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Pao, Yi-Chen [Author]; Kahlen, Katrin [Author]; Chen, Tsu-Wei [Author]; Wiechers, Dirk [Author]; Stützel, Hartmut [Author]

How does structure matter? Comparison of canopy photosynthesis using one- And three-dimensional light models: A case study using greenhouse cucumber canopies - [published Version]

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  • Media type: E-Article; Text
  • Title: How does structure matter? Comparison of canopy photosynthesis using one- And three-dimensional light models: A case study using greenhouse cucumber canopies
  • Contributor: Pao, Yi-Chen [Author]; Kahlen, Katrin [Author]; Chen, Tsu-Wei [Author]; Wiechers, Dirk [Author]; Stützel, Hartmut [Author]
  • imprint: [Oxford] : Oxford University Press, 2021
  • Published in: In silico Plants 3 (2021), Nr. 2 ; In silico Plants
  • Issue: published Version
  • Language: English
  • DOI: https://doi.org/10.15488/15211; https://doi.org/10.1093/insilicoplants/diab031
  • Keywords: Canopy geometry ; Photosynthetic acclimation ; Light interception ; Functional-structural plant model (FSPM) ; Dry matter ; Light extinction coefficient
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  • Description: One-dimensional light models using the Beer-Lambert equation (BL) with the light extinction coefficient k are simple and robust tools for estimating light interception of homogeneous canopies. Functional-structural plant models (FSPMs) are powerful to capture light-plant interactions in heterogeneous canopies, but they are also more complex due to explicit descriptions of three-dimensional plant architecture and light models. For choosing an appropriate modelling approach, the trade-offs between simplicity and accuracy need to be considered when canopies with spatial heterogeneity are concerned. We compared two light modelling approaches, one following BL and another using ray tracing (RT), based on a framework of a dynamic FSPM of greenhouse cucumber. Resolutions of hourly step (HS) and daily step (DS) were applied to simulate light interception, leaf-level photosynthetic acclimation and plant-level dry matter production over growth periods of 2-5 weeks. Results showed that BL-HS was comparable to RT-HS in predicting shoot dry matter and photosynthetic parameters. The k used in the BL approach was simulated using an empirical relationship between k and leaf area index established with the assistance of RT, which showed variation up to 0.2 in k depending on canopy geometry under the same plant density. When a constant k value was used instead, a difference of 0.2 in k resulted in up to 27 % loss in accuracy for shoot dry matter. These results suggested that, with the assistance of RT in k estimation, the simple approach BL-HS provided efficient estimation for long-term processes.
  • Access State: Open Access