Oxygen evolution in a hypersaline crust: in situ photosynthesis quantification by microelectrode profiling and use of planar optode spots in incubation chambers
Net primary production and respiration were estimated in a hypersaline cyanobacterial mat colonizing a gypsum crust in the Eilat salterns, Israel. Two different approaches were used: in situ microprofiling with Clark-type O sub(2) sensors and application of optode sensor spots in incubation chambers...
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| Veröffentlicht in: | Aquatic microbial ecology 2009-01, Vol.56 (2-3), p.263-273 |
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| container_title | Aquatic microbial ecology |
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| creator | WOELFEL, Jana SERENSEN, Ketil WARKENTIN, Mareike FORSTER, Stefan OREN, Aharon SCHUMANN, Rhena |
| description | Net primary production and respiration were estimated in a hypersaline cyanobacterial mat colonizing a gypsum crust in the Eilat salterns, Israel. Two different approaches were used: in situ microprofiling with Clark-type O sub(2) sensors and application of optode sensor spots in incubation chambers. The net O sub(2) release rates of the mat phototrophs was high, with a maximum of 3.4 nmol O sub(2) cm super(-2) min super(-1) measured by microprofiling and 4.4 nmol O sub(2) cm super(-2) min super(-1) determined in the incubation chambers. The upper 2 layers of the mat as well as the overlying water quickly became O sub(2) saturated during the day. The respiration of the whole gypsum crust was also very intensive and corresponded to the O sub(2) produced by photosynthesis on a diurnal basis, which prevented most of the evolved O sub(2) from reaching the water. The results presented show that optode sensor spots are useful tools providing additional information about export and photosynthetic production rates of O sub(2) in hypersaline microbial mats. |
| doi_str_mv | 10.3354/ame01326 |
| format | Article |
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Two different approaches were used: in situ microprofiling with Clark-type O sub(2) sensors and application of optode sensor spots in incubation chambers. The net O sub(2) release rates of the mat phototrophs was high, with a maximum of 3.4 nmol O sub(2) cm super(-2) min super(-1) measured by microprofiling and 4.4 nmol O sub(2) cm super(-2) min super(-1) determined in the incubation chambers. The upper 2 layers of the mat as well as the overlying water quickly became O sub(2) saturated during the day. The respiration of the whole gypsum crust was also very intensive and corresponded to the O sub(2) produced by photosynthesis on a diurnal basis, which prevented most of the evolved O sub(2) from reaching the water. 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The results presented show that optode sensor spots are useful tools providing additional information about export and photosynthetic production rates of O sub(2) in hypersaline microbial mats.</description><subject>Biological and medical sciences</subject><subject>Fundamental and applied biological sciences. 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Two different approaches were used: in situ microprofiling with Clark-type O sub(2) sensors and application of optode sensor spots in incubation chambers. The net O sub(2) release rates of the mat phototrophs was high, with a maximum of 3.4 nmol O sub(2) cm super(-2) min super(-1) measured by microprofiling and 4.4 nmol O sub(2) cm super(-2) min super(-1) determined in the incubation chambers. The upper 2 layers of the mat as well as the overlying water quickly became O sub(2) saturated during the day. The respiration of the whole gypsum crust was also very intensive and corresponded to the O sub(2) produced by photosynthesis on a diurnal basis, which prevented most of the evolved O sub(2) from reaching the water. 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| ispartof | Aquatic microbial ecology, 2009-01, Vol.56 (2-3), p.263-273 |
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| language | eng |
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| source | Inter-Research; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Alma/SFX Local Collection |
| subjects | Biological and medical sciences Fundamental and applied biological sciences. Psychology Marine Microbiology |
| title | Oxygen evolution in a hypersaline crust: in situ photosynthesis quantification by microelectrode profiling and use of planar optode spots in incubation chambers |
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