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Evaluation and improvement of the daily boreal ecosystem productivity simulator in simulating gross primary productivity at 41 flux sites across Europe

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  • Zhang, Sha
  • Zhang, Jiahua
  • Bai, Yun
  • Koju, Upama Ashish
  • Igbawua, Tertsea
  • Chang, Qing
  • Zhang, Da
  • Yao, Fengmei

Abstract

Vegetation gross primary productivity (GPP) is an important component in the global carbon cycle and its accurate estimation is essential in ecosystem monitoring and simulation. Previous studies show that ecosystem models usually overestimate GPP under drought and during spring, late fall and winter. In this study, these issues are addressed in the daily boreal ecosystem productivity simulator (BEPSd) by introducing a new water stress factor (fw) to replace the old one and a designed fraction in term of the normalised difference vegetation index (NDVI) (fndvi) to indicate the effect of chlorophyll on photosynthesis. GPP simulations are conducted at 41 flux sites across Europe to test BEPSd with the new fw and fndvi. The new fw captures drought conditions well and fndvi expresses the chlorophyll constraint on photosynthesis. Although BEPSd with the old fw performs well for some plant function types (PFTs), it is unsatisfactory for others. BEPSd incorporating both the new fw and fndvi gives better simulations than the old version, particularly for evergreen broadleaf forest, deciduous broadleaf forest and closed shrub with R (RMSE) value increasing (decreasing) from 0.69 (3.20gCm−2d−1) to 0.74 (1.65gCm−2d−1), 0.72 (4.01gCm−2d−1) to 0.82 (2.91gCm−2d−1), 0.54 (1.82gCm−2d−1) to 0.75 (1.59gCm−2d−1), respectively. Furthermore, the new fw effectively mitigates GPP overestimates under drought, and fndvi counteracts GPP overestimates during spring, late fall and winter. Overall, the improved BEPSd shows a satisfactory performance at flux sites over Europe.

Suggested Citation

  • Zhang, Sha & Zhang, Jiahua & Bai, Yun & Koju, Upama Ashish & Igbawua, Tertsea & Chang, Qing & Zhang, Da & Yao, Fengmei, 2018. "Evaluation and improvement of the daily boreal ecosystem productivity simulator in simulating gross primary productivity at 41 flux sites across Europe," Ecological Modelling, Elsevier, vol. 368(C), pages 205-232.
    • Handle: RePEc:eee:ecomod:v:368:y:2018:i:c:p:205-232
    DOI: 10.1016/j.ecolmodel.2017.11.023
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    References listed on IDEAS

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    1. Li, Xiran & Zhu, Zaichun & Zeng, Hui & Piao, Shilong, 2016. "Estimation of gross primary production in China (1982–2010) with multiple ecosystem models," Ecological Modelling, Elsevier, vol. 324(C), pages 33-44.
    2. Mo, Xingguo & Chen, Jing M. & Ju, Weimin & Black, T. Andrew, 2008. "Optimization of ecosystem model parameters through assimilating eddy covariance flux data with an ensemble Kalman filter," Ecological Modelling, Elsevier, vol. 217(1), pages 157-173.
    3. He, Liming & Chen, Jing M. & Liu, Jane & Mo, Gang & Bélair, Stéphane & Zheng, Ting & Wang, Rong & Chen, Bin & Croft, Holly & Arain, M.Altaf & Barr, Alan G., 2014. "Optimization of water uptake and photosynthetic parameters in an ecosystem model using tower flux data," Ecological Modelling, Elsevier, vol. 294(C), pages 94-104.
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    1. Zhongyi Sun & Xiufeng Wang & Haruhiko Yamamoto & Hiroshi Tani & Tangzhe Nie, 2020. "The effects of spatiotemporal patterns of atmospheric CO2 concentration on terrestrial gross primary productivity estimation," Climatic Change, Springer, vol. 163(2), pages 913-930, November.
    2. Liu, Zhenhai & Chen, Bin & Wang, Shaoqiang & Wang, Qinyi & Chen, Jinghua & Shi, Weibo & Wang, Xiaobo & Liu, Yuanyuan & Tu, Yongkai & Huang, Mei & Wang, Junbang & Wang, Zhaosheng & Li, Hui & Zhu, Tongt, 2021. "The impacts of vegetation on the soil surface freezing-thawing processes at permafrost southern edge simulated by an improved process-based ecosystem model," Ecological Modelling, Elsevier, vol. 456(C).
    3. T. F. Keenan & X. Luo & B. D. Stocker & M. G. Kauwe & B. E. Medlyn & I. C. Prentice & N. G. Smith & C. Terrer & H. Wang & Y. Zhang & S. Zhou, 2023. "A constraint on historic growth in global photosynthesis due to rising CO2," Nature Climate Change, Nature, vol. 13(12), pages 1376-1381, December.

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