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W1998861507 endingPage "1162" @default.
W1998861507 startingPage "1143" @default.
W1998861507 abstract "Photosynthetic bacteria are attractive for biotechnology because they produce no oxygen and so H2 -production is not inhibited by oxygen as occurs in oxygenic photoorganisms. Rhodopseudomonas palustris and Afifella marina containing BChl a can use irradiances from violet near-UV (VNUV) to orange (350-650 nm) light and near-infrared (NIR) light (762-870 nm). Blue diode-based pulse amplitude modulation technology was used to measure their photosynthetic electron transport rate (ETR). ETR vs Irradiance curves fitted the waiting-in-line model--ETR = (ETRmax × E/Eopt) × exp (1 - E/Eopt). The equation was integrated over pond depth to calculate ETR of Afifella and Rhodopseudomonas in a pond up to 30 cm deep (A376, 1 cm = 0.1). Afifella saturates at low irradiances and so photoinhibition results in very low photosynthesis in a pond. Rhodopseudomonas saturates at ≈15% sunlight and shows photoinhibition in the surface layers of the pond. Total ETR is ≈335 μmol (e(-)) m(-2) s(-1) in NUV + photosynthetically active radiation light (350-700 nm). Daily ETR curves saturate at low irradiances and have a square-wave shape: ≈11-13 mol (e(-)) m(-2) day(-1) (350-700 nm). Up to 20-24% of daily 350-700 nm irradiance can be converted into ETR. NIR is absorbed by water and so competes with the bacterial RC-2 photosystem for photons." @default.
W1998861507 created "2016-06-24" @default.
W1998861507 creator A5039838014 @default.
W1998861507 date "2013-08-03" @default.
W1998861507 modified "2023-10-02" @default.
W1998861507 title "The Use of Solar Radiation by the Photosynthetic Bacterium,<i>Rhodopseudomonas palustris</i>: Model Simulation of Conditions Found in a Shallow Pond or a Flatbed Reactor" @default.
W1998861507 cites W112554723 @default.
W1998861507 cites W1429694344 @default.
W1998861507 cites W1539909122 @default.
W1998861507 cites W1544394936 @default.
W1998861507 cites W1553435889 @default.
W1998861507 cites W1559760050 @default.
W1998861507 cites W1566208906 @default.
W1998861507 cites W1578304465 @default.
W1998861507 cites W1770737447 @default.
W1998861507 cites W1791048741 @default.
W1998861507 cites W1913786064 @default.
W1998861507 cites W1964755703 @default.
W1998861507 cites W1965050192 @default.
W1998861507 cites W1966833020 @default.
W1998861507 cites W1967500398 @default.
W1998861507 cites W1968711920 @default.
W1998861507 cites W1968965612 @default.
W1998861507 cites W1973198854 @default.
W1998861507 cites W1973822992 @default.
W1998861507 cites W1974296569 @default.
W1998861507 cites W1975892234 @default.
W1998861507 cites W1977214664 @default.
W1998861507 cites W1977497970 @default.
W1998861507 cites W1984063224 @default.
W1998861507 cites W1991106373 @default.
W1998861507 cites W1991924937 @default.
W1998861507 cites W1994402780 @default.
W1998861507 cites W2000441097 @default.
W1998861507 cites W2000748235 @default.
W1998861507 cites W2003084318 @default.
W1998861507 cites W2005663224 @default.
W1998861507 cites W2007931975 @default.
W1998861507 cites W2009314448 @default.
W1998861507 cites W2010089916 @default.
W1998861507 cites W2010364786 @default.
W1998861507 cites W2012220207 @default.
W1998861507 cites W2013789832 @default.
W1998861507 cites W2015666391 @default.
W1998861507 cites W2021741913 @default.
W1998861507 cites W2026366474 @default.
W1998861507 cites W2028201857 @default.
W1998861507 cites W2034589540 @default.
W1998861507 cites W2036298305 @default.
W1998861507 cites W2038161366 @default.
W1998861507 cites W2041988613 @default.
W1998861507 cites W2045305428 @default.
W1998861507 cites W2045676782 @default.
W1998861507 cites W2046507567 @default.
W1998861507 cites W2047683240 @default.
W1998861507 cites W2048480127 @default.
W1998861507 cites W2050969211 @default.
W1998861507 cites W2051135021 @default.
W1998861507 cites W2057317480 @default.
W1998861507 cites W2059478199 @default.
W1998861507 cites W2062313810 @default.
W1998861507 cites W2064695016 @default.
W1998861507 cites W2065791827 @default.
W1998861507 cites W2070178690 @default.
W1998861507 cites W2082557963 @default.
W1998861507 cites W2089188026 @default.
W1998861507 cites W2089575678 @default.
W1998861507 cites W2091133346 @default.
W1998861507 cites W2093560200 @default.
W1998861507 cites W2094034351 @default.
W1998861507 cites W2094776088 @default.
W1998861507 cites W2102822898 @default.
W1998861507 cites W2108427837 @default.
W1998861507 cites W2115409491 @default.
W1998861507 cites W2115663229 @default.
W1998861507 cites W2117915853 @default.
W1998861507 cites W2118379020 @default.
W1998861507 cites W2125735997 @default.
W1998861507 cites W2125841135 @default.
W1998861507 cites W2127595139 @default.
W1998861507 cites W2127628180 @default.
W1998861507 cites W2128834757 @default.
W1998861507 cites W2138556590 @default.
W1998861507 cites W2153844376 @default.
W1998861507 cites W2155782014 @default.
W1998861507 cites W2158175495 @default.
W1998861507 cites W2167736577 @default.
W1998861507 cites W2169289406 @default.
W1998861507 cites W2272797374 @default.
W1998861507 cites W2327244581 @default.
W1998861507 cites W302064266 @default.
W1998861507 cites W4249369816 @default.
W1998861507 doi "https://doi.org/10.1111/php.12124" @default.
W1998861507 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23808360" @default.
W1998861507 hasPublicationYear "2013" @default.
W1998861507 type Work @default.
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