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Climate, canopy conductance and leaf area development controls on evapotranspiration in a boreal coniferous forest over a 10-year period: A united model assessment

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  • Ge, Zhen-Ming
  • Zhou, Xiao
  • Kellomäki, Seppo
  • Peltola, Heli
  • Wang, Kai-Yun

Abstract

The aim of this work was to test a process-based model (hydrological model combined with forest growth model) on the simulation of seasonal variability of evapotranspiration (ET) in an even-aged boreal Scots pine (Pinus sylvestris L.) stand over a 10 year period (1999–2008). The water flux components (including canopy transpiration (Et) and evaporation from canopy (Ec) and ground surface (Eg) were estimated in order to output the long-term stand water budget considering the interaction between climate variations and stand development. For validation, half-hourly data on eddy water vapor fluxes were measured during the 10 growing seasons (May–September). The model predicted well the seasonal course of ET compared to the measured values, but slightly underestimated the water fluxes both in non-drought and drought (2000, 2003 and 2006) years. The prediction accuracy was, on average, higher in drought years. The simulated ET over the 10years explained, on average, 58% of the daily variations and 84% of the monthly amount of ET. Water amount from Et contributed most to the ET, with the fractions of Et, Ec and Eg being, on average, 67, 11 and 23% over the 10-year period, respectively. Regardless of weather conditions, the daily ET was strongly dependent on air temperature (Ta) and vapor pressure deficit (Da), but less dependent on soil moisture (Ws). On cloudy and rainy days, there was a non-linear relationship between the ET and solar radiation (Ro). During drought years, the model predicted lower daily canopy stomatal conductance (gcs) compared with non-drought years, leading to a lower level of Et. The modeled daily gcs responded well to Da and Ws. In the model simulation, the annual LAI increased by 35% between 1999 and 2008. The ratio of Ec: ET correlated strongly with LAI. Furthermore, LAI reduced the proportion of Eg as a result of the increased share of Ec and Et and radiation interception. Although the increase of LAI affected positively Et, the contribution of Et in ET was not significantly correlated with LAI. To conclude, although the model predicted reasonably well the seasonal course of ET, the calculation time steps of different processes in the model should be homogenized in the future to increase the prediction accuracy.

Suggested Citation

  • Ge, Zhen-Ming & Zhou, Xiao & Kellomäki, Seppo & Peltola, Heli & Wang, Kai-Yun, 2011. "Climate, canopy conductance and leaf area development controls on evapotranspiration in a boreal coniferous forest over a 10-year period: A united model assessment," Ecological Modelling, Elsevier, vol. 222(9), pages 1626-1638.
    • Handle: RePEc:eee:ecomod:v:222:y:2011:i:9:p:1626-1638
    DOI: 10.1016/j.ecolmodel.2011.02.022
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    1. Olchev, A. & Ibrom, A. & Ross, T. & Falk, U. & Rakkibu, G. & Radler, K. & Grote, S. & Kreilein, H. & Gravenhorst, G., 2008. "A modelling approach for simulation of water and carbon dioxide exchange between multi-species tropical rain forest and the atmosphere," Ecological Modelling, Elsevier, vol. 212(1), pages 122-130.
    2. Ge, Zhen-ming & Zhou, Xiao & Kellomäki, Seppo & Wang, Kai-yun & Peltola, Heli & Väisänen, Hannu & Strandman, Harri, 2010. "Effects of changing climate on water and nitrogen availability with implications on the productivity of Norway spruce stands in Southern Finland," Ecological Modelling, Elsevier, vol. 221(13), pages 1731-1743.
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    1. Ge, Zhen-Ming & Guo, Hai-Qiang & Zhao, Bin & Zhang, Chao & Peltola, Heli & Zhang, Li-Quan, 2016. "Spatiotemporal patterns of the gross primary production in the salt marshes with rapid community change: A coupled modeling approach," Ecological Modelling, Elsevier, vol. 321(C), pages 110-120.

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