Regional contribution to variability and trends of global gross primary productivity

Min Chen; Rashid Rafique; Ghassem R. Asrar; Ben Bond-Lamberty; Philippe Ciais; Fang Zhao; Christopher P.O. Reyer; Sebastian Ostberg; Jinfeng Chang; Akihiko Ito; Jia Yang; Ning Zeng; Eugenia Kalnay; Tristram West; Guoyong Leng; Louis Francois; Guy Munhoven; Alexandra Henrot; Hanqin Tian; Shufen Pan; Kazuya Nishina; Nicolas Viovy; Catherine Morfopoulos; Richard Betts; Sibyll Schaphoff; Jörg Steinkamp; Thomas Hickler

doi:10.1088/1748-9326/aa8978

Regional contribution to variability and trends of global gross primary productivity

Min Chen^*
, Rashid Rafique
, Ghassem R. Asrar
, Ben Bond-Lamberty
, Philippe Ciais
, Fang Zhao
, Christopher P.O. Reyer
, Sebastian Ostberg
, Jinfeng Chang
, Akihiko Ito
, Jia Yang
, Ning Zeng
, Eugenia Kalnay
, Tristram West
, Guoyong Leng
, Louis Francois
, Guy Munhoven
, Alexandra Henrot
, Hanqin Tian
, Shufen Pan

Kazuya Nishina, Nicolas Viovy, Catherine Morfopoulos, Richard Betts, Sibyll Schaphoff, Jörg Steinkamp, Thomas Hickler

^*Corresponding author for this work

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

83 Scopus citations

Abstract

Terrestrial gross primary productivity (GPP) is the largest component of the global carbon cycle and a key process for understanding land ecosystems dynamics. In this study, we used GPP estimates from a combination of eight global biome models participating in the Inter-Sectoral Impact-Model Intercomparison Project phase 2a (ISIMIP2a), the Moderate Resolution Spectroradiometer (MODIS) GPP product, and a data-driven product (Model Tree Ensemble, MTE) to study the spatiotemporal variability of GPP at the regional and global levels. We found the 2000-2010 total global GPP estimated from the model ensemble to be 117 ± 13 Pg C yr^-1 (mean ± 1 standard deviation), which was higher than MODIS (112 Pg C yr^-1), and close to the MTE (120 Pg C yr^-1). The spatial patterns of MODIS, MTE and ISIMIP2a GPP generally agree well, but their temporal trends are different, and the seasonality and inter-annual variability of GPP at the regional and global levels are not completely consistent. For the model ensemble, Tropical Latin America contributes the most to global GPP, Asian regions contribute the most to the global GPP trend, the Northern Hemisphere regions dominate the global GPP seasonal variations, and Oceania is likely the largest contributor to inter-annual variability of global GPP. However, we observed large uncertainties across the eight ISIMIP2a models, which are probably due to the differences in the formulation of underlying photosynthetic processes. The results of this study are useful in understanding the contributions of different regions to global GPP and its spatiotemporal variability, how the model- and observational-based GPP estimates differ from each other in time and space, and the relative strength of the eight models. Our results also highlight the models' ability to capture the seasonality of GPP that are essential for understanding the inter-annual and seasonal variability of GPP as a major component of the carbon cycle.

Original language	English
Article number	105005
Journal	Environmental Research Letters
Volume	12
Issue number	10
DOIs	https://doi.org/10.1088/1748-9326/aa8978
State	Published - 28 Sep 2017
Externally published	Yes

Keywords

gross primary productivity
inter-annual variability
seasonal variability
terrestrial ecosystems

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1088/1748-9326/aa8978

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Chen, M., Rafique, R., Asrar, G. R., Bond-Lamberty, B., Ciais, P., Zhao, F., Reyer, C. P. O., Ostberg, S., Chang, J., Ito, A., Yang, J., Zeng, N., Kalnay, E., West, T., Leng, G., Francois, L., Munhoven, G., Henrot, A., Tian, H., ... Hickler, T. (2017). Regional contribution to variability and trends of global gross primary productivity. Environmental Research Letters, 12(10), Article 105005. https://doi.org/10.1088/1748-9326/aa8978

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title = "Regional contribution to variability and trends of global gross primary productivity",

abstract = "Terrestrial gross primary productivity (GPP) is the largest component of the global carbon cycle and a key process for understanding land ecosystems dynamics. In this study, we used GPP estimates from a combination of eight global biome models participating in the Inter-Sectoral Impact-Model Intercomparison Project phase 2a (ISIMIP2a), the Moderate Resolution Spectroradiometer (MODIS) GPP product, and a data-driven product (Model Tree Ensemble, MTE) to study the spatiotemporal variability of GPP at the regional and global levels. We found the 2000-2010 total global GPP estimated from the model ensemble to be 117 ± 13 Pg C yr-1 (mean ± 1 standard deviation), which was higher than MODIS (112 Pg C yr-1), and close to the MTE (120 Pg C yr-1). The spatial patterns of MODIS, MTE and ISIMIP2a GPP generally agree well, but their temporal trends are different, and the seasonality and inter-annual variability of GPP at the regional and global levels are not completely consistent. For the model ensemble, Tropical Latin America contributes the most to global GPP, Asian regions contribute the most to the global GPP trend, the Northern Hemisphere regions dominate the global GPP seasonal variations, and Oceania is likely the largest contributor to inter-annual variability of global GPP. However, we observed large uncertainties across the eight ISIMIP2a models, which are probably due to the differences in the formulation of underlying photosynthetic processes. The results of this study are useful in understanding the contributions of different regions to global GPP and its spatiotemporal variability, how the model- and observational-based GPP estimates differ from each other in time and space, and the relative strength of the eight models. Our results also highlight the models' ability to capture the seasonality of GPP that are essential for understanding the inter-annual and seasonal variability of GPP as a major component of the carbon cycle.",

keywords = "gross primary productivity, inter-annual variability, seasonal variability, terrestrial ecosystems",

author = "Min Chen and Rashid Rafique and Asrar, \{Ghassem R.\} and Ben Bond-Lamberty and Philippe Ciais and Fang Zhao and Reyer, \{Christopher P.O.\} and Sebastian Ostberg and Jinfeng Chang and Akihiko Ito and Jia Yang and Ning Zeng and Eugenia Kalnay and Tristram West and Guoyong Leng and Louis Francois and Guy Munhoven and Alexandra Henrot and Hanqin Tian and Shufen Pan and Kazuya Nishina and Nicolas Viovy and Catherine Morfopoulos and Richard Betts and Sibyll Schaphoff and J{\"o}rg Steinkamp and Thomas Hickler",

note = "Publisher Copyright: {\textcopyright} 2017 The Author(s). Published by IOP Publishing Ltd.",

year = "2017",

month = sep,

day = "28",

doi = "10.1088/1748-9326/aa8978",

language = "英语",

volume = "12",

journal = "Environmental Research Letters",

issn = "1748-9326",

publisher = "Institute of Physics",

number = "10",

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Chen, M, Rafique, R, Asrar, GR, Bond-Lamberty, B, Ciais, P, Zhao, F, Reyer, CPO, Ostberg, S, Chang, J, Ito, A, Yang, J, Zeng, N, Kalnay, E, West, T, Leng, G, Francois, L, Munhoven, G, Henrot, A, Tian, H, Pan, S, Nishina, K, Viovy, N, Morfopoulos, C, Betts, R, Schaphoff, S, Steinkamp, J & Hickler, T 2017, 'Regional contribution to variability and trends of global gross primary productivity', Environmental Research Letters, vol. 12, no. 10, 105005. https://doi.org/10.1088/1748-9326/aa8978

TY - JOUR

T1 - Regional contribution to variability and trends of global gross primary productivity

AU - Chen, Min

AU - Rafique, Rashid

AU - Asrar, Ghassem R.

AU - Bond-Lamberty, Ben

AU - Ciais, Philippe

AU - Zhao, Fang

AU - Reyer, Christopher P.O.

AU - Ostberg, Sebastian

AU - Chang, Jinfeng

AU - Ito, Akihiko

AU - Yang, Jia

AU - Zeng, Ning

AU - Kalnay, Eugenia

AU - West, Tristram

AU - Leng, Guoyong

AU - Francois, Louis

AU - Munhoven, Guy

AU - Henrot, Alexandra

AU - Tian, Hanqin

AU - Pan, Shufen

AU - Nishina, Kazuya

AU - Viovy, Nicolas

AU - Morfopoulos, Catherine

AU - Betts, Richard

AU - Schaphoff, Sibyll

AU - Steinkamp, Jörg

AU - Hickler, Thomas

PY - 2017/9/28

Y1 - 2017/9/28

N2 - Terrestrial gross primary productivity (GPP) is the largest component of the global carbon cycle and a key process for understanding land ecosystems dynamics. In this study, we used GPP estimates from a combination of eight global biome models participating in the Inter-Sectoral Impact-Model Intercomparison Project phase 2a (ISIMIP2a), the Moderate Resolution Spectroradiometer (MODIS) GPP product, and a data-driven product (Model Tree Ensemble, MTE) to study the spatiotemporal variability of GPP at the regional and global levels. We found the 2000-2010 total global GPP estimated from the model ensemble to be 117 ± 13 Pg C yr-1 (mean ± 1 standard deviation), which was higher than MODIS (112 Pg C yr-1), and close to the MTE (120 Pg C yr-1). The spatial patterns of MODIS, MTE and ISIMIP2a GPP generally agree well, but their temporal trends are different, and the seasonality and inter-annual variability of GPP at the regional and global levels are not completely consistent. For the model ensemble, Tropical Latin America contributes the most to global GPP, Asian regions contribute the most to the global GPP trend, the Northern Hemisphere regions dominate the global GPP seasonal variations, and Oceania is likely the largest contributor to inter-annual variability of global GPP. However, we observed large uncertainties across the eight ISIMIP2a models, which are probably due to the differences in the formulation of underlying photosynthetic processes. The results of this study are useful in understanding the contributions of different regions to global GPP and its spatiotemporal variability, how the model- and observational-based GPP estimates differ from each other in time and space, and the relative strength of the eight models. Our results also highlight the models' ability to capture the seasonality of GPP that are essential for understanding the inter-annual and seasonal variability of GPP as a major component of the carbon cycle.

AB - Terrestrial gross primary productivity (GPP) is the largest component of the global carbon cycle and a key process for understanding land ecosystems dynamics. In this study, we used GPP estimates from a combination of eight global biome models participating in the Inter-Sectoral Impact-Model Intercomparison Project phase 2a (ISIMIP2a), the Moderate Resolution Spectroradiometer (MODIS) GPP product, and a data-driven product (Model Tree Ensemble, MTE) to study the spatiotemporal variability of GPP at the regional and global levels. We found the 2000-2010 total global GPP estimated from the model ensemble to be 117 ± 13 Pg C yr-1 (mean ± 1 standard deviation), which was higher than MODIS (112 Pg C yr-1), and close to the MTE (120 Pg C yr-1). The spatial patterns of MODIS, MTE and ISIMIP2a GPP generally agree well, but their temporal trends are different, and the seasonality and inter-annual variability of GPP at the regional and global levels are not completely consistent. For the model ensemble, Tropical Latin America contributes the most to global GPP, Asian regions contribute the most to the global GPP trend, the Northern Hemisphere regions dominate the global GPP seasonal variations, and Oceania is likely the largest contributor to inter-annual variability of global GPP. However, we observed large uncertainties across the eight ISIMIP2a models, which are probably due to the differences in the formulation of underlying photosynthetic processes. The results of this study are useful in understanding the contributions of different regions to global GPP and its spatiotemporal variability, how the model- and observational-based GPP estimates differ from each other in time and space, and the relative strength of the eight models. Our results also highlight the models' ability to capture the seasonality of GPP that are essential for understanding the inter-annual and seasonal variability of GPP as a major component of the carbon cycle.

KW - gross primary productivity

KW - inter-annual variability

KW - seasonal variability

KW - terrestrial ecosystems

UR - https://www.scopus.com/pages/publications/85033712459

U2 - 10.1088/1748-9326/aa8978

DO - 10.1088/1748-9326/aa8978

M3 - 文章

AN - SCOPUS:85033712459

SN - 1748-9326

VL - 12

JO - Environmental Research Letters

JF - Environmental Research Letters

IS - 10

M1 - 105005

ER -

Regional contribution to variability and trends of global gross primary productivity

Abstract

Keywords

UN SDGs

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