alexander Knohl",

note = "Publisher Copyright: {\textcopyright} 2022 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2022",

month = feb,

doi = "10.3390/land11020183",

language = "English",

volume = "11",

journal = "Land",

issn = "2073-445X",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "2",

}

Ali, AA, Fan, Y, Corre, MD, Kotowska, MM, Preuss-Hassler, E, Cahyo, AN, Moyano, FE, Stiegler, C, Röll, A, Meijide, A, Olchev, A, Ringeler, A, Leuschner, C, Ariani, R, June, T, Tarigan, S, Kreft, H, Hölscher, D, Xu, C, Koven, CD, Dagon, K, Fisher, RA, Veldkamp, E & Knohl, A 2022, 'Implementing a New Rubber Plant Functional Type in the Community Land Model (CLM5) Improves Accuracy of Carbon and Water Flux Estimation', Land, vol. 11, no. 2, 183. https://doi.org/10.3390/land11020183

TY - JOUR

T1 - Implementing a New Rubber Plant Functional Type in the Community Land Model (CLM5) Improves Accuracy of Carbon and Water Flux Estimation

AU - Ali, Ashehad A.

AU - Fan, Yuanchao

AU - Corre, Marife D.

AU - Kotowska, Martyna M.

AU - Preuss-Hassler, Evelyn

AU - Cahyo, Andi Nur

AU - Moyano, Fernando E.

AU - Stiegler, Christian

AU - Röll, Alexander

AU - Meijide, Ana

AU - Olchev, Alexander

AU - Ringeler, Andre

AU - Leuschner, Christoph

AU - Ariani, Rahmi

AU - June, Tania

AU - Tarigan, Suria

AU - Kreft, Holger

AU - Hölscher, Dirk

AU - Xu, Chonggang

AU - Koven, Charles D.

AU - Dagon, Katherine

AU - Fisher, Rosie A.

AU - Veldkamp, Edzo

AU - Knohl, Alexander

PY - 2022/2

Y1 - 2022/2

N2 - Rubber plantations are an economically viable land-use type that occupies large swathes of land in Southeast Asia that have undergone conversion from native forest to intensive plantation forestry. Such land-use change has a strong impact on carbon, energy, and water fluxes in ecosystems, and uncertainties exist in the modeling of future land-use change impacts on these fluxes due to the scarcity of measured data and poor representation of key biogeochemical processes. In this current modeling effort, we utilized the Community Land Model Version 5 (CLM5) to simulate a rubber plant functional type (PFT) by comparing the baseline parameter values of tropical evergreen PFT and tropical deciduous PFT with a newly developed rubber PFT (focused on the parameterization and modification of phenology and allocation processes) based on site-level observations of a rubber clone in Indonesia. We found that the baseline tropical evergreen and baseline tropical deciduous functions and parameterizations in CLM5 poorly simulate the leaf area index, carbon dynamics, and.

AB - Rubber plantations are an economically viable land-use type that occupies large swathes of land in Southeast Asia that have undergone conversion from native forest to intensive plantation forestry. Such land-use change has a strong impact on carbon, energy, and water fluxes in ecosystems, and uncertainties exist in the modeling of future land-use change impacts on these fluxes due to the scarcity of measured data and poor representation of key biogeochemical processes. In this current modeling effort, we utilized the Community Land Model Version 5 (CLM5) to simulate a rubber plant functional type (PFT) by comparing the baseline parameter values of tropical evergreen PFT and tropical deciduous PFT with a newly developed rubber PFT (focused on the parameterization and modification of phenology and allocation processes) based on site-level observations of a rubber clone in Indonesia. We found that the baseline tropical evergreen and baseline tropical deciduous functions and parameterizations in CLM5 poorly simulate the leaf area index, carbon dynamics, and.

KW - CLM

KW - Carbon–water cycling

KW - Earth system model

KW - Intraspecies differences

KW - Land-use change

KW - Rubber trees

UR - https://www.scopus.com/pages/publications/85124151509

U2 - 10.3390/land11020183

DO - 10.3390/land11020183

M3 - Article

AN - SCOPUS:85124151509

SN - 2073-445X

VL - 11

JO - Land

JF - Land

IS - 2

M1 - 183

ER -

Implementing a New Rubber Plant Functional Type in the Community Land Model (CLM5) Improves Accuracy of Carbon and Water Flux Estimation

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Keywords

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