Article
 

LawBeverlyForestryAsymmetricalEffectsMesophyll_FigureS1.pdf

Público Deposited

Contenido Descargable

Descargar PDF
https://ir.library.oregonstate.edu/concern/articles/2f75r9418

Descriptions

Attribute NameValues
Creator
Abstract
  • Worldwide measurements of nearly 130C3 species covering all major plant functional types are analysed in conjunction with model simulations to determine the effects of mesophyll conductance (gm) on photosynthetic parameters and their relationships estimated from A/Ci curves. We find that an assumption of infinite gm results in up to 75% underestimation for maximum carboxylation rate Vcmax, 60% for maximum electron transport rate Jmax, and 40% for triose phosphate utilization rate Tu.Vcmax is most sensitive, Jmax is less sensitive, and Tu has the least sensitivity to the variation of gm. Because of this asymmetrical effect of gm, the ratios of Jmax to Vcmax, Tu to Vcmax and Tu to Jmax are all overestimated. An infinite gm assumption also limits the freedom of variation of estimated parameters and artificially constrains parameter relationships to stronger shapes. These findings suggest the importance of quantifying gm for understanding in situ photosynthetic machinery functioning.We show that a nonzero resistance to CO2 movement in chloroplasts has small effects on estimated parameters. A non-linear function with gm as input is developed to convert the parameters estimated under an assumption of infinite gm to proper values. This function will facilitate gm representation in global carbon cycle models.
  • Keywords: A/C[subscript i] curves, LeafWeb, Carbon cycle model, Parameter estimation, Leaf photosynthesis
Resource Type
Declaración de derechos

Relaciones

Parents:

Elementos

Miniatura Título Fecha de subida Visibilidad Acciones
file details LawBeverlyForestryAsymmetricalEffectsMesophyll_FigureS1.pdf 2017-07-25 Público Descargar