Abstract

AbstractMany bromeliads occur in habitats that are potentially affected by salt. Pitcairnia halophila is a particularly interesting case in this context due to its growing sites in the spray zone of coastal cliffs in Central America. We conducted an experimental/observational study that explored the physiological and ecological basis of the occurrence of this species. Germination of P. halophila was as affected by increasing salinity as that of congeneric species from other natural growing sites, but seedling growth was less impaired in comparison and remained positive even at exposure to half-strength seawater. Interestingly, in situ plant nutrient concentrations documented over an entire growing season suggest that this capacity to tolerate salt stress is not tested at the natural growing site – Na+ concentrations were consistently low in leaves and shoots and comparable to those of seedlings watered with distilled water in the laboratory. We conclude that P. halophila shows the physiological ability to deal with medium levels of salinity, but ecological conditions at the humid tropical growing site allow these plants to avoid salt stress entirely in spite of the close proximity to the sea.

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