Optimal photosynthetic use of light by tropical tree crowns achieved by adjustment of individual leaf angles and nitrogen content

doi:10.1093/aob/mcn265

AOBPreview originally published online on January 16, 2009
Annals of Botany 2009 103(5):795-805; doi:10.1093/aob/mcn265

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Optimal photosynthetic use of light by tropical tree crowns achieved by adjustment of individual leaf angles and nitrogen content

Juan M. Posada¹^,2^,*, Martin J. Lechowicz² and Kaoru Kitajima¹^,3

¹ Department of Botany, University of Florida, 220 Bartram Hall, Gainesville, FL 32611, USA
² Department of Biology, McGill University, 1205 Avenue Docteur Penfield, Montréal, Québec, Canada H3A 1B1
³ Smithsonian Tropical Research Institute, Roosevelt Avenue, Tupper Building – 401, Balboa, Ancón, Panamá, Republic of Panamá

^* For correspondence. E-mail juan_posada{at}me.com

Received: 8 September 2008 Returned for revision: 8 October 2008 Accepted: 25 November 2008 Published electronically: 16 January 2009

Background and Aims: Theory for optimal allocation of foliar nitrogen (ONA) predictsthat both nitrogen concentration and photosynthetic capacitywill scale linearly with gradients of insolation within plantcanopies. ONA is expected to allow plants to efficiently useboth light and nitrogen. However, empirical data generally donot exhibit perfect ONA, and light-use optimization per se islittle explored. The aim was to examine to what degree partitioningof nitrogen or light is optimized in the crowns of three tropicalcanopy tree species.

Methods: Instantaneous photosynthetic photon flux density (PPFD) incidenton the adaxial surface of individual leaves was measured alongvertical PPFD gradients in tree canopies at a frequency of 0·5Hz over 9–17 d, and summed to obtain the average dailyintegral of PPFD for each leaf to characterize its insolationregime. Also measured were leaf N per area (N_area), leaf massper area (LMA), the cosine of leaf inclination and the parametersof the photosynthetic light response curve [photosynthetic capacity(A_max), dark respiration (R_d), apparent quantum yield ( ${phi}$ ) andcurvature ( ${theta}$ )]. The instantaneous PPFD measurements and lightresponse curves were used to estimate leaf daily photosynthesis(A_daily) for each leaf.

Key Results: Leaf N_area and A_max changed as a hyperbolic asymptotic functionof the PPFD regime, not the linear relationship predicted byONA. Despite this suboptimal nitrogen partitioning among leaves,A_daily did increase linearly with PPFD regime through co-ordinatedadjustments in both leaf angle and physiology along canopy gradientsin insolation, exhibiting a strong convergence among the threespecies.

Conclusions: The results suggest that canopy tree leaves in this tropicalforest optimize photosynthetic use of PPFD rather than N perse. Tropical tree canopies then can be considered simple ‘big-leaves’in which all constituent ‘small leaves’ use PPFDwith the same photosynthetic efficiency.

Key words: Optimal resource allocation, nitrogen, photosynthetic capacity, leaf mass per area, tropical trees, radiation use efficiency, scaling, leaf angle, canopy architecture, big leaf model

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