Journal Article

Leaf gas exchange characteristics of three neotropical mangrove species in response to varying hydroperiod

Ken W. Krauss, Robert R. Twilley, Thomas W. Doyle and Emile S. Gardiner

in Tree Physiology

Volume 26, issue 7, pages 959-968
Published in print July 2006 | ISSN: 0829-318X
Published online July 2006 | e-ISSN: 1758-4469 | DOI:
Leaf gas exchange characteristics of three neotropical mangrove species in response to varying hydroperiod

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We determined how different hydroperiods affected leaf gas exchange characteristics of greenhouse-grown seedlings (2002) and saplings (2003) of the mangrove species Avicennia germinans (L.) Stearn., Laguncularia racemosa (L.) Gaertn. f., and Rhizophora mangle L. Hydroperiod treatments included no flooding (unflooded), intermittent flooding (intermittent), and permanent flooding (flooded). Plants in the intermittent treatment were measured under both flooded and drained states and compared separately. In the greenhouse study, plants of all species maintained different leaf areas in the contrasting hydroperiods during both years. Assimilation–light response curves indicated that the different hydroperiods had little effect on leaf gas exchange characteristics in either seedlings or saplings. However, short-term intermittent flooding for between 6 and 22 days caused a 20% reduction in maximum leaf-level carbon assimilation rate, a 51% lower light requirement to attain 50% of maximum assimilation, and a 38% higher demand from dark respiration. Although interspecific differences were evident for nearly all measured parameters in both years, there was little consistency in ranking of the interspecific responses. Species by hydroperiod interactions were significant only for sapling leaf area. In a field study, R. mangle saplings along the Shark River in the Everglades National Park either demonstrated no significant effect or slight enhancement of carbon assimilation and water-use efficiency while flooded. We obtained little evidence that contrasting hydroperiods affect leaf gas exchange characteristics of mangrove seedlings or saplings over long time intervals; however, intermittent flooding may cause short-term depressions in leaf gas exchange. The resilience of mangrove systems to flooding, as demonstrated in the permanently flooded treatments, will likely promote photosynthetic and morphological adjustment to slight hydroperiod shifts in many settings.

Keywords: Avicennia germinans; carbon assimilation; flooding; Laguncularia racemosa; photosynthesis; Rhizophora mangle; stress physiology; water-use efficiency

Journal Article.  0 words. 

Subjects: Plant Sciences and Forestry

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