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Improvement of field fluorometry estimates of chlorophyll <i>a</i> concentration in a cyanobacteria‐rich eutrophic lake

Amir M. Chegoonian, Kiana Zolfaghari, Peter R. Leavitt, Helen M. Baulch, Claude Duguay

2022Limnology and Oceanography Methods17 citationsDOIOpen Access PDF

Abstract

Abstract Instrumented buoys are used to monitor water quality, yet there remains a need to evaluate whether in vivo fluorometric measures of chlorophyll a (Chl a ) produce accurate estimates of phytoplankton abundance. Here, 6 years (2014–2019) of in vitro measurements of Chl a by spectrophotometry were compared with coeval estimates from buoy‐based fluorescence measurements in eutrophic Buffalo Pound Lake, Saskatchewan, Canada. Analysis revealed that fluorometric and in vitro estimates of Chl a differed both in terms of absolute concentration and patterns of relative change through time. Three models were developed to improve agreement between metrics of Chl a concentration, including two based on Chl a and phycocyanin (PC) fluorescence and one based on multiple linear regressions with measured environmental conditions. All models were examined in terms of two performance metrics; accuracy (lowest error) and reliability (% fit within confidence intervals). The model based on PC fluorescence was most accurate (error = 35%), whereas that using environmental factors was most reliable (89% within 3 σ of mean). Models were also evaluated on their ability to produce spatial maps of Chl a using remotely sensed imagery. Here, newly developed models significantly improved system performance with a 30% decrease in Chl a errors and a twofold increase in the range of reconstructed Chl a values. Superiority of the PC model likely reflected high cyanobacterial abundance, as well as the excitation–emission wavelength configuration of fluorometers. Our findings suggest that a PC fluorometer, used alone or in combination with environmental measurements, performs better than a single‐excitation‐band Chl a fluorometer in estimating Chl a content in highly eutrophic waters.

Topics & Concepts

FluorometerEutrophicationEnvironmental sciencePhycocyaninChlorophyll aRemote sensingCyanobacteriaChemistryFluorescenceEcologyBiologyPhysicsGeographyOpticsBiochemistryNutrientBacteriaGeneticsMarine and coastal ecosystemsWater Quality Monitoring and AnalysisAquatic Ecosystems and Phytoplankton Dynamics