Differences in plant function in phosphorus- and nitrogen-limited mangrove ecosystems

doi:10.1111/j.1469-8137.2006.01851.x

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Wiley InterScience

New Phytologist

Volume 172 Issue 3, Pages 514 - 522

Published Online: 1 Aug 2006

Published on behalf of the New Phytologist Trust

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Differences in plant function in phosphorus- and nitrogen-limited mangrove ecosystems

Catherine E. Lovelock ¹ , Ilka C. Feller ² , Marilyn C. Ball ³ , Bettina M. J. Engelbrecht ^4,5 and Mei Ling Ewe ⁶

¹ Centre for Marine Studies, University of Queensland, St Lucia Q 4072, Australia; ² Smithsonian Environmental Research Center, PO Box 28, Edgewater, MD 21037, USA; ³ Ecosystem Dynamics, Research School of Biological Science, Australian National University, Canberra ACT 0200, Australia; ⁴ Smithsonian Tropical Research Institute, Balboa, Republic of Panama; ⁵ Technische Universität Kaiserslautern, Department of Plant Ecology and Systematics, 67663 Kaiserslautern, Germany; ⁶ South-east Environmental Research Center, Florida International University, Miami, FL 33199, USA

Author for correspondence: Catherine Lovelock Tel: +61 7336 54333 Fax: +61 7336 54755 Email: c.lovelock@uq.edu.au

KEYWORDS

Avicennia germinans • Belize • fertilization • Florida • hydraulic conductivity • leaf water potential • photosynthesis

New Phytologist (2006) 172: 514–522

ABSTRACT

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Mangrove ecosystems can be either nitrogen (N) or phosphorus (P) limited and are therefore vulnerable to nutrient pollution. Nutrient enrichment with either N or P may have differing effects on ecosystems because of underlying differences in plant physiological responses to these nutrients in either N- or P-limited settings.
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Using a common mangrove species, Avicennia germinans, in sites where growth was either N or P limited, we investigated differing physiological responses to N and P limitation and fertilization. We tested the hypothesis that water uptake and transport, and hydraulic architecture, were the main processes limiting productivity at the P-limited site, but that this was not the case at the N-limited site.
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We found that plants at the P-deficient site had lower leaf water potential, stomatal conductance and photosynthetic carbon-assimilation rates, and less conductive xylem, than those at the N-limited site. These differences were greatly reduced with P fertilization at the P-limited site. By contrast, fertilization with N at the N-limited site had little effect on either photosynthetic or hydraulic traits.
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We conclude that growth in N- and P-limited sites differentially affect the hydraulic pathways of mangroves. Plants experiencing P limitation appear to be water deficient and undergo more pronounced changes in structure and function with relief of nutrient deficiency than those in N-limited ecosystems.

Received: 8 May 2006 Accepted: 19 June 2006

DIGITAL OBJECT IDENTIFIER (DOI)

10.1111/j.1469-8137.2006.01851.x About DOI