Artigo

Modelling Amazonian forest eddy covariance data: a comparison of big leaf versus sun/shade models for the C-14 tower at Manaus I. Canopy photosynthesis

In this study, we concentrate on modelling gross primary productivity using two simple approaches to simulate canopy photosynthesis"big leaf" and "sun/shade" models. Two approaches for calibration are usedscaling up of canopy photosynthetic parameters from the leaf to the canopy level and fitting ca...

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Autor principal: Mercado, Lina
Outros Autores: Lloyd, Jon, Carswell, Fiona, Malhi, Yadvinder, Meir, Patrick, Nobre, Antônio Donato
Grau: Artigo
Idioma: English
Publicado em: Acta Amazonica 2020
Assuntos:
Acesso em linha: https://repositorio.inpa.gov.br/handle/1/13480
Resumo:
In this study, we concentrate on modelling gross primary productivity using two simple approaches to simulate canopy photosynthesis"big leaf" and "sun/shade" models. Two approaches for calibration are usedscaling up of canopy photosynthetic parameters from the leaf to the canopy level and fitting canopy biochemistry to eddy covariance fluxes. Validation of the models is achieved by using eddy covariance data from the LBA site C14. Comparing the performance of both models we conclude that numerically (in terms of goodness of fit) and qualitatively, (in terms of residual response to different environmental variables) sun/shade does a better job. Compared to the sun/shade model, the big leaf model shows a lower goodness of fit and fails to respond to variations in the diffuse fraction, also having skewed responses to temperature and VPD. The separate treatment of sun and shade leaves in combination with the separation of the incoming light into direct beam and diffuse make sun/shade a strong modelling tool that catches more of the observed variability in canopy fluxes as measured by eddy covariance. In conclusion, the sun/shade approach is a relatively simple and effective tool for modelling photosynthetic carbon uptake that could be easily included in many terrestrial carbon models.