Why Abaxial Illumination Limits Photosynthetic Carbon Fixation in Spinach Leaves

doi:10.1093/pcp/pce001

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Plant and Cell Physiology, 2001, Vol. 42, No. 1 1-8
© 2001 Oxford University Press

Why Abaxial Illumination Limits Photosynthetic Carbon Fixation in Spinach Leaves

Jindong Sun^,1^,2 and John N. Nishio^,1^,3

¹ Department of Botany, University of Wyoming, Laramie, WY 82071-3165, U.S.A.

Limitations of carbon fixation within spinach leaves due tolight and CO₂ were investigated. Under equivalent photon fluxes,carbon fixation was higher when leaves were irradiated adaxiallycompared to abaxially. Maximal carbon fixation occurred in themiddle of the palisade mesophyll under adaxial illumination,whereas, maximal carbon fixation occurred in the spongy mesophyllunder abaxial illumination. Total carbon fixation and the patternof carbon fixation across leaves were similar, when leaves wereirradiated with 800 µmol quanta m^–2 s^–1either adaxially alone or adaxially plus abaxially (1,600 µmolquanta m^–2 s^–1). In contrast, when both leafsurfaces were irradiated simultaneously with 200 µmolquanta m^–2 s^–1, total carbon fixation increasedand carbon fixation in the middle of the leaf was higher comparedto leaves irradiated unilaterally with the low light. Feeding¹⁴CO₂ through either the adaxial or abaxial leaf surface didnot change the pattern of carbon fixation across the leaf. Increasing¹⁴CO₂ pulse-feeding times from 5 s to 60 s allowedmore ¹⁴CO₂ to be fixed but did not change the pattern of ¹⁴CO₂fixation across the leaf. We concluded that in spinach, thedistribution of both light and Rubisco activity within leaveshas significant effects on the patterns of carbon fixation acrossleaves; whereas CO₂ diffusion does not appear to affect thecarbon fixation pattern within spinach leaves.

² Present address: Monsanto Gene Mining and Development, MailZone N2SB, 800 N Lindbergh, Blvd., St. Louis, MO 63167, U.S.A.

³ Corresponding author: E-mail, nishio@uwyo.edu; Fax, +1-307-766-2851.

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