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Nitrogen allocation and the fate of absorbed light in 21-year-old Pinus radiata
journal contribution
posted on 2019-10-24, 00:00 authored by Sabine Tausz-Posch, CR Warren, J Kruse, H Guttenberger, MA AdamsWe investigated effects of nitrogen (N) fertilizer and canopy position on the allocation of N to Rubisco and chlorophyll as well as the distribution of absorbed light among thermal energy dissipation, photochemistry, net CO 2 assimilation and alternative electron sinks such as the Mehler reaction and photorespiration. The relative reduction state of the primary quinone receptor of photosystem II (Q A ) was used as a surrogate for photosystem II (PSII) vulnerability to photoinactivation. Measurements were made on needles from the lower, mid and upper canopy of 21-year-old Pinus radiata D. Don trees grown with (N+) and without (N0) added N fertilizer. Rubisco was 45 to 60% higher in needles of N+ trees than in needles of NO trees at all canopy positions. Chlorophyll was ∼80% higher in lower- and mid-canopy needles of N+ trees than of N0 trees, but only ∼20% higher in upper-canopy needles. Physiological differences between N+ and N0 trees were found only in the lower- and mid- canopy positions. Needles of N+ trees dissipated up to 30% less light energy as heat than needles of N0 trees and had correspondingly more reduced Q A . Net CO 2 assimilation and the proportions of electrons used by alternative electron sinks such as the Mehler reaction and photorespiration were unaffected by N treatment regardless of canopy position. We conclude that the application of N fertilizer mainly affected the biochemistry and light-use physiology in lower- and mid-canopy needles by increasing the amount of chlorophyll and hence the amount of light harvested. This, however, did not improve photochemistry or safe dissipation, but increased PSII vulnerability to photoinactivation, an effect with likely significant consequences during sunflecks or sudden gap formation. © 2008 Heron Publishing.
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Volume
28Issue
3Start Page
375End Page
384Number of Pages
10ISSN
0829-318XPublisher
Oxford University Press, UKPublisher DOI
Peer Reviewed
- Yes
Open Access
- No
Acceptance Date
2007-09-16External Author Affiliations
University of Melbourne; Karl-Franzens-University Graz, Austria; University of Sydney; University of New South WalesEra Eligible
- Yes
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