Jorge Gago scite author profile

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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UAVs challenge to assess water stress for sustainable agriculture

Gago

Douthe

Coopman

et al. 2015

Agricultural Water Management

478

284

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The photosynthetic capacity in 35 ferns and fern allies: mesophyll CO₂ diffusion as a key trait

et al. 2015

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Summary Ferns and fern allies have low photosynthetic rates compared with seed plants. Their photosynthesis is thought to be limited principally by physical CO2 diffusion from the atmosphere to chloroplasts. The aim of this study was to understand the reasons for low photosynthesis in species of ferns and fern allies (Lycopodiopsida and Polypodiopsida). We performed a comprehensive assessment of the foliar gas‐exchange and mesophyll structural traits involved in photosynthetic function for 35 species of ferns and fern allies. Additionally, the leaf economics spectrum (the interrelationships between photosynthetic capacity and leaf/frond traits such as leaf dry mass per unit area or nitrogen content) was tested. Low mesophyll conductance to CO2 was the main cause for low photosynthesis in ferns and fern allies, which, in turn, was associated with thick cell walls and reduced chloroplast distribution towards intercellular mesophyll air spaces. Generally, the leaf economics spectrum in ferns follows a trend similar to that in seed plants. Nevertheless, ferns and allies had less nitrogen per unit DW than seed plants (i.e. the same slope but a different intercept) and lower photosynthesis rates per leaf mass area and per unit of nitrogen.

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Leaf mesophyll conductance and leaf hydraulic conductance: an introduction to their measurement and coordination

et al. 2013

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Two highly contrasting variables summarizing the efficiency of transport of materials within the leaf are recognized as playing central roles in determining gas exchange and plant performance. This paper summarizes current approaches for the measurement of mesophyll conductance to CO2 (g m) and leaf hydraulic conductance (K leaf) and addresses the physiological integration of these parameters. First, the most common methods to determine g m and K leaf are summarized. Next, novel data compilation is analysed, which indicates that, across diverse species, g m is strongly linked with gas exchange parameters such as net CO2 assimilation (A area) and stomatal conductance (g s), and with K leaf, independently of leaf vein length per leaf area. Based on their parallel responses to a number of environmental variables, this review proposes that g m is linked to the outside-xylem but not to the xylem component of K leaf. Further, a mechanistic hypothesis is proposed to explain the interactions among all these and other physiological parameters. Finally, the possibility of estimating g m based on this hypothesis was tested using a regression analysis and a neurofuzzy logic approach. These approaches enabled the estimation of g m of given species from K leaf and leaf mass per area, providing a higher predictive power than from either parameter alone. The possibility of estimating g m from measured K leaf or vice-versa would result in a rapid increase in available data. Studies in which g m, K leaf, and leaf mass per area are simultaneously determined are needed in order to confirm and strengthen predictive and explanatory models for these parameters and importantly improve resolution of the integrated hydraulic-stomatal-photosynthetic system.

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Photosynthetic limitations in Mediterranean plants: A review

Flexas

Díaz-Espejo

Gago

et al. 2014

Environmental and Experimental Botany

230

136

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Jorge Gago

Mesophyll diffusion conductance to CO2: An unappreciated central player in photosynthesis

UAVs challenge to assess water stress for sustainable agriculture

The photosynthetic capacity in 35 ferns and fern allies: mesophyll CO₂ diffusion as a key trait

Leaf mesophyll conductance and leaf hydraulic conductance: an introduction to their measurement and coordination

Photosynthetic limitations in Mediterranean plants: A review

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Jorge Gago

Mesophyll diffusion conductance to CO2: An unappreciated central player in photosynthesis

UAVs challenge to assess water stress for sustainable agriculture

The photosynthetic capacity in 35 ferns and fern allies: mesophyll CO2 diffusion as a key trait

Leaf mesophyll conductance and leaf hydraulic conductance: an introduction to their measurement and coordination

Photosynthetic limitations in Mediterranean plants: A review

Contact Info

Product

Resources

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The photosynthetic capacity in 35 ferns and fern allies: mesophyll CO₂ diffusion as a key trait