Journal
AMERICAN JOURNAL OF BOTANY
Volume 94, Issue 12, Pages 1972-1983Publisher
WILEY
DOI: 10.3732/ajb.94.12.1972
Keywords
chloroplast; Ethiopian Rift Valley; Kirchneriella; Lake Awasa; microspectrofluorimetry; photosystem II; salinity; ultrastructure
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Plants differ in their ability to tolerate salt stress. In aquatic ecosystems, it is important to know the responses of microalgae to increased salinity levels, especially considering that global warming will increase salinity levels in some regions of the Earth, e.g., Ethiopia. A green microalga, Kirchneriella sp. (Selenastraceae, Chlorophyta), isolated from freshwater Lake Awasa in the Rift Valley, Ethiopia, was cultured in media amended with 0, 0.4, 1.9, 5.9, and 19.4 g NaCl center dot L-1 adjusted with NaCl to five salinity levels adjusted with NaCl. Growth was monitored for 3 mo, then samples were collected for photosynthetic pigment determinations, microspectrofluorimetric analyses, and micro- and submicroscopic examinations. The best growth was found at 1.9 g NaCl center dot L-1. In the chloroplast, excess NaCl affected the coupling of light harvesting complex 11 and photosystem II (LHCII-PSII), but changes in thylakoid architecture and in the PSII assembly state allowed sufficient integrity of the photosynthetic membrane. The mucilaginous capsule around the cell probably provided partial protection against NaCl excess. On the whole, the microalga is able to acclimate to a range of NaCl concentrations, and this plasticity indicates that Kirchneriella sp. may survive future changes in water quality.
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