Effects of light environment and successional status on lightfleck use by understory trees of temperate and tropical forests

Utilization efficiency (LUE) of lightflecks by leaves increases with decreasing duration of the lightfleck, and depends on photosynthetic induction. Sun and shade leaves differ with respect to photosynthetic induction. Shade leaves may become fully induced by a series of light pulses, whereas photos...

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Veröffentlicht in:	Tree physiology 1996, Vol.16 (1/2), p.69-80
Hauptverfasser:	Kuppers, M, Timm, H, Orth, F, Stegemann, J, Stober, R, Schneider, H, Paliwal, K, Karunaichamy, K.S.T.K, Ortiz, R
Format:	Artikel
Sprache:	eng
Schlagworte:	acclimation canopy ecological succession forest trees gas exchange leaves light harvesting complex light intensity light penetration net assimilation rate pioneer species shade temperate zones tropical forests understory
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container_title	Tree physiology
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creator	Kuppers, M Timm, H Orth, F Stegemann, J Stober, R Schneider, H Paliwal, K Karunaichamy, K.S.T.K Ortiz, R
description	Utilization efficiency (LUE) of lightflecks by leaves increases with decreasing duration of the lightfleck, and depends on photosynthetic induction. Sun and shade leaves differ with respect to photosynthetic induction. Shade leaves may become fully induced by a series of light pulses, whereas photosynthetic induction of leaves from partial-shade or full sun depends on continuous light. Additionally, shade leaves maintain a higher induction state over longer periods in dim light or darkness than sun leaves. Both features are advantageous to shade leaves in a highly dynamic light environment. We determined whether pioneer plants and late-successional species differ in photosynthetic induction dynamics and LUE during the establishment phase when both plant types are growing in the shade of the understory. We also determined the effects of shade acclimation and successional position of species on photosynthetic induction and LUE. Results from temperate and tropical rain forests indicate a trade-off between leaf acclimation to shade and the successional position of species. Light acclimation is important, but in deep shade, late-successional species maintain a higher induction state over longer periods than pioneer species.
doi_str_mv	10.1093/treephys/16.1-2.69
format	Article
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Sun and shade leaves differ with respect to photosynthetic induction. Shade leaves may become fully induced by a series of light pulses, whereas photosynthetic induction of leaves from partial-shade or full sun depends on continuous light. Additionally, shade leaves maintain a higher induction state over longer periods in dim light or darkness than sun leaves. Both features are advantageous to shade leaves in a highly dynamic light environment. We determined whether pioneer plants and late-successional species differ in photosynthetic induction dynamics and LUE during the establishment phase when both plant types are growing in the shade of the understory. We also determined the effects of shade acclimation and successional position of species on photosynthetic induction and LUE. Results from temperate and tropical rain forests indicate a trade-off between leaf acclimation to shade and the successional position of species. Light acclimation is important, but in deep shade, late-successional species maintain a higher induction state over longer periods than pioneer species.</abstract><cop>Canada</cop><pmid>14871749</pmid><doi>10.1093/treephys/16.1-2.69</doi><tpages>12</tpages><oa>free_for_read</oa></addata></record>
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source	Oxford University Press Journals All Titles (1996-Current)
subjects	acclimation canopy ecological succession forest trees gas exchange leaves light harvesting complex light intensity light penetration net assimilation rate pioneer species shade temperate zones tropical forests understory
title	Effects of light environment and successional status on lightfleck use by understory trees of temperate and tropical forests
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