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Response to salinity and heat stress in two halotolerant chlorophyte algae
Two new isolates of halotolerant chlorophyte algae from the Salt Plains National Wildlife Refuge in Oklahoma, USA, tentatively identified as Dunaliella sp. Teodoresco and Nannochloris sp. Naumann, were characterized with respect to interaction between growth salinity and short-term heat tolerance. C...
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Published in: | Journal of phycology 2002-08, Vol.38 (4), p.757-766 |
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Main Authors: | , , |
Format: | Article |
Language: | English |
Subjects: | |
Online Access: | Get full text |
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Summary: | Two new isolates of halotolerant chlorophyte algae from the Salt Plains National Wildlife Refuge in Oklahoma, USA, tentatively identified as Dunaliella sp. Teodoresco and Nannochloris sp. Naumann, were characterized with respect to interaction between growth salinity and short-term heat tolerance. Cells were cultured at 23-25 degree C over a wide range of salinity. In both species, salinity alone had little effect on maximum photochemical yield (measured by pulse modulated fluorescence) and integrity of the light harvesting system (77 K fluorescence emission spectra). In contrast, Nannochloris exhibited decreasing growth rate ( mu ), light-saturated photosynthetic capacity (P super(cell) sub(max)), respiration (R sub(d)), light-harvesting efficiency ( alpha super(cell)), and chl content with increasing salinity. Cultures were heated for 2 h near their upper temperature limits (41.5 degree C for Dunaliella and 45 degree C for Nannochloris grown at 50 psu). Dunaliella was progressively more heat-tolerant with increasing salinity. Photochemical yield of cells at 100 and 50 psu was inhibited by about 15% and 40%, respectively, and largely recovered within 30 min after return to 23 degree C. Thermal inhibition of photochemical yield in Nannochloris was about 45% at both 50 and 100 psu, but recovery was slower at 100 psu. At 20 psu, both species were almost 90% inhibited by high temperature and required more than a day to recover. In both species, 2 h of heating increased the PSI:PSII fluorescence emission ratio (714:690 nm) at all salinities. This ratio largely recovered within 24 h in Dunaliella at 50 and 100 psu and partially recovered in Nannochloris at 100 psu, but cells of both species heated at 20 psu were chlorotic the next day. |
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ISSN: | 0022-3646 |
DOI: | 10.1046/j.1529-8817.2002.01172.x |