Physiological Responses of Bryophytes Thuidium tamariscinum and Hylocomium splendens to Increased Nitrogen Deposition

doi:10.1093/aob/mcl239

AOBPreview originally published online on November 13, 2006
Annals of Botany 2007 99(1):161-169; doi:10.1093/aob/mcl239

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Physiological Responses of Bryophytes Thuidium tamariscinum and Hylocomium splendens to Increased Nitrogen Deposition

M. Koranda¹, S. Kerschbaum¹, W. Wanek¹^,*, H. Zechmeister² and A. Richter¹

¹ Department of Chemical Ecology and Ecosystem Research, University of Vienna, Althanstr. 14, 1090 Vienna, Austria
² Department of Conservation Biology, Vegetation Ecology and Landscape Ecology, University of Vienna, Althanstr. 14, 1090 Vienna, Austria

^* For correspondence. E-mail wolfgang.wanek{at}univie.ac.at

Received: 27 July 2006 Returned for revision: 5 September 2006 Accepted: 20 September 2006 Published electronically: 13 November 2006

BACKGROUND AND AIMS: Increased levels of nitrogen (N) deposition lead to enhancedN contents and reduced productivity of many bryophyte species.This study aimed at elucidating the mechanisms by which enhancedN uptake may cause growth reduction of bryophytes, focusingon the effects of N addition on carbon (C) metabolism of bryophytes.

METHODS: Plantlets of Thuidium tamariscinum and Hylocomium splendenswere fertilized with NH₄NO₃ (N load equalling 30 kg ha^–1year^–1) for 80 d, including a pulse labelling experimentwith ¹³CO₂ to dissect the partitioning of carbon in responseto N addition.

KEY RESULTS: Growth of T. tamariscinum was not affected by N addition, whileH. splendens showed a trend towards growth reduction. TotalN concentration was significantly increased by N addition inH. splendens, a significant increase in amino acid-N was foundin T. tamariscinum only. In both bryophyte species, a reductionin concentration of lipids, the greatest C storage pool, aswell as markedly enhanced turnover rates of C storage poolsin fertilized plants were observed.

CONCLUSIONS: The results suggest that growth reduction of H. splendens underhigh levels of N deposition may be caused by enhanced synthesisof N-containing organic compounds, most probably of cell wallproteins. Disturbance of cellular C metabolism, as indicatedby enhanced C pool turnover, may further contribute to the declinein productivity of H. splendens.

Key words: Bryophytes, nitrogen deposition, growth, Thuidium tamariscinum, Hylocomium splendens, C metabolism, amino acids

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