Mesophyll Diffusion Conductance to CO2: an Unappreciated Central Player in Photosynthesis

Overview

Journal Plant Sci

Specialty Biochemistry

Date 2012 Jul 17

PMID 22794920

Citations 162

Authors

Jaume Flexas

Margaret M Barbour

Oliver Brendel

Hernan M Cabrera

Marc Carriqui

Antonio Diaz-Espejo

Cyril Douthe

Erwin Dreyer

Juan P Ferrio

Jorge Gago

Alexander Galle

Jeroni Galmes

Naomi Kodama

Hipolito Medrano

Ulo Niinemets

Jose J Peguero-Pina

Alicia Pou

Miquel Ribas-Carbo

Magdalena Tomas

Tiina Tosens

Charles R Warren

Affiliations

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Abstract

Mesophyll diffusion conductance to CO(2) is a key photosynthetic trait that has been studied intensively in the past years. The intention of the present review is to update knowledge of g(m), and highlight the important unknown and controversial aspects that require future work. The photosynthetic limitation imposed by mesophyll conductance is large, and under certain conditions can be the most significant photosynthetic limitation. New evidence shows that anatomical traits, such as cell wall thickness and chloroplast distribution are amongst the stronger determinants of mesophyll conductance, although rapid variations in response to environmental changes might be regulated by other factors such as aquaporin conductance. Gaps in knowledge that should be research priorities for the near future include: how different is mesophyll conductance among phylogenetically distant groups and how has it evolved? Can mesophyll conductance be uncoupled from regulation of the water path? What are the main drivers of mesophyll conductance? The need for mechanistic and phenomenological models of mesophyll conductance and its incorporation in process-based photosynthesis models is also highlighted.

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