The effect of elevated levels of phaeophytin in natural water on variable fluorescence measured from phytoplankton

doi:10.1093/plankt/24.11.1221

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Journal of Plankton Research Vol.24 no.11 pp.1221-1229, 2002
© Oxford University Press 2002

The effect of elevated levels of phaeophytin in natural water on variable fluorescence measured from phytoplankton

Eran Fuchs^*, Richard C. Zimmerman¹ and Jules S. Jaffe

Marine Physical Laboratories, Scripps Institution of Oceanography, 8820 Shellback Way, La Jolla, Ca 92093-0238 and ¹ Moss Landing Marine Laboratories, 8272 Moss Landing Road, Moss Landing, Ca 95039, USA

* Corresponding Author: eran{at}mpl.ucsd.edu

Variable fluorescence methods are becoming popular in studiesrelated to aquatic photosynthesis. In natural ocean water, phytoplanktonco-exist with their zooplankton and flagellate predators, viralparasites and the waste products of digested phytoplankton cellsthat contain phaeophytin (a chromo-phore produced by digestionof chlorophyll a). Fast repetition rate fluorometry, a techniquemainly applied in phytoplankton studies, was used to evaluateand quantify the effect of phaeophytin abundance in sea wateron variable fluorescence parameters: the photochemical quantumyield, ${Phi}$ _F (also known as F_v/F_m), and the functional cross-sectionof photosystem 2 (PS2), ${sigma}$ _PS2. If the value of ${Phi}$ _F determined islower than what it actually is, phytoplankton may be labeledas less healthy (or productive) than their true condition. Resultswere compared with data collected using another widely usedvariable fluorescence technique: pulse amplitude modulation(PAM). Our study concludes that for significantly elevated levelsof phaeophytin in the water, the measured values of ${Phi}$ _F shouldbe corrected to avoid misinterpretation. This conclusion isindependent of the measuring instrument. In waters with phaeophytinlevels that constitute less than $~$ 30% of the total measured pigment,no correction is required (<5% change in ${Phi}$ _F is expected).However, as phaeophytin levels rise, the effect on ${Phi}$ _F increasesand becomes more significant (e.g. ${Phi}$ _F appears 25% lower whenthe phaeophytin to total pigment ratio is $~$ 70%). High concentrationsof phaeophytin are not often reported in the open ocean. However,in highly productive coastal waters, high levels of phaeophytincan be encountered. The functional cross-section ( ${sigma}$ _PS2) measurementsare not affected by the presence of phaeophytin in the water.

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