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Article

Merging of the Case 2?Regional Coast Colour and Maximum-Peak Height chlorophyll-a algorithms: validation and demonstration of satellite-derived retrievals across US lakes

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Citation

Schaeffer B, Salls W, Coffer M, Lebreton C, Werther M, Stelzer K, Urquhart E & Gurlin D (2022) Merging of the Case 2?Regional Coast Colour and Maximum-Peak Height chlorophyll-a algorithms: validation and demonstration of satellite-derived retrievals across US lakes. Environmental Monitoring and Assessment, 194 (3), Art. No.: 179. https://doi.org/10.1007/s10661-021-09684-w

Abstract
Water quality monitoring is relevant for protecting the designated, or beneficial uses, of water such as drinking, aquatic life, recreation, irrigation, and food supply that support the economy, human well-being, and aquatic ecosystem health. Managing finite water resources to support these designated uses requires information on water quality so that managers can make sustainable decisions. Chlorophyll-a (chl-a, ?g L?1) concentration can serve as a proxy for phytoplankton biomass and may be used as an indicator of increased anthropogenic nutrient stress. Satellite remote sensing may present a complement to in situ measures for assessments of water quality through the retrieval of chl-a with in-water algorithms. Validation of chl-a algorithms across US lakes improves algorithm maturity relevant for monitoring applications. This study compares performance of the Case 2 Regional Coast Colour (C2RCC) chl-a retrieval algorithm, a revised version of the Maximum-Peak Height (MPH(P)) algorithm, and three scenarios merging these two approaches. Satellite data were retrieved from the MEdium Resolution Imaging Spectrometer (MERIS) and the Ocean and Land Colour Instrument (OLCI), while field observations were obtained from 181 lakes matched with U.S. Water Quality Portal chl-a data. The best performance based on mean absolute multiplicative error (MAEmult) was demonstrated by the merged algorithm referred to as C15?M10 (MAEmult?=?1.8, biasmult?=?0.97, n?=?836). In the C15?M10 algorithm, the MPH(P) chl-a value was retained if it was?>?10 ?g L?1; if the MPH(P) value was?≤?10 ?g L?1, the C2RCC value was selected, as long as that value was? < ?15 ?g L?1. Time-series and lake-wide gradients compared against independent assessments from Lake Champlain and long-term ecological research stations in Wisconsin were used as complementary examples supporting water quality reporting requirements. Trophic state assessments for Wisconsin lakes provided examples in support of inland water quality monitoring applications. This study presents and assesses merged adaptations of chl-a algorithms previously reported independently. Additionally, it contributes to the transition of chl-a algorithm maturity by quantifying error statistics for a number of locations and times.

Keywords
Satellite; Water quality; Chlorophyll; Lakes; Reservoirs; Trophic state

Journal
Environmental Monitoring and Assessment: Volume 194, Issue 3

StatusPublished
Funders
Publication date31/03/2022
Publication date online14/02/2022
Date accepted by journal06/12/2021
URL
ISSN0167-6369
eISSN1573-2959

People (1)

Dr Mortimer Werther

Dr Mortimer Werther

Honorary Research Fellow, Biological and Environmental Sciences

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