On the relationship between leaf anatomy and CO2 diffusion through the mesophyll of hypostomatous leaves |
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| Authors: | J P SYVERTSEN J LLOYD C McCONCHIE P E KRIEDEMANN G D FARQUHAR |
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| Institution: | University of Florida, Citrus Research and Education Center, IFAS, 700 Experiment Station, Lake Alfred, FL33850, USA,;Environmental Biology Group, Research School of Biological Sciences, Institute of Advanced Studies, Australian National University, G.P.O. Box 475, Canberra, ACT 2601, Australia,;CSIRO, Division of Horticulture, Cardomony Rd, St Lucia, Queensland 4067, Australia,;CSIRO, Division of Forestry, P.O. Box 4008, Queen Victoria Terrace, ACT 2600, Australia |
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| Abstract: | Internal conductances to CO2 transfer from the stomatal cavity to sites of carboxylation (gi) in hypostomatous sun-and shade-grown leaves of citrus, peach and Macadamia trees (Lloyd et al. 1992) were related to anatomical characteristics of mesophyll tissues. There was a consistent relationship between absorptance of photosynthetically active radiation and chlorophyll concentration (mmol m?2) for all leaves, including sclerophyllous Macadamia, whose transmittance was high despite its relatively thick leaves. In thin peach leaves, which had high gi, the chloro-plast volume and mesophyll surface area exposed to intercellular air spaces (ias) per unit leaf area were similar to those in the thicker leaves of the evergreen species. Peach leaves, however, had the lowest leaf dry weight per area (D/a), the lowest tissue density (Td) and the highest chloro-plast surface area (Sc) exposed to ias. There were negative correlations between gi and leaf thickness or D/a, but positive correlations between gi and Sc or Sc/Td. We developed a one-dimensional diffusion model which partitioned gi into a gaseous diffusion conductance through the ias (gias) plus a liquid-phase conductance through mesophyll cell walls (gcw). The model accounted for a significant amount of variation (r2=0.80) in measured gi by incorporating both components. The gias component was related to the one-dimensional path-length for diffusion across the mesophyll and so was greater in thinner peach leaves than in leaves of evergreen species. The gcw component was related to tissue density and to the degree of chloroplast exposure to the ias. Thus the negative correlations between gi and leaf thickness or D/a related to gias whereas positive correlations between gi and Sc or Sc/Td, related to gcw. The gcw was consistently lower than gias, and thus represented a greater constraint on CO2 diffusion in the mesophylls of these hypostomatous species. |
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| Keywords: | Citrus Union Citrus parodisi Macadamia integrifolia Prunus persica chloroplast surface area diffusion conductance grapefruit intercellular air space lemon Macadamia mesophyll surface area peach photosynthesis Proteaceae Rosaceae Rutaceae |
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